tools/compliance/policy_policy.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 (
 	"regexp"
 	"strings"
 )

 var (
 	// RecognizedAnnotations identifies the set of annotations that have
 	// meaning for compliance policy.
 	RecognizedAnnotations = map[string]string{
 		// used in readgraph.go to avoid creating 1000's of copies of the below 3 strings.
 		"static":    "static",
 		"dynamic":   "dynamic",
 		"toolchain": "toolchain",
 	}

 	// SafePathPrefixes maps the path prefixes presumed not to contain any
 	// proprietary or confidential pathnames to whether to strip the prefix
 	// from the path when used as the library name for notices.
 	SafePathPrefixes = map[string]bool{
 		"external/":    true,
 		"art/":         false,
 		"build/":       false,
 		"cts/":         false,
 		"dalvik/":      false,
 		"developers/":  false,
 		"development/": false,
 		"frameworks/":  false,
 		"packages/":    true,
 		"prebuilts/":   false,
 		"sdk/":         false,
 		"system/":      false,
 		"test/":        false,
 		"toolchain/":   false,
 		"tools/":       false,
 	}

 	// SafePrebuiltPrefixes maps the regular expression to match a prebuilt
 	// containing the path of a safe prefix to the safe prefix.
 	SafePrebuiltPrefixes = make(map[*regexp.Regexp]string)

 	// ImpliesUnencumbered lists the condition names representing an author attempt to disclaim copyright.
 	ImpliesUnencumbered = LicenseConditionSet(UnencumberedCondition)

 	// ImpliesPermissive lists the condition names representing copyrighted but "licensed without policy requirements".
 	ImpliesPermissive = LicenseConditionSet(PermissiveCondition)

 	// ImpliesNotice lists the condition names implying a notice or attribution policy.
 	ImpliesNotice = LicenseConditionSet(UnencumberedCondition | PermissiveCondition | NoticeCondition | ReciprocalCondition |
 		RestrictedCondition | RestrictedClasspathExceptionCondition | WeaklyRestrictedCondition |
 		ProprietaryCondition | ByExceptionOnlyCondition)

 	// ImpliesReciprocal lists the condition names implying a local source-sharing policy.
 	ImpliesReciprocal = LicenseConditionSet(ReciprocalCondition)

 	// Restricted lists the condition names implying an infectious source-sharing policy.
 	ImpliesRestricted = LicenseConditionSet(RestrictedCondition | RestrictedClasspathExceptionCondition | WeaklyRestrictedCondition)

 	// ImpliesProprietary lists the condition names implying a confidentiality policy.
 	ImpliesProprietary = LicenseConditionSet(ProprietaryCondition)

 	// ImpliesByExceptionOnly lists the condition names implying a policy for "license review and approval before use".
 	ImpliesByExceptionOnly = LicenseConditionSet(ProprietaryCondition | ByExceptionOnlyCondition)

 	// ImpliesPrivate lists the condition names implying a source-code privacy policy.
 	ImpliesPrivate = LicenseConditionSet(ProprietaryCondition)

 	// ImpliesShared lists the condition names implying a source-code sharing policy.
 	ImpliesShared = LicenseConditionSet(ReciprocalCondition | RestrictedCondition | RestrictedClasspathExceptionCondition | WeaklyRestrictedCondition)
 )

 var (
 	anyLgpl      = regexp.MustCompile(`^SPDX-license-identifier-LGPL.*`)
 	versionedGpl = regexp.MustCompile(`^SPDX-license-identifier-GPL-\p{N}.*`)
 	genericGpl   = regexp.MustCompile(`^SPDX-license-identifier-GPL$`)
 	ccBySa       = regexp.MustCompile(`^SPDX-license-identifier-CC-BY.*-SA.*`)
 )

 func init() {
 	for prefix := range SafePathPrefixes {
 		if prefix == "prebuilts/" {
 			continue
 		}
 		r := regexp.MustCompile("^prebuilts/[^ ]*/" + prefix)
 		SafePrebuiltPrefixes[r] = prefix
 	}
 }

