package commands import ( "context" "encoding/base64" "errors" "fmt" "io" "time" cmdenv "github.com/ipfs/go-ipfs/core/commands/cmdenv" cid "github.com/ipfs/go-cid" cmds "github.com/ipfs/go-ipfs-cmds" ipld "github.com/ipfs/go-ipld-format" dag "github.com/ipfs/go-merkledag" path "github.com/ipfs/go-path" peer "github.com/libp2p/go-libp2p-core/peer" routing "github.com/libp2p/go-libp2p-core/routing" b58 "github.com/mr-tron/base58/base58" ) var ErrNotDHT = errors.New("routing service is not a DHT") // TODO: Factor into `ipfs dht` and `ipfs routing`. // Everything *except `query` goes into `ipfs routing`. var DhtCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Issue commands directly through the DHT.", ShortDescription: ``, }, Subcommands: map[string]*cmds.Command{ "query": queryDhtCmd, "findprovs": findProvidersDhtCmd, "findpeer": findPeerDhtCmd, "get": getValueDhtCmd, "put": putValueDhtCmd, "provide": provideRefDhtCmd, }, } const ( dhtVerboseOptionName = "verbose" ) var queryDhtCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Find the closest Peer IDs to a given Peer ID by querying the DHT.", ShortDescription: "Outputs a list of newline-delimited Peer IDs.", }, Arguments: []cmds.Argument{ cmds.StringArg("peerID", true, true, "The peerID to run the query against."), }, Options: []cmds.Option{ cmds.BoolOption(dhtVerboseOptionName, "v", "Print extra information."), }, Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error { nd, err := cmdenv.GetNode(env) if err != nil { return err } if nd.DHT == nil { return ErrNotDHT } id, err := peer.IDB58Decode(req.Arguments[0]) if err != nil { return cmds.ClientError("invalid peer ID") } ctx, cancel := context.WithCancel(req.Context) ctx, events := routing.RegisterForQueryEvents(ctx) closestPeers, err := nd.DHT.GetClosestPeers(ctx, string(id)) if err != nil { cancel() return err } go func() { defer cancel() for p := range closestPeers { routing.PublishQueryEvent(ctx, &routing.QueryEvent{ ID: p, Type: routing.FinalPeer, }) } }() for e := range events { if err := res.Emit(e); err != nil { return err } } return nil }, Encoders: cmds.EncoderMap{ cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, out *routing.QueryEvent) error { pfm := pfuncMap{ routing.PeerResponse: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { for _, p := range obj.Responses { fmt.Fprintf(out, "%s\n", p.ID.Pretty()) } return nil }, } verbose, _ := req.Options[dhtVerboseOptionName].(bool) return printEvent(out, w, verbose, pfm) }), }, Type: routing.QueryEvent{}, } const ( numProvidersOptionName = "num-providers" ) var findProvidersDhtCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Find peers that can provide a specific value, given a key.", ShortDescription: "Outputs a list of newline-delimited provider Peer IDs.", }, Arguments: []cmds.Argument{ cmds.StringArg("key", true, true, "The key to find providers for."), }, Options: []cmds.Option{ cmds.BoolOption(dhtVerboseOptionName, "v", "Print extra information."), cmds.IntOption(numProvidersOptionName, "n", "The number of providers to find.").WithDefault(20), }, Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error { n, err := cmdenv.GetNode(env) if err != nil { return err } if !n.IsOnline { return ErrNotOnline } numProviders, _ := req.Options[numProvidersOptionName].