package sftp import ( "context" "encoding" "io" "path" "path/filepath" "strconv" "sync" "syscall" "github.com/pkg/errors" ) var maxTxPacket uint32 = 1 << 15 // Handlers contains the 4 SFTP server request handlers. type Handlers struct { FileGet FileReader FilePut FileWriter FileCmd FileCmder FileList FileLister } // RequestServer abstracts the sftp protocol with an http request-like protocol type RequestServer struct { *serverConn Handlers Handlers pktMgr *packetManager openRequests map[string]*Request openRequestLock sync.RWMutex handleCount int } // NewRequestServer creates/allocates/returns new RequestServer. // Normally there there will be one server per user-session. func NewRequestServer(rwc io.ReadWriteCloser, h Handlers) *RequestServer { svrConn := &serverConn{ conn: conn{ Reader: rwc, WriteCloser: rwc, }, } return &RequestServer{ serverConn: svrConn, Handlers: h, pktMgr: newPktMgr(svrConn), openRequests: make(map[string]*Request), } } // New Open packet/Request func (rs *RequestServer) nextRequest(r *Request) string { rs.openRequestLock.Lock() defer rs.openRequestLock.Unlock() rs.handleCount++ handle := strconv.Itoa(rs.handleCount) rs.openRequests[handle] = r return handle } // Returns Request from openRequests, bool is false if it is missing // If the method is different, save/return a new Request w/ that Method. // // The Requests in openRequests work essentially as open file descriptors that // you can do different things with. What you are doing with it are denoted by // the first packet of that type (read/write/etc). We create a new Request when // it changes to set the request.Method attribute in a thread safe way. func (rs *RequestServer) getRequest(handle, method string) (*Request, bool) { rs.openRequestLock.RLock() r, ok := rs.openRequests[handle] rs.openRequestLock.RUnlock() if !ok || r.Method == method { return r, ok } // if we make it here we need to replace the request rs.openRequestLock.Lock() defer rs.openRequestLock.Unlock() r, ok = rs.openRequests[handle] if !ok || r.Method == method { // re-check needed b/c lock race return r, ok } r = r.copy() r.Method = method rs.openRequests[handle] = r return r, ok } func (rs *RequestServer) closeRequest(handle string) error { rs.openRequestLock.Lock() defer rs.openRequestLock.Unlock() if r, ok := rs.openRequests[handle]; ok { delete(rs.openRequests, handle) return r.close() } return syscall.EBADF } // Close the read/write/closer to trigger exiting the main server loop func (rs *RequestServer) Close() error { return rs.conn.Close() } // Serve requests for user session func (rs *RequestServer) Serve() error { ctx, cancel := context.WithCancel(context.Background()) defer cancel() var wg sync.WaitGroup runWorker := func(ch requestChan) { wg.Add(1) go func() { defer wg.Done() if err := rs.packetWorker(ctx, ch); err != nil { rs.conn.Close() // shuts down recvPacket } }() } pktChan := rs.pktMgr.workerChan(runWorker) var err error var pkt requestPacket var pktType uint8 var pktBytes []byte for { pktType, pktBytes, err = rs.recvPacket() if err != nil { break } pkt, err = makePacket(rxPacket{fxp(pktType), pktBytes}) if err != nil { debug("makePacket err: %v", err) rs.conn.Close() // shuts down recvPacket break } pktChan <- pkt } close(pktChan) // shuts down sftpServerWorkers wg.Wait() // wait for all workers to exit // make sure all open requests are properly closed // (eg. possible on dropped connections, client crashes, etc.) for handle, req := range rs.openRequests { delete(rs.openRequests, handle) req.close() } return err } func (rs *RequestServer) packetWorker( ctx context.Context, pktChan chan requestPacket, ) error { for pkt := range pktChan { var rpkt responsePacket switch pkt := pkt.(type) { case *sshFxInitPacket: rpkt = sshFxVersionPacket{sftpProtocolVersion, nil} case *sshFxpClosePacket: handle := pkt.getHandle() rpkt = statusFromError(pkt, rs.closeRequest(handle)) case *sshFxpRealpathPacket: rpkt = cleanPacketPath(pkt) case *sshFxpOpendirPacket: request := requestFromPacket(ctx, pkt) handle := rs.nextRequest(request) rpkt = sshFxpHandlePacket{pkt.id(), handle} case *sshFxpOpenPacket: request := requestFromPacket(ctx, pkt) handle := rs.nextRequest(request) rpkt = sshFxpHandlePacket{pkt.id(), handle} if pkt.hasPflags(ssh_FXF_CREAT) { if p := request.call(rs.Handlers, pkt); !statusOk(p) { rpkt = p // if error in write, return it } } case hasHandle: handle := pkt.getHandle() request, ok := rs.getRequest(handle, requestMethod(pkt)) if !ok { rpkt = statusFromError(pkt, syscall.EBADF) } else { rpkt = request.call(rs.Handlers, pkt) } case hasPath: request := requestFromPacket(ctx, pkt) rpkt = request.call(rs.Handlers, pkt) request.close() default: return errors.Errorf("unexpected packet type %T", pkt) } err := rs.sendPacket(rpkt) if err != nil { return err } } return nil } // True is responsePacket is an OK status packet func statusOk(rpkt responsePacket) bool { p, ok := rpkt.(sshFxpStatusPacket) return ok && p.StatusError.Code == ssh_FX_OK } // clean and return name packet for file func cleanPacketPath(pkt *sshFxpRealpathPacket) responsePacket { path := cleanPath(pkt.getPath()) return &sshFxpNamePacket{ ID: pkt.id(), NameAttrs: []sshFxpNameAttr{{ Name: path, LongName: path, Attrs: emptyFileStat, }}, } } // Makes sure we have a clean POSIX (/) absolute path to work with func cleanPath(p string) string { p = filepath.ToSlash(p) if !filepath.IsAbs(p) { p = "/" + p } return path.Clean(p) } // Wrap underlying connection methods to use packetManager func (rs *RequestServer) sendPacket(m encoding.BinaryMarshaler) error { if pkt, ok := m.(responsePacket); ok { rs.pktMgr.readyPacket(pkt) } else { return errors.Errorf("unexpected packet type %T", m) } return nil }