go-libp2p-kad-dht/ext_test.go

package dht

import (
	"testing"

	crand "crypto/rand"

	context "github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/go.net/context"
	"github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/goprotobuf/proto"

	ds "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/datastore.go"
	ma "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr"
	msg "github.com/jbenet/go-ipfs/net/message"
	mux "github.com/jbenet/go-ipfs/net/mux"
	peer "github.com/jbenet/go-ipfs/peer"
	u "github.com/jbenet/go-ipfs/util"

	"time"
)

// mesHandleFunc is a function that takes in outgoing messages
// and can respond to them, simulating other peers on the network.
// returning nil will chose not to respond and pass the message onto the
// next registered handler
type mesHandleFunc func(msg.NetMessage) msg.NetMessage

// fauxNet is a standin for a swarm.Network in order to more easily recreate
// different testing scenarios
type fauxSender struct {
	handlers []mesHandleFunc
}

func (f *fauxSender) AddHandler(fn func(msg.NetMessage) msg.NetMessage) {
	f.handlers = append(f.handlers, fn)
}

func (f *fauxSender) SendRequest(ctx context.Context, m msg.NetMessage) (msg.NetMessage, error) {
	for _, h := range f.handlers {
		reply := h(m)
		if reply != nil {
			return reply, nil
		}
	}

	// no reply? ok force a timeout
	select {
	case <-ctx.Done():
	}

	return nil, ctx.Err()
}

func (f *fauxSender) SendMessage(ctx context.Context, m msg.NetMessage) error {
	for _, h := range f.handlers {
		reply := h(m)
		if reply != nil {
			return nil
		}
	}
	return nil
}

// fauxNet is a standin for a swarm.Network in order to more easily recreate
// different testing scenarios
type fauxNet struct {
}

// DialPeer attempts to establish a connection to a given peer
func (f *fauxNet) DialPeer(*peer.Peer) error {
	return nil
}

// ClosePeer connection to peer
func (f *fauxNet) ClosePeer(*peer.Peer) error {
	return nil
}

// IsConnected returns whether a connection to given peer exists.
func (f *fauxNet) IsConnected(*peer.Peer) (bool, error) {
	return true, nil
}

// GetProtocols returns the protocols registered in the network.
func (f *fauxNet) GetProtocols() *mux.ProtocolMap { return nil }

// SendMessage sends given Message out
func (f *fauxNet) SendMessage(msg.NetMessage) error {
	return nil
}

func (f *fauxNet) GetPeerList() []*peer.Peer {
	return nil
}

func (f *fauxNet) GetBandwidthTotals() (uint64, uint64) {
	return 0, 0
}

// Close terminates all network operation
func (f *fauxNet) Close() error { return nil }

func TestGetFailures(t *testing.T) {
	// t.Skip("skipping test because it makes a lot of output")

	ctx := context.Background()
	fn := &fauxNet{}
	fs := &fauxSender{}

	peerstore := peer.NewPeerstore()
	local := new(peer.Peer)
	local.ID = peer.ID("test_peer")

	d := NewDHT(ctx, local, peerstore, fn, fs, ds.NewMapDatastore())
	other := &peer.Peer{ID: peer.ID("other_peer")}
	d.Update(other)

	// This one should time out
	// u.POut("Timout Test\n")
	ctx1, _ := context.WithTimeout(context.Background(), time.Second)
	_, err := d.GetValue(ctx1, u.Key("test"))
	if err != nil {
		if err != context.DeadlineExceeded {
			t.Fatal("Got different error than we expected", err)
		}
	} else {
		t.Fatal("Did not get expected error!")
	}

	// u.POut("NotFound Test\n")
	// Reply with failures to every message
	fs.AddHandler(func(mes msg.NetMessage) msg.NetMessage {
		pmes := new(Message)
		err := proto.Unmarshal(mes.Data(), pmes)
		if err != nil {
			t.Fatal(err)
		}

		resp := &Message{
			Type: pmes.Type,
		}
		m, err := msg.FromObject(mes.Peer(), resp)
		return m
	})

	// This one should fail with NotFound
	ctx2, _ := context.WithTimeout(context.Background(), time.Second)
	_, err = d.GetValue(ctx2, u.Key("test"))
	if err != nil {
		if err != u.ErrNotFound {
			t.Fatalf("Expected ErrNotFound, got: %s", err)
		}
	} else {
		t.Fatal("expected error, got none.")
	}

	fs.handlers = nil
	// Now we test this DHT's handleGetValue failure
	typ := Message_GET_VALUE
	str := "hello"
	req := Message{
		Type:  &typ,
		Key:   &str,
		Value: []byte{0},
	}

