Esempio n. 1
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func TestCollector(t *testing.T) {
	window := time.Millisecond
	c := xfer.NewCollector(window)

	r1 := report.MakeReport()
	r1.Endpoint.NodeMetadatas["foo"] = report.MakeNodeMetadata()

	r2 := report.MakeReport()
	r2.Endpoint.NodeMetadatas["bar"] = report.MakeNodeMetadata()

	if want, have := report.MakeReport(), c.Report(); !reflect.DeepEqual(want, have) {
		t.Error(test.Diff(want, have))
	}

	c.Add(r1)
	if want, have := r1, c.Report(); !reflect.DeepEqual(want, have) {
		t.Error(test.Diff(want, have))
	}

	c.Add(r2)

	merged := report.MakeReport()
	merged = merged.Merge(r1)
	merged = merged.Merge(r2)
	if want, have := merged, c.Report(); !reflect.DeepEqual(want, have) {
		t.Error(test.Diff(want, have))
	}
}
Esempio n. 2
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func TestMapHostIdentity(t *testing.T) {
	for _, input := range []testcase{
		{report.MakeNodeMetadata(), true}, // TODO it's questionable if this is actually correct
	} {
		testMap(t, render.MapHostIdentity, input)
	}
}
Esempio n. 3
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func TestMergeRenderableNode(t *testing.T) {
	node1 := render.RenderableNode{
		ID:         "foo",
		LabelMajor: "",
		LabelMinor: "minor",
		Rank:       "",
		Pseudo:     false,
		Adjacency:  report.MakeIDList("a1"),
		Origins:    report.MakeIDList("o1"),
	}
	node2 := render.RenderableNode{
		ID:         "foo",
		LabelMajor: "major",
		LabelMinor: "",
		Rank:       "rank",
		Pseudo:     false,
		Adjacency:  report.MakeIDList("a2"),
		Origins:    report.MakeIDList("o2"),
	}
	want := render.RenderableNode{
		ID:           "foo",
		LabelMajor:   "major",
		LabelMinor:   "minor",
		Rank:         "rank",
		Pseudo:       false,
		Adjacency:    report.MakeIDList("a1", "a2"),
		Origins:      report.MakeIDList("o1", "o2"),
		NodeMetadata: report.MakeNodeMetadata(),
		EdgeMetadata: report.EdgeMetadata{},
	}
	node1.Merge(node2)
	if have := node1; !reflect.DeepEqual(want, have) {
		t.Error(test.Diff(want, have))
	}
}
Esempio n. 4
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func TestFilterRender(t *testing.T) {
	renderer := render.FilterUnconnected(
		mockRenderer{RenderableNodes: render.RenderableNodes{
			"foo": {ID: "foo", Adjacency: report.MakeIDList("bar"), NodeMetadata: report.MakeNodeMetadata()},
			"bar": {ID: "bar", Adjacency: report.MakeIDList("foo"), NodeMetadata: report.MakeNodeMetadata()},
			"baz": {ID: "baz", Adjacency: report.MakeIDList(), NodeMetadata: report.MakeNodeMetadata()},
		}})
	want := render.RenderableNodes{
		"foo": {ID: "foo", Adjacency: report.MakeIDList("bar"), NodeMetadata: report.MakeNodeMetadata()},
		"bar": {ID: "bar", Adjacency: report.MakeIDList("foo"), NodeMetadata: report.MakeNodeMetadata()},
	}
	have := sterilize(renderer.Render(report.MakeReport()), true)
	if !reflect.DeepEqual(want, have) {
		t.Errorf("want %+v, have %+v", want, have)
	}
}
Esempio n. 5
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func TestMapContainerImageIdentity(t *testing.T) {
	for _, input := range []testcase{
		{report.MakeNodeMetadata(), false},
		{report.MakeNodeMetadataWith(map[string]string{docker.ImageID: "a1b2c3"}), true},
	} {
		testMap(t, render.MapContainerImageIdentity, input)
	}
}
Esempio n. 6
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func TestMapAddressIdentity(t *testing.T) {
	for _, input := range []testcase{
		{report.MakeNodeMetadata(), false},
		{report.MakeNodeMetadataWith(map[string]string{endpoint.Addr: "192.168.1.1"}), true},
	} {
		testMap(t, render.MapAddressIdentity, input)
	}
}
Esempio n. 7
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func trimNodeMetadata(rns render.RenderableNodes) render.RenderableNodes {
	result := render.RenderableNodes{}
	for id, rn := range rns {
		rn.NodeMetadata = report.MakeNodeMetadata()
		result[id] = rn
	}
	return result
}
Esempio n. 8
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func TestMapProcessIdentity(t *testing.T) {
	for _, input := range []testcase{
		{report.MakeNodeMetadata(), false},
		{report.MakeNodeMetadataWith(map[string]string{process.PID: "201"}), true},
	} {
		testMap(t, render.MapProcessIdentity, input)
	}
}
Esempio n. 9
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func TestTagMissingID(t *testing.T) {
	const nodeID = "not-found"
	r := report.MakeReport()
	want := report.MakeNodeMetadata()
	rpt, _ := newTopologyTagger().Tag(r)
	have := rpt.Endpoint.NodeMetadatas[nodeID].Copy()
	if !reflect.DeepEqual(want, have) {
		t.Error("TopologyTagger erroneously tagged a missing node ID")
	}
}
Esempio n. 10
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func newPseudoNode(id, major, minor string) RenderableNode {
	return RenderableNode{
		ID:           id,
		LabelMajor:   major,
		LabelMinor:   minor,
		Rank:         "",
		Pseudo:       true,
		EdgeMetadata: report.EdgeMetadata{},
		NodeMetadata: report.MakeNodeMetadata(),
	}
}
Esempio n. 11
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func TestMapEndpointIdentity(t *testing.T) {
	for _, input := range []testcase{
		{report.MakeNodeMetadata(), false},
		{report.MakeNodeMetadataWith(map[string]string{endpoint.Addr: "1.2.3.4"}), false},
		{report.MakeNodeMetadataWith(map[string]string{endpoint.Port: "1234"}), false},
		{report.MakeNodeMetadataWith(map[string]string{endpoint.Addr: "1.2.3.4", endpoint.Port: "1234"}), true},
		{report.MakeNodeMetadataWith(map[string]string{report.HostNodeID: report.MakeHostNodeID("foo"), endpoint.Addr: "10.0.0.1", endpoint.Port: "20001"}), true},
	} {
		testMap(t, render.MapEndpointIdentity, input)
	}
}
Esempio n. 12
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func newDerivedNode(id string, node RenderableNode) RenderableNode {
	return RenderableNode{
		ID:           id,
		LabelMajor:   "",
		LabelMinor:   "",
		Rank:         "",
		Pseudo:       node.Pseudo,
		Origins:      node.Origins.Copy(),
		EdgeMetadata: node.EdgeMetadata.Copy(),
		NodeMetadata: report.MakeNodeMetadata(),
	}
}
Esempio n. 13
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func newDerivedPseudoNode(id, major string, node RenderableNode) RenderableNode {
	return RenderableNode{
		ID:           id,
		LabelMajor:   major,
		LabelMinor:   "",
		Rank:         "",
		Pseudo:       true,
		EdgeMetadata: node.EdgeMetadata,
		Origins:      node.Origins,
		NodeMetadata: report.MakeNodeMetadata(),
	}
}
Esempio n. 14
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func TestLabels(t *testing.T) {
	want := map[string]string{
		"foo1": "bar1",
		"foo2": "bar2",
	}
	nmd := report.MakeNodeMetadata()

