android/visibility.go - LeafOS-Project/android_build_soong - Gitiles

 // Copyright 2019 Google Inc. All rights reserved.
 //
 // 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 android

 import (
 	"fmt"
 	"regexp"
 	"sort"
 	"strings"
 	"sync"

 	"github.com/google/blueprint"
 )

 // Enforces visibility rules between modules.
 //
 // Multi stage process:
 // * First stage works bottom up, before defaults expansion, to check the syntax of the visibility
 //   rules that have been specified.
 //
 // * Second stage works bottom up to extract the package info for each package and store them in a
 //   map by package name. See package.go for functionality for this.
 //
 // * Third stage works bottom up to extract visibility information from the modules, parse it,
 //   create visibilityRule structures and store them in a map keyed by the module's
 //   qualifiedModuleName instance, i.e. //<pkg>:<name>. The map is stored in the context rather
 //   than a global variable for testing. Each test has its own Config so they do not share a map
 //   and so can be run in parallel. If a module has no visibility specified then it uses the
 //   default package visibility if specified.
 //
 // * Fourth stage works top down and iterates over all the deps for each module. If the dep is in
 //   the same package then it is automatically visible. Otherwise, for each dep it first extracts
 //   its visibilityRule from the config map. If one could not be found then it assumes that it is
 //   publicly visible. Otherwise, it calls the visibility rule to check that the module can see
 //   the dependency. If it cannot then an error is reported.
 //
 // TODO(b/130631145) - Make visibility work properly with prebuilts.

 // Patterns for the values that can be specified in visibility property.
 const (
 	packagePattern        = `//([^/:]+(?:/[^/:]+)*)`
 	namePattern           = `:([^/:]+)`
 	visibilityRulePattern = `^(?:` + packagePattern + `)?(?:` + namePattern + `)?$`
 )

 var visibilityRuleRegexp = regexp.MustCompile(visibilityRulePattern)

 type visibilityModuleReference struct {
 	name              qualifiedModuleName
 	isPartitionModule bool
 }

 func createVisibilityModuleReference(name, dir, typ string) visibilityModuleReference {
 	isPartitionModule := false
 	switch typ {
 	case "android_filesystem", "android_system_image":
 		isPartitionModule = true
 	}
 	return visibilityModuleReference{
 		name:              createQualifiedModuleName(name, dir),
 		isPartitionModule: isPartitionModule,
 	}
 }

 // A visibility rule is associated with a module and determines which other modules it is visible
 // to, i.e. which other modules can depend on the rule's module.
 type visibilityRule interface {
 	// Check to see whether this rules matches m.
 	// Returns true if it does, false otherwise.
 	matches(m visibilityModuleReference) bool

 	String() string
 }

 // Describes the properties provided by a module that contain visibility rules.
 type visibilityPropertyImpl struct {
 	name            string
 	stringsProperty *[]string
 }

 type visibilityProperty interface {
 	getName() string
 	getStrings() []string
 }

 func newVisibilityProperty(name string, stringsProperty *[]string) visibilityProperty {
 	return visibilityPropertyImpl{
 		name:            name,
 		stringsProperty: stringsProperty,
 	}
 }

 func (p visibilityPropertyImpl) getName() string {
 	return p.name
 }

 func (p visibilityPropertyImpl) getStrings() []string {
 	return *p.stringsProperty
 }

 // A compositeRule is a visibility rule composed from a list of atomic visibility rules.
 //
 // The list corresponds to the list of strings in the visibility property after defaults expansion.
 // Even though //visibility:public is not allowed together with other rules in the visibility list
 // of a single module, it is allowed here to permit a module to override an inherited visibility
 // spec with public visibility.
 //
 // //visibility:private is not allowed in the same way, since we'd need to check for it during the
 // defaults expansion to make that work. No non-private visibility rules are allowed in a
 // compositeRule containing a privateRule.
 //
 // This array will only be [] if all the rules are invalid and will behave as if visibility was
 // ["//visibility:private"].
 type compositeRule []visibilityRule

 var _ visibilityRule = compositeRule{}

 // A compositeRule matches if and only if any of its rules matches.
 func (c compositeRule) matches(m visibilityModuleReference) bool {
 	for _, r := range c {
 		if r.matches(m) {
 			return true
 		}
 	}
 	return false
 }

 func (c compositeRule) String() string {
 	return "[" + strings.Join(c.Strings(), ", ") + "]"
 }

 func (c compositeRule) Strings() []string {
 	s := make([]string, 0, len(c))
 	for _, r := range c {
 		s = append(s, r.String())
 	}
 	return s
 }

 // A packageRule is a visibility rule that matches modules in a specific package (i.e. directory).
 type packageRule struct {
 	pkg string
 }

 var _ visibilityRule = packageRule{}

 func (r packageRule) matches(m visibilityModuleReference) bool {
 	return m.name.pkg == r.pkg
 }

 func (r packageRule) String() string {
 	return fmt.Sprintf("//%s", r.pkg) // :__pkg__ is the default, so skip it.
 }

 // A subpackagesRule is a visibility rule that matches modules in a specific package (i.e.
 // directory) or any of its subpackages (i.e. subdirectories).
 type subpackagesRule struct {
 	pkgPrefix string
 }

 var _ visibilityRule = subpackagesRule{}

 func (r subpackagesRule) matches(m visibilityModuleReference) bool {
 	return isAncestor(r.pkgPrefix, m.name.pkg)
 }

 func isAncestor(p1 string, p2 string) bool {
 	// Equivalent to strings.HasPrefix(p2+"/", p1+"/"), but without the string copies
 	// The check for a trailing slash is so that we don't consider sibling
 	// directories with common prefixes