kubo/core/commands/swarm.go

package commands

import (
	"context"
	"errors"
	"fmt"
	"io"
	"path"
	"sort"
	"sync"
	"time"

	commands "github.com/ipfs/go-ipfs/commands"
	cmdenv "github.com/ipfs/go-ipfs/core/commands/cmdenv"
	repo "github.com/ipfs/go-ipfs/repo"
	fsrepo "github.com/ipfs/go-ipfs/repo/fsrepo"

	cmds "github.com/ipfs/go-ipfs-cmds"
	config "github.com/ipfs/go-ipfs-config"
	inet "github.com/libp2p/go-libp2p-core/network"
	peer "github.com/libp2p/go-libp2p-core/peer"
	ma "github.com/multiformats/go-multiaddr"
	madns "github.com/multiformats/go-multiaddr-dns"
	mamask "github.com/whyrusleeping/multiaddr-filter"
)

const (
	dnsResolveTimeout = 10 * time.Second
)

type stringList struct {
	Strings []string
}

type addrMap struct {
	Addrs map[string][]string
}

var SwarmCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "Interact with the swarm.",
		ShortDescription: `
'ipfs swarm' is a tool to manipulate the network swarm. The swarm is the
component that opens, listens for, and maintains connections to other
ipfs peers in the internet.
`,
	},
	Subcommands: map[string]*cmds.Command{
		"addrs":      swarmAddrsCmd,
		"connect":    swarmConnectCmd,
		"disconnect": swarmDisconnectCmd,
		"filters":    swarmFiltersCmd,
		"peers":      swarmPeersCmd,
	},
}

const (
	swarmVerboseOptionName   = "verbose"
	swarmStreamsOptionName   = "streams"
	swarmLatencyOptionName   = "latency"
	swarmDirectionOptionName = "direction"
)

var swarmPeersCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "List peers with open connections.",
		ShortDescription: `
'ipfs swarm peers' lists the set of peers this node is connected to.
`,
	},
	Options: []cmds.Option{
		cmds.BoolOption(swarmVerboseOptionName, "v", "display all extra information"),
		cmds.BoolOption(swarmStreamsOptionName, "Also list information about open streams for each peer"),
		cmds.BoolOption(swarmLatencyOptionName, "Also list information about latency to each peer"),
		cmds.BoolOption(swarmDirectionOptionName, "Also list information about the direction of connection"),
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		api, err := cmdenv.GetApi(env, req)
		if err != nil {
			return err
		}

		verbose, _ := req.Options[swarmVerboseOptionName].(bool)
		latency, _ := req.Options[swarmLatencyOptionName].(bool)
		streams, _ := req.Options[swarmStreamsOptionName].(bool)
		direction, _ := req.Options[swarmDirectionOptionName].(bool)

		conns, err := api.Swarm().Peers(req.Context)
		if err != nil {
			return err
		}

		var out connInfos
		for _, c := range conns {
			ci := connInfo{
				Addr: c.Address().String(),
				Peer: c.ID().Pretty(),
			}

			if verbose || direction {
				// set direction
				ci.Direction = c.Direction()
			}

			if verbose || latency {
				lat, err := c.Latency()
				if err != nil {
					return err
				}

				if lat == 0 {
					ci.Latency = "n/a"
				} else {
					ci.Latency = lat.String()
				}
			}
			if verbose || streams {
				strs, err := c.Streams()
				if err != nil {
					return err
				}

				for _, s := range strs {
					ci.Streams = append(ci.Streams, streamInfo{Protocol: string(s)})
				}
			}
			sort.Sort(&ci)
			out.Peers = append(out.Peers, ci)
		}

		sort.Sort(&out)
		return cmds.EmitOnce(res, &out)
	},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, ci *connInfos) error {
			pipfs := ma.ProtocolWithCode(ma.P_IPFS).Name
			for _, info := range ci.Peers {
				fmt.Fprintf(w, "%s/%s/%s", info.Addr, pipfs, info.Peer)
				if info.Latency != "" {
					fmt.Fprintf(w, " %s", info.Latency)
				}

