//collects options and opens the fuse mountpoint func mountFuse(req cmds.Request) error { cfg, err := req.InvocContext().GetConfig() if err != nil { return fmt.Errorf("mountFuse: GetConfig() failed: %s", err) } fsdir, found, err := req.Option(ipfsMountKwd).String() if err != nil { return fmt.Errorf("mountFuse: req.Option(%s) failed: %s", ipfsMountKwd, err) } if !found { fsdir = cfg.Mounts.IPFS } nsdir, found, err := req.Option(ipnsMountKwd).String() if err != nil { return fmt.Errorf("mountFuse: req.Option(%s) failed: %s", ipnsMountKwd, err) } if !found { nsdir = cfg.Mounts.IPNS } node, err := req.InvocContext().ConstructNode() if err != nil { return fmt.Errorf("mountFuse: ConstructNode() failed: %s", err) } err = commands.Mount(node, fsdir, nsdir) if err != nil { return err } fmt.Printf("IPFS mounted at: %s\n", fsdir) fmt.Printf("IPNS mounted at: %s\n", nsdir) return nil }
// commandShouldRunOnDaemon determines, from commmand details, whether a // command ought to be executed on an IPFS daemon. // // It returns a client if the command should be executed on a daemon and nil if // it should be executed on a client. It returns an error if the command must // NOT be executed on either. func commandShouldRunOnDaemon(details cmdDetails, req cmds.Request, root *cmds.Command) (cmdsHttp.Client, error) { path := req.Path() // root command. if len(path) < 1 { return nil, nil } if details.cannotRunOnClient && details.cannotRunOnDaemon { return nil, fmt.Errorf("command disabled: %s", path[0]) } if details.doesNotUseRepo && details.canRunOnClient() { return nil, nil } // at this point need to know whether api is running. we defer // to this point so that we dont check unnecessarily // did user specify an api to use for this command? apiAddrStr, _, err := req.Option(coreCmds.ApiOption).String() if err != nil { return nil, err } client, err := getApiClient(req.InvocContext().ConfigRoot, apiAddrStr) if err == repo.ErrApiNotRunning { if apiAddrStr != "" && req.Command() != daemonCmd { // if user SPECIFIED an api, and this cmd is not daemon // we MUST use it. so error out. return nil, err } // ok for api not to be running } else if err != nil { // some other api error return nil, err } if client != nil { // daemon is running if details.cannotRunOnDaemon { e := "cannot use API with this command." // check if daemon locked. legacy error text, for now. daemonLocked, _ := fsrepo.LockedByOtherProcess(req.InvocContext().ConfigRoot) if daemonLocked { e = "ipfs daemon is running. please stop it to run this command" } return nil, cmds.ClientError(e) } return client, nil } if details.cannotRunOnClient { return nil, cmds.ClientError("must run on the ipfs daemon") } return nil, nil }
// serveHTTPGateway collects options, creates listener, prints status message and starts serving requests func serveHTTPGateway(req cmds.Request) (error, <-chan error) { cfg, err := req.InvocContext().GetConfig() if err != nil { return fmt.Errorf("serveHTTPGateway: GetConfig() failed: %s", err), nil } gatewayMaddr, err := ma.NewMultiaddr(cfg.Addresses.Gateway) if err != nil { return fmt.Errorf("serveHTTPGateway: invalid gateway address: %q (err: %s)", cfg.Addresses.Gateway, err), nil } writable, writableOptionFound, err := req.Option(writableKwd).Bool() if err != nil { return fmt.Errorf("serveHTTPGateway: req.Option(%s) failed: %s", writableKwd, err), nil } if !writableOptionFound { writable = cfg.Gateway.Writable } gwLis, err := manet.Listen(gatewayMaddr) if err != nil { return fmt.Errorf("serveHTTPGateway: manet.Listen(%s) failed: %s", gatewayMaddr, err), nil } // we might have listened to /tcp/0 - lets see what we are listing on gatewayMaddr = gwLis.Multiaddr() if writable { fmt.Printf("Gateway (writable) server listening on %s\n", gatewayMaddr) } else { fmt.Printf("Gateway (readonly) server listening on %s\n", gatewayMaddr) } var opts = []corehttp.ServeOption{ corehttp.CommandsROOption(*req.InvocContext()), corehttp.VersionOption(), corehttp.IPNSHostnameOption(), corehttp.GatewayOption(writable), } if len(cfg.Gateway.RootRedirect) > 0 { opts = append(opts, corehttp.RedirectOption("", cfg.Gateway.RootRedirect)) } node, err := req.InvocContext().ConstructNode() if err != nil { return fmt.Errorf("serveHTTPGateway: ConstructNode() failed: %s", err), nil } errc := make(chan error) go func() { errc <- corehttp.Serve(node, gwLis.NetListener(), opts...) close(errc) }() return nil, errc }
func getCompressOptions(req cmds.Request) (int, error) { cmprs, _, _ := req.Option("compress").Bool() cmplvl, cmplvlFound, _ := req.Option("compression-level").Int() switch { case !cmprs: return gzip.NoCompression, nil case cmprs && !cmplvlFound: return gzip.DefaultCompression, nil case cmprs && cmplvlFound && (cmplvl < 1 || cmplvl > 9): return gzip.NoCompression, ErrInvalidCompressionLevel } return cmplvl, nil }