 // LicenseConditionSetFromNames returns a set containing the recognized `names` and
 // silently ignoring or discarding the unrecognized `names`.
 func LicenseConditionSetFromNames(tn *TargetNode, names ...string) LicenseConditionSet {
 	cs := NewLicenseConditionSet()
 	for _, name := range names {
 		if name == "restricted" {
 			if 0 == len(tn.LicenseKinds()) {
 				cs = cs.Plus(RestrictedCondition)
 				continue
 			}
 			hasLgpl := false
 			hasClasspath := false
 			hasGeneric := false
 			for _, kind := range tn.LicenseKinds() {
 				if strings.HasSuffix(kind, "-with-classpath-exception") {
 					cs = cs.Plus(RestrictedClasspathExceptionCondition)
 					hasClasspath = true
 				} else if anyLgpl.MatchString(kind) {
 					cs = cs.Plus(WeaklyRestrictedCondition)
 					hasLgpl = true
 				} else if versionedGpl.MatchString(kind) {
 					cs = cs.Plus(RestrictedCondition)
 				} else if genericGpl.MatchString(kind) {
 					hasGeneric = true
 				} else if kind == "legacy_restricted" || ccBySa.MatchString(kind) {
 					cs = cs.Plus(RestrictedCondition)
 				} else {
 					cs = cs.Plus(RestrictedCondition)
 				}
 			}
 			if hasGeneric && !hasLgpl && !hasClasspath {
 				cs = cs.Plus(RestrictedCondition)
 			}
 			continue
 		}
 		if lc, ok := RecognizedConditionNames[name]; ok {
 			cs |= LicenseConditionSet(lc)
 		}
 	}
 	return cs
 }

 // Resolution happens in three phases:
 //
 // 1. A bottom-up traversal propagates (restricted) license conditions up to
 // targets from dendencies as needed.
 //
 // 2. For each condition of interest, a top-down traversal propagates
 // (restricted) conditions down from targets into linked dependencies.
 //
 // 3. Finally, a walk of the shipped target nodes attaches resolutions to the
 // ancestor nodes from the root down to and including the first non-container.
 //
 // e.g. If a disk image contains a binary bin1 that links a library liba, the
 // notice requirement for liba gets attached to the disk image and to bin1.
 // Because liba doesn't actually get shipped as a separate artifact, but only
 // as bits in bin1, it has no actions 'attached' to it. The actions attached
 // to the image and to bin1 'act on' liba by providing notice.
 //
 // The behavior of the 3 phases gets controlled by the 3 functions below.
 //
 // The first function controls what happens during the bottom-up propagation.
 // Restricted conditions propagate up all non-toolchain dependencies; except,
 // some do not propagate up dynamic links, which may depend on whether the
 // modules are independent.
 //
 // The second function controls what happens during the top-down propagation.
 // Restricted conditions propagate down as above with the added caveat that
 // inherited restricted conditions do not propagate from pure aggregates to
 // their dependencies.
 //
 // The final function controls which conditions apply/get attached to ancestors
 // depending on the types of dependencies involved. All conditions apply across
 // normal derivation dependencies. No conditions apply across toolchain
 // dependencies. Some restricted conditions apply across dynamic link
 // dependencies.
 //
 // Not all restricted licenses are create equal. Some have special rules or
 // exceptions. e.g. LGPL or "with classpath excption".

 // depConditionsPropagatingToTarget returns the conditions which propagate up an
 // edge from dependency to target.
 //
 // This function sets the policy for the bottom-up propagation and how conditions
 // flow up the graph from dependencies to targets.
 //
 // If a pure aggregation is built into a derivative work that is not a pure
 // aggregation, per policy it ceases to be a pure aggregation in the context of
 // that derivative work. The `treatAsAggregate` parameter will be false for
 // non-aggregates and for aggregates in non-aggregate contexts.
 func depConditionsPropagatingToTarget(lg *LicenseGraph, e *TargetEdge, depConditions LicenseConditionSet, treatAsAggregate bool) LicenseConditionSet {
 	result := LicenseConditionSet(0x0000)
 	if edgeIsDerivation(e) {
 		result |= depConditions & ImpliesRestricted
 		return result
 	}
 	if !edgeIsDynamicLink(e) {
 		return result
 	}