				if info.Direction != inet.DirUnknown {
					fmt.Fprintf(w, " %s", directionString(info.Direction))
				}
				fmt.Fprintln(w)

				for _, s := range info.Streams {
					if s.Protocol == "" {
						s.Protocol = "<no protocol name>"
					}

					fmt.Fprintf(w, "  %s\n", s.Protocol)
				}
			}

			return nil
		}),
	},
	Type: connInfos{},
}

type streamInfo struct {
	Protocol string
}

type connInfo struct {
	Addr      string
	Peer      string
	Latency   string
	Muxer     string
	Direction inet.Direction
	Streams   []streamInfo
}

func (ci *connInfo) Less(i, j int) bool {
	return ci.Streams[i].Protocol < ci.Streams[j].Protocol
}

func (ci *connInfo) Len() int {
	return len(ci.Streams)
}

func (ci *connInfo) Swap(i, j int) {
	ci.Streams[i], ci.Streams[j] = ci.Streams[j], ci.Streams[i]
}

type connInfos struct {
	Peers []connInfo
}

func (ci connInfos) Less(i, j int) bool {
	return ci.Peers[i].Addr < ci.Peers[j].Addr
}

func (ci connInfos) Len() int {
	return len(ci.Peers)
}

func (ci connInfos) Swap(i, j int) {
	ci.Peers[i], ci.Peers[j] = ci.Peers[j], ci.Peers[i]
}

// directionString transfers to string
func directionString(d inet.Direction) string {
	switch d {
	case inet.DirInbound:
		return "inbound"
	case inet.DirOutbound:
		return "outbound"
	default:
		return ""
	}
}

var swarmAddrsCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "List known addresses. Useful for debugging.",
		ShortDescription: `
'ipfs swarm addrs' lists all addresses this node is aware of.
`,
	},
	Subcommands: map[string]*cmds.Command{
		"local":  swarmAddrsLocalCmd,
		"listen": swarmAddrsListenCmd,
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		api, err := cmdenv.GetApi(env, req)
		if err != nil {
			return err
		}

		addrs, err := api.Swarm().KnownAddrs(req.Context)
		if err != nil {
			return err
		}

		out := make(map[string][]string)
		for p, paddrs := range addrs {
			s := p.Pretty()
			for _, a := range paddrs {
				out[s] = append(out[s], a.String())
			}
		}

		return cmds.EmitOnce(res, &addrMap{Addrs: out})
	},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(func(req *cmds.Request, w io.Writer, am *addrMap) error {
			// sort the ids first
			ids := make([]string, 0, len(am.Addrs))
			for p := range am.Addrs {
				ids = append(ids, p)
			}
			sort.Strings(ids)

			for _, p := range ids {
				paddrs := am.Addrs[p]
				fmt.Fprintf(w, "%s (%d)\n", p, len(paddrs))
				for _, addr := range paddrs {
					fmt.Fprintf(w, "\t"+addr+"\n")
				}
			}

			return nil
		}),
	},
	Type: addrMap{},
}

var swarmAddrsLocalCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "List local addresses.",
		ShortDescription: `
'ipfs swarm addrs local' lists all local listening addresses announced to the network.
`,
	},
	Options: []cmds.Option{
		cmds.BoolOption("id", "Show peer ID in addresses."),
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		api, err := cmdenv.GetApi(env, req)
		if err != nil {
			return err
		}

		showid, _ := req.Options["id"].(bool)
		self, err := api.Key().Self(req.Context)
		if err != nil {
			return err
		}

		maddrs, err := api.Swarm().LocalAddrs(req.Context)
		if err != nil {
			return err
		}

		var addrs []string
		p2pProtocolName := ma.ProtocolWithCode(ma.P_P2P).Name
		for _, addr := range maddrs {
			saddr := addr.String()
			if showid {
				saddr = path.Join(saddr, p2pProtocolName, self.ID().Pretty())
			}
			addrs = append(addrs, saddr)
		}
		sort.Strings(addrs)
		return cmds.EmitOnce(res, &stringList{addrs})
	},
	Type: stringList{},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(stringListEncoder),
	},
}

var swarmAddrsListenCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "List interface listening addresses.",
		ShortDescription: `
'ipfs swarm addrs listen' lists all interface addresses the node is listening on.
`,
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		api, err := cmdenv.GetApi(env, req)
		if err != nil {
			return err
		}

		var addrs []string
		maddrs, err := api.Swarm().ListenAddrs(req.Context)
		if err != nil {
			return err
		}

		for _, addr := range maddrs {
			addrs = append(addrs, addr.String())
		}
		sort.Strings(addrs)

		return cmds.EmitOnce(res, &stringList{addrs})
	},
	Type: stringList{},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(stringListEncoder),
	},
}

var swarmConnectCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "Open connection to a given address.",
		ShortDescription: `
'ipfs swarm connect' opens a new direct connection to a peer address.

The address format is an IPFS multiaddr:

ipfs swarm connect /ip4/104.131.131.82/tcp/4001/p2p/QmaCpDMGvV2BGHeYERUEnRQAwe3N8SzbUtfsmvsqQLuvuJ
`,
	},
	Arguments: []cmds.Argument{
		cmds.StringArg("address", true, true, "Address of peer to connect to.").EnableStdin(),
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		api, err := cmdenv.GetApi(env, req)
		if err != nil {
			return err
		}

		addrs := req.Arguments

		pis, err := parseAddresses(req.Context, addrs)
		if err != nil {
			return err
		}

		output := make([]string, len(pis))
		for i, pi := range pis {
			output[i] = "connect " + pi.ID.Pretty()

			err := api.Swarm().Connect(req.Context, pi)
			if err != nil {
				return fmt.Errorf("%s failure: %s", output[i], err)
			}
			output[i] += " success"
		}

		return cmds.EmitOnce(res, &stringList{output})
	},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(stringListEncoder),
	},
	Type: stringList{},
}

var swarmDisconnectCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "Close connection to a given address.",
		ShortDescription: `
'ipfs swarm disconnect' closes a connection to a peer address. The address
format is an IPFS multiaddr:

ipfs swarm disconnect /ip4/104.131.131.82/tcp/4001/p2p/QmaCpDMGvV2BGHeYERUEnRQAwe3N8SzbUtfsmvsqQLuvuJ

The disconnect is not permanent; if ipfs needs to talk to that address later,
it will reconnect.
`,
	},
	Arguments: []cmds.Argument{
		cmds.StringArg("address", true, true, "Address of peer to disconnect from.").EnableStdin(),
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		api, err := cmdenv.GetApi(env, req)
		if err != nil {
			return err
		}

		addrs, err := parseAddresses(req.Context, req.Arguments)
		if err != nil {
			return err
		}

		output := make([]string, 0, len(addrs))
		for _, ainfo := range addrs {
			maddrs, err := peer.AddrInfoToP2pAddrs(&ainfo)
			if err != nil {
				return err
			}
			// FIXME: This will print:
			//
			//   disconnect QmFoo success
			//   disconnect QmFoo success
			//   ...
			//
			// Once per address specified. However, I'm not sure of
			// a good backwards compat solution. Right now, I'm just
			// preserving the current behavior.
			for _, addr := range maddrs {
				msg := "disconnect " + ainfo.ID.Pretty()
				if err := api.Swarm().Disconnect(req.Context, addr); err != nil {
					msg += " failure: " + err.Error()
				} else {
					msg += " success"
				}
				output = append(output, msg)
			}
		}
		return cmds.EmitOnce(res, &stringList{output})
	},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(stringListEncoder),
	},
	Type: stringList{},
}

