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client_handler.go
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client_handler.go
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package ftpserver
import (
"bufio"
"errors"
"fmt"
"io"
"net"
"strings"
"sync"
"time"
log "github.com/fclairamb/go-log"
)
// HASHAlgo is the enumerable that represents the supported HASH algorithms.
type HASHAlgo int8
// Supported hash algorithms
const (
HASHAlgoCRC32 HASHAlgo = iota
HASHAlgoMD5
HASHAlgoSHA1
HASHAlgoSHA256
HASHAlgoSHA512
)
// TransferType is the enumerable that represents the supported transfer types.
type TransferType int8
// Supported transfer type
const (
TransferTypeASCII TransferType = iota
TransferTypeBinary
)
// DataChannel is the enumerable that represents the data channel (active or passive)
type DataChannel int8
// Supported data channel types
const (
DataChannelPassive DataChannel = iota + 1
DataChannelActive
)
const (
maxCommandSize = 4096
)
var (
errNoTransferConnection = errors.New("unable to open transfer: no transfer connection")
errTLSRequired = errors.New("unable to open transfer: TLS is required")
errInvalidTLSRequirement = errors.New("invalid TLS requirement")
)
func getHashMapping() map[string]HASHAlgo {
mapping := make(map[string]HASHAlgo)
mapping["CRC32"] = HASHAlgoCRC32
mapping["MD5"] = HASHAlgoMD5
mapping["SHA-1"] = HASHAlgoSHA1
mapping["SHA-256"] = HASHAlgoSHA256
mapping["SHA-512"] = HASHAlgoSHA512
return mapping
}
func getHashName(algo HASHAlgo) string {
hashName := ""
hashMapping := getHashMapping()
for k, v := range hashMapping {
if v == algo {
hashName = k
}
}
return hashName
}
//nolint:maligned
type clientHandler struct {
id uint32 // ID of the client
server *FtpServer // Server on which the connection was accepted
driver ClientDriver // Client handling driver
conn net.Conn // TCP connection
writer *bufio.Writer // Writer on the TCP connection
reader *bufio.Reader // Reader on the TCP connection
user string // Authenticated user
path string // Current path
listPath string // Path for NLST/LIST requests
clnt string // Identified client
command string // Command received on the connection
connectedAt time.Time // Date of connection
ctxRnfr string // Rename from
ctxRest int64 // Restart point
debug bool // Show debugging info on the server side
transferTLS bool // Use TLS for transfer connection
controlTLS bool // Use TLS for control connection
selectedHashAlgo HASHAlgo // algorithm used when we receive the HASH command
logger log.Logger // Client handler logging
currentTransferType TransferType // current transfer type
transferWg sync.WaitGroup // wait group for command that open a transfer connection
transferMu sync.Mutex // this mutex will protect the transfer parameters
transfer transferHandler // Transfer connection (passive or active)s
lastDataChannel DataChannel // Last data channel mode (passive or active)
isTransferOpen bool // indicate if the transfer connection is opened
isTransferAborted bool // indicate if the transfer was aborted
tlsRequirement TLSRequirement // TLS requirement to respect
extra any // Additional application-specific data
paramsMutex sync.RWMutex // mutex to protect the parameters exposed to the library users
}
// newClientHandler initializes a client handler when someone connects
func (server *FtpServer) newClientHandler(
connection net.Conn,
clientID uint32,
transferType TransferType,
) *clientHandler {
return &clientHandler{
server: server,
conn: connection,
id: clientID,
writer: bufio.NewWriter(connection),
reader: bufio.NewReaderSize(connection, maxCommandSize),
connectedAt: time.Now().UTC(),
path: "/",
selectedHashAlgo: HASHAlgoSHA256,
currentTransferType: transferType,
logger: server.Logger.With("clientId", clientID),
}
}
func (c *clientHandler) disconnect() {
if err := c.conn.Close(); err != nil {
c.logger.Warn(
"Problem disconnecting a client",
"err", err,
)
}
}
// Path provides the current working directory of the client
func (c *clientHandler) Path() string {
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.path
}
// SetPath changes the current working directory
func (c *clientHandler) SetPath(value string) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.path = value
}
// getListPath returns the path for the last LIST/NLST request
func (c *clientHandler) getListPath() string {
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.listPath
}
// SetListPath changes the path for the last LIST/NLST request
func (c *clientHandler) SetListPath(value string) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.listPath = value
}
// Debug defines if we will list all interaction
func (c *clientHandler) Debug() bool {
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.debug
}
// SetDebug changes the debug flag
func (c *clientHandler) SetDebug(debug bool) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.debug = debug
}
// ID provides the client's ID
func (c *clientHandler) ID() uint32 {
return c.id
}
// RemoteAddr returns the remote network address.