	// u.POut("handleGetValue Test\n")
	mes, err := msg.FromObject(other, &req)
	if err != nil {
		t.Error(err)
	}

	mes = d.HandleMessage(ctx, mes)

	pmes := new(Message)
	err = proto.Unmarshal(mes.Data(), pmes)
	if err != nil {
		t.Fatal(err)
	}
	if pmes.GetValue() != nil {
		t.Fatal("shouldnt have value")
	}
	if pmes.GetCloserPeers() != nil {
		t.Fatal("shouldnt have closer peers")
	}
	if pmes.GetProviderPeers() != nil {
		t.Fatal("shouldnt have provider peers")
	}

}

// TODO: Maybe put these in some sort of "ipfs_testutil" package
func _randPeer() *peer.Peer {
	p := new(peer.Peer)
	p.ID = make(peer.ID, 16)
	p.Addresses = []ma.Multiaddr{nil}
	crand.Read(p.ID)
	return p
}

func TestNotFound(t *testing.T) {
	// t.Skip("skipping test because it makes a lot of output")

	ctx := context.Background()
	fn := &fauxNet{}
	fs := &fauxSender{}

	local := new(peer.Peer)
	local.ID = peer.ID("test_peer")
	peerstore := peer.NewPeerstore()

	d := NewDHT(ctx, local, peerstore, fn, fs, ds.NewMapDatastore())

	var ps []*peer.Peer
	for i := 0; i < 5; i++ {
		ps = append(ps, _randPeer())
		d.Update(ps[i])
	}

	// Reply with random peers to every message
	fs.AddHandler(func(mes msg.NetMessage) msg.NetMessage {
		pmes := new(Message)
		err := proto.Unmarshal(mes.Data(), pmes)
		if err != nil {
			t.Fatal(err)
		}

		switch pmes.GetType() {
		case Message_GET_VALUE:
			resp := &Message{Type: pmes.Type}

			peers := []*peer.Peer{}
			for i := 0; i < 7; i++ {
				peers = append(peers, _randPeer())
			}
			resp.CloserPeers = peersToPBPeers(peers)
			mes, err := msg.FromObject(mes.Peer(), resp)
			if err != nil {
				t.Error(err)
			}
			return mes
		default:
			panic("Shouldnt recieve this.")
		}

	})

	ctx, _ = context.WithTimeout(ctx, time.Second*5)
	v, err := d.GetValue(ctx, u.Key("hello"))
	log.Debug("get value got %v", v)
	if err != nil {
		switch err {
		case u.ErrNotFound:
			//Success!
			return
		case u.ErrTimeout:
			t.Fatal("Should not have gotten timeout!")
		default:
			t.Fatalf("Got unexpected error: %s", err)
		}
	}
	t.Fatal("Expected to recieve an error.")
}

// If less than K nodes are in the entire network, it should fail when we make
// a GET rpc and nobody has the value
func TestLessThanKResponses(t *testing.T) {
	// t.Skip("skipping test because it makes a lot of output")

	ctx := context.Background()
	u.Debug = false
	fn := &fauxNet{}
	fs := &fauxSender{}
	peerstore := peer.NewPeerstore()
	local := new(peer.Peer)
	local.ID = peer.ID("test_peer")

	d := NewDHT(ctx, local, peerstore, fn, fs, ds.NewMapDatastore())

	var ps []*peer.Peer
	for i := 0; i < 5; i++ {
		ps = append(ps, _randPeer())
		d.Update(ps[i])
	}
	other := _randPeer()

	// Reply with random peers to every message
	fs.AddHandler(func(mes msg.NetMessage) msg.NetMessage {
		pmes := new(Message)
		err := proto.Unmarshal(mes.Data(), pmes)
		if err != nil {
			t.Fatal(err)
		}

		switch pmes.GetType() {
		case Message_GET_VALUE:
			resp := &Message{
				Type:        pmes.Type,
				CloserPeers: peersToPBPeers([]*peer.Peer{other}),
			}

			mes, err := msg.FromObject(mes.Peer(), resp)
			if err != nil {
				t.Error(err)
			}
			return mes
		default:
			panic("Shouldnt recieve this.")
		}