(int) if numProviders < 1 { return fmt.Errorf("number of providers must be greater than 0") } c, err := cid.Parse(req.Arguments[0]) if err != nil { return err } ctx, cancel := context.WithCancel(req.Context) ctx, events := routing.RegisterForQueryEvents(ctx) pchan := n.Routing.FindProvidersAsync(ctx, c, numProviders) go func() { defer cancel() for p := range pchan { np := p routing.PublishQueryEvent(ctx, &routing.QueryEvent{ Type: routing.Provider, Responses: []*peer.AddrInfo{&np}, }) } }() for e := range events { if err := res.Emit(e); err != nil { return err } } return nil }, Encoders: cmds.EncoderMap{ cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, out *routing.QueryEvent) error { pfm := pfuncMap{ routing.FinalPeer: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { if verbose { fmt.Fprintf(out, "* closest peer %s\n", obj.ID) } return nil }, routing.Provider: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { prov := obj.Responses[0] if verbose { fmt.Fprintf(out, "provider: ") } fmt.Fprintf(out, "%s\n", prov.ID.Pretty()) if verbose { for _, a := range prov.Addrs { fmt.Fprintf(out, "\t%s\n", a) } } return nil }, } verbose, _ := req.Options[dhtVerboseOptionName].(bool) return printEvent(out, w, verbose, pfm) }), }, Type: routing.QueryEvent{}, } const ( recursiveOptionName = "recursive" ) var provideRefDhtCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Announce to the network that you are providing given values.", }, Arguments: []cmds.Argument{ cmds.StringArg("key", true, true, "The key[s] to send provide records for.").EnableStdin(), }, Options: []cmds.Option{ cmds.BoolOption(dhtVerboseOptionName, "v", "Print extra information."), cmds.BoolOption(recursiveOptionName, "r", "Recursively provide entire graph."), }, Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error { nd, err := cmdenv.GetNode(env) if err != nil { return err } if !nd.IsOnline { return ErrNotOnline } if len(nd.PeerHost.Network().Conns()) == 0 { return errors.New("cannot provide, no connected peers") } // Needed to parse stdin args. // TODO: Lazy Load err = req.ParseBodyArgs() if err != nil { return err } rec, _ := req.Options[recursiveOptionName].(bool) var cids []cid.Cid for _, arg := range req.Arguments { c, err := cid.Decode(arg) if err != nil { return err } has, err := nd.Blockstore.Has(c) if err != nil { return err } if !has { return fmt.Errorf("block %s not found locally, cannot provide", c) } cids = append(cids, c) } ctx, cancel := context.WithCancel(req.Context) ctx, events := routing.RegisterForQueryEvents(ctx) var provideErr error go func() { defer cancel() if rec { provideErr = provideKeysRec(ctx, nd.Routing, nd.DAG, cids) } else { provideErr = provideKeys(ctx, nd.Routing, cids) } if provideErr != nil { routing.PublishQueryEvent(ctx, &routing.QueryEvent{ Type: routing.QueryError, Extra: provideErr.Error(), }) } }() for e := range events { if err := res.Emit(e); err != nil { return err } } return provideErr }, Encoders: cmds.EncoderMap{ cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, out *routing.QueryEvent) error { pfm := pfuncMap{ routing.FinalPeer: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { if verbose { fmt.Fprintf(out, "sending provider record to peer %s\n", obj.ID) } return nil }, } verbose, _ := req.Options[dhtVerboseOptionName].(bool) return printEvent(out, w, verbose, pfm) }), }, Type: routing.QueryEvent{}, } func provideKeys(ctx context.Context, r routing.Routing, cids []cid.Cid) error { for _, c := range cids { err := r.Provide(ctx, c, true) if err != nil { return err } } return nil } func provideKeysRec(ctx context.Context, r routing.Routing, dserv ipld.DAGService, cids []cid.Cid) error { provided := cid.NewSet() for _, c := range cids { kset := cid.NewSet() err := dag.Walk(ctx, dag.GetLinksDirect(dserv), c, kset.Visit) if err != nil { return err } for _, k := range kset.Keys() { if provided.Has(k) { continue } err = r.Provide(ctx, k, true) if err != nil { return err } provided.Add(k) } } return nil } var findPeerDhtCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Find the multiaddresses associated with a Peer ID.", ShortDescription: "Outputs a list of newline-delimited