package rpc import ( "encoding/gob" "io" "log" "net/rpc" "os" "sync" "github.com/hashicorp/packer/packer" ) // An implementation of packer.Communicator where the communicator is actually // executed over an RPC connection. type communicator struct { client *rpc.Client mux *muxBroker } // CommunicatorServer wraps a packer.Communicator implementation and makes // it exportable as part of a Golang RPC server. type CommunicatorServer struct { c packer.Communicator mux *muxBroker } type CommandFinished struct { ExitStatus int } type CommunicatorStartArgs struct { Command string StdinStreamId uint32 StdoutStreamId uint32 StderrStreamId uint32 ResponseStreamId uint32 } type CommunicatorDownloadArgs struct { Path string WriterStreamId uint32 } type CommunicatorUploadArgs struct { Path string ReaderStreamId uint32 FileInfo *fileInfo } type CommunicatorUploadDirArgs struct { Dst string Src string Exclude []string } type CommunicatorDownloadDirArgs struct { Dst string Src string Exclude []string } func Communicator(client *rpc.Client) *communicator { return &communicator{client: client} } func (c *communicator) Start(cmd *packer.RemoteCmd) (err error) { var args CommunicatorStartArgs args.Command = cmd.Command var wg sync.WaitGroup if cmd.Stdin != nil { args.StdinStreamId = c.mux.NextId() go func() { serveSingleCopy("stdin", c.mux, args.StdinStreamId, nil, cmd.Stdin) }() } if cmd.Stdout != nil { wg.Add(1) args.StdoutStreamId = c.mux.NextId() go func() { defer wg.Done() serveSingleCopy("stdout", c.mux, args.StdoutStreamId, cmd.Stdout, nil) }() } if cmd.Stderr != nil { wg.Add(1) args.StderrStreamId = c.mux.NextId() go func() { defer wg.Done() serveSingleCopy("stderr", c.mux, args.StderrStreamId, cmd.Stderr, nil) }() } responseStreamId := c.mux.NextId() args.ResponseStreamId = responseStreamId go func() { conn, err := c.mux.Accept(responseStreamId) wg.Wait() if err != nil { log.Printf("[ERR] Error accepting response stream %d: %s", responseStreamId, err) cmd.SetExited(123) return } defer conn.Close() var finished CommandFinished decoder := gob.NewDecoder(conn) if err := decoder.Decode(&finished); err != nil { log.Printf("[ERR] Error decoding response stream %d: %s", responseStreamId, err) cmd.SetExited(123) return } log.Printf("[INFO] RPC client: Communicator ended with: %d", finished.ExitStatus) cmd.SetExited(finished.ExitStatus) }() err = c.client.Call("Communicator.Start", &args, new(interface{})) return } func (c *communicator) Upload(path string, r io.Reader, fi *os.FileInfo) (err error) { // Pipe the reader through to the connection streamId := c.mux.NextId() go serveSingleCopy("uploadData", c.mux, streamId, nil, r) args := CommunicatorUploadArgs{ Path: path, ReaderStreamId: streamId, } if fi != nil { args.FileInfo = NewFileInfo(*fi) } err = c.client.Call("Communicator.Upload", &args, new(interface{})) return } func (c *communicator) UploadDir(dst string, src string, exclude []string) error { args := &CommunicatorUploadDirArgs{ Dst: dst, Src: src, Exclude: exclude, } var reply error err := c.client.Call("Communicator.UploadDir", args, &reply) if err == nil { err = reply } return err } func (c *communicator) DownloadDir(src string, dst string, exclude []string) error { args := &CommunicatorDownloadDirArgs{ Dst: dst, Src: src, Exclude: exclude, } var reply error err := c.client.Call("Communicator.DownloadDir", args, &reply) if err == nil { err = reply } return err } func (c *communicator) Download(path string, w io.Writer) (err error) { // Serve a single connection and a single copy streamId := c.mux.NextId() waitServer := make(chan struct{}) go func() { serveSingleCopy("downloadWriter", c.mux, streamId, w, nil) close(waitServer) }() args := CommunicatorDownloadArgs{ Path: path, WriterStreamId: streamId, } // Start sending data to the RPC server err = c.client.Call("Communicator.Download", &args, new(interface{})) // Wait for the RPC server to finish receiving the data before we return <-waitServer return } func (c *CommunicatorServer) Start(args *CommunicatorStartArgs, reply *interface{}) error { // Build the RemoteCmd on this side so that it all pipes over // to the remote side. var cmd packer.RemoteCmd cmd.Command = args.Command // Create a channel to signal we're done so that we can close // our stdin/stdout/stderr streams toClose := make([]io.Closer, 0) doneCh := make(chan struct{}) go func() { <-doneCh for _, conn := range toClose { defer conn.Close() } }() if args.StdinStreamId > 0 { conn, err := c.mux.Dial(args.StdinStreamId) if err != nil { close(doneCh) return NewBasicError(err) } toClose = append(toClose, conn) cmd.Stdin = conn } if args.StdoutStreamId > 0 { conn, err := c.mux.Dial(args.StdoutStreamId) if err != nil { close(doneCh) return NewBasicError(err) } toClose = append(toClose, conn) cmd.Stdout = conn } if args.StderrStreamId > 0 { conn, err := c.mux.Dial(args.StderrStreamId) if err != nil { close(doneCh) return NewBasicError(err) } toClose = append(toClose, conn) cmd.Stderr = conn } // Connect to the response address so we can write our result to it // when ready. responseC, err := c.mux.Dial(args.ResponseStreamId) if err != nil { close(doneCh) return NewBasicError(err) } responseWriter := gob.NewEncoder(responseC) // Start the actual command err = c.c.Start(&cmd) if err != nil { close(doneCh) return NewBasicError(err) } // Start a goroutine to spin and wait for the process to actual // exit. When it does, report it back to caller... go func() { defer close(doneCh) defer responseC.Close() cmd.Wait() log.Printf("[INFO] RPC endpoint: Communicator ended with: %d", cmd.ExitStatus) responseWriter.Encode(&CommandFinished{cmd.ExitStatus}) }() return nil } func (c *CommunicatorServer) Upload(args *CommunicatorUploadArgs, reply *interface{}) (err error) { readerC, err := c.mux.Dial(args.ReaderStreamId) if err != nil { return } defer readerC.Close() var fi *os.FileInfo if args.FileInfo != nil { fi = new(os.FileInfo) *fi = *args.FileInfo } err = c.c.Upload(args.Path, readerC, fi) return } func (c *CommunicatorServer) UploadDir(args *CommunicatorUploadDirArgs, reply *error) error { return c.c.UploadDir(args.Dst, args.Src, args.Exclude) } func (c *CommunicatorServer) DownloadDir(args *CommunicatorUploadDirArgs, reply *error) error { return c.c.DownloadDir(args.Src, args.Dst, args.Exclude) } func (c *CommunicatorServer) Download(args *CommunicatorDownloadArgs, reply *interface{}) (err error) { writerC, err := c.mux.Dial(args.WriterStreamId) if err != nil { return } defer writerC.Close() err = c.c.Download(args.Path, writerC) return } func serveSingleCopy(name string, mux *muxBroker, id uint32, dst io.Writer, src io.Reader) { conn, err := mux.Accept(id) if err != nil { log.Printf("[ERR] '%s' accept error: %s", name, err) return } // Be sure to close the connection after we're done copying so // that an EOF will successfully be sent to the remote side defer conn.Close() // The connection is the destination/source that is nil if dst == nil { dst = conn } else { src = conn } written, err := io.Copy(dst, src) log.Printf("[INFO] %d bytes written for '%s'", written, name) if err != nil { log.Printf("[ERR] '%s' copy error: %s", name, err) } }