package main import ( "fmt" "os" "strings" ma "github.com/ipfs/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr" cmds "github.com/ipfs/go-ipfs/commands" "github.com/ipfs/go-ipfs/core" commands "github.com/ipfs/go-ipfs/core/commands" corehttp "github.com/ipfs/go-ipfs/core/corehttp" "github.com/ipfs/go-ipfs/core/corerouting" peer "github.com/ipfs/go-ipfs/p2p/peer" fsrepo "github.com/ipfs/go-ipfs/repo/fsrepo" util "github.com/ipfs/go-ipfs/util" ) const ( initOptionKwd = "init" routingOptionKwd = "routing" routingOptionSupernodeKwd = "supernode" mountKwd = "mount" writableKwd = "writable" ipfsMountKwd = "mount-ipfs" ipnsMountKwd = "mount-ipns" // apiAddrKwd = "address-api" // swarmAddrKwd = "address-swarm" ) var daemonCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Run a network-connected IPFS node", ShortDescription: ` 'ipfs daemon' runs a persistent IPFS daemon that can serve commands over the network. Most applications that use IPFS will do so by communicating with a daemon over the HTTP API. While the daemon is running, calls to 'ipfs' commands will be sent over the network to the daemon. The daemon will start listening on ports on the network, which are documented in (and can be modified through) 'ipfs config Addresses'. For example, to change the 'Gateway' port: ipfs config Addresses.Gateway /ip4/127.0.0.1/tcp/8082 The API address can be changed the same way: ipfs config Addresses.API /ip4/127.0.0.1/tcp/5002 Make sure to restart the daemon after changing addresses. By default, the gateway is only accessible locally. To expose it to other computers in the network, use 0.0.0.0 as the ip address: ipfs config Addresses.Gateway /ip4/0.0.0.0/tcp/8080 Be careful if you expose the API. It is a security risk, as anyone could use control your node remotely. If you need to control the node remotely, make sure to protect the port as you would other services or database (firewall, authenticated proxy, etc).`, }, Options: []cmds.Option{ cmds.BoolOption(initOptionKwd, "Initialize IPFS with default settings if not already initialized"), cmds.StringOption(routingOptionKwd, "Overrides the routing option (dht, supernode)"), cmds.BoolOption(mountKwd, "Mounts IPFS to the filesystem"), cmds.BoolOption(writableKwd, "Enable writing objects (with POST, PUT and DELETE)"), cmds.StringOption(ipfsMountKwd, "Path to the mountpoint for IPFS (if using --mount)"), cmds.StringOption(ipnsMountKwd, "Path to the mountpoint for IPNS (if using --mount)"), // TODO: add way to override addresses. tricky part: updating the config if also --init. // cmds.StringOption(apiAddrKwd, "Address for the daemon rpc API (overrides config)"), // cmds.StringOption(swarmAddrKwd, "Address for the swarm socket (overrides config)"), }, Subcommands: map[string]*cmds.Command{}, Run: daemonFunc, } func daemonFunc(req cmds.Request, res cmds.Response) { // let the user know we're going. fmt.Printf("Initializing daemon...\n") // 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.Context().ConfigRoot) { err := initWithDefaults(os.Stdout, req.Context().ConfigRoot) if err != nil { res.SetError(err, cmds.ErrNormal) return } } } // To ensure that IPFS has been initialized, fetch the config. Do this // _before_ acquiring the daemon lock so the user gets an appropriate error // message. // NB: It's safe to read the config without the daemon lock, but not safe // to write. ctx := req.Context() cfg, err := ctx.GetConfig() 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.Context().ConfigRoot) if err != nil { res.SetError(fmt.Errorf("Couldn't obtain lock. Is another daemon already running?"), cmds.ErrNormal) return } // Start assembling corebuilder nb := core.NewNodeBuilder().Online() nb.SetRepo(repo) routingOption, _, err := req.Option(routingOptionKwd).String() if err != nil { res.SetError(err, cmds.ErrNormal) return } if routingOption == routingOptionSupernodeKwd { servers, err := repo.Config().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()}, }) } nb.SetRouting(corerouting.SupernodeClient(infos...)) } node, err := nb.Build(ctx.Context) if err != nil { res.SetError(err, cmds.ErrNormal) return } defer node.Close() req.Context().ConstructNode = func() (*core.IpfsNode, error) { return node, nil } // verify api address is valid multiaddr apiMaddr, err := ma.NewMultiaddr(cfg.Addresses.API) if err != nil { res.SetError(err, cmds.ErrNormal) return } var gatewayMaddr ma.Multiaddr if len(cfg.Addresses.Gateway) > 0 { // ignore error for gateway address // if there is an error (invalid address), then don't run the gateway gatewayMaddr, _ = ma.NewMultiaddr(cfg.Addresses.Gateway) if gatewayMaddr == nil { log.Errorf("Invalid gateway address: %s", cfg.Addresses.Gateway) } } // mount if the user provided the --mount flag mount, _, err := req.Option(mountKwd).Bool() if err != nil { res.SetError(err, cmds.ErrNormal) return } if mount { fsdir, found, err := req.Option(ipfsMountKwd).String() if err != nil { res.SetError(err, cmds.ErrNormal) return } if !found { fsdir = cfg.Mounts.IPFS } nsdir, found, err := req.Option(ipnsMountKwd).String() if err != nil { res.SetError(err, cmds.ErrNormal) return } if !found { nsdir = cfg.Mounts.IPNS } err = commands.Mount(node, fsdir, nsdir) if err != nil { res.SetError(err, cmds.ErrNormal) return } fmt.Printf("IPFS mounted at: %s\n", fsdir) fmt.Printf("IPNS mounted at: %s\n", nsdir) } var rootRedirect corehttp.ServeOption if len(cfg.Gateway.RootRedirect) > 0 { rootRedirect = corehttp.RedirectOption("", cfg.Gateway.RootRedirect) } writable, writableOptionFound, err := req.Option(writableKwd).Bool() if err != nil { res.SetError(err, cmds.ErrNormal) return } if !writableOptionFound { writable = cfg.Gateway.Writable } if gatewayMaddr != nil { go func() { var opts = []corehttp.ServeOption{ corehttp.VersionOption(), corehttp.IPNSHostnameOption(), corehttp.GatewayOption(writable), } if rootRedirect != nil { opts = append(opts, rootRedirect) } if writable { fmt.Printf("Gateway (writable) server listening on %s\n", gatewayMaddr) } else { fmt.Printf("Gateway (readonly) server listening on %s\n", gatewayMaddr) } err := corehttp.ListenAndServe(node, gatewayMaddr.String(), opts...) if err != nil { log.Error(err) } }() } gateway := corehttp.NewGateway(corehttp.GatewayConfig{ Writable: true, BlockList: &corehttp.BlockList{ Decider: func(s string) bool { // 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.Context()), corehttp.WebUIOption, gateway.ServeOption(), corehttp.VersionOption(), } // our global interrupt handler can now try to stop the daemon close(req.Context().InitDone) if rootRedirect != nil { opts = append(opts, rootRedirect) } fmt.Printf("API server listening on %s\n", apiMaddr) if err := corehttp.ListenAndServe(node, apiMaddr.String(), opts...); err != nil { res.SetError(err, cmds.ErrNormal) return } }