multiaddresses.", }, Arguments: []cmds.Argument{ cmds.StringArg("peerID", true, true, "The ID of the peer to search for."), }, Options: []cmds.Option{ cmds.BoolOption(dhtVerboseOptionName, "v", "Print extra information."), }, Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error { nd, err := cmdenv.GetNode(env) if err != nil { return err } if !nd.IsOnline { return ErrNotOnline } pid, err := peer.IDB58Decode(req.Arguments[0]) if err != nil { return err } ctx, cancel := context.WithCancel(req.Context) ctx, events := routing.RegisterForQueryEvents(ctx) var findPeerErr error go func() { defer cancel() var pi peer.AddrInfo pi, findPeerErr = nd.Routing.FindPeer(ctx, pid) if findPeerErr != nil { routing.PublishQueryEvent(ctx, &routing.QueryEvent{ Type: routing.QueryError, Extra: findPeerErr.Error(), }) return } routing.PublishQueryEvent(ctx, &routing.QueryEvent{ Type: routing.FinalPeer, Responses: []*peer.AddrInfo{&pi}, }) }() for e := range events { if err := res.Emit(e); err != nil { return err } } return findPeerErr }, Encoders: cmds.EncoderMap{ cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, out *routing.QueryEvent) error { pfm := pfuncMap{ routing.FinalPeer: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { pi := obj.Responses[0] for _, a := range pi.Addrs { fmt.Fprintf(out, "%s\n", a) } return nil }, } verbose, _ := req.Options[dhtVerboseOptionName].(bool) return printEvent(out, w, verbose, pfm) }), }, Type: routing.QueryEvent{}, } var getValueDhtCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Given a key, query the routing system for its best value.", ShortDescription: ` Outputs the best value for the given key. There may be several different values for a given key stored in the routing system; in this context 'best' means the record that is most desirable. There is no one metric for 'best': it depends entirely on the key type. For IPNS, 'best' is the record that is both valid and has the highest sequence number (freshest). Different key types can specify other 'best' rules. `, }, Arguments: []cmds.Argument{ cmds.StringArg("key", true, true, "The key to find a value for."), }, Options: []cmds.Option{ cmds.BoolOption(dhtVerboseOptionName, "v", "Print extra information."), }, Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error { nd, err := cmdenv.GetNode(env) if err != nil { return err } if !nd.IsOnline { return ErrNotOnline } dhtkey, err := escapeDhtKey(req.Arguments[0]) if err != nil { return err } ctx, cancel := context.WithCancel(req.Context) ctx, events := routing.RegisterForQueryEvents(ctx) var getErr error go func() { defer cancel() var val []byte val, getErr = nd.Routing.GetValue(ctx, dhtkey) if getErr != nil { routing.PublishQueryEvent(ctx, &routing.QueryEvent{ Type: routing.QueryError, Extra: getErr.Error(), }) } else { routing.PublishQueryEvent(ctx, &routing.QueryEvent{ Type: routing.Value, Extra: base64.StdEncoding.EncodeToString(val), }) } }() for e := range events { if err := res.Emit(e); err != nil { return err } } return getErr }, Encoders: cmds.EncoderMap{ cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, out *routing.QueryEvent) error { pfm := pfuncMap{ routing.Value: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { if verbose { _, err := fmt.Fprintf(out, "got value: '%s'\n", obj.Extra) return err } res, err := base64.StdEncoding.DecodeString(obj.Extra) if err != nil { return err } _, err = out.Write(res) return err }, } verbose, _ := req.Options[dhtVerboseOptionName].