// Copyright 2015 Light Code Labs, LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package caddy import ( "encoding/gob" "fmt" "io/ioutil" "log" "os" "os/exec" "sync" ) func init() { // register CaddyfileInput with gob so it knows into // which concrete type to decode an Input interface gob.Register(CaddyfileInput{}) } // IsUpgrade returns true if this process is part of an upgrade // where a parent caddy process spawned this one to upgrade // the binary. func IsUpgrade() bool { mu.Lock() defer mu.Unlock() return isUpgrade } // Upgrade re-launches the process, preserving the listeners // for a graceful upgrade. It does NOT load new configuration; // it only starts the process anew with the current config. // This makes it possible to perform zero-downtime binary upgrades. // // TODO: For more information when debugging, see: // https://forum.golangbridge.org/t/bind-address-already-in-use-even-after-listener-closed/1510?u=matt // https://github.com/mholt/shared-conn func Upgrade() error { log.Println("[INFO] Upgrading") // use existing Caddyfile; do not change configuration during upgrade currentCaddyfile, _, err := getCurrentCaddyfile() if err != nil { return err } if len(os.Args) == 0 { // this should never happen, but... os.Args = []string{""} } // tell the child that it's a restart env := os.Environ() if !IsUpgrade() { env = append(env, "CADDY__UPGRADE=1") } // prepare our payload to the child process cdyfileGob := transferGob{ ListenerFds: make(map[string]uintptr), Caddyfile: currentCaddyfile, } // prepare a pipe to the fork's stdin so it can get the Caddyfile rpipe, wpipe, err := os.Pipe() if err != nil { return err } // prepare a pipe that the child process will use to communicate // its success with us by sending > 0 bytes sigrpipe, sigwpipe, err := os.Pipe() if err != nil { return err } // pass along relevant file descriptors to child process; ordering // is very important since we rely on these being in certain positions. extraFiles := []*os.File{sigwpipe} // fd 3 // add file descriptors of all the sockets for i, j := 0, 0; ; i++ { instancesMu.Lock() if i >= len(instances) { instancesMu.Unlock() break } inst := instances[i] instancesMu.Unlock() for _, s := range inst.servers { gs, gracefulOk := s.server.(GracefulServer) ln, lnOk := s.listener.(Listener) pc, pcOk := s.packet.(PacketConn) if gracefulOk { if lnOk { lnFile, _ := ln.File() extraFiles = append(extraFiles, lnFile) cdyfileGob.ListenerFds["tcp"+gs.Address()] = uintptr(4 + j) // 4 fds come before any of the listeners j++ } if pcOk { pcFile, _ := pc.File() extraFiles = append(extraFiles, pcFile) cdyfileGob.ListenerFds["udp"+gs.Address()] = uintptr(4 + j) // 4 fds come before any of the listeners j++ } } } } // set up the command cmd := exec.Command(os.Args[0], os.Args[1:]...) cmd.Stdin = rpipe // fd 0 cmd.Stdout = os.Stdout // fd 1 cmd.Stderr = os.Stderr // fd 2 cmd.ExtraFiles = extraFiles cmd.Env = env // spawn the child process err = cmd.Start() if err != nil { return err } // immediately close our dup'ed fds and the write end of our signal pipe for _, f := range extraFiles { f.Close() } // feed Caddyfile to the child err = gob.NewEncoder(wpipe).Encode(cdyfileGob) if err != nil { return err } wpipe.Close() // determine whether child startup succeeded answer, readErr := ioutil.ReadAll(sigrpipe) if answer == nil || len(answer) == 0 { cmdErr := cmd.Wait() // get exit status errStr := fmt.Sprintf("child failed to initialize: %v", cmdErr) if readErr != nil { errStr += fmt.Sprintf(" - additionally, error communicating with child process: %v", readErr) } return fmt.Errorf(errStr) } // looks like child is successful; we can exit gracefully. log.Println("[INFO] Upgrade finished") return Stop() } // getCurrentCaddyfile gets the Caddyfile used by the // current (first) Instance and returns both of them. func getCurrentCaddyfile() (Input, *Instance, error) { instancesMu.Lock() if len(instances) == 0 { instancesMu.Unlock() return nil, nil, fmt.Errorf("no server instances are fully running") } inst := instances[0] instancesMu.Unlock() currentCaddyfile := inst.caddyfileInput if currentCaddyfile == nil { // hmm, did spawing process forget to close stdin? Anyhow, this is unusual. return nil, inst, fmt.Errorf("no Caddyfile to reload (was stdin left open?)") } return currentCaddyfile, inst, nil } // signalSuccessToParent tells the parent our status using pipe at index 3. // If this process is not a restart, this function does nothing. // Calling this function once this process has successfully initialized // is vital so that the parent process can unblock and kill itself. // This function is idempotent; it executes at most once per process. func signalSuccessToParent() { signalParentOnce.Do(func() { if IsUpgrade() { ppipe := os.NewFile(3, "") // parent is reading from pipe at index 3 _, err := ppipe.Write([]byte("success")) // we must send some bytes to the parent if err != nil { log.Printf("[ERROR] Communicating successful init to parent: %v", err) } ppipe.Close() } }) } // signalParentOnce is used to make sure that the parent is only // signaled once; doing so more than once breaks whatever socket is // at fd 4 (TODO: the reason for this is still unclear - to reproduce, // call Stop() and Start() in succession at least once after a // restart, then try loading first host of Caddyfile in the browser // - this was pre-v0.9; this code and godoc is borrowed from the // implementation then, but I'm not sure if it's been fixed yet, as // of v0.10.7). Do not use this directly; call signalSuccessToParent // instead. var signalParentOnce sync.Once // transferGob is used if this is a child process as part of // a graceful upgrade; it is used to map listeners to their // index in the list of inherited file descriptors. This // variable is not safe for concurrent access. var loadedGob transferGob // transferGob maps bind address to index of the file descriptor // in the Files array passed to the child process. It also contains // the Caddyfile contents and any other state needed by the new process. // Used only during graceful upgrades. type transferGob struct { ListenerFds map[string]uintptr Caddyfile Input }