tools/compliance/policy_walk.go - platform/build - Git at Google

 // Copyright 2021 Google LLC
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package compliance

 // EdgeContextProvider is an interface for injecting edge-specific context
 // into walk paths.
 type EdgeContextProvider interface {
 	// Context returns the context for `edge` when added to `path`.
 	Context(lg *LicenseGraph, path TargetEdgePath, edge *TargetEdge) interface{}
 }

 // NoEdgeContext implements EdgeContextProvider for walks that use no context.
 type NoEdgeContext struct{}

 // Context returns nil.
 func (ctx NoEdgeContext) Context(lg *LicenseGraph, path TargetEdgePath, edge *TargetEdge) interface{} {
 	return nil
 }

 // ApplicableConditionsContext provides the subset of conditions in `universe`
 // that apply to each edge in a path.
 type ApplicableConditionsContext struct {
 	universe LicenseConditionSet
 }

 // Context returns the LicenseConditionSet applicable to the edge.
 func (ctx ApplicableConditionsContext) Context(lg *LicenseGraph, path TargetEdgePath, edge *TargetEdge) interface{} {
 	universe := ctx.universe
 	if len(path) > 0 {
 		universe = path[len(path)-1].ctx.(LicenseConditionSet)
 	}
 	return conditionsAttachingAcrossEdge(lg, edge, universe)
 }

 // VisitNode is called for each root and for each walked dependency node by
 // WalkTopDown and WalkTopDownBreadthFirst. When VisitNode returns true, WalkTopDown will proceed to walk
 // down the dependences of the node
 type VisitNode func(lg *LicenseGraph, target *TargetNode, path TargetEdgePath) bool

 // WalkTopDown does a top-down walk of `lg` calling `visit` and descending
 // into depenencies when `visit` returns true.
 func WalkTopDown(ctx EdgeContextProvider, lg *LicenseGraph, visit VisitNode) {
 	path := NewTargetEdgePath(32)

 	var walk func(fnode *TargetNode)
 	walk = func(fnode *TargetNode) {
 		visitChildren := visit(lg, fnode, *path)
 		if !visitChildren {
 			return
 		}
 		for _, edge := range fnode.edges {
 			var edgeContext interface{}
 			if ctx == nil {
 				edgeContext = nil
 			} else {
 				edgeContext = ctx.Context(lg, *path, edge)
 			}
 			path.Push(edge, edgeContext)
 			walk(edge.dependency)
 			path.Pop()
 		}
 	}

 	for _, r := range lg.rootFiles {
 		path.Clear()
 		walk(lg.targets[r])
 	}
 }

 // WalkTopDownBreadthFirst performs a Breadth-first top down walk of `lg` calling `visit` and descending
 // into depenencies when `visit` returns true.
 func WalkTopDownBreadthFirst(ctx EdgeContextProvider, lg *LicenseGraph, visit VisitNode) {
 	path := NewTargetEdgePath(32)

 	var walk func(fnode *TargetNode)
 	walk = func(fnode *TargetNode) {
 		edgesToWalk := make(TargetEdgeList, 0, len(fnode.edges))
 		for _, edge := range fnode.edges {
 			var edgeContext interface{}
 			if ctx == nil {
 				edgeContext = nil
 			} else {
 				edgeContext = ctx.Context(lg, *path, edge)
 			}
 			path.Push(edge, edgeContext)
 			if visit(lg, edge.dependency, *path){
 				edgesToWalk = append(edgesToWalk, edge)
 			}
 			path.Pop()
 		}

 		for _, edge := range(edgesToWalk) {
 			var edgeContext interface{}
 			if ctx == nil {
 				edgeContext = nil
 			} else {
 				edgeContext = ctx.Context(lg, *path, edge)
 			}
 			path.Push(edge, edgeContext)
 			walk(edge.dependency)
 			path.Pop()
 		}
 	}

 	path.Clear()
 	rootsToWalk := make([]*TargetNode, 0, len(lg.rootFiles))
 	for _, r := range lg.rootFiles {
 		if visit(lg, lg.targets[r], *path){
 			rootsToWalk = append(rootsToWalk, lg.targets[r])
 		}
 	}

 	for _, rnode := range(rootsToWalk) {
 		walk(rnode)
 	}
 }

 // resolutionKey identifies results from walking a specific target for a
 // specific set of conditions.
 type resolutionKey struct {
 	target *TargetNode
 	cs     LicenseConditionSet
 }

