Ejemplo n.º 1
0
func TestTombstoneDeletion(t *testing.T) {
	oldNow := now
	defer func() { now = oldNow }()
	now = func() int64 { return 1234 }

	peername, err := mesh.PeerNameFromString("00:00:00:02:00:00")
	require.Nil(t, err)
	nameserver := makeNameserver(peername)

	err = nameserver.AddEntry("hostname", "containerid", peername, address.Address(0))
	require.Nil(t, err)
	require.Equal(t, []address.Address{0}, nameserver.Lookup("hostname"))

	nameserver.deleteTombstones()
	require.Equal(t, []address.Address{0}, nameserver.Lookup("hostname"))

	err = nameserver.Delete("hostname", "containerid", "", address.Address(0))
	require.Nil(t, err)
	require.Equal(t, []address.Address{}, nameserver.Lookup("hostname"))
	require.Equal(t, l(Entries{Entry{
		ContainerID: "containerid",
		Origin:      peername,
		Addr:        address.Address(0),
		Hostname:    "hostname",
		Version:     1,
		Tombstone:   1234,
	}}), nameserver.entries)

	now = func() int64 { return 1234 + int64(tombstoneTimeout/time.Second) + 1 }
	nameserver.deleteTombstones()
	require.Equal(t, Entries{}, nameserver.entries)
}
Ejemplo n.º 2
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func ExpectMessage(alloc *Allocator, dst string, msgType byte, buf []byte) {
	m := alloc.gossip.(*mockGossipComms)
	dstPeerName, _ := mesh.PeerNameFromString(dst)
	m.Lock()
	m.messages = append(m.messages, mockMessage{dstPeerName, msgType, buf})
	m.Unlock()
}
Ejemplo n.º 3
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// Lookup a PeerName by nickname or stringified PeerName.  We can't
// call into the router for this because we are interested in peers
// that have gone away but are still in the ring, which is why we
// maintain our own nicknames map.
func (alloc *Allocator) lookupPeername(name string) (mesh.PeerName, error) {
	for peername, nickname := range alloc.nicknames {
		if nickname == name {
			return peername, nil
		}
	}

	return mesh.PeerNameFromString(name)
}
Ejemplo n.º 4
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func startServer(t *testing.T, upstream *dns.ClientConfig) (*DNSServer, *Nameserver, int, int) {
	peername, err := mesh.PeerNameFromString("00:00:00:02:00:00")
	require.Nil(t, err)
	nameserver := New(peername, "", func(mesh.PeerName) bool { return true })
	dnsserver, err := NewDNSServer(nameserver, "weave.local.", "0.0.0.0:0", "", 30, 5*time.Second)
	require.Nil(t, err)
	udpPort := dnsserver.servers[0].PacketConn.LocalAddr().(*net.UDPAddr).Port
	tcpPort := dnsserver.servers[1].Listener.Addr().(*net.TCPAddr).Port
	if upstream != nil {
		dnsserver.upstream = upstream
	}
	go dnsserver.ActivateAndServe()
	return dnsserver, nameserver, udpPort, tcpPort
}
Ejemplo n.º 5
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func makeNetwork(size int) ([]*Nameserver, *gossip.TestRouter) {
	gossipRouter := gossip.NewTestRouter(0.0)
	nameservers := make([]*Nameserver, size)

	for i := 0; i < size; i++ {
		name, _ := mesh.PeerNameFromString(fmt.Sprintf("%02d:00:00:02:00:00", i))
		nameserver := makeNameserver(name)
		nameserver.SetGossip(gossipRouter.Connect(nameserver.ourName, nameserver))
		nameserver.Start()
		nameservers[i] = nameserver
	}

	return nameservers, gossipRouter
}
Ejemplo n.º 6
0
func makeAllocator(name string, cidrStr string, quorum uint) (*Allocator, address.Range) {
	peername, err := mesh.PeerNameFromString(name)
	if err != nil {
		panic(err)
	}