	})

	ctx, _ = context.WithTimeout(ctx, time.Second*30)
	_, err := d.GetValue(ctx, u.Key("hello"))
	if err != nil {
		switch err {
		case u.ErrNotFound:
			//Success!
			return
		case u.ErrTimeout:
			t.Fatal("Should not have gotten timeout!")
		default:
			t.Fatalf("Got unexpected error: %s", err)
		}
	}
	t.Fatal("Expected to recieve an error.")
}
starting a new testing framework 2014-08-10 21:40:17 -07:00			`package dht`

			`import (`
			`"testing"`

add some more tests in 2014-08-19 19:14:52 -07:00			`crand "crypto/rand"`

tests compile 2014-09-17 10:30:38 -07:00			`context "github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/go.net/context"`
vendor dependencies with godep dependencies are vendored into Godeps/_workspace and commit versions are recorded in Godeps.json update datastore to e89f0511 update go.crypto 2014-09-09 22:39:42 -07:00			`"github.com/jbenet/go-ipfs/Godeps/_workspace/src/code.google.com/p/goprotobuf/proto"`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00
vendor dependencies with godep dependencies are vendored into Godeps/_workspace and commit versions are recorded in Godeps.json update datastore to e89f0511 update go.crypto 2014-09-09 22:39:42 -07:00			`ds "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/datastore.go"`
			`ma "github.com/jbenet/go-ipfs/Godeps/_workspace/src/github.com/jbenet/go-multiaddr"`
tests compile 2014-09-17 10:30:38 -07:00			`msg "github.com/jbenet/go-ipfs/net/message"`
			`mux "github.com/jbenet/go-ipfs/net/mux"`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`peer "github.com/jbenet/go-ipfs/peer"`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`u "github.com/jbenet/go-ipfs/util"`
starting a new testing framework 2014-08-10 21:40:17 -07:00
			`"time"`
			`)`

better query processing (runner) 2014-09-18 19:30:04 -07:00			`// mesHandleFunc is a function that takes in outgoing messages`
			`// and can respond to them, simulating other peers on the network.`
			`// returning nil will chose not to respond and pass the message onto the`
			`// next registered handler`
			`type mesHandleFunc func(msg.NetMessage) msg.NetMessage`

starting a new testing framework 2014-08-10 21:40:17 -07:00			`// fauxNet is a standin for a swarm.Network in order to more easily recreate`
			`// different testing scenarios`
tests compile 2014-09-17 10:30:38 -07:00			`type fauxSender struct {`
more tests and add in table filtering by peer latency 2014-08-11 20:11:23 -07:00			`handlers []mesHandleFunc`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`}`

better query processing (runner) 2014-09-18 19:30:04 -07:00			`func (f *fauxSender) AddHandler(fn func(msg.NetMessage) msg.NetMessage) {`
			`f.handlers = append(f.handlers, fn)`
			`}`
starting a new testing framework 2014-08-10 21:40:17 -07:00
better query processing (runner) 2014-09-18 19:30:04 -07:00			`func (f *fauxSender) SendRequest(ctx context.Context, m msg.NetMessage) (msg.NetMessage, error) {`
tests compile 2014-09-17 10:30:38 -07:00			`for _, h := range f.handlers {`
			`reply := h(m)`
			`if reply != nil {`
			`return reply, nil`
			`}`
			`}`
starting a new testing framework 2014-08-10 21:40:17 -07:00
better query processing (runner) 2014-09-18 19:30:04 -07:00			`// no reply? ok force a timeout`
			`select {`
			`case <-ctx.Done():`
			`}`

			`return nil, ctx.Err()`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`}`

tests compile 2014-09-17 10:30:38 -07:00			`func (f *fauxSender) SendMessage(ctx context.Context, m msg.NetMessage) error {`
			`for _, h := range f.handlers {`
			`reply := h(m)`
			`if reply != nil {`
			`return nil`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`}`
tests compile 2014-09-17 10:30:38 -07:00			`}`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`return nil`
			`}`

tests compile 2014-09-17 10:30:38 -07:00			`// fauxNet is a standin for a swarm.Network in order to more easily recreate`
			`// different testing scenarios`
			`type fauxNet struct {`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`}`
starting a new testing framework 2014-08-10 21:40:17 -07:00
tests compile 2014-09-17 10:30:38 -07:00			`// DialPeer attempts to establish a connection to a given peer`
			`func (f fauxNet) DialPeer(peer.Peer) error {`
			`return nil`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00			`}`

tests compile 2014-09-17 10:30:38 -07:00			`// ClosePeer connection to peer`
			`func (f fauxNet) ClosePeer(peer.Peer) error {`
			`return nil`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`}`

tests compile 2014-09-17 10:30:38 -07:00			`// IsConnected returns whether a connection to given peer exists.`
			`func (f fauxNet) IsConnected(peer.Peer) (bool, error) {`
			`return true, nil`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`}`

tests compile 2014-09-17 10:30:38 -07:00			`// GetProtocols returns the protocols registered in the network.`
			`func (f fauxNet) GetProtocols() mux.ProtocolMap { return nil }`