// parseAddresses is a function that takes in a slice of string peer addresses
// (multiaddr + peerid) and returns a slice of properly constructed peers
func parseAddresses(ctx context.Context, addrs []string) ([]peer.AddrInfo, error) {
	// resolve addresses
	maddrs, err := resolveAddresses(ctx, addrs)
	if err != nil {
		return nil, err
	}

	return peer.AddrInfosFromP2pAddrs(maddrs...)
}

// resolveAddresses resolves addresses parallelly
func resolveAddresses(ctx context.Context, addrs []string) ([]ma.Multiaddr, error) {
	ctx, cancel := context.WithTimeout(ctx, dnsResolveTimeout)
	defer cancel()

	var maddrs []ma.Multiaddr
	var wg sync.WaitGroup
	resolveErrC := make(chan error, len(addrs))

	maddrC := make(chan ma.Multiaddr)

	for _, addr := range addrs {
		maddr, err := ma.NewMultiaddr(addr)
		if err != nil {
			return nil, err
		}

		// check whether address ends in `ipfs/Qm...`
		if _, last := ma.SplitLast(maddr); last.Protocol().Code == ma.P_IPFS {
			maddrs = append(maddrs, maddr)
			continue
		}
		wg.Add(1)
		go func(maddr ma.Multiaddr) {
			defer wg.Done()
			raddrs, err := madns.Resolve(ctx, maddr)
			if err != nil {
				resolveErrC <- err
				return
			}
			// filter out addresses that still doesn't end in `ipfs/Qm...`
			found := 0
			for _, raddr := range raddrs {
				if _, last := ma.SplitLast(raddr); last != nil && last.Protocol().Code == ma.P_IPFS {
					maddrC <- raddr
					found++
				}
			}
			if found == 0 {
				resolveErrC <- fmt.Errorf("found no ipfs peers at %s", maddr)
			}
		}(maddr)
	}
	go func() {
		wg.Wait()
		close(maddrC)
	}()

	for maddr := range maddrC {
		maddrs = append(maddrs, maddr)
	}

	select {
	case err := <-resolveErrC:
		return nil, err
	default:
	}

	return maddrs, nil
}

var swarmFiltersCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "Manipulate address filters.",
		ShortDescription: `
'ipfs swarm filters' will list out currently applied filters. Its subcommands
can be used to add or remove said filters. Filters are specified using the
multiaddr-filter format:

Example:

    /ip4/192.168.0.0/ipcidr/16

Where the above is equivalent to the standard CIDR:

    192.168.0.0/16

Filters default to those specified under the "Swarm.AddrFilters" config key.
`,
	},
	Subcommands: map[string]*cmds.Command{
		"add": swarmFiltersAddCmd,
		"rm":  swarmFiltersRmCmd,
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		n, err := cmdenv.GetNode(env)
		if err != nil {
			return err
		}

		if n.PeerHost == nil {
			return ErrNotOnline
		}

		var output []string
		for _, f := range n.Filters.FiltersForAction(ma.ActionDeny) {
			s, err := mamask.ConvertIPNet(&f)
			if err != nil {
				return err
			}
			output = append(output, s)
		}
		return cmds.EmitOnce(res, &stringList{output})
	},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(stringListEncoder),
	},
	Type: stringList{},
}

var swarmFiltersAddCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "Add an address filter.",
		ShortDescription: `
'ipfs swarm filters add' will add an address filter to the daemons swarm.
`,
	},
	Arguments: []cmds.Argument{
		cmds.StringArg("address", true, true, "Multiaddr to filter.").EnableStdin(),
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		n, err := cmdenv.GetNode(env)
		if err != nil {
			return err
		}

		if n.PeerHost == nil {
			return ErrNotOnline
		}

		if len(req.Arguments) == 0 {
			return errors.New("no filters to add")
		}

		r, err := fsrepo.Open(env.(*commands.Context).ConfigRoot)
		if err != nil {
			return err
		}
		defer r.Close()
		cfg, err := r.Config()
		if err != nil {
			return err
		}

		for _, arg := range req.Arguments {
			mask, err := mamask.NewMask(arg)
			if err != nil {
				return err
			}

			n.Filters.AddFilter(*mask, ma.ActionDeny)
		}

		added, err := filtersAdd(r, cfg, req.Arguments)
		if err != nil {
			return err
		}

