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gen.go
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gen.go
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package testutil
import (
"bytes"
"errors"
"fmt"
"io"
"sync"
"testing"
ci "gx/ipfs/QmUEUu1CM8bxBJxc3ZLojAi8evhTr4byQogWstABet79oY/go-libp2p-crypto"
u "gx/ipfs/QmZNVWh8LLjAavuQ2JXuFmuYH3C11xo988vSgp7UQrTRj1/go-ipfs-util"
peer "gx/ipfs/QmbyvM8zRFDkbFdYyt1MnevUMJ62SiSGbfDFZ3Z8nkrzr4/go-libp2p-peer"
ma "gx/ipfs/QmYzDkkgAEmrcNzFCiYo6L1dTX4EAG1gZkbtdbd9trL4vd/go-multiaddr"
)
// ZeroLocalTCPAddress is the "zero" tcp local multiaddr. This means:
// /ip4/127.0.0.1/tcp/0
var ZeroLocalTCPAddress ma.Multiaddr
func init() {
// initialize ZeroLocalTCPAddress
maddr, err := ma.NewMultiaddr("/ip4/127.0.0.1/tcp/0")
if err != nil {
panic(err)
}
ZeroLocalTCPAddress = maddr
}
func RandTestKeyPair(bits int) (ci.PrivKey, ci.PubKey, error) {
return ci.GenerateKeyPairWithReader(ci.RSA, bits, u.NewTimeSeededRand())
}
func SeededTestKeyPair(seed int64) (ci.PrivKey, ci.PubKey, error) {
return ci.GenerateKeyPairWithReader(ci.RSA, 512, u.NewSeededRand(seed))
}
// RandPeerID generates random "valid" peer IDs. it does not NEED to generate
// keys because it is as if we lost the key right away. fine to read randomness
// and hash it. to generate proper keys and corresponding PeerID, use:
// sk, pk, _ := testutil.RandKeyPair()
// id, _ := peer.IDFromPublicKey(pk)
func RandPeerID() (peer.ID, error) {
buf := make([]byte, 16)
if _, err := io.ReadFull(u.NewTimeSeededRand(), buf); err != nil {
return "", err
}
h := u.Hash(buf)
return peer.ID(h), nil
}
func RandPeerIDFatal(t testing.TB) peer.ID {
p, err := RandPeerID()
if err != nil {
t.Fatal(err)
}
return p
}
// RandLocalTCPAddress returns a random multiaddr. it suppresses errors
// for nice composability-- do check the address isn't nil.
//
// NOTE: for real network tests, use ZeroLocalTCPAddress so the kernel
// assigns an unused TCP port. otherwise you may get clashes. This
// function remains here so that p2p/net/mock (which does not touch the
// real network) can assign different addresses to peers.
func RandLocalTCPAddress() ma.Multiaddr {
// chances are it will work out, but it **might** fail if the port is in use
// most ports above 10000 aren't in use by long running processes, so yay.
// (maybe there should be a range of "loopback" ports that are guaranteed
// to be open for the process, but naturally can only talk to self.)
lastPort.Lock()
if lastPort.port == 0 {
lastPort.port = 10000 + SeededRand.Intn(50000)
}
port := lastPort.port
lastPort.port++
lastPort.Unlock()
addr := fmt.Sprintf("/ip4/127.0.0.1/tcp/%d", port)
maddr, _ := ma.NewMultiaddr(addr)
return maddr
}
var lastPort = struct {
port int
sync.Mutex
}{}
// PeerNetParams is a struct to bundle together the four things
// you need to run a connection with a peer: id, 2keys, and addr.
type PeerNetParams struct {
ID peer.ID
PrivKey ci.PrivKey
PubKey ci.PubKey
Addr ma.Multiaddr
}
func (p *PeerNetParams) checkKeys() error {
if !p.ID.MatchesPrivateKey(p.PrivKey) {
return errors.New("p.ID does not match p.PrivKey")
}
if !p.ID.MatchesPublicKey(p.PubKey) {
return errors.New("p.ID does not match p.PubKey")
}
buf := new(bytes.Buffer)
buf.Write([]byte("hello world. this is me, I swear."))
b := buf.Bytes()
sig, err := p.PrivKey.Sign(b)
if err != nil {
return fmt.Errorf("sig signing failed: %s", err)
}
sigok, err := p.PubKey.Verify(b, sig)
if err != nil {
return fmt.Errorf("sig verify failed: %s", err)
}
if !sigok {
return fmt.Errorf("sig verify failed: sig invalid")
}
return nil // ok. move along.
}
func RandPeerNetParamsOrFatal(t *testing.T) PeerNetParams {
p, err := RandPeerNetParams()
if err != nil {
t.Fatal(err)
return PeerNetParams{} // TODO return nil
}
return *p
}
func RandPeerNetParams() (*PeerNetParams, error) {
var p PeerNetParams
var err error
p.Addr = ZeroLocalTCPAddress
p.PrivKey, p.PubKey, err = RandTestKeyPair(512)
if err != nil {
return nil, err
}
p.ID, err = peer.IDFromPublicKey(p.PubKey)
if err != nil {
return nil, err
}
if err := p.checkKeys(); err != nil {
return nil, err
}
return &p, nil
}