 // WalkResolutionsForCondition performs a top-down walk of the LicenseGraph
 // resolving all distributed works for `conditions`.
 func WalkResolutionsForCondition(lg *LicenseGraph, conditions LicenseConditionSet) ResolutionSet {
 	shipped := ShippedNodes(lg)

 	// rmap maps 'attachesTo' targets to the `actsOn` targets and applicable conditions
 	rmap := make(map[resolutionKey]ActionSet)

 	// cmap identifies previously walked target/condition pairs.
 	cmap := make(map[resolutionKey]struct{})

 	// result accumulates the resolutions to return.
 	result := make(ResolutionSet)
 	WalkTopDown(ApplicableConditionsContext{conditions}, lg, func(lg *LicenseGraph, tn *TargetNode, path TargetEdgePath) bool {
 		universe := conditions
 		if len(path) > 0 {
 			universe = path[len(path)-1].ctx.(LicenseConditionSet)
 		}

 		if universe.IsEmpty() {
 			return false
 		}
 		key := resolutionKey{tn, universe}

 		if _, alreadyWalked := cmap[key]; alreadyWalked {
 			pure := true
 			for _, p := range path {
 				target := p.Target()
 				tkey := resolutionKey{target, universe}
 				if _, ok := rmap[tkey]; !ok {
 					rmap[tkey] = make(ActionSet)
 				}
 				// attach prior walk outcome to ancestor
 				for actsOn, cs := range rmap[key] {
 					rmap[tkey][actsOn] = cs
 				}
 				// if prior walk produced results, copy results
 				// to ancestor.
 				if _, ok := result[tn]; ok && pure {
 					if _, ok := result[target]; !ok {
 						result[target] = make(ActionSet)
 					}
 					for actsOn, cs := range result[tn] {
 						result[target][actsOn] = cs
 					}
 					pure = target.IsContainer()
 				}
 			}
 			// if all ancestors are pure aggregates, attach
 			// matching prior walk conditions to self. Prior walk
 			// will not have done so if any ancestor was not an
 			// aggregate.
 			if pure {
 				match := rmap[key][tn].Intersection(universe)
 				if !match.IsEmpty() {
 					if _, ok := result[tn]; !ok {
 						result[tn] = make(ActionSet)
 					}
 					result[tn][tn] = match
 				}
 			}
 			return false
 		}
 		// no need to walk node or dependencies if not shipped
 		if !shipped.Contains(tn) {
 			return false
 		}
 		if _, ok := rmap[key]; !ok {
 			rmap[key] = make(ActionSet)
 		}
 		// add self to walk outcome
 		rmap[key][tn] = tn.resolution
 		cmap[key] = struct{}{}
 		cs := tn.resolution
 		if !cs.IsEmpty() {
 			cs = cs.Intersection(universe)
 			pure := true
 			for _, p := range path {
 				target := p.Target()
 				tkey := resolutionKey{target, universe}
 				if _, ok := rmap[tkey]; !ok {
 					rmap[tkey] = make(ActionSet)
 				}
 				// copy current node's action into ancestor
 				rmap[tkey][tn] = tn.resolution
 				// conditionally put matching conditions into
 				// result
 				if pure && !cs.IsEmpty() {
 					if _, ok := result[target]; !ok {
 						result[target] = make(ActionSet)
 					}
 					result[target][tn] = cs
 					pure = target.IsContainer()
 				}
 			}
 			// if all ancestors are pure aggregates, attach
 			// matching conditions to self.
 			if pure && !cs.IsEmpty() {
 				if _, ok := result[tn]; !ok {
 					result[tn] = make(ActionSet)
 				}
 				result[tn][tn] = cs
 			}
 		}
 		return true
 	})

 	return result
 }

 // WalkActionsForCondition performs a top-down walk of the LicenseGraph
 // resolving all distributed works for `conditions`.
 func WalkActionsForCondition(lg *LicenseGraph, conditions LicenseConditionSet) ActionSet {
 	// amap maps 'actsOn' targets to the applicable conditions
 	//
 	// amap is the resulting ActionSet
 	amap := make(ActionSet)

 	for tn := range ShippedNodes(lg) {
 		if cs := conditions.Intersection(tn.resolution); !cs.IsEmpty() {
 			amap[tn] = cs
 		}
 	}

 	return amap
 }
	// Copyright 2021 Google LLC
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package compliance