			`// SendMessage sends given Message out`
			`func (f *fauxNet) SendMessage(msg.NetMessage) error {`
			`return nil`
add some more tests in 2014-08-19 19:14:52 -07:00			`}`

update dht tests to new network interface 2014-10-10 14:52:59 -07:00			`func (f fauxNet) GetPeerList() []peer.Peer {`
			`return nil`
			`}`

Add test to test conncurrent connects between two peers 2014-10-14 13:40:55 -07:00			`func (f *fauxNet) GetBandwidthTotals() (uint64, uint64) {`
			`return 0, 0`
			`}`

tests compile 2014-09-17 10:30:38 -07:00			`// Close terminates all network operation`
			`func (f *fauxNet) Close() error { return nil }`

add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`func TestGetFailures(t *testing.T) {`
dht tests pass again 2014-09-19 18:11:05 -07:00			`// t.Skip("skipping test because it makes a lot of output")`

tests compile 2014-09-17 10:30:38 -07:00			`ctx := context.Background()`
			`fn := &fauxNet{}`
			`fs := &fauxSender{}`
starting a new testing framework 2014-08-10 21:40:17 -07:00
tests compile 2014-09-17 10:30:38 -07:00			`peerstore := peer.NewPeerstore()`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`local := new(peer.Peer)`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`local.ID = peer.ID("test_peer")`
starting a new testing framework 2014-08-10 21:40:17 -07:00
dht tests with context 2014-10-18 04:19:12 -07:00			`d := NewDHT(ctx, local, peerstore, fn, fs, ds.NewMapDatastore())`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`other := &peer.Peer{ID: peer.ID("other_peer")}`
			`d.Update(other)`

			`// This one should time out`
better query processing (runner) 2014-09-18 19:30:04 -07:00			`// u.POut("Timout Test\n")`
Routing uses context now @perfmode boom 2014-09-21 18:04:43 -07:00			`ctx1, _ := context.WithTimeout(context.Background(), time.Second)`
			`_, err := d.GetValue(ctx1, u.Key("test"))`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`if err != nil {`
better query processing (runner) 2014-09-18 19:30:04 -07:00			`if err != context.DeadlineExceeded {`
			`t.Fatal("Got different error than we expected", err)`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`}`
			`} else {`
			`t.Fatal("Did not get expected error!")`
starting a new testing framework 2014-08-10 21:40:17 -07:00			`}`

better query processing (runner) 2014-09-18 19:30:04 -07:00			`// u.POut("NotFound Test\n")`
more tests and add in table filtering by peer latency 2014-08-11 20:11:23 -07:00			`// Reply with failures to every message`
better query processing (runner) 2014-09-18 19:30:04 -07:00			`fs.AddHandler(func(mes msg.NetMessage) msg.NetMessage {`
tests compile 2014-09-17 10:30:38 -07:00			`pmes := new(Message)`
			`err := proto.Unmarshal(mes.Data(), pmes)`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`if err != nil {`
			`t.Fatal(err)`
			`}`

tests compile 2014-09-17 10:30:38 -07:00			`resp := &Message{`
			`Type: pmes.Type,`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`}`
tests compile 2014-09-17 10:30:38 -07:00			`m, err := msg.FromObject(mes.Peer(), resp)`
			`return m`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`})`

