tools/compliance/policy_resolve.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

 import (
 	"sync"
 )

 var (
 	// AllResolutions is a TraceConditions function that resolves all
 	// unfiltered license conditions.
 	AllResolutions = TraceConditions(func(tn *TargetNode) LicenseConditionSet { return tn.licenseConditions })
 )

 // TraceConditions is a function that returns the conditions to trace for each
 // target node `tn`.
 type TraceConditions func(tn *TargetNode) LicenseConditionSet

 // ResolveBottomUpConditions performs a bottom-up walk of the LicenseGraph
 // propagating conditions up the graph as necessary according to the properties
 // of each edge and according to each license condition in question.
 //
 // e.g. if a "restricted" condition applies to a binary, it also applies to all
 // of the statically-linked libraries and the transitive closure of their static
 // dependencies; even if neither they nor the transitive closure of their
 // dependencies originate any "restricted" conditions. The bottom-up walk will
 // not resolve the library and its transitive closure, but the later top-down
 // walk will.
 func ResolveBottomUpConditions(lg *LicenseGraph) {
 	TraceBottomUpConditions(lg, AllResolutions)
 }

 // TraceBottomUpConditions performs a bottom-up walk of the LicenseGraph
 // propagating trace conditions from `conditionsFn` up the graph as necessary
 // according to the properties of each edge and according to each license
 // condition in question.
 func TraceBottomUpConditions(lg *LicenseGraph, conditionsFn TraceConditions) {

 	// short-cut if already walked and cached
 	lg.mu.Lock()
 	wg := lg.wgBU

 	if wg != nil {
 		lg.mu.Unlock()
 		wg.Wait()
 		return
 	}
 	wg = &sync.WaitGroup{}
 	wg.Add(1)
 	lg.wgBU = wg
 	lg.mu.Unlock()

 	// amap identifes targets previously walked. (guarded by mu)
 	amap := make(map[*TargetNode]struct{})

 	// cmap identifies targets previously walked as pure aggregates. i.e. as containers
 	// (guarded by mu)
 	cmap := make(map[*TargetNode]struct{})
 	var mu sync.Mutex

 	var walk func(target *TargetNode, treatAsAggregate bool) LicenseConditionSet

 	walk = func(target *TargetNode, treatAsAggregate bool) LicenseConditionSet {
 		priorWalkResults := func() (LicenseConditionSet, bool) {
 			mu.Lock()
 			defer mu.Unlock()

 			if _, alreadyWalked := amap[target]; alreadyWalked {
 				if treatAsAggregate {
 					return target.resolution, true
 				}
 				if _, asAggregate := cmap[target]; !asAggregate {
 					return target.resolution, true
 				}
 				// previously walked in a pure aggregate context,
 				// needs to walk again in non-aggregate context
 				delete(cmap, target)
 			} else {
 				target.resolution |= conditionsFn(target)
 				amap[target] = struct{}{}
 			}
 			if treatAsAggregate {
 				cmap[target] = struct{}{}
 			}
 			return target.resolution, false
 		}
 		cs, alreadyWalked := priorWalkResults()
 		if alreadyWalked {
 			return cs
 		}

 		c := make(chan LicenseConditionSet, len(target.edges))
 		// add all the conditions from all the dependencies
 		for _, edge := range target.edges {
 			go func(edge *TargetEdge) {
 				// walk dependency to get its conditions
 				cs := walk(edge.dependency, treatAsAggregate && edge.dependency.IsContainer())

 				// turn those into the conditions that apply to the target
 				cs = depConditionsPropagatingToTarget(lg, edge, cs, treatAsAggregate)

 				c <- cs
 			}(edge)
 		}
 		for i := 0; i < len(target.edges); i++ {
 			cs |= <-c
 		}
 		mu.Lock()
 		target.resolution |= cs
 		mu.Unlock()

 		// return conditions up the tree
 		return cs
 	}

 	// walk each of the roots
 	for _, rname := range lg.rootFiles {
 		rnode := lg.targets[rname]
 		_ = walk(rnode, rnode.IsContainer())
 	}

 	wg.Done()
 }

 // ResolveTopDownCondtions performs a top-down walk of the LicenseGraph
 // propagating conditions from target to dependency.
 //
 // e.g. For current policy, none of the conditions propagate from target to
 // dependency except restricted. For restricted, the policy is to share the
 // source of any libraries linked to restricted code and to provide notice.
 func ResolveTopDownConditions(lg *LicenseGraph) {
 	TraceTopDownConditions(lg, AllResolutions)
 }

 // TraceTopDownCondtions performs a top-down walk of the LicenseGraph
 // propagating trace conditions returned by `conditionsFn` from target to
 // dependency.
 func TraceTopDownConditions(lg *LicenseGraph, conditionsFn TraceConditions) {

 	// short-cut if already walked and cached
 	lg.mu.Lock()
 	wg := lg.wgTD

 	if wg != nil {
 		lg.mu.Unlock()
 		wg.Wait()
 		return
 	}
 	wg = &sync.WaitGroup{}
 	wg.Add(1)
 	lg.wgTD = wg
 	lg.mu.Unlock()