	_, cidr, err := address.ParseCIDR(cidrStr)
	if err != nil {
		panic(err)
	}

	alloc := NewAllocator(peername, mesh.PeerUID(rand.Int63()),
		"nick-"+name, cidr.Range(), quorum, func(mesh.PeerName) bool { return true })

	return alloc, cidr.HostRange()
}
Ejemplo n.º 7
0
func TestContainerAndPeerDeath(t *testing.T) {
	peername, err := mesh.PeerNameFromString("00:00:00:02:00:00")
	require.Nil(t, err)
	nameserver := makeNameserver(peername)

	err = nameserver.AddEntry("hostname", "containerid", peername, address.Address(0))
	require.Nil(t, err)
	require.Equal(t, []address.Address{0}, nameserver.Lookup("hostname"))

	nameserver.ContainerDied("containerid")
	require.Equal(t, []address.Address{}, nameserver.Lookup("hostname"))

	err = nameserver.AddEntry("hostname", "containerid", peername, address.Address(0))
	require.Nil(t, err)
	require.Equal(t, []address.Address{0}, nameserver.Lookup("hostname"))

	nameserver.PeerGone(peername)
	require.Equal(t, []address.Address{}, nameserver.Lookup("hostname"))
}
Ejemplo n.º 8
0
func TestFuzzRingHard(t *testing.T) {
	//common.SetLogLevel("debug")
	var (
		numPeers   = 100
		iterations = 3000
		peers      []mesh.PeerName
		rings      []*Ring
		nextPeerID = 0
	)

	addPeer := func() {
		peer, _ := mesh.PeerNameFromString(fmt.Sprintf("%02d:%02d:00:00:00:00", nextPeerID/10, nextPeerID%10))
		common.Log.Debugf("%s: Adding peer", peer)
		nextPeerID++
		peers = append(peers, peer)
		rings = append(rings, New(start, end, peer))
	}

	for i := 0; i < numPeers; i++ {
		addPeer()
	}

	rings[0].ClaimItAll()

	randomPeer := func(exclude int) (int, mesh.PeerName, *Ring) {
		var peerIndex int
		if exclude >= 0 {
			peerIndex = rand.Intn(len(peers) - 1)
			if peerIndex == exclude {
				peerIndex++
			}
		} else {
			peerIndex = rand.Intn(len(peers))
		}
		return peerIndex, peers[peerIndex], rings[peerIndex]
	}

	// Keep a map of index -> ranges, as these are a little expensive to
	// calculate for every ring on every iteration.
	var theRanges = make(map[int][]address.Range)
	theRanges[0] = rings[0].OwnedRanges()

	addOrRmPeer := func() {
		if len(peers) < numPeers {
			addPeer()
			return
		}

		// Pick one peer to remove, and a different one to transfer to
		peerIndex, peername, _ := randomPeer(-1)
		_, otherPeername, otherRing := randomPeer(peerIndex)

		// We need to be in a ~converged ring to rmpeer
		for _, ring := range rings {
			require.NoError(t, otherRing.Merge(*ring))
		}

		common.Log.Debugf("%s: transferring from peer %s", otherPeername, peername)
		otherRing.Transfer(peername, otherPeername)

		// Remove peer from our state
		peers = append(peers[:peerIndex], peers[peerIndex+1:]...)
		rings = append(rings[:peerIndex], rings[peerIndex+1:]...)
		theRanges = make(map[int][]address.Range)

		// And now tell everyone about the transfer - rmpeer is
		// not partition safe
		for i, ring := range rings {
			require.NoError(t, ring.Merge(*otherRing))
			theRanges[i] = ring.OwnedRanges()
		}
	}

	doGrantOrGossip := func() {
		var ringsWithRanges = make([]int, 0, len(rings))
		for index, ranges := range theRanges {
			if len(ranges) > 0 {
				ringsWithRanges = append(ringsWithRanges, index)
			}
		}

		if len(ringsWithRanges) > 0 {
			// Produce a random split in a random owned range, given to a random peer
			indexWithRanges := ringsWithRanges[rand.Intn(len(ringsWithRanges))]
			ownedRanges := theRanges[indexWithRanges]
			ring := rings[indexWithRanges]

			rangeToSplit := ownedRanges[rand.Intn(len(ownedRanges))]
			size := address.Subtract(rangeToSplit.End, rangeToSplit.Start)
			ipInRange := address.Add(rangeToSplit.Start, address.Offset(rand.Intn(int(size))))
			_, peerToGiveTo, _ := randomPeer(-1)
			common.Log.Debugf("%s: Granting [%v, %v) to %s", ring.Peer, ipInRange, rangeToSplit.End, peerToGiveTo)
			ring.GrantRangeToHost(ipInRange, rangeToSplit.End, peerToGiveTo)

			// Now 'gossip' this to a random host (note, note could be same host as above)
			otherIndex, _, otherRing := randomPeer(-1)
			common.Log.Debugf("%s: 'Gossiping' to %s", ring.Peer, otherRing.Peer)
			require.NoError(t, otherRing.Merge(*ring))

			theRanges[indexWithRanges] = ring.OwnedRanges()
			theRanges[otherIndex] = otherRing.OwnedRanges()
			return
		}