			`// This one should fail with NotFound`
Routing uses context now @perfmode boom 2014-09-21 18:04:43 -07:00			`ctx2, _ := context.WithTimeout(context.Background(), time.Second)`
			`_, err = d.GetValue(ctx2, u.Key("test"))`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`if err != nil {`
			`if err != u.ErrNotFound {`
get implementation according to kademlia spec. 2014-08-15 09:39:38 -07:00			`t.Fatalf("Expected ErrNotFound, got: %s", err)`
add fauxNet to stand in for Swarm in tests to reproduce various network conditions 2014-08-11 09:06:20 -07:00			`}`
			`} else {`
			`t.Fatal("expected error, got none.")`
			`}`
more tests and add in table filtering by peer latency 2014-08-11 20:11:23 -07:00
better query processing (runner) 2014-09-18 19:30:04 -07:00			`fs.handlers = nil`
more tests and add in table filtering by peer latency 2014-08-11 20:11:23 -07:00			`// Now we test this DHT's handleGetValue failure`
tests compile 2014-09-17 10:30:38 -07:00			`typ := Message_GET_VALUE`
			`str := "hello"`
Made routing code pass golint. 2014-08-16 23:48:03 -07:00			`req := Message{`
tests compile 2014-09-17 10:30:38 -07:00			`Type: &typ,`
			`Key: &str,`
more tests and add in table filtering by peer latency 2014-08-11 20:11:23 -07:00			`Value: []byte{0},`
			`}`
tests compile 2014-09-17 10:30:38 -07:00
better query processing (runner) 2014-09-18 19:30:04 -07:00			`// u.POut("handleGetValue Test\n")`
tests compile 2014-09-17 10:30:38 -07:00			`mes, err := msg.FromObject(other, &req)`
			`if err != nil {`
			`t.Error(err)`
			`}`

feat(net:service, routing) remove error return value 2014-09-22 14:04:41 -04:00			`mes = d.HandleMessage(ctx, mes)`
more tests and add in table filtering by peer latency 2014-08-11 20:11:23 -07:00
better query processing (runner) 2014-09-18 19:30:04 -07:00			`pmes := new(Message)`
			`err = proto.Unmarshal(mes.Data(), pmes)`
			`if err != nil {`
			`t.Fatal(err)`
			`}`
			`if pmes.GetValue() != nil {`
			`t.Fatal("shouldnt have value")`
			`}`
			`if pmes.GetCloserPeers() != nil {`
			`t.Fatal("shouldnt have closer peers")`
			`}`
			`if pmes.GetProviderPeers() != nil {`
			`t.Fatal("shouldnt have provider peers")`
			`}`

starting a new testing framework 2014-08-10 21:40:17 -07:00			`}`
add some more tests in 2014-08-19 19:14:52 -07:00
			`// TODO: Maybe put these in some sort of "ipfs_testutil" package`
			`func _randPeer() *peer.Peer {`
			`p := new(peer.Peer)`
			`p.ID = make(peer.ID, 16)`
updated multiaddr use across codebase 2014-10-06 04:13:39 -07:00			`p.Addresses = []ma.Multiaddr{nil}`
add some more tests in 2014-08-19 19:14:52 -07:00			`crand.Read(p.ID)`
			`return p`
			`}`

			`func TestNotFound(t *testing.T) {`
dht tests pass again 2014-09-19 18:11:05 -07:00			`// t.Skip("skipping test because it makes a lot of output")`

dht tests with context 2014-10-18 04:19:12 -07:00			`ctx := context.Background()`
tests compile 2014-09-17 10:30:38 -07:00			`fn := &fauxNet{}`
			`fs := &fauxSender{}`
add some more tests in 2014-08-19 19:14:52 -07:00
			`local := new(peer.Peer)`
			`local.ID = peer.ID("test_peer")`
tests compile 2014-09-17 10:30:38 -07:00			`peerstore := peer.NewPeerstore()`
add some more tests in 2014-08-19 19:14:52 -07:00
dht tests with context 2014-10-18 04:19:12 -07:00			`d := NewDHT(ctx, local, peerstore, fn, fs, ds.NewMapDatastore())`
add some more tests in 2014-08-19 19:14:52 -07:00
			`var ps []*peer.Peer`
			`for i := 0; i < 5; i++ {`
			`ps = append(ps, _randPeer())`
			`d.Update(ps[i])`
			`}`

			`// Reply with random peers to every message`
better query processing (runner) 2014-09-18 19:30:04 -07:00			`fs.AddHandler(func(mes msg.NetMessage) msg.NetMessage {`
tests compile 2014-09-17 10:30:38 -07:00			`pmes := new(Message)`
			`err := proto.Unmarshal(mes.Data(), pmes)`
add some more tests in 2014-08-19 19:14:52 -07:00			`if err != nil {`
			`t.Fatal(err)`
			`}`