 	result |= depConditions & LicenseConditionSet(RestrictedCondition)
 	if 0 != (depConditions&LicenseConditionSet(RestrictedClasspathExceptionCondition)) && !edgeNodesAreIndependentModules(e) {
 		result |= LicenseConditionSet(RestrictedClasspathExceptionCondition)
 	}
 	return result
 }

 // targetConditionsPropagatingToDep returns the conditions which propagate down
 // an edge from target to dependency.
 //
 // This function sets the policy for the top-down traversal and how conditions
 // flow down the graph from targets to dependencies.
 //
 // If a pure aggregation is built into a derivative work that is not a pure
 // aggregation, per policy it ceases to be a pure aggregation in the context of
 // that derivative work. The `treatAsAggregate` parameter will be false for
 // non-aggregates and for aggregates in non-aggregate contexts.
 func targetConditionsPropagatingToDep(lg *LicenseGraph, e *TargetEdge, targetConditions LicenseConditionSet, treatAsAggregate bool, conditionsFn TraceConditions) LicenseConditionSet {
 	result := targetConditions

 	// reverse direction -- none of these apply to things depended-on, only to targets depending-on.
 	result = result.Minus(UnencumberedCondition, PermissiveCondition, NoticeCondition, ReciprocalCondition, ProprietaryCondition, ByExceptionOnlyCondition)

 	if !edgeIsDerivation(e) && !edgeIsDynamicLink(e) {
 		// target is not a derivative work of dependency and is not linked to dependency
 		result = result.Difference(ImpliesRestricted)
 		return result
 	}
 	if treatAsAggregate {
 		// If the author of a pure aggregate licenses it restricted, apply restricted to immediate dependencies.
 		// Otherwise, restricted does not propagate back down to dependencies.
 		if !conditionsFn(e.target).MatchesAnySet(ImpliesRestricted) {
 			result = result.Difference(ImpliesRestricted)
 		}
 		return result
 	}
 	if edgeIsDerivation(e) {
 		return result
 	}
 	result = result.Minus(WeaklyRestrictedCondition)
 	if edgeNodesAreIndependentModules(e) {
 		result = result.Minus(RestrictedClasspathExceptionCondition)
 	}
 	return result
 }

 // conditionsAttachingAcrossEdge returns the subset of conditions in `universe`
 // that apply across edge `e`.
 //
 // This function sets the policy for attaching actions to ancestor nodes in the
 // final resolution walk.
 func conditionsAttachingAcrossEdge(lg *LicenseGraph, e *TargetEdge, universe LicenseConditionSet) LicenseConditionSet {
 	result := universe
 	if edgeIsDerivation(e) {
 		return result
 	}
 	if !edgeIsDynamicLink(e) {
 		return NewLicenseConditionSet()
 	}

 	result &= LicenseConditionSet(RestrictedCondition | RestrictedClasspathExceptionCondition)
 	if 0 != (result&LicenseConditionSet(RestrictedClasspathExceptionCondition)) && edgeNodesAreIndependentModules(e) {
 		result &= LicenseConditionSet(RestrictedCondition)
 	}
 	return result
 }

 // edgeIsDynamicLink returns true for edges representing shared libraries
 // linked dynamically at runtime.
 func edgeIsDynamicLink(e *TargetEdge) bool {
 	return e.annotations.HasAnnotation("dynamic")
 }

 // edgeIsDerivation returns true for edges where the target is a derivative
 // work of dependency.
 func edgeIsDerivation(e *TargetEdge) bool {
 	isDynamic := e.annotations.HasAnnotation("dynamic")
 	isToolchain := e.annotations.HasAnnotation("toolchain")
 	return !isDynamic && !isToolchain
 }