 	// start with the conditions propagated up the graph
 	TraceBottomUpConditions(lg, conditionsFn)

 	// amap contains the set of targets already walked. (guarded by mu)
 	amap := make(map[*TargetNode]struct{})

 	// cmap contains the set of targets walked as pure aggregates. i.e. containers
 	// (guarded by mu)
 	cmap := make(map[*TargetNode]struct{})

 	// mu guards concurrent access to cmap
 	var mu sync.Mutex

 	var walk func(fnode *TargetNode, cs LicenseConditionSet, treatAsAggregate bool)

 	walk = func(fnode *TargetNode, cs LicenseConditionSet, treatAsAggregate bool) {
 		defer wg.Done()
 		mu.Lock()
 		fnode.resolution |= conditionsFn(fnode)
 		fnode.resolution |= cs
 		amap[fnode] = struct{}{}
 		if treatAsAggregate {
 			cmap[fnode] = struct{}{}
 		}
 		cs = fnode.resolution
 		mu.Unlock()
 		// for each dependency
 		for _, edge := range fnode.edges {
 			func(edge *TargetEdge) {
 				// dcs holds the dpendency conditions inherited from the target
 				dcs := targetConditionsPropagatingToDep(lg, edge, cs, treatAsAggregate, conditionsFn)
 				dnode := edge.dependency
 				mu.Lock()
 				defer mu.Unlock()
 				depcs := dnode.resolution
 				_, alreadyWalked := amap[dnode]
 				if !dcs.IsEmpty() && alreadyWalked {
 					if dcs.Difference(depcs).IsEmpty() {
 						// no new conditions

 						// pure aggregates never need walking a 2nd time with same conditions
 						if treatAsAggregate {
 							return
 						}
 						// non-aggregates don't need walking as non-aggregate a 2nd time
 						if _, asAggregate := cmap[dnode]; !asAggregate {
 							return
 						}
 						// previously walked as pure aggregate; need to re-walk as non-aggregate
 						delete(cmap, dnode)
 					}
 				}
 				// add the conditions to the dependency
 				wg.Add(1)
 				go walk(dnode, dcs, treatAsAggregate && dnode.IsContainer())
 			}(edge)
 		}
 	}

 	// walk each of the roots
 	for _, rname := range lg.rootFiles {
 		rnode := lg.targets[rname]
 		wg.Add(1)
 		// add the conditions to the root and its transitive closure
 		go walk(rnode, NewLicenseConditionSet(), rnode.IsContainer())
 	}
 	wg.Done()
 	wg.Wait()
 }
	// 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

	import (
	"sync"
	)

	var (
	// AllResolutions is a TraceConditions function that resolves all
	// unfiltered license conditions.
	AllResolutions = TraceConditions(func(tn *TargetNode) LicenseConditionSet { return tn.licenseConditions })
	)

	// TraceConditions is a function that returns the conditions to trace for each
	// target node `tn`.
	type TraceConditions func(tn *TargetNode) LicenseConditionSet

	// ResolveBottomUpConditions performs a bottom-up walk of the LicenseGraph
	// propagating conditions up the graph as necessary according to the properties
	// of each edge and according to each license condition in question.
	//
	// e.g. if a "restricted" condition applies to a binary, it also applies to all
	// of the statically-linked libraries and the transitive closure of their static
	// dependencies; even if neither they nor the transitive closure of their
	// dependencies originate any "restricted" conditions. The bottom-up walk will
	// not resolve the library and its transitive closure, but the later top-down
	// walk will.
	func ResolveBottomUpConditions(lg *LicenseGraph) {
	TraceBottomUpConditions(lg, AllResolutions)
	}

	// TraceBottomUpConditions performs a bottom-up walk of the LicenseGraph
	// propagating trace conditions from `conditionsFn` up the graph as necessary
	// according to the properties of each edge and according to each license
	// condition in question.
	func TraceBottomUpConditions(lg *LicenseGraph, conditionsFn TraceConditions) {

	// short-cut if already walked and cached
	lg.mu.Lock()
	wg := lg.wgBU

	if wg != nil {
	lg.mu.Unlock()
	wg.Wait()
	return
	}
	wg = &sync.WaitGroup{}
	wg.Add(1)
	lg.wgBU = wg
	lg.mu.Unlock()

	// amap identifes targets previously walked. (guarded by mu)
	amap := make(map[*TargetNode]struct{})

