cpp-libp2p/example/01-echo/libp2p_client.go

package main

import (
	"bufio"
	"context"
	"crypto/rand"
	"flag"
	"fmt"
	"io"
	"io/ioutil"
	"log"
	mrand "math/rand"

	"github.com/libp2p/go-libp2p"
	"github.com/libp2p/go-libp2p-core/crypto"
	"github.com/libp2p/go-libp2p-core/host"
	"github.com/libp2p/go-libp2p-core/network"
	"github.com/libp2p/go-libp2p-core/peer"
	"github.com/libp2p/go-libp2p-core/peerstore"

	golog "github.com/ipfs/go-log"
	ma "github.com/multiformats/go-multiaddr"
)

// makeBasicHost creates a LibP2P host with a random peer ID listening on the
// given multiaddress. It won't encrypt the connection if insecure is true.
func makeBasicHost(listenPort int, insecure bool, randseed int64) (host.Host, error) {

	// If the seed is zero, use real cryptographic randomness. Otherwise, use a
	// deterministic randomness source to make generated keys stay the same
	// across multiple runs
	var r io.Reader
	if randseed == 0 {
		r = rand.Reader
	} else {
		r = mrand.New(mrand.NewSource(randseed))
	}

	// Generate a key pair for this host. We will use it at least
	// to obtain a valid host ID.
	priv, p, err := crypto.GenerateKeyPairWithReader(crypto.RSA, 2048, r)
	log.Println("============ %s", p)
	if err != nil {
		return nil, err
	}

	opts := []libp2p.Option{
		libp2p.ListenAddrStrings(fmt.Sprintf("/ip4/127.0.0.1/tcp/%d", listenPort)),
		libp2p.Identity(priv),
		libp2p.DisableRelay(),
	}

	if insecure {
		opts = append(opts, libp2p.NoSecurity)
	}

	basicHost, err := libp2p.New(context.Background(), opts...)
	if err != nil {
		return nil, err
	}

	// Build host multiaddress
	hostAddr, _ := ma.NewMultiaddr(fmt.Sprintf("/ipfs/%s", basicHost.ID().Pretty()))

	// Now we can build a full multiaddress to reach this host
	// by encapsulating both addresses:
	addr := basicHost.Addrs()[0]
	fullAddr := addr.Encapsulate(hostAddr)
	log.Printf("I am %s\n", fullAddr)
	if insecure {
		log.Printf("Now run \"./echo -l %d -d %s -insecure\" on a different terminal\n", listenPort+1, fullAddr)
	} else {
		log.Printf("Now run \"./echo -l %d -d %s\" on a different terminal\n", listenPort+1, fullAddr)
	}

	return basicHost, nil
}

func main() {
	// LibP2P code uses golog to log messages. They log with different
	// string IDs (i.e. "swarm"). We can control the verbosity level for
	// all loggers with:
	// golog.SetAllLoggers(golog.LevelInfo) // Change to DEBUG for extra info
	golog.SetDebugLogging()

	// Parse options from the command line
	listenF := flag.Int("l", 0, "wait for incoming connections")
	target := flag.String("d", "", "target peer to dial")
	insecure := flag.Bool("insecure", false, "use an unencrypted connection")
	seed := flag.Int64("seed", 0, "set random seed for id generation")
	flag.Parse()

	if *listenF == 0 {
		log.Fatal("Please provide a port to bind on with -l")
	}

	// Make a host that listens on the given multiaddress
	ha, err := makeBasicHost(*listenF, *insecure, *seed)
	if err != nil {
		log.Fatal(err)
	}

	// Set a stream handler on host A. /echo/1.0.0 is
	// a user-defined protocol name.
	ha.SetStreamHandler("/echo/1.0.0", func(s network.Stream) {
		log.Println("Got a new stream!")
		if err := doEcho(s); err != nil {
			log.Println(err)
			s.Reset()
		} else {
			s.Close()
		}
	})

	if *target == "" {
		log.Println("listening for connections")
		select {} // hang forever
	}
	/**** This is where the listener code ends ****/

