Пример #1
0
func findBuildInputs(g osgraph.Graph, n graph.Node, covered osgraph.NodeSet) (base ImageTagLocation, source SourceLocation, err error) {
	// find inputs to the build
	for _, input := range g.Neighbors(n) {
		switch g.EdgeKind(g.EdgeBetween(n, input)) {
		case buildedges.BuildInputEdgeKind:
			if source != nil {
				// report this as an error (unexpected duplicate source)
			}
			covered.Add(input.ID())
			source = input.(SourceLocation)
		case buildedges.BuildInputImageEdgeKind:
			if base != nil {
				// report this as an error (unexpected duplicate input build)
			}
			covered.Add(input.ID())
			base = input.(ImageTagLocation)
		}
	}
	return
}
Пример #2
0
// ImagePipelineFromNode attempts to locate a build flow from the provided node. If no such
// build flow can be located, false is returned.
func ImagePipelineFromNode(g osgraph.Graph, n graph.Node, covered osgraph.NodeSet) (ImagePipeline, bool) {
	flow := ImagePipeline{}
	switch node := n.(type) {

	case *buildgraph.BuildConfigNode:
		covered.Add(n.ID())
		base, src, _ := findBuildInputs(g, n, covered)
		flow.Build = node
		flow.BaseImage = base
		flow.Source = src
		return flow, true

	case ImageTagLocation:
		covered.Add(n.ID())
		flow.Image = node
		for _, input := range g.Neighbors(n) {
			switch g.EdgeKind(g.EdgeBetween(n, input)) {
			case buildedges.BuildOutputEdgeKind:
				covered.Add(input.ID())
				build := input.(*buildgraph.BuildConfigNode)
				if flow.Build != nil {
					// report this as an error (unexpected duplicate input build)
				}
				if build.BuildConfig == nil {
					// report this as as a missing build / broken link
					break
				}
				base, src, _ := findBuildInputs(g, input, covered)
				flow.Build = build
				flow.BaseImage = base
				flow.Source = src
			}
		}
		return flow, true

	default:
		return flow, false
	}
}
Пример #3
0
// DeploymentPipelines returns a map of DeploymentConfigs to the deployment flows that create them,
// extracted from the provided Graph.
func DeploymentPipelines(g osgraph.Graph) (DeploymentPipelineMap, osgraph.NodeSet) {
	covered := make(osgraph.NodeSet)
	g = g.EdgeSubgraph(osgraph.ReverseGraphEdge)
	flows := make(DeploymentPipelineMap)
	for _, node := range g.NodeList() {
		switch t := node.(type) {
		case *deploygraph.DeploymentConfigNode:
			covered.Add(t.ID())
			images := []ImagePipeline{}
			for _, n := range g.Neighbors(node) {
				// find incoming image edges only
				switch g.EdgeKind(g.EdgeBetween(node, n)) {
				case deployedges.TriggersDeploymentEdgeKind, deployedges.UsedInDeploymentEdgeKind:
					if flow, ok := ImagePipelineFromNode(g, n, covered); ok {
						images = append(images, flow)
					}
				}
			}

			output := []ImagePipeline{}

			// ensure the list of images is ordered the same as what is in the template
			if template := t.DeploymentConfig.Template.ControllerTemplate.Template; template != nil {
				deployedges.EachTemplateImage(
					&template.Spec,
					deployedges.DeploymentConfigHasTrigger(t.DeploymentConfig),
					func(image deployedges.TemplateImage, err error) {
						if err != nil {
							return
						}
						for i := range images {
							switch t := images[i].Image.(type) {
							case *imagegraph.ImageStreamTagNode:
								if image.Ref != nil {
									continue
								}
								from := image.From
								if t.ImageStream.Name != from.Name || t.ImageStream.Namespace != from.Namespace {
									continue
								}
								output = append(output, images[i])
								return
							case *imagegraph.DockerImageRepositoryNode:
								if image.From != nil {
									continue
								}
								ref1, ref2 := t.Ref.Minimal(), image.Ref.DockerClientDefaults().Minimal()
								if ref1 != ref2 {
									continue
								}
								output = append(output, images[i])
								return
							}
						}
					},
				)
			}
			flows[t] = output
		}
	}
	return flows, covered
}