 // edgeNodesAreIndependentModules returns true for edges where the target and
 // dependency are independent modules.
 func edgeNodesAreIndependentModules(e *TargetEdge) bool {
 	return e.target.PackageName() != e.dependency.PackageName()
 }
	// 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 (
	"regexp"
	"strings"
	)

	var (
	// RecognizedAnnotations identifies the set of annotations that have
	// meaning for compliance policy.
	RecognizedAnnotations = map[string]string{
	// used in readgraph.go to avoid creating 1000's of copies of the below 3 strings.
	"static": "static",
	"dynamic": "dynamic",
	"toolchain": "toolchain",
	}

	// SafePathPrefixes maps the path prefixes presumed not to contain any
	// proprietary or confidential pathnames to whether to strip the prefix
	// from the path when used as the library name for notices.
	SafePathPrefixes = map[string]bool{
	"external/": true,
	"art/": false,
	"build/": false,
	"cts/": false,
	"dalvik/": false,
	"developers/": false,
	"development/": false,
	"frameworks/": false,
	"packages/": true,
	"prebuilts/": false,
	"sdk/": false,
	"system/": false,
	"test/": false,
	"toolchain/": false,
	"tools/": false,
	}

	// SafePrebuiltPrefixes maps the regular expression to match a prebuilt
	// containing the path of a safe prefix to the safe prefix.
	SafePrebuiltPrefixes = make(map[*regexp.Regexp]string)

	// ImpliesUnencumbered lists the condition names representing an author attempt to disclaim copyright.
	ImpliesUnencumbered = LicenseConditionSet(UnencumberedCondition)

	// ImpliesPermissive lists the condition names representing copyrighted but "licensed without policy requirements".
	ImpliesPermissive = LicenseConditionSet(PermissiveCondition)

	// ImpliesNotice lists the condition names implying a notice or attribution policy.
	ImpliesNotice = LicenseConditionSet(UnencumberedCondition \| PermissiveCondition \| NoticeCondition \| ReciprocalCondition \|
	RestrictedCondition \| RestrictedClasspathExceptionCondition \| WeaklyRestrictedCondition \|
	ProprietaryCondition \| ByExceptionOnlyCondition)

	// ImpliesReciprocal lists the condition names implying a local source-sharing policy.
	ImpliesReciprocal = LicenseConditionSet(ReciprocalCondition)

	// Restricted lists the condition names implying an infectious source-sharing policy.
	ImpliesRestricted = LicenseConditionSet(RestrictedCondition \| RestrictedClasspathExceptionCondition \| WeaklyRestrictedCondition)

	// ImpliesProprietary lists the condition names implying a confidentiality policy.
	ImpliesProprietary = LicenseConditionSet(ProprietaryCondition)

	// ImpliesByExceptionOnly lists the condition names implying a policy for "license review and approval before use".
	ImpliesByExceptionOnly = LicenseConditionSet(ProprietaryCondition \| ByExceptionOnlyCondition)

	// ImpliesPrivate lists the condition names implying a source-code privacy policy.
	ImpliesPrivate = LicenseConditionSet(ProprietaryCondition)

	// ImpliesShared lists the condition names implying a source-code sharing policy.
	ImpliesShared = LicenseConditionSet(ReciprocalCondition \| RestrictedCondition \| RestrictedClasspathExceptionCondition \| WeaklyRestrictedCondition)
	)

	var (
	anyLgpl = regexp.MustCompile(`^SPDX-license-identifier-LGPL.*`)
	versionedGpl = regexp.MustCompile(`^SPDX-license-identifier-GPL-\p{N}.*`)
	genericGpl = regexp.MustCompile(`^SPDX-license-identifier-GPL$`)
	ccBySa = regexp.MustCompile(`^SPDX-license-identifier-CC-BY.-SA.`)
	)

	func init() {
	for prefix := range SafePathPrefixes {
	if prefix == "prebuilts/" {
	continue
	}
	r := regexp.MustCompile("^prebuilts/[^ ]*/" + prefix)
	SafePrebuiltPrefixes[r] = prefix
	}
	}