(bool) return printEvent(out, w, verbose, pfm) }), }, Type: routing.QueryEvent{}, } var putValueDhtCmd = &cmds.Command{ Helptext: cmds.HelpText{ Tagline: "Write a key/value pair to the routing system.", ShortDescription: ` Given a key of the form /foo/bar and a value of any form, this will write that value to the routing system with that key. Keys have two parts: a keytype (foo) and the key name (bar). IPNS uses the /ipns keytype, and expects the key name to be a Peer ID. IPNS entries are specifically formatted (protocol buffer). You may only use keytypes that are supported in your ipfs binary: currently this is only /ipns. Unless you have a relatively deep understanding of the go-ipfs routing internals, you likely want to be using 'ipfs name publish' instead of this. Value is arbitrary text. Standard input can be used to provide value. NOTE: A value may not exceed 2048 bytes. `, }, Arguments: []cmds.Argument{ cmds.StringArg("key", true, false, "The key to store the value at."), cmds.StringArg("value", true, false, "The value to store.").EnableStdin(), }, Options: []cmds.Option{ cmds.BoolOption(dhtVerboseOptionName, "v", "Print extra information."), }, Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error { nd, err := cmdenv.GetNode(env) if err != nil { return err } // Needed to parse stdin args. err = req.ParseBodyArgs() if err != nil { return err } if !nd.IsOnline { return ErrNotOnline } key, err := escapeDhtKey(req.Arguments[0]) if err != nil { return err } data := req.Arguments[1] ctx, cancel := context.WithCancel(req.Context) ctx, events := routing.RegisterForQueryEvents(ctx) var putErr error go func() { defer cancel() putErr = nd.Routing.PutValue(ctx, key, []byte(data)) if putErr != nil { routing.PublishQueryEvent(ctx, &routing.QueryEvent{ Type: routing.QueryError, Extra: putErr.Error(), }) } }() for e := range events { if err := res.Emit(e); err != nil { return err } } return putErr }, Encoders: cmds.EncoderMap{ cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, out *routing.QueryEvent) error { pfm := pfuncMap{ routing.FinalPeer: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { if verbose { fmt.Fprintf(out, "* closest peer %s\n", obj.ID) } return nil }, routing.Value: func(obj *routing.QueryEvent, out io.Writer, verbose bool) error { fmt.Fprintf(out, "%s\n", obj.ID.Pretty()) return nil }, } verbose, _ := req.Options[dhtVerboseOptionName].(bool) return printEvent(out, w, verbose, pfm) }), }, Type: routing.QueryEvent{}, } type printFunc func(obj *routing.QueryEvent, out io.Writer, verbose bool) error type pfuncMap map[routing.QueryEventType]printFunc func printEvent(obj *routing.QueryEvent, out io.Writer, verbose bool, override pfuncMap) error { if verbose { fmt.Fprintf(out, "%s: ", time.Now().Format("15:04:05.000")) } if override != nil { if pf, ok := override[obj.Type]; ok { return pf(obj, out, verbose) } } switch obj.Type { case routing.SendingQuery: if verbose { fmt.Fprintf(out, "* querying %s\n", obj.ID) } case routing.Value: if verbose { fmt.Fprintf(out, "got value: '%s'\n", obj.Extra) } else { fmt.Fprint(out, obj.Extra) } case routing.PeerResponse: if verbose { fmt.Fprintf(out, "* %s says use ", obj.ID) for _, p := range obj.Responses { fmt.Fprintf(out, "%s ", p.ID) } fmt.Fprintln(out) } case routing.QueryError: if verbose { fmt.Fprintf(out, "error: %s\n", obj.Extra) } case routing.DialingPeer: if verbose { fmt.Fprintf(out, "dialing peer: %s\n", obj.ID) } case routing.AddingPeer: if verbose { fmt.Fprintf(out, "adding peer to query: %s\n", obj.ID) } case routing.FinalPeer: default: if verbose { fmt.Fprintf(out, "unrecognized event type: %d\n", obj.Type) } } return nil } func escapeDhtKey(s string) (string, error) { parts := path.SplitList(s) switch len(parts) { case 1: k, err := b58.Decode(s) if err != nil { return "", err } return string(k), nil case 3: k, err := b58.Decode(parts[2]) if err != nil { return "", err } return path.Join(append(parts[:2], string(k))), nil default: return "", errors.New("invalid key") } }