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chaindescriber.go
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/
chaindescriber.go
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package describe
import (
"fmt"
"sort"
"strings"
"github.com/golang/glog"
"github.com/gonum/graph"
"github.com/gonum/graph/encoding/dot"
"github.com/gonum/graph/path"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
utilerrors "k8s.io/apimachinery/pkg/util/errors"
"k8s.io/apimachinery/pkg/util/sets"
osgraph "github.com/openshift/origin/pkg/api/graph"
buildclient "github.com/openshift/origin/pkg/build/generated/internalclientset/typed/build/internalversion"
buildedges "github.com/openshift/origin/pkg/build/graph"
buildanalysis "github.com/openshift/origin/pkg/build/graph/analysis"
buildgraph "github.com/openshift/origin/pkg/build/graph/nodes"
imageapi "github.com/openshift/origin/pkg/image/apis/image"
imagegraph "github.com/openshift/origin/pkg/image/graph/nodes"
dotutil "github.com/openshift/origin/pkg/util/dot"
"github.com/openshift/origin/pkg/util/parallel"
)
// NotFoundErr is returned when the imageStreamTag (ist) of interest cannot
// be found in the graph. This doesn't mean though that the IST does not
// exist. A user may have an image stream without a build configuration
// pointing at it. In that case, the IST of interest simply doesn't have
// other dependant ists
type NotFoundErr string
func (e NotFoundErr) Error() string {
return fmt.Sprintf("couldn't find image stream tag: %q", string(e))
}
// ChainDescriber generates extended information about a chain of
// dependencies of an image stream
type ChainDescriber struct {
c buildclient.BuildConfigsGetter
namespaces sets.String
outputFormat string
namer osgraph.Namer
}
// NewChainDescriber returns a new ChainDescriber
func NewChainDescriber(c buildclient.BuildConfigsGetter, namespaces sets.String, out string) *ChainDescriber {
return &ChainDescriber{c: c, namespaces: namespaces, outputFormat: out, namer: namespacedFormatter{hideNamespace: true}}
}
// MakeGraph will create the graph of all build configurations and the image streams
// they point to via image change triggers in the provided namespace(s)
func (d *ChainDescriber) MakeGraph() (osgraph.Graph, error) {
g := osgraph.New()
loaders := []GraphLoader{}
for namespace := range d.namespaces {
glog.V(4).Infof("Loading build configurations from %q", namespace)
loaders = append(loaders, &bcLoader{namespace: namespace, lister: d.c})
}
loadingFuncs := []func() error{}
for _, loader := range loaders {
loadingFuncs = append(loadingFuncs, loader.Load)
}
if errs := parallel.Run(loadingFuncs...); len(errs) > 0 {
return g, utilerrors.NewAggregate(errs)
}
for _, loader := range loaders {
loader.AddToGraph(g)
}
buildedges.AddAllInputOutputEdges(g)
return g, nil
}
// Describe returns the output of the graph starting from the provided
// image stream tag (name:tag) in namespace. Namespace is needed here
// because image stream tags with the same name can be found across
// different namespaces.
func (d *ChainDescriber) Describe(ist *imageapi.ImageStreamTag, includeInputImages, reverse bool) (string, error) {
g, err := d.MakeGraph()
if err != nil {
return "", err
}
// Retrieve the imageStreamTag node of interest
istNode := g.Find(imagegraph.ImageStreamTagNodeName(ist))
if istNode == nil {
return "", NotFoundErr(fmt.Sprintf("%q", ist.Name))
}
markers := buildanalysis.FindCircularBuilds(g, d.namer)
if len(markers) > 0 {
for _, marker := range markers {
if strings.Contains(marker.Message, ist.Name) {
return marker.Message, nil
}
}
}
buildInputEdgeKinds := []string{buildedges.BuildTriggerImageEdgeKind}
if includeInputImages {
buildInputEdgeKinds = append(buildInputEdgeKinds, buildedges.BuildInputImageEdgeKind)
}
// Partition down to the subgraph containing the imagestreamtag of interest
var partitioned osgraph.Graph
if reverse {
partitioned = partitionReverse(g, istNode, buildInputEdgeKinds)
} else {
partitioned = partition(g, istNode, buildInputEdgeKinds)
}
switch strings.ToLower(d.outputFormat) {
case "dot":
data, err := dot.Marshal(partitioned, dotutil.Quote(ist.Name), "", " ", false)
if err != nil {
return "", err
}
return string(data), nil
case "":
return d.humanReadableOutput(partitioned, d.namer, istNode, reverse), nil
}
return "", fmt.Errorf("unknown specified format %q", d.outputFormat)
}
// partition the graph down to a subgraph starting from the given root
func partition(g osgraph.Graph, root graph.Node, buildInputEdgeKinds []string) osgraph.Graph {
// Filter out all but BuildConfig and ImageStreamTag nodes
nodeFn := osgraph.NodesOfKind(buildgraph.BuildConfigNodeKind, imagegraph.ImageStreamTagNodeKind)
// Filter out all but BuildInputImage and BuildOutput edges
edgeKinds := []string{}
edgeKinds = append(edgeKinds, buildInputEdgeKinds...)
edgeKinds = append(edgeKinds, buildedges.BuildOutputEdgeKind)
edgeFn := osgraph.EdgesOfKind(edgeKinds...)