	docker.AddLabels(nmd, want)
	have := docker.ExtractLabels(nmd)

	if !reflect.DeepEqual(want, have) {
		t.Error(test.Diff(want, have))
	}
}
Esempio n. 15
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func TestReportLocalNetworks(t *testing.T) {
	r := report.MakeReport()
	r.Merge(report.Report{Host: report.Topology{NodeMetadatas: report.NodeMetadatas{
		"nonets": report.MakeNodeMetadata(),
		"foo":    report.MakeNodeMetadataWith(map[string]string{host.LocalNetworks: "10.0.0.1/8 192.168.1.1/24 10.0.0.1/8 badnet/33"}),
	}}})
	want := report.Networks([]*net.IPNet{
		mustParseCIDR("10.0.0.1/8"),
		mustParseCIDR("192.168.1.1/24"),
	})
	have := render.LocalNetworks(r)
	if !reflect.DeepEqual(want, have) {
		t.Errorf("%s", test.Diff(want, have))
	}
}
Esempio n. 16
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func (r *Reporter) processTopology() (report.Topology, error) {
	t := report.MakeTopology()
	err := r.walker.Walk(func(p Process) {
		pidstr := strconv.Itoa(p.PID)
		nodeID := report.MakeProcessNodeID(r.scope, pidstr)
		t.NodeMetadatas[nodeID] = report.MakeNodeMetadata()
		for _, tuple := range []struct{ key, value string }{
			{PID, pidstr},
			{Comm, p.Comm},
			{Cmdline, p.Cmdline},
			{Threads, strconv.Itoa(p.Threads)},
		} {
			if tuple.value != "" {
				t.NodeMetadatas[nodeID].Metadata[tuple.key] = tuple.value
			}
		}
		if p.PPID > 0 {
			t.NodeMetadatas[nodeID].Metadata[PPID] = strconv.Itoa(p.PPID)
		}
	})

	return t, err
}
Esempio n. 17
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	"github.com/weaveworks/scope/render"
	"github.com/weaveworks/scope/report"
	"github.com/weaveworks/scope/test"
)