		// No rings think they own anything (as gossip might be behind)
		// We're going to pick a random host (which has entries) and gossip
		// it to a random host (which may or may not have entries).
		var ringsWithEntries = make([]*Ring, 0, len(rings))
		for _, ring := range rings {
			if len(ring.Entries) > 0 {
				ringsWithEntries = append(ringsWithEntries, ring)
			}
		}
		ring1 := ringsWithEntries[rand.Intn(len(ringsWithEntries))]
		ring2index, _, ring2 := randomPeer(-1)
		common.Log.Debugf("%s: 'Gossiping' to %s", ring1.Peer, ring2.Peer)
		require.NoError(t, ring2.Merge(*ring1))
		theRanges[ring2index] = ring2.OwnedRanges()
	}

	for i := 0; i < iterations; i++ {
		// about 1 in 10 times, rmpeer or add host
		n := rand.Intn(10)
		switch {
		case n < 1:
			addOrRmPeer()
		default:
			doGrantOrGossip()
		}
	}
}
Ejemplo n.º 9
0
func TestFuzzRing(t *testing.T) {
	var (
		numPeers   = 25
		iterations = 1000
	)

	peers := make([]mesh.PeerName, numPeers)
	for i := 0; i < numPeers; i++ {
		peer, _ := mesh.PeerNameFromString(fmt.Sprintf("%02d:00:00:00:02:00", i))
		peers[i] = peer
	}

	// Make a valid, random ring
	makeGoodRandomRing := func() *Ring {
		addressSpace := end - start
		numTokens := rand.Intn(int(addressSpace))

		tokenMap := make(map[address.Address]bool)
		for i := 0; i < numTokens; i++ {
			tokenMap[address.Address(rand.Intn(int(addressSpace)))] = true
		}
		var tokens []address.Address
		for token := range tokenMap {
			tokens = append(tokens, token)
		}
		sort.Sort(addressSlice(tokens))

		peer := peers[rand.Intn(len(peers))]
		ring := New(start, end, peer)
		for _, token := range tokens {
			peer = peers[rand.Intn(len(peers))]
			ring.Entries = append(ring.Entries, &entry{Token: start + token, Peer: peer})
		}

		ring.assertInvariants()
		return ring
	}

	for i := 0; i < iterations; i++ {
		// make 2 random rings
		ring1 := makeGoodRandomRing()
		ring2 := makeGoodRandomRing()

		// Merge them - this might fail, we don't care
		// We just want to make sure it doesn't panic
		ring1.Merge(*ring2)

		// Check whats left still passes assertions
		ring1.assertInvariants()
		ring2.assertInvariants()
	}

	// Make an invalid, random ring
	makeBadRandomRing := func() *Ring {
		addressSpace := end - start
		numTokens := rand.Intn(int(addressSpace))
		tokens := make([]address.Address, numTokens)
		for i := 0; i < numTokens; i++ {
			tokens[i] = address.Address(rand.Intn(int(addressSpace)))
		}

		peer := peers[rand.Intn(len(peers))]
		ring := New(start, end, peer)
		for _, token := range tokens {
			peer = peers[rand.Intn(len(peers))]
			ring.Entries = append(ring.Entries, &entry{Token: start + token, Peer: peer})
		}

		return ring
	}

	for i := 0; i < iterations; i++ {
		// make 2 random rings
		ring1 := makeGoodRandomRing()
		ring2 := makeBadRandomRing()

		// Merge them - this might fail, we don't care
		// We just want to make sure it doesn't panic
		ring1.Merge(*ring2)

		// Check whats left still passes assertions
		ring1.assertInvariants()
	}
}
Ejemplo n.º 10
0
import (
	"bytes"
	"fmt"
	"math/rand"
	"sort"
	"testing"

	"github.com/stretchr/testify/require"
	"github.com/weaveworks/weave/common"
	"github.com/weaveworks/weave/mesh"
	"github.com/weaveworks/weave/net/address"
)

var (
	peer1name, _ = mesh.PeerNameFromString("01:00:00:00:02:00")
	peer2name, _ = mesh.PeerNameFromString("02:00:00:00:02:00")
	peer3name, _ = mesh.PeerNameFromString("03:00:00:00:02:00")

	start, end    = ParseIP("10.0.0.0"), ParseIP("10.0.0.255")
	dot10, dot245 = ParseIP("10.0.0.10"), ParseIP("10.0.0.245")
	dot250        = ParseIP("10.0.0.250")
	middle        = ParseIP("10.0.0.128")
)

func ParseIP(s string) address.Address {
	addr, _ := address.ParseIP(s)
	return addr
}

func TestInvariants(t *testing.T) {