			`switch pmes.GetType() {`
tests compile 2014-09-17 10:30:38 -07:00			`case Message_GET_VALUE:`
			`resp := &Message{Type: pmes.Type}`
add some more tests in 2014-08-19 19:14:52 -07:00
tests compile 2014-09-17 10:30:38 -07:00			`peers := []*peer.Peer{}`
add some more tests in 2014-08-19 19:14:52 -07:00			`for i := 0; i < 7; i++ {`
tests compile 2014-09-17 10:30:38 -07:00			`peers = append(peers, _randPeer())`
			`}`
			`resp.CloserPeers = peersToPBPeers(peers)`
			`mes, err := msg.FromObject(mes.Peer(), resp)`
			`if err != nil {`
			`t.Error(err)`
add some more tests in 2014-08-19 19:14:52 -07:00			`}`
tests compile 2014-09-17 10:30:38 -07:00			`return mes`
add some more tests in 2014-08-19 19:14:52 -07:00			`default:`
			`panic("Shouldnt recieve this.")`
			`}`

			`})`

dht tests with context 2014-10-18 04:19:12 -07:00			`ctx, _ = context.WithTimeout(ctx, time.Second*5)`
Routing uses context now @perfmode boom 2014-09-21 18:04:43 -07:00			`v, err := d.GetValue(ctx, u.Key("hello"))`
u.DOut -> log.Debug and other logging switches. I kept the u.PErr and u.POut in cli commands, as those do need to write raw output directly. 2014-10-09 04:48:13 -07:00			`log.Debug("get value got %v", v)`
add some more tests in 2014-08-19 19:14:52 -07:00			`if err != nil {`
			`switch err {`
			`case u.ErrNotFound:`
			`//Success!`
			`return`
			`case u.ErrTimeout:`
			`t.Fatal("Should not have gotten timeout!")`
			`default:`
			`t.Fatalf("Got unexpected error: %s", err)`
			`}`
			`}`
			`t.Fatal("Expected to recieve an error.")`
			`}`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00
			`// If less than K nodes are in the entire network, it should fail when we make`
			`// a GET rpc and nobody has the value`
			`func TestLessThanKResponses(t *testing.T) {`
dht tests pass again 2014-09-19 18:11:05 -07:00			`// t.Skip("skipping test because it makes a lot of output")`

dht tests with context 2014-10-18 04:19:12 -07:00			`ctx := context.Background()`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00			`u.Debug = false`
tests compile 2014-09-17 10:30:38 -07:00			`fn := &fauxNet{}`
			`fs := &fauxSender{}`
			`peerstore := peer.NewPeerstore()`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00			`local := new(peer.Peer)`
			`local.ID = peer.ID("test_peer")`

dht tests with context 2014-10-18 04:19:12 -07:00			`d := NewDHT(ctx, local, peerstore, fn, fs, ds.NewMapDatastore())`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00
			`var ps []*peer.Peer`
			`for i := 0; i < 5; i++ {`
			`ps = append(ps, _randPeer())`
			`d.Update(ps[i])`
			`}`
			`other := _randPeer()`

			`// Reply with random peers to every message`
better query processing (runner) 2014-09-18 19:30:04 -07:00			`fs.AddHandler(func(mes msg.NetMessage) msg.NetMessage {`
tests compile 2014-09-17 10:30:38 -07:00			`pmes := new(Message)`
			`err := proto.Unmarshal(mes.Data(), pmes)`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00			`if err != nil {`
			`t.Fatal(err)`
			`}`

			`switch pmes.GetType() {`
tests compile 2014-09-17 10:30:38 -07:00			`case Message_GET_VALUE:`
			`resp := &Message{`
			`Type: pmes.Type,`
			`CloserPeers: peersToPBPeers([]*peer.Peer{other}),`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00			`}`

tests compile 2014-09-17 10:30:38 -07:00			`mes, err := msg.FromObject(mes.Peer(), resp)`
			`if err != nil {`
			`t.Error(err)`
			`}`
			`return mes`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00			`default:`
			`panic("Shouldnt recieve this.")`
			`}`

			`})`

dht tests with context 2014-10-18 04:19:12 -07:00			`ctx, _ = context.WithTimeout(ctx, time.Second*30)`
Routing uses context now @perfmode boom 2014-09-21 18:04:43 -07:00			`_, err := d.GetValue(ctx, u.Key("hello"))`
add in message type routing to the swarm object. tired, needs cleanup. 2014-08-19 22:05:49 -07:00			`if err != nil {`
			`switch err {`
			`case u.ErrNotFound:`
			`//Success!`
			`return`
			`case u.ErrTimeout:`
			`t.Fatal("Should not have gotten timeout!")`
			`default:`
			`t.Fatalf("Got unexpected error: %s", err)`
			`}`
			`}`
			`t.Fatal("Expected to recieve an error.")`
			`}`