sub := g.Subgraph(nodeFn, edgeFn)
// Filter out inbound edges to the IST of interest
edgeFn = osgraph.RemoveInboundEdges([]graph.Node{root})
sub = sub.Subgraph(nodeFn, edgeFn)
// Check all paths leading from the root node, collect any
// node found in them, and create the desired subgraph
desired := []graph.Node{root}
paths := path.DijkstraAllPaths(sub)
for _, node := range sub.Nodes() {
if node == root {
continue
}
path, _, _ := paths.Between(root, node)
if len(path) != 0 {
desired = append(desired, node)
}
}
return sub.SubgraphWithNodes(desired, osgraph.ExistingDirectEdge)
}
// partitionReverse the graph down to a subgraph starting from the given root
func partitionReverse(g osgraph.Graph, root graph.Node, buildInputEdgeKinds []string) osgraph.Graph {
// Filter out all but BuildConfig and ImageStreamTag nodes
nodeFn := osgraph.NodesOfKind(buildgraph.BuildConfigNodeKind, imagegraph.ImageStreamTagNodeKind)
// Filter out all but BuildInputImage and BuildOutput edges
edgeKinds := []string{}
edgeKinds = append(edgeKinds, buildInputEdgeKinds...)
edgeKinds = append(edgeKinds, buildedges.BuildOutputEdgeKind)
edgeFn := osgraph.EdgesOfKind(edgeKinds...)
sub := g.Subgraph(nodeFn, edgeFn)
// Filter out inbound edges to the IST of interest
edgeFn = osgraph.RemoveOutboundEdges([]graph.Node{root})
sub = sub.Subgraph(nodeFn, edgeFn)
// Check all paths leading from the root node, collect any
// node found in them, and create the desired subgraph
desired := []graph.Node{root}
paths := path.DijkstraAllPaths(sub)
for _, node := range sub.Nodes() {
if node == root {
continue
}
path, _, _ := paths.Between(node, root)
if len(path) != 0 {
desired = append(desired, node)
}
}
return sub.SubgraphWithNodes(desired, osgraph.ExistingDirectEdge)
}
// humanReadableOutput traverses the provided graph using DFS and outputs it
// in a human-readable format. It starts from the provided root, assuming it
// is an imageStreamTag node and continues to the rest of the graph handling
// only imageStreamTag and buildConfig nodes.
func (d *ChainDescriber) humanReadableOutput(g osgraph.Graph, f osgraph.Namer, root graph.Node, reverse bool) string {
if reverse {
g = g.EdgeSubgraph(osgraph.ReverseExistingDirectEdge)
}
var singleNamespace bool
if len(d.namespaces) == 1 && !d.namespaces.Has(metav1.NamespaceAll) {
singleNamespace = true
}
depth := map[graph.Node]int{
root: 0,
}
out := ""
dfs := &DepthFirst{
Visit: func(u, v graph.Node) {
depth[v] = depth[u] + 1
},
}
until := func(node graph.Node) bool {
var info string
switch t := node.(type) {
case *imagegraph.ImageStreamTagNode:
info = outputHelper(f.ResourceName(t), t.Namespace, singleNamespace)
case *buildgraph.BuildConfigNode:
info = outputHelper(f.ResourceName(t), t.BuildConfig.Namespace, singleNamespace)
default:
panic("this graph contains node kinds other than imageStreamTags and buildConfigs")
}
if depth[node] != 0 {
out += "\n"
}
out += fmt.Sprintf("%s", strings.Repeat("\t", depth[node]))
out += fmt.Sprintf("%s", info)
return false
}
dfs.Walk(g, root, until)
return out
}
// outputHelper returns resource/name in a single namespace, <namespace resource/name>
// in multiple namespaces
func outputHelper(info, namespace string, singleNamespace bool) string {
if singleNamespace {
return info
}
return fmt.Sprintf("<%s %s>", namespace, info)
}
// DepthFirst implements stateful depth-first graph traversal.
// Modifies behavior of visitor.DepthFirst to allow nodes to be visited multiple
// times as long as they're not in the current stack
type DepthFirst struct {
EdgeFilter func(graph.Edge) bool
Visit func(u, v graph.Node)
stack NodeStack
}
// Walk performs a depth-first traversal of the graph g starting from the given node
func (d *DepthFirst) Walk(g graph.Graph, from graph.Node, until func(graph.Node) bool) graph.Node {
return d.visit(g, from, until)
}
func (d *DepthFirst) visit(g graph.Graph, t graph.Node, until func(graph.Node) bool) graph.Node {
if until != nil && until(t) {
return t
}
d.stack.Push(t)
children := osgraph.ByID(g.From(t))
sort.Sort(children)
for _, n := range children {
if d.EdgeFilter != nil && !d.EdgeFilter(g.Edge(t, n)) {
continue
}
if d.visited(n.ID()) {
continue
}
if d.Visit != nil {
d.Visit(t, n)
}
result := d.visit(g, n, until)
if result != nil {
return result
}
}
d.stack.Pop()
return nil
}
func (d *DepthFirst) visited(id int) bool {
for _, n := range d.stack {
if n.ID() == id {
return true
}
}
return false
}
// NodeStack implements a LIFO stack of graph.Node.
// NodeStack is internal only in go 1.5.
type NodeStack []graph.Node
// Len returns the number of graph.Nodes on the stack.
func (s *NodeStack) Len() int { return len(*s) }
// Pop returns the last graph.Node on the stack and removes it
// from the stack.
func (s *NodeStack) Pop() graph.Node {
v := *s
v, n := v[:len(v)-1], v[len(v)-1]
*s = v
return n
}
// Push adds the node n to the stack at the last position.
func (s *NodeStack) Push(n graph.Node) { *s = append(*s, n) }