	// cmap identifies targets previously walked as pure aggregates. i.e. as containers
	// (guarded by mu)
	cmap := make(map[*TargetNode]struct{})
	var mu sync.Mutex

	var walk func(target *TargetNode, treatAsAggregate bool) LicenseConditionSet

	walk = func(target *TargetNode, treatAsAggregate bool) LicenseConditionSet {
	priorWalkResults := func() (LicenseConditionSet, bool) {
	mu.Lock()
	defer mu.Unlock()

	if _, alreadyWalked := amap[target]; alreadyWalked {
	if treatAsAggregate {
	return target.resolution, true
	}
	if _, asAggregate := cmap[target]; !asAggregate {
	return target.resolution, true
	}
	// previously walked in a pure aggregate context,
	// needs to walk again in non-aggregate context
	delete(cmap, target)
	} else {
	target.resolution \|= conditionsFn(target)
	amap[target] = struct{}{}
	}
	if treatAsAggregate {
	cmap[target] = struct{}{}
	}
	return target.resolution, false
	}
	cs, alreadyWalked := priorWalkResults()
	if alreadyWalked {
	return cs
	}

	c := make(chan LicenseConditionSet, len(target.edges))
	// add all the conditions from all the dependencies
	for _, edge := range target.edges {
	go func(edge *TargetEdge) {
	// walk dependency to get its conditions
	cs := walk(edge.dependency, treatAsAggregate && edge.dependency.IsContainer())

	// turn those into the conditions that apply to the target
	cs = depConditionsPropagatingToTarget(lg, edge, cs, treatAsAggregate)

	c <- cs
	}(edge)
	}
	for i := 0; i < len(target.edges); i++ {
	cs \|= <-c
	}
	mu.Lock()
	target.resolution \|= cs
	mu.Unlock()

	// return conditions up the tree
	return cs
	}

	// walk each of the roots
	for _, rname := range lg.rootFiles {
	rnode := lg.targets[rname]
	_ = walk(rnode, rnode.IsContainer())
	}

	wg.Done()
	}

	// ResolveTopDownCondtions performs a top-down walk of the LicenseGraph
	// propagating conditions from target to dependency.
	//
	// e.g. For current policy, none of the conditions propagate from target to
	// dependency except restricted. For restricted, the policy is to share the
	// source of any libraries linked to restricted code and to provide notice.
	func ResolveTopDownConditions(lg *LicenseGraph) {
	TraceTopDownConditions(lg, AllResolutions)
	}

	// TraceTopDownCondtions performs a top-down walk of the LicenseGraph
	// propagating trace conditions returned by `conditionsFn` from target to
	// dependency.
	func TraceTopDownConditions(lg *LicenseGraph, conditionsFn TraceConditions) {

	// short-cut if already walked and cached
	lg.mu.Lock()
	wg := lg.wgTD

	if wg != nil {
	lg.mu.Unlock()
	wg.Wait()
	return
	}
	wg = &sync.WaitGroup{}
	wg.Add(1)
	lg.wgTD = wg
	lg.mu.Unlock()

	// start with the conditions propagated up the graph
	TraceBottomUpConditions(lg, conditionsFn)

	// amap contains the set of targets already walked. (guarded by mu)
	amap := make(map[*TargetNode]struct{})

	// cmap contains the set of targets walked as pure aggregates. i.e. containers
	// (guarded by mu)
	cmap := make(map[*TargetNode]struct{})

	// mu guards concurrent access to cmap
	var mu sync.Mutex

	var walk func(fnode *TargetNode, cs LicenseConditionSet, treatAsAggregate bool)

	walk = func(fnode *TargetNode, cs LicenseConditionSet, treatAsAggregate bool) {
	defer wg.Done()
	mu.Lock()
	fnode.resolution \|= conditionsFn(fnode)
	fnode.resolution \|= cs
	amap[fnode] = struct{}{}
	if treatAsAggregate {
	cmap[fnode] = struct{}{}
	}
	cs = fnode.resolution
	mu.Unlock()
	// for each dependency
	for _, edge := range fnode.edges {
	func(edge *TargetEdge) {
	// dcs holds the dpendency conditions inherited from the target
	dcs := targetConditionsPropagatingToDep(lg, edge, cs, treatAsAggregate, conditionsFn)
	dnode := edge.dependency
	mu.Lock()
	defer mu.Unlock()
	depcs := dnode.resolution
	_, alreadyWalked := amap[dnode]
	if !dcs.IsEmpty() && alreadyWalked {
	if dcs.Difference(depcs).IsEmpty() {
	// no new conditions

	// pure aggregates never need walking a 2nd time with same conditions
	if treatAsAggregate {
	return
	}
	// non-aggregates don't need walking as non-aggregate a 2nd time
	if _, asAggregate := cmap[dnode]; !asAggregate {
	return
	}
	// previously walked as pure aggregate; need to re-walk as non-aggregate
	delete(cmap, dnode)
	}
	}
	// add the conditions to the dependency
	wg.Add(1)
	go walk(dnode, dcs, treatAsAggregate && dnode.IsContainer())
	}(edge)
	}
	}

	// walk each of the roots
	for _, rname := range lg.rootFiles {
	rnode := lg.targets[rname]
	wg.Add(1)
	// add the conditions to the root and its transitive closure
	go walk(rnode, NewLicenseConditionSet(), rnode.IsContainer())
	}
	wg.Done()
	wg.Wait()
	}