	// EdgeContextProvider is an interface for injecting edge-specific context
	// into walk paths.
	type EdgeContextProvider interface {
	// Context returns the context for `edge` when added to `path`.
	Context(lg LicenseGraph, path TargetEdgePath, edge TargetEdge) interface{}
	}

	// NoEdgeContext implements EdgeContextProvider for walks that use no context.
	type NoEdgeContext struct{}

	// Context returns nil.
	func (ctx NoEdgeContext) Context(lg LicenseGraph, path TargetEdgePath, edge TargetEdge) interface{} {
	return nil
	}

	// ApplicableConditionsContext provides the subset of conditions in `universe`
	// that apply to each edge in a path.
	type ApplicableConditionsContext struct {
	universe LicenseConditionSet
	}

	// Context returns the LicenseConditionSet applicable to the edge.
	func (ctx ApplicableConditionsContext) Context(lg LicenseGraph, path TargetEdgePath, edge TargetEdge) interface{} {
	universe := ctx.universe
	if len(path) > 0 {
	universe = path[len(path)-1].ctx.(LicenseConditionSet)
	}
	return conditionsAttachingAcrossEdge(lg, edge, universe)
	}

	// VisitNode is called for each root and for each walked dependency node by
	// WalkTopDown and WalkTopDownBreadthFirst. When VisitNode returns true, WalkTopDown will proceed to walk
	// down the dependences of the node
	type VisitNode func(lg LicenseGraph, target TargetNode, path TargetEdgePath) bool

	// WalkTopDown does a top-down walk of `lg` calling `visit` and descending
	// into depenencies when `visit` returns true.
	func WalkTopDown(ctx EdgeContextProvider, lg *LicenseGraph, visit VisitNode) {
	path := NewTargetEdgePath(32)

	var walk func(fnode *TargetNode)
	walk = func(fnode *TargetNode) {
	visitChildren := visit(lg, fnode, *path)
	if !visitChildren {
	return
	}
	for _, edge := range fnode.edges {
	var edgeContext interface{}
	if ctx == nil {
	edgeContext = nil
	} else {
	edgeContext = ctx.Context(lg, *path, edge)
	}
	path.Push(edge, edgeContext)
	walk(edge.dependency)
	path.Pop()
	}
	}

	for _, r := range lg.rootFiles {
	path.Clear()
	walk(lg.targets[r])
	}
	}

	// WalkTopDownBreadthFirst performs a Breadth-first top down walk of `lg` calling `visit` and descending
	// into depenencies when `visit` returns true.
	func WalkTopDownBreadthFirst(ctx EdgeContextProvider, lg *LicenseGraph, visit VisitNode) {
	path := NewTargetEdgePath(32)

	var walk func(fnode *TargetNode)
	walk = func(fnode *TargetNode) {
	edgesToWalk := make(TargetEdgeList, 0, len(fnode.edges))
	for _, edge := range fnode.edges {
	var edgeContext interface{}
	if ctx == nil {
	edgeContext = nil
	} else {
	edgeContext = ctx.Context(lg, *path, edge)
	}
	path.Push(edge, edgeContext)
	if visit(lg, edge.dependency, *path){
	edgesToWalk = append(edgesToWalk, edge)
	}
	path.Pop()
	}

	for _, edge := range(edgesToWalk) {
	var edgeContext interface{}
	if ctx == nil {
	edgeContext = nil
	} else {
	edgeContext = ctx.Context(lg, *path, edge)
	}
	path.Push(edge, edgeContext)
	walk(edge.dependency)
	path.Pop()
	}
	}

	path.Clear()
	rootsToWalk := make([]*TargetNode, 0, len(lg.rootFiles))
	for _, r := range lg.rootFiles {
	if visit(lg, lg.targets[r], *path){
	rootsToWalk = append(rootsToWalk, lg.targets[r])
	}
	}

	for _, rnode := range(rootsToWalk) {
	walk(rnode)
	}
	}

	// resolutionKey identifies results from walking a specific target for a
	// specific set of conditions.
	type resolutionKey struct {
	target *TargetNode
	cs LicenseConditionSet
	}