// Exported for testing.
var (
	uncontainedServerID  = render.MakePseudoNodeID(render.UncontainedID, test.ServerHostName)
	unknownPseudoNode1ID = render.MakePseudoNodeID("10.10.10.10", test.ServerIP, "80")
	unknownPseudoNode2ID = render.MakePseudoNodeID("10.10.10.11", test.ServerIP, "80")
	unknownPseudoNode1   = func(adjacency report.IDList) render.RenderableNode {
		return render.RenderableNode{
			ID:           unknownPseudoNode1ID,
			LabelMajor:   "10.10.10.10",
			Pseudo:       true,
			NodeMetadata: report.MakeNodeMetadata(),
			EdgeMetadata: report.EdgeMetadata{
				EgressPacketCount: newu64(70),
				EgressByteCount:   newu64(700),
			},
			Adjacency: adjacency,
			Origins: report.MakeIDList(
				test.UnknownClient1NodeID,
				test.UnknownClient2NodeID,
			),
		}
	}
	unknownPseudoNode2 = func(adjacency report.IDList) render.RenderableNode {
		return render.RenderableNode{
			ID:           unknownPseudoNode2ID,
			LabelMajor:   "10.10.10.11",
Esempio n. 18
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func TestMerge(t *testing.T) {
	var (
		hostID = "xyz"
		src    = newMockSource([]byte{}, nil)
		on     = time.Millisecond
		off    = time.Millisecond
		rpt    = report.MakeReport()
		p      = sniff.Packet{
			SrcIP:     "1.0.0.0",
			SrcPort:   "1000",
			DstIP:     "2.0.0.0",
			DstPort:   "2000",
			Network:   512,
			Transport: 256,
		}

		_, ipnet, _ = net.ParseCIDR(p.SrcIP + "/24") // ;)
		localNets   = report.Networks([]*net.IPNet{ipnet})
	)
	sniff.New(hostID, localNets, src, on, off).Merge(p, rpt)

	var (
		srcEndpointNodeID = report.MakeEndpointNodeID(hostID, p.SrcIP, p.SrcPort)
		dstEndpointNodeID = report.MakeEndpointNodeID(hostID, p.DstIP, p.DstPort)
	)
	if want, have := (report.Topology{
		Adjacency: report.Adjacency{
			report.MakeAdjacencyID(srcEndpointNodeID): report.MakeIDList(
				dstEndpointNodeID,
			),
		},
		EdgeMetadatas: report.EdgeMetadatas{
			report.MakeEdgeID(srcEndpointNodeID, dstEndpointNodeID): report.EdgeMetadata{
				EgressPacketCount: newu64(1),
				EgressByteCount:   newu64(256),
			},
		},
		NodeMetadatas: report.NodeMetadatas{
			srcEndpointNodeID: report.MakeNodeMetadata(),
		},
	}), rpt.Endpoint; !reflect.DeepEqual(want, have) {
		t.Errorf("%s", test.Diff(want, have))
	}

	var (
		srcAddressNodeID = report.MakeAddressNodeID(hostID, p.SrcIP)
		dstAddressNodeID = report.MakeAddressNodeID(hostID, p.DstIP)
	)
	if want, have := (report.Topology{
		Adjacency: report.Adjacency{
			report.MakeAdjacencyID(srcAddressNodeID): report.MakeIDList(
				dstAddressNodeID,
			),
		},
		EdgeMetadatas: report.EdgeMetadatas{
			report.MakeEdgeID(srcAddressNodeID, dstAddressNodeID): report.EdgeMetadata{
				EgressPacketCount: newu64(1),
				EgressByteCount:   newu64(512),
			},
		},
		NodeMetadatas: report.NodeMetadatas{
			srcAddressNodeID: report.MakeNodeMetadata(),
		},
	}), rpt.Address; !reflect.DeepEqual(want, have) {
		t.Errorf("%s", test.Diff(want, have))
	}
}