func (c *clientHandler) RemoteAddr() net.Addr {
return c.conn.RemoteAddr()
}
// LocalAddr returns the local network address.
func (c *clientHandler) LocalAddr() net.Addr {
return c.conn.LocalAddr()
}
// GetClientVersion returns the identified client, can be empty.
func (c *clientHandler) GetClientVersion() string {
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.clnt
}
func (c *clientHandler) setClientVersion(value string) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.clnt = value
}
// HasTLSForControl returns true if the control connection is over TLS
func (c *clientHandler) HasTLSForControl() bool {
if c.server.settings.TLSRequired == ImplicitEncryption {
return true
}
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.controlTLS
}
func (c *clientHandler) setTLSForControl(value bool) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.controlTLS = value
}
// HasTLSForTransfers returns true if the transfer connection is over TLS
func (c *clientHandler) HasTLSForTransfers() bool {
if c.server.settings.TLSRequired == ImplicitEncryption {
return true
}
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.transferTLS
}
func (c *clientHandler) SetExtra(extra any) {
c.extra = extra
}
func (c *clientHandler) Extra() any {
return c.extra
}
func (c *clientHandler) setTLSForTransfer(value bool) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.transferTLS = value
}
// SetTLSRequirement sets the TLS requirement to respect for this connection
func (c *clientHandler) SetTLSRequirement(requirement TLSRequirement) error {
if requirement < ClearOrEncrypted || requirement > MandatoryEncryption {
return errInvalidTLSRequirement
}
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.tlsRequirement = requirement
return nil
}
func (c *clientHandler) isTLSRequired() bool {
if c.server.settings.TLSRequired == MandatoryEncryption {
return true
}
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.tlsRequirement == MandatoryEncryption
}
// GetLastCommand returns the last received command
func (c *clientHandler) GetLastCommand() string {
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.command
}
// GetLastDataChannel returns the last data channel mode
func (c *clientHandler) GetLastDataChannel() DataChannel {
c.paramsMutex.RLock()
defer c.paramsMutex.RUnlock()
return c.lastDataChannel
}
func (c *clientHandler) setLastCommand(cmd string) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.command = cmd
}
func (c *clientHandler) setLastDataChannel(channel DataChannel) {
c.paramsMutex.Lock()
defer c.paramsMutex.Unlock()
c.lastDataChannel = channel
}
func (c *clientHandler) closeTransfer() error {
var err error
if c.transfer != nil {
err = c.transfer.Close()
c.isTransferOpen = false
c.transfer = nil
if c.debug {
c.logger.Debug("Transfer connection closed")
}
}
if err != nil {
err = fmt.Errorf("error closing transfer connection: %w", err)
}
return err
}
// Close closes the active transfer, if any, and the control connection
func (c *clientHandler) Close() error {
c.transferMu.Lock()
defer c.transferMu.Unlock()
// set isTransferAborted to true so any transfer in progress will not try to write
// to the closed connection on transfer close
c.isTransferAborted = true
if err := c.closeTransfer(); err != nil {
c.logger.Warn(
"Problem closing a transfer on external close request",
"err", err,
)
}
// don't be tempted to send a message to the client before
// closing the connection:
//
// 1) it is racy, we need to lock writeMessage to do this
// 2) the client could wait for another response and so we break the protocol
//
// closing the connection from a different goroutine should be safe
err := c.conn.Close()
if err != nil {
err = newNetworkError("error closing control connection", err)
}
return err
}
func (c *clientHandler) end() {
c.server.driver.ClientDisconnected(c)
c.server.clientDeparture(c)
if err := c.conn.Close(); err != nil {
c.logger.Debug(
"Problem closing control connection",
"err", err,
)
}
c.transferMu.Lock()
defer c.transferMu.Unlock()
if err := c.closeTransfer(); err != nil {
c.logger.Warn(
"Problem closing a transfer",
"err", err,
)
}
}
func (c *clientHandler) isCommandAborted() bool {
c.transferMu.Lock()
defer c.transferMu.Unlock()
return c.isTransferAborted
}
// HandleCommands reads the stream of commands
func (c *clientHandler) HandleCommands() {
defer c.end()
if msg, err := c.server.driver.ClientConnected(c); err == nil {
c.writeMessage(StatusServiceReady, msg)
} else {
c.writeMessage(StatusSyntaxErrorNotRecognised, msg)