	// The following code extracts target's the peer ID from the
	// given multiaddress
	ipfsaddr, err := ma.NewMultiaddr(*target)
	if err != nil {
		log.Fatalln(err)
	}

	pid, err := ipfsaddr.ValueForProtocol(ma.P_IPFS)
	if err != nil {
		log.Fatalln(err)
	}

	peerid, err := peer.IDB58Decode(pid)
	if err != nil {
		log.Fatalln(err)
	}

	// Decapsulate the /ipfs/<peerID> part from the target
	// /ip4/<a.b.c.d>/ipfs/<peer> becomes /ip4/<a.b.c.d>
	targetPeerAddr, _ := ma.NewMultiaddr(
		fmt.Sprintf("/ipfs/%s", peer.IDB58Encode(peerid)))
	targetAddr := ipfsaddr.Decapsulate(targetPeerAddr)

	// We have a peer ID and a targetAddr so we add it to the peerstore
	// so LibP2P knows how to contact it
	ha.Peerstore().AddAddr(peerid, targetAddr, peerstore.PermanentAddrTTL)

	log.Println("opening stream")
	// make a new stream from host B to host A
	// it should be handled on host A by the handler we set above because
	// we use the same /echo/1.0.0 protocol
	s, err := ha.NewStream(context.Background(), peerid, "/echo/1.0.0")
	if err != nil {
		log.Fatalln(err)
	}
	log.Println("opened stream")

	_, err = s.Write([]byte("Hello, world!\n"))
	if err != nil {
		log.Fatalln(err)
	}
	log.Println("written hello world")

	out, err := ioutil.ReadAll(s)
	if err != nil {
		log.Fatalln(err)
	}

	log.Printf("read reply: %q\n", out)
}

// doEcho reads a line of data a stream and writes it back
func doEcho(s network.Stream) error {
	buf := bufio.NewReader(s)
	str, err := buf.ReadString('\n')
	if err != nil {
		return err
	}

	log.Printf("read: %s\n", str)
	_, err = s.Write([]byte(str))
	return err
}
Go Echo Client Compatibility (#8) Signed-off-by: Akvinikym <anarant12@gmail.com> 5 years ago			`package main`

			`import (`
			`"bufio"`
			`"context"`
			`"crypto/rand"`
			`"flag"`
			`"fmt"`
			`"io"`
			`"io/ioutil"`
			`"log"`
			`mrand "math/rand"`

			`"github.com/libp2p/go-libp2p"`
			`"github.com/libp2p/go-libp2p-core/crypto"`
			`"github.com/libp2p/go-libp2p-core/host"`
			`"github.com/libp2p/go-libp2p-core/network"`
			`"github.com/libp2p/go-libp2p-core/peer"`
			`"github.com/libp2p/go-libp2p-core/peerstore"`

			`golog "github.com/ipfs/go-log"`
			`ma "github.com/multiformats/go-multiaddr"`
			`)`

			`// makeBasicHost creates a LibP2P host with a random peer ID listening on the`
			`// given multiaddress. It won't encrypt the connection if insecure is true.`
			`func makeBasicHost(listenPort int, insecure bool, randseed int64) (host.Host, error) {`

			`// If the seed is zero, use real cryptographic randomness. Otherwise, use a`
			`// deterministic randomness source to make generated keys stay the same`
			`// across multiple runs`
			`var r io.Reader`
			`if randseed == 0 {`
			`r = rand.Reader`
			`} else {`
			`r = mrand.New(mrand.NewSource(randseed))`
			`}`

			`// Generate a key pair for this host. We will use it at least`
			`// to obtain a valid host ID.`
			`priv, p, err := crypto.GenerateKeyPairWithReader(crypto.RSA, 2048, r)`
			`log.Println("============ %s", p)`
			`if err != nil {`
			`return nil, err`
			`}`

			`opts := []libp2p.Option{`
			`libp2p.ListenAddrStrings(fmt.Sprintf("/ip4/127.0.0.1/tcp/%d", listenPort)),`
			`libp2p.Identity(priv),`
			`libp2p.DisableRelay(),`
			`}`

			`if insecure {`
			`opts = append(opts, libp2p.NoSecurity)`
			`}`

			`basicHost, err := libp2p.New(context.Background(), opts...)`
			`if err != nil {`
			`return nil, err`
			`}`

			`// Build host multiaddress`
			`hostAddr, _ := ma.NewMultiaddr(fmt.Sprintf("/ipfs/%s", basicHost.ID().Pretty()))`