	// LicenseConditionSetFromNames returns a set containing the recognized `names` and
	// silently ignoring or discarding the unrecognized `names`.
	func LicenseConditionSetFromNames(tn *TargetNode, names ...string) LicenseConditionSet {
	cs := NewLicenseConditionSet()
	for _, name := range names {
	if name == "restricted" {
	if 0 == len(tn.LicenseKinds()) {
	cs = cs.Plus(RestrictedCondition)
	continue
	}
	hasLgpl := false
	hasClasspath := false
	hasGeneric := false
	for _, kind := range tn.LicenseKinds() {
	if strings.HasSuffix(kind, "-with-classpath-exception") {
	cs = cs.Plus(RestrictedClasspathExceptionCondition)
	hasClasspath = true
	} else if anyLgpl.MatchString(kind) {
	cs = cs.Plus(WeaklyRestrictedCondition)
	hasLgpl = true
	} else if versionedGpl.MatchString(kind) {
	cs = cs.Plus(RestrictedCondition)
	} else if genericGpl.MatchString(kind) {
	hasGeneric = true
	} else if kind == "legacy_restricted" \|\| ccBySa.MatchString(kind) {
	cs = cs.Plus(RestrictedCondition)
	} else {
	cs = cs.Plus(RestrictedCondition)
	}
	}
	if hasGeneric && !hasLgpl && !hasClasspath {
	cs = cs.Plus(RestrictedCondition)
	}
	continue
	}
	if lc, ok := RecognizedConditionNames[name]; ok {
	cs \|= LicenseConditionSet(lc)
	}
	}
	return cs
	}

	// Resolution happens in three phases:
	//
	// 1. A bottom-up traversal propagates (restricted) license conditions up to
	// targets from dendencies as needed.
	//
	// 2. For each condition of interest, a top-down traversal propagates
	// (restricted) conditions down from targets into linked dependencies.
	//
	// 3. Finally, a walk of the shipped target nodes attaches resolutions to the
	// ancestor nodes from the root down to and including the first non-container.
	//
	// e.g. If a disk image contains a binary bin1 that links a library liba, the
	// notice requirement for liba gets attached to the disk image and to bin1.
	// Because liba doesn't actually get shipped as a separate artifact, but only
	// as bits in bin1, it has no actions 'attached' to it. The actions attached
	// to the image and to bin1 'act on' liba by providing notice.
	//
	// The behavior of the 3 phases gets controlled by the 3 functions below.
	//
	// The first function controls what happens during the bottom-up propagation.
	// Restricted conditions propagate up all non-toolchain dependencies; except,
	// some do not propagate up dynamic links, which may depend on whether the
	// modules are independent.
	//
	// The second function controls what happens during the top-down propagation.
	// Restricted conditions propagate down as above with the added caveat that
	// inherited restricted conditions do not propagate from pure aggregates to
	// their dependencies.
	//
	// The final function controls which conditions apply/get attached to ancestors
	// depending on the types of dependencies involved. All conditions apply across
	// normal derivation dependencies. No conditions apply across toolchain
	// dependencies. Some restricted conditions apply across dynamic link
	// dependencies.
	//
	// Not all restricted licenses are create equal. Some have special rules or
	// exceptions. e.g. LGPL or "with classpath excption".

	// depConditionsPropagatingToTarget returns the conditions which propagate up an
	// edge from dependency to target.
	//
	// This function sets the policy for the bottom-up propagation and how conditions
	// flow up the graph from dependencies to targets.
	//
	// If a pure aggregation is built into a derivative work that is not a pure
	// aggregation, per policy it ceases to be a pure aggregation in the context of
	// that derivative work. The `treatAsAggregate` parameter will be false for
	// non-aggregates and for aggregates in non-aggregate contexts.
	func depConditionsPropagatingToTarget(lg LicenseGraph, e TargetEdge, depConditions LicenseConditionSet, treatAsAggregate bool) LicenseConditionSet {
	result := LicenseConditionSet(0x0000)
	if edgeIsDerivation(e) {
	result \|= depConditions & ImpliesRestricted
	return result
	}
	if !edgeIsDynamicLink(e) {
	return result
	}

	result \|= depConditions & LicenseConditionSet(RestrictedCondition)
	if 0 != (depConditions&LicenseConditionSet(RestrictedClasspathExceptionCondition)) && !edgeNodesAreIndependentModules(e) {
	result \|= LicenseConditionSet(RestrictedClasspathExceptionCondition)
	}
	return result
	}