func getRepoPath(req cmds.Request) (string, error) { repoOpt, found, err := req.Option("config").String() if err != nil { return "", err } if found && repoOpt != "" { return repoOpt, nil } repoPath, err := fsrepo.BestKnownPath() if err != nil { return "", err } return repoPath, nil }
func addLinkCaller(req cmds.Request, root *dag.Node) (key.Key, error) { if len(req.Arguments()) < 4 { return "", fmt.Errorf("not enough arguments for add-link") } nd, err := req.InvocContext().GetNode() if err != nil { return "", err } path := req.Arguments()[2] childk := key.B58KeyDecode(req.Arguments()[3]) create, _, err := req.Option("create").Bool() if err != nil { return "", err } var createfunc func() *dag.Node if create { createfunc = func() *dag.Node { return &dag.Node{Data: ft.FolderPBData()} } } e := dagutils.NewDagEditor(nd.DAG, root) childnd, err := nd.DAG.Get(req.Context(), childk) if err != nil { return "", err } err = e.InsertNodeAtPath(req.Context(), path, childnd, createfunc) if err != nil { return "", err } nnode := e.GetNode() return nnode.Key() }
func (c *client) Send(req cmds.Request) (cmds.Response, error) { if req.Context() == nil { log.Warningf("no context set in request") if err := req.SetRootContext(context.TODO()); err != nil { return nil, err } } // save user-provided encoding previousUserProvidedEncoding, found, err := req.Option(cmds.EncShort).String() if err != nil { return nil, err } // override with json to send to server req.SetOption(cmds.EncShort, cmds.JSON) // stream channel output req.SetOption(cmds.ChanOpt, "true") query, err := getQuery(req) if err != nil { return nil, err } var fileReader *MultiFileReader var reader io.Reader if req.Files() != nil { fileReader = NewMultiFileReader(req.Files(), true) reader = fileReader } else { // if we have no file data, use an empty Reader // (http.NewRequest panics when a nil Reader is used) reader = strings.NewReader("") } path := strings.Join(req.Path(), "/") url := fmt.Sprintf(ApiUrlFormat, c.serverAddress, ApiPath, path, query) httpReq, err := http.NewRequest("POST", url, reader) if err != nil { return nil, err } // TODO extract string consts? if fileReader != nil { httpReq.Header.Set(contentTypeHeader, "multipart/form-data; boundary="+fileReader.Boundary()) httpReq.Header.Set(contentDispHeader, "form-data: name=\"files\"") } else { httpReq.Header.Set(contentTypeHeader, applicationOctetStream) } version := config.CurrentVersionNumber httpReq.Header.Set(uaHeader, fmt.Sprintf("/go-ipfs/%s/", version)) ec := make(chan error, 1) rc := make(chan cmds.Response, 1) dc := req.Context().Done() go func() { httpRes, err := c.httpClient.Do(httpReq) if err != nil { ec <- err return } // using the overridden JSON encoding in request res, err := getResponse(httpRes, req) if err != nil { ec <- err return } rc <- res }() for { select { case <-dc: log.Debug("Context cancelled, cancelling HTTP request...") tr := http.DefaultTransport.(*http.Transport) tr.CancelRequest(httpReq) dc = nil // Wait for ec or rc case err := <-ec: return nil, err case res := <-rc: if found && len(previousUserProvidedEncoding) > 0 { // reset to user provided encoding after sending request // NB: if user has provided an encoding but it is the empty string, // still leave it as JSON. req.SetOption(cmds.EncShort, previousUserProvidedEncoding) } return res, nil } } }
// serveHTTPApi collects options, creates listener, prints status message and starts serving requests func serveHTTPApi(req cmds.Request) (error, <-chan error) { cfg, err := req.InvocContext().GetConfig() if err != nil { return fmt.Errorf("serveHTTPApi: GetConfig() failed: %s", err), nil } apiAddr, _, err := req.Option(commands.ApiOption).String() if err != nil { return fmt.Errorf("serveHTTPApi: %s", err), nil } if apiAddr == "" { apiAddr = cfg.Addresses.API } apiMaddr, err := ma.NewMultiaddr(apiAddr) if err != nil { return fmt.Errorf("serveHTTPApi: invalid API address: %q (err: %s)", apiAddr, err), nil } apiLis, err := manet.Listen(apiMaddr) if err != nil { return fmt.Errorf("serveHTTPApi: manet.Listen(%s) failed: %s", apiMaddr, err), nil } // we might have listened to /tcp/0 - lets see what we are listing on apiMaddr = apiLis.Multiaddr() fmt.Printf("API server listening on %s\n", apiMaddr) unrestricted, _, err := req.Option(unrestrictedApiAccessKwd).Bool() if err != nil { return fmt.Errorf("serveHTTPApi: Option(%s) failed: %s", unrestrictedApiAccessKwd, err), nil } apiGw := corehttp.NewGateway(corehttp.GatewayConfig{ Writable: true, BlockList: &corehttp.BlockList{ Decider: func(s string) bool { if unrestricted { return true } // for now, only allow paths in the WebUI path for _, webuipath := range corehttp.WebUIPaths { if strings.HasPrefix(s, webuipath) { return true } } return false }, }, }) var opts = []corehttp.ServeOption{ corehttp.CommandsOption(*req.InvocContext()), corehttp.WebUIOption, apiGw.ServeOption(), corehttp.VersionOption(), defaultMux("/debug/vars"), defaultMux("/debug/pprof/"), corehttp.LogOption(), corehttp.PrometheusOption("/debug/metrics/prometheus"), } if len(cfg.Gateway.RootRedirect) > 0 { opts = append(opts, corehttp.RedirectOption("", cfg.Gateway.RootRedirect)) } node, err := req.InvocContext().ConstructNode() if err != nil { return fmt.Errorf("serveHTTPApi: ConstructNode() failed: %s", err), nil } if err := node.Repo.SetAPIAddr(apiMaddr.String()); err != nil { return fmt.Errorf("serveHTTPApi: SetAPIAddr() failed: %s", err), nil } errc := make(chan error) go func() { errc <- corehttp.Serve(node, apiLis.NetListener(), opts...) close(errc) }() return nil, errc }
func daemonFunc(req cmds.Request, res cmds.Response) { // let the user know we're going. fmt.Printf("Initializing daemon...\n") ctx := req.InvocContext() go func() { select { case <-req.Context().Done(): fmt.Println("Received interrupt signal, shutting down...") } }() // check transport encryption flag. unencrypted, _, _ := req.Option(unencryptTransportKwd).Bool() if unencrypted { log.Warningf(`Running with --%s: All connections are UNENCRYPTED. You will not be able to connect to regular encrypted networks.`, unencryptTransportKwd) conn.EncryptConnections = false } // first, whether user has provided the initialization flag. we may be // running in an uninitialized state. initialize, _, err := req.Option(initOptionKwd).Bool() if err != nil { res.SetError(err, cmds.ErrNormal) return } if initialize { // now, FileExists is our best method of detecting whether IPFS is // configured. Consider moving this into a config helper method // `IsInitialized` where the quality of the signal can be improved over // time, and many call-sites can benefit. if !util.FileExists(req.InvocContext().ConfigRoot) { err := initWithDefaults(os.Stdout, req.InvocContext().ConfigRoot) if err != nil { res.SetError(err, cmds.ErrNormal) return } } } // acquire the repo lock _before_ constructing a node. we need to make // sure we are permitted to access the resources (datastore, etc.) repo, err := fsrepo.Open(req.InvocContext().ConfigRoot) if err != nil { res.SetError(err, cmds.ErrNormal) return } cfg, err := ctx.GetConfig() if err != nil { res.SetError(err, cmds.ErrNormal) return } // Start assembling node config ncfg := &core.BuildCfg{ Online: true, Repo: repo, } routingOption, _, err := req.Option(routingOptionKwd).String() if err != nil { res.SetError(err, cmds.ErrNormal) return } if routingOption == routingOptionSupernodeKwd { servers, err := cfg.SupernodeRouting.ServerIPFSAddrs() if err != nil { res.SetError(err, cmds.ErrNormal) repo.Close() // because ownership hasn't been transferred to the node return } var infos []peer.PeerInfo for _, addr := range servers { infos = append(infos, peer.PeerInfo{ ID: addr.ID(), Addrs: []ma.Multiaddr{addr.Transport()}, }) } ncfg.Routing = corerouting.SupernodeClient(infos...) } node, err := core.NewNode(req.Context(), ncfg) if err != nil { log.Error("error from node construction: ", err) res.SetError(err, cmds.ErrNormal) return } printSwarmAddrs(node) defer func() { // We wait for the node to close first, as the node has children // that it will wait for before closing, such as the API server. node.Close() select { case <-req.Context().Done(): log.Info("Gracefully shut down daemon") default: } }() req.InvocContext().ConstructNode = func() (*core.IpfsNode, error) { return node, nil } // construct api endpoint - every time err, apiErrc := serveHTTPApi(req) if err != nil { res.SetError(err, cmds.ErrNormal) return } // construct http gateway - if it is set in the config var gwErrc <-chan error if len(cfg.Addresses.Gateway) > 0 { var err error err, gwErrc = serveHTTPGateway(req) if err != nil { res.SetError(err, cmds.ErrNormal) return } } // construct fuse mountpoints - if the user provided the --mount flag mount, _, err := req.Option(mountKwd).Bool() if err != nil { res.SetError(err, cmds.ErrNormal) return } if mount { if err := mountFuse(req); err != nil { res.SetError(err, cmds.ErrNormal) return } } fmt.Printf("Daemon is ready\n") // collect long-running errors and block for shutdown // TODO(cryptix): our fuse currently doesnt follow this pattern for graceful shutdown for err := range merge(apiErrc, gwErrc) { if err != nil { res.SetError(err, cmds.ErrNormal) return } } }