return
}
for {
if c.readCommand() {
return
}
}
}
func (c *clientHandler) readCommand() bool {
if c.reader == nil {
if c.debug {
c.logger.Debug("Client disconnected", "clean", true)
}
return true
}
// florent(2018-01-14): #58: IDLE timeout: Preparing the deadline before we read
if c.server.settings.IdleTimeout > 0 {
if err := c.conn.SetDeadline(
time.Now().Add(time.Duration(time.Second.Nanoseconds() * int64(c.server.settings.IdleTimeout)))); err != nil {
c.logger.Error("Network error", "err", err)
}
}
lineSlice, isPrefix, err := c.reader.ReadLine()
if isPrefix {
if c.debug {
c.logger.Warn("Received line too long, disconnecting client",
"size", len(lineSlice))
}
return true
}
if err != nil {
c.handleCommandsStreamError(err)
return true
}
line := string(lineSlice)
if c.debug {
c.logger.Debug("Received line", "line", line)
}
c.handleCommand(line)
return false
}
func (c *clientHandler) handleCommandsStreamError(err error) {
// florent(2018-01-14): #58: IDLE timeout: Adding some code to deal with the deadline
var errNetError net.Error
if errors.As(err, &errNetError) { //nolint:nestif // too much effort to change for now
if errNetError.Timeout() {
// We have to extend the deadline now
if errSet := c.conn.SetDeadline(time.Now().Add(time.Minute)); errSet != nil {
c.logger.Error("Could not set read deadline", "err", errSet)
}
c.logger.Info("Client IDLE timeout", "err", err)
c.writeMessage(
StatusServiceNotAvailable,
fmt.Sprintf("command timeout (%d seconds): closing control connection", c.server.settings.IdleTimeout))
if errFlush := c.writer.Flush(); errFlush != nil {
c.logger.Error("Flush error", "err", errFlush)
}
return
}
c.logger.Error("Network error", "err", err)
} else {
if errors.Is(err, io.EOF) {
if c.debug {
c.logger.Debug("Client disconnected", "clean", false)
}
} else {
c.logger.Error("Read error", "err", err)
}
}
}
// handleCommand takes care of executing the received line
func (c *clientHandler) handleCommand(line string) {
command, param := parseLine(line)
command = strings.ToUpper(command)
cmdDesc := commandsMap[command]
if cmdDesc == nil {
// Search among commands having a "special semantic". They
// should be sent by following the RFC-959 procedure of sending
// Telnet IP/Synch sequence (chr 242 and 255) as OOB data but
// since many ftp clients don't do it correctly we check the
// command suffix.
for _, cmd := range specialAttentionCommands {
if strings.HasSuffix(command, cmd) {
cmdDesc = commandsMap[cmd]
command = cmd
break
}
}
if cmdDesc == nil {
c.logger.Warn("Unknown command", "command", command)
c.setLastCommand(command)
c.writeMessage(StatusSyntaxErrorNotRecognised, fmt.Sprintf("Unknown command %#v", command))
return
}
}
if c.driver == nil && !cmdDesc.Open {
c.writeMessage(StatusNotLoggedIn, "Please login with USER and PASS")
return
}
// All commands are serialized except the ones that require special action.
// Special action commands are not executed in a separate goroutine so we can
// have at most one command that can open a transfer connection and one special
// action command running at the same time.
// Only server STAT is a special action command so we do an additional check here
if !cmdDesc.SpecialAction || (command == "STAT" && param != "") {
c.transferWg.Wait()
}
c.setLastCommand(command)
if cmdDesc.TransferRelated {
// these commands will be started in a separate goroutine so
// they can be aborted.
// We cannot have two concurrent transfers so also set isTransferAborted
// to false here.
// isTransferAborted could remain to true if the previous command is
// aborted and it does not open a transfer connection, see "transferFile"
// for details. For this to happen a client should send an ABOR before
// receiving the StatusFileStatusOK response. This is very unlikely
// A lock is not required here, we cannot have another concurrent ABOR
// or transfer active here
c.isTransferAborted = false
c.transferWg.Add(1)
go func(cmd, param string) {
defer c.transferWg.Done()
c.executeCommandFn(cmdDesc, cmd, param)
}(command, param)
} else {
c.executeCommandFn(cmdDesc, command, param)
}
}
func (c *clientHandler) executeCommandFn(cmdDesc *CommandDescription, command, param string) {
// Let's prepare to recover in case there's a command error
defer func() {
if r := recover(); r != nil {
c.writeMessage(StatusSyntaxErrorNotRecognised, fmt.Sprintf("Unhandled internal error: %s", r))
c.logger.Warn(
"Internal command handling error",
"err", r,
"command", command,
"param", param,
)
}
}()