		return cmds.EmitOnce(res, &stringList{added})
	},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(stringListEncoder),
	},
	Type: stringList{},
}

var swarmFiltersRmCmd = &cmds.Command{
	Helptext: cmds.HelpText{
		Tagline: "Remove an address filter.",
		ShortDescription: `
'ipfs swarm filters rm' will remove an address filter from the daemons swarm.
`,
	},
	Arguments: []cmds.Argument{
		cmds.StringArg("address", true, true, "Multiaddr filter to remove.").EnableStdin(),
	},
	Run: func(req *cmds.Request, res cmds.ResponseEmitter, env cmds.Environment) error {
		n, err := cmdenv.GetNode(env)
		if err != nil {
			return err
		}

		if n.PeerHost == nil {
			return ErrNotOnline
		}

		r, err := fsrepo.Open(env.(*commands.Context).ConfigRoot)
		if err != nil {
			return err
		}
		defer r.Close()
		cfg, err := r.Config()
		if err != nil {
			return err
		}

		if req.Arguments[0] == "all" || req.Arguments[0] == "*" {
			fs := n.Filters.FiltersForAction(ma.ActionDeny)
			for _, f := range fs {
				n.Filters.RemoveLiteral(f)
			}

			removed, err := filtersRemoveAll(r, cfg)
			if err != nil {
				return err
			}

			return cmds.EmitOnce(res, &stringList{removed})
		}

		for _, arg := range req.Arguments {
			mask, err := mamask.NewMask(arg)
			if err != nil {
				return err
			}

			n.Filters.RemoveLiteral(*mask)
		}

		removed, err := filtersRemove(r, cfg, req.Arguments)
		if err != nil {
			return err
		}

		return cmds.EmitOnce(res, &stringList{removed})
	},
	Encoders: cmds.EncoderMap{
		cmds.Text: cmds.MakeTypedEncoder(stringListEncoder),
	},
	Type: stringList{},
}

func filtersAdd(r repo.Repo, cfg *config.Config, filters []string) ([]string, error) {
	addedMap := map[string]struct{}{}
	addedList := make([]string, 0, len(filters))

	// re-add cfg swarm filters to rm dupes
	oldFilters := cfg.Swarm.AddrFilters
	cfg.Swarm.AddrFilters = nil

	// add new filters
	for _, filter := range filters {
		if _, found := addedMap[filter]; found {
			continue
		}

		cfg.Swarm.AddrFilters = append(cfg.Swarm.AddrFilters, filter)
		addedList = append(addedList, filter)
		addedMap[filter] = struct{}{}
	}

	// add back original filters. in this order so that we output them.
	for _, filter := range oldFilters {
		if _, found := addedMap[filter]; found {
			continue
		}

		cfg.Swarm.AddrFilters = append(cfg.Swarm.AddrFilters, filter)
		addedMap[filter] = struct{}{}
	}

	if err := r.SetConfig(cfg); err != nil {
		return nil, err
	}

	return addedList, nil
}

func filtersRemoveAll(r repo.Repo, cfg *config.Config) ([]string, error) {
	removed := cfg.Swarm.AddrFilters
	cfg.Swarm.AddrFilters = nil

	if err := r.SetConfig(cfg); err != nil {
		return nil, err
	}

	return removed, nil
}

func filtersRemove(r repo.Repo, cfg *config.Config, toRemoveFilters []string) ([]string, error) {
	removed := make([]string, 0, len(toRemoveFilters))
	keep := make([]string, 0, len(cfg.Swarm.AddrFilters))

	oldFilters := cfg.Swarm.AddrFilters

	for _, oldFilter := range oldFilters {
		found := false
		for _, toRemoveFilter := range toRemoveFilters {
			if oldFilter == toRemoveFilter {
				found = true
				removed = append(removed, toRemoveFilter)
				break
			}
		}

		if !found {
			keep = append(keep, oldFilter)
		}
	}
	cfg.Swarm.AddrFilters = keep

	if err := r.SetConfig(cfg); err != nil {
		return nil, err
	}

	return removed, nil
}