	// targetConditionsPropagatingToDep returns the conditions which propagate down
	// an edge from target to dependency.
	//
	// This function sets the policy for the top-down traversal and how conditions
	// flow down the graph from targets to dependencies.
	//
	// If a pure aggregation is built into a derivative work that is not a pure
	// aggregation, per policy it ceases to be a pure aggregation in the context of
	// that derivative work. The `treatAsAggregate` parameter will be false for
	// non-aggregates and for aggregates in non-aggregate contexts.
	func targetConditionsPropagatingToDep(lg LicenseGraph, e TargetEdge, targetConditions LicenseConditionSet, treatAsAggregate bool, conditionsFn TraceConditions) LicenseConditionSet {
	result := targetConditions

	// reverse direction -- none of these apply to things depended-on, only to targets depending-on.
	result = result.Minus(UnencumberedCondition, PermissiveCondition, NoticeCondition, ReciprocalCondition, ProprietaryCondition, ByExceptionOnlyCondition)

	if !edgeIsDerivation(e) && !edgeIsDynamicLink(e) {
	// target is not a derivative work of dependency and is not linked to dependency
	result = result.Difference(ImpliesRestricted)
	return result
	}
	if treatAsAggregate {
	// If the author of a pure aggregate licenses it restricted, apply restricted to immediate dependencies.
	// Otherwise, restricted does not propagate back down to dependencies.
	if !conditionsFn(e.target).MatchesAnySet(ImpliesRestricted) {
	result = result.Difference(ImpliesRestricted)
	}
	return result
	}
	if edgeIsDerivation(e) {
	return result
	}
	result = result.Minus(WeaklyRestrictedCondition)
	if edgeNodesAreIndependentModules(e) {
	result = result.Minus(RestrictedClasspathExceptionCondition)
	}
	return result
	}

	// conditionsAttachingAcrossEdge returns the subset of conditions in `universe`
	// that apply across edge `e`.
	//
	// This function sets the policy for attaching actions to ancestor nodes in the
	// final resolution walk.
	func conditionsAttachingAcrossEdge(lg LicenseGraph, e TargetEdge, universe LicenseConditionSet) LicenseConditionSet {
	result := universe
	if edgeIsDerivation(e) {
	return result
	}
	if !edgeIsDynamicLink(e) {
	return NewLicenseConditionSet()
	}

	result &= LicenseConditionSet(RestrictedCondition \| RestrictedClasspathExceptionCondition)
	if 0 != (result&LicenseConditionSet(RestrictedClasspathExceptionCondition)) && edgeNodesAreIndependentModules(e) {
	result &= LicenseConditionSet(RestrictedCondition)
	}
	return result
	}

	// edgeIsDynamicLink returns true for edges representing shared libraries
	// linked dynamically at runtime.
	func edgeIsDynamicLink(e *TargetEdge) bool {
	return e.annotations.HasAnnotation("dynamic")
	}

	// edgeIsDerivation returns true for edges where the target is a derivative
	// work of dependency.
	func edgeIsDerivation(e *TargetEdge) bool {
	isDynamic := e.annotations.HasAnnotation("dynamic")
	isToolchain := e.annotations.HasAnnotation("toolchain")
	return !isDynamic && !isToolchain
	}

	// edgeNodesAreIndependentModules returns true for edges where the target and
	// dependency are independent modules.
	func edgeNodesAreIndependentModules(e *TargetEdge) bool {
	return e.target.PackageName() != e.dependency.PackageName()
	}