if err := cmdDesc.Fn(c, param); err != nil {
c.writeMessage(StatusSyntaxErrorNotRecognised, fmt.Sprintf("Error: %s", err))
}
}
func (c *clientHandler) writeLine(line string) {
if c.debug {
c.logger.Debug("Sending answer", "line", line)
}
if _, err := fmt.Fprintf(c.writer, "%s\r\n", line); err != nil {
c.logger.Warn(
"Answer couldn't be sent",
"line", line,
"err", err,
)
}
if err := c.writer.Flush(); err != nil {
c.logger.Warn(
"Couldn't flush line",
"err", err,
)
}
}
func (c *clientHandler) writeMessage(code int, message string) {
lines := getMessageLines(message)
for idx, line := range lines {
if idx < len(lines)-1 {
c.writeLine(fmt.Sprintf("%d-%s", code, line))
} else {
c.writeLine(fmt.Sprintf("%d %s", code, line))
}
}
}
func (c *clientHandler) GetTranferInfo() string {
if c.transfer == nil {
return ""
}
return c.transfer.GetInfo()
}
func (c *clientHandler) TransferOpen(info string) (net.Conn, error) {
c.transferMu.Lock()
defer c.transferMu.Unlock()
if c.transfer == nil {
// a transfer could be aborted before it is opened, in this case no response should be returned
if c.isTransferAborted {
c.isTransferAborted = false
return nil, errNoTransferConnection
}
c.writeMessage(StatusActionNotTaken, errNoTransferConnection.Error())
return nil, errNoTransferConnection
}
if c.isTLSRequired() && !c.HasTLSForTransfers() {
c.writeMessage(StatusServiceNotAvailable, errTLSRequired.Error())
return nil, errTLSRequired
}
conn, err := c.transfer.Open()
if err != nil {
c.logger.Warn(
"Unable to open transfer",
"error", err)
c.writeMessage(StatusCannotOpenDataConnection, err.Error())
err = newNetworkError("Unable to open transfer", err)
return nil, err
}
c.isTransferOpen = true
c.transfer.SetInfo(info)
c.writeMessage(StatusFileStatusOK, "Using transfer connection")
if c.debug {
c.logger.Debug(
"Transfer connection opened",
"remoteAddr", conn.RemoteAddr().String(),
"localAddr", conn.LocalAddr().String())
}
return conn, nil
}
func (c *clientHandler) TransferClose(err error) {
c.transferMu.Lock()
defer c.transferMu.Unlock()
errClose := c.closeTransfer()
if errClose != nil {
c.logger.Warn(
"Problem closing transfer connection",
"err", err,
)
}
// if the transfer was aborted we don't have to send a response
if c.isTransferAborted {
c.isTransferAborted = false
return
}
switch {
case err == nil && errClose == nil:
c.writeMessage(StatusClosingDataConn, "Closing transfer connection")
case errClose != nil:
c.writeMessage(StatusActionNotTaken, fmt.Sprintf("Issue during transfer close: %v", errClose))
case err != nil:
c.writeMessage(getErrorCode(err, StatusActionNotTaken), fmt.Sprintf("Issue during transfer: %v", err))
}
}
func (c *clientHandler) checkDataConnectionRequirement(dataConnIP net.IP, channelType DataChannel) error {
var requirement DataConnectionRequirement
switch channelType {
case DataChannelActive:
requirement = c.server.settings.ActiveConnectionsCheck
case DataChannelPassive:
requirement = c.server.settings.PasvConnectionsCheck
}
switch requirement {
case IPMatchRequired:
controlConnIP, err := getIPFromRemoteAddr(c.RemoteAddr())
if err != nil {
return err
}
if !controlConnIP.Equal(dataConnIP) {
return &ipValidationError{error: fmt.Sprintf("data connection ip address %v "+
"does not match control connection ip address %v",
dataConnIP, controlConnIP)}
}
return nil
case IPMatchDisabled:
return nil
default:
return &ipValidationError{error: fmt.Sprintf("unhandled data connection requirement: %v",
requirement)}
}
}
func getIPFromRemoteAddr(remoteAddr net.Addr) (net.IP, error) {
if remoteAddr == nil {
return nil, &ipValidationError{error: "nil remote address"}
}
ipAddress, _, err := net.SplitHostPort(remoteAddr.String())
if err != nil {
return nil, fmt.Errorf("error parsing remote address: %w", err)
}
remoteIP := net.ParseIP(ipAddress)
if remoteIP == nil {
return nil, &ipValidationError{error: fmt.Sprintf("invalid remote IP: %v", ipAddress)}
}
return remoteIP, nil
}
func parseLine(line string) (string, string) {
params := strings.SplitN(line, " ", 2)
if len(params) == 1 {
return params[0], ""
}
return params[0], params[1]
}
func (c *clientHandler) multilineAnswer(code int, message string) func() {
c.writeLine(fmt.Sprintf("%d-%s", code, message))
return func() {
c.writeLine(fmt.Sprintf("%d End", code))
}
}
func getMessageLines(message string) []string {
lines := make([]string, 0, 1)
sc := bufio.NewScanner(strings.NewReader(message))
for sc.Scan() {
lines = append(lines, sc.Text())
}
if len(lines) == 0 {
lines = append(lines, "")
}
return lines
}