	// WalkResolutionsForCondition performs a top-down walk of the LicenseGraph
	// resolving all distributed works for `conditions`.
	func WalkResolutionsForCondition(lg *LicenseGraph, conditions LicenseConditionSet) ResolutionSet {
	shipped := ShippedNodes(lg)

	// rmap maps 'attachesTo' targets to the `actsOn` targets and applicable conditions
	rmap := make(map[resolutionKey]ActionSet)

	// cmap identifies previously walked target/condition pairs.
	cmap := make(map[resolutionKey]struct{})

	// result accumulates the resolutions to return.
	result := make(ResolutionSet)
	WalkTopDown(ApplicableConditionsContext{conditions}, lg, func(lg LicenseGraph, tn TargetNode, path TargetEdgePath) bool {
	universe := conditions
	if len(path) > 0 {
	universe = path[len(path)-1].ctx.(LicenseConditionSet)
	}

	if universe.IsEmpty() {
	return false
	}
	key := resolutionKey{tn, universe}

	if _, alreadyWalked := cmap[key]; alreadyWalked {
	pure := true
	for _, p := range path {
	target := p.Target()
	tkey := resolutionKey{target, universe}
	if _, ok := rmap[tkey]; !ok {
	rmap[tkey] = make(ActionSet)
	}
	// attach prior walk outcome to ancestor
	for actsOn, cs := range rmap[key] {
	rmap[tkey][actsOn] = cs
	}
	// if prior walk produced results, copy results
	// to ancestor.
	if _, ok := result[tn]; ok && pure {
	if _, ok := result[target]; !ok {
	result[target] = make(ActionSet)
	}
	for actsOn, cs := range result[tn] {
	result[target][actsOn] = cs
	}
	pure = target.IsContainer()
	}
	}
	// if all ancestors are pure aggregates, attach
	// matching prior walk conditions to self. Prior walk
	// will not have done so if any ancestor was not an
	// aggregate.
	if pure {
	match := rmap[key][tn].Intersection(universe)
	if !match.IsEmpty() {
	if _, ok := result[tn]; !ok {
	result[tn] = make(ActionSet)
	}
	result[tn][tn] = match
	}
	}
	return false
	}
	// no need to walk node or dependencies if not shipped
	if !shipped.Contains(tn) {
	return false
	}
	if _, ok := rmap[key]; !ok {
	rmap[key] = make(ActionSet)
	}
	// add self to walk outcome
	rmap[key][tn] = tn.resolution
	cmap[key] = struct{}{}
	cs := tn.resolution
	if !cs.IsEmpty() {
	cs = cs.Intersection(universe)
	pure := true
	for _, p := range path {
	target := p.Target()
	tkey := resolutionKey{target, universe}
	if _, ok := rmap[tkey]; !ok {
	rmap[tkey] = make(ActionSet)
	}
	// copy current node's action into ancestor
	rmap[tkey][tn] = tn.resolution
	// conditionally put matching conditions into
	// result
	if pure && !cs.IsEmpty() {
	if _, ok := result[target]; !ok {
	result[target] = make(ActionSet)
	}
	result[target][tn] = cs
	pure = target.IsContainer()
	}
	}
	// if all ancestors are pure aggregates, attach
	// matching conditions to self.
	if pure && !cs.IsEmpty() {
	if _, ok := result[tn]; !ok {
	result[tn] = make(ActionSet)
	}
	result[tn][tn] = cs
	}
	}
	return true
	})

	return result
	}

	// WalkActionsForCondition performs a top-down walk of the LicenseGraph
	// resolving all distributed works for `conditions`.
	func WalkActionsForCondition(lg *LicenseGraph, conditions LicenseConditionSet) ActionSet {
	// amap maps 'actsOn' targets to the applicable conditions
	//
	// amap is the resulting ActionSet
	amap := make(ActionSet)

	for tn := range ShippedNodes(lg) {
	if cs := conditions.Intersection(tn.resolution); !cs.IsEmpty() {
	amap[tn] = cs
	}
	}

	return amap
	}