			`// Now we can build a full multiaddress to reach this host`
			`// by encapsulating both addresses:`
			`addr := basicHost.Addrs()[0]`
			`fullAddr := addr.Encapsulate(hostAddr)`
			`log.Printf("I am %s\n", fullAddr)`
			`if insecure {`
			`log.Printf("Now run \"./echo -l %d -d %s -insecure\" on a different terminal\n", listenPort+1, fullAddr)`
			`} else {`
			`log.Printf("Now run \"./echo -l %d -d %s\" on a different terminal\n", listenPort+1, fullAddr)`
			`}`

			`return basicHost, nil`
			`}`

			`func main() {`
			`// LibP2P code uses golog to log messages. They log with different`
			`// string IDs (i.e. "swarm"). We can control the verbosity level for`
			`// all loggers with:`
			`// golog.SetAllLoggers(golog.LevelInfo) // Change to DEBUG for extra info`
			`golog.SetDebugLogging()`

			`// Parse options from the command line`
			`listenF := flag.Int("l", 0, "wait for incoming connections")`
			`target := flag.String("d", "", "target peer to dial")`
			`insecure := flag.Bool("insecure", false, "use an unencrypted connection")`
			`seed := flag.Int64("seed", 0, "set random seed for id generation")`
			`flag.Parse()`

			`if *listenF == 0 {`
			`log.Fatal("Please provide a port to bind on with -l")`
			`}`

			`// Make a host that listens on the given multiaddress`
			`ha, err := makeBasicHost(listenF, insecure, *seed)`
			`if err != nil {`
			`log.Fatal(err)`
			`}`

			`// Set a stream handler on host A. /echo/1.0.0 is`
			`// a user-defined protocol name.`
			`ha.SetStreamHandler("/echo/1.0.0", func(s network.Stream) {`
			`log.Println("Got a new stream!")`
			`if err := doEcho(s); err != nil {`
			`log.Println(err)`
			`s.Reset()`
			`} else {`
			`s.Close()`
			`}`
			`})`

			`if *target == "" {`
			`log.Println("listening for connections")`
			`select {} // hang forever`
			`}`
			`/** This is where the listener code ends **/`

			`// The following code extracts target's the peer ID from the`
			`// given multiaddress`
			`ipfsaddr, err := ma.NewMultiaddr(*target)`
			`if err != nil {`
			`log.Fatalln(err)`
			`}`

			`pid, err := ipfsaddr.ValueForProtocol(ma.P_IPFS)`
			`if err != nil {`
			`log.Fatalln(err)`
			`}`

			`peerid, err := peer.IDB58Decode(pid)`
			`if err != nil {`
			`log.Fatalln(err)`
			`}`

			`// Decapsulate the /ipfs/<peerID> part from the target`
			`// /ip4/<a.b.c.d>/ipfs/<peer> becomes /ip4/<a.b.c.d>`
			`targetPeerAddr, _ := ma.NewMultiaddr(`
			`fmt.Sprintf("/ipfs/%s", peer.IDB58Encode(peerid)))`
			`targetAddr := ipfsaddr.Decapsulate(targetPeerAddr)`

			`// We have a peer ID and a targetAddr so we add it to the peerstore`
			`// so LibP2P knows how to contact it`
			`ha.Peerstore().AddAddr(peerid, targetAddr, peerstore.PermanentAddrTTL)`

			`log.Println("opening stream")`
			`// make a new stream from host B to host A`
			`// it should be handled on host A by the handler we set above because`
			`// we use the same /echo/1.0.0 protocol`
			`s, err := ha.NewStream(context.Background(), peerid, "/echo/1.0.0")`
			`if err != nil {`
			`log.Fatalln(err)`
			`}`
			`log.Println("opened stream")`

			`_, err = s.Write([]byte("Hello, world!\n"))`
			`if err != nil {`
			`log.Fatalln(err)`
			`}`
			`log.Println("written hello world")`

			`out, err := ioutil.ReadAll(s)`
			`if err != nil {`
			`log.Fatalln(err)`
			`}`

			`log.Printf("read reply: %q\n", out)`
			`}`

			`// doEcho reads a line of data a stream and writes it back`
			`func doEcho(s network.Stream) error {`
			`buf := bufio.NewReader(s)`
			`str, err := buf.ReadString('\n')`
			`if err != nil {`
			`return err`
			`}`

			`log.Printf("read: %s\n", str)`
			`_, err = s.Write([]byte(str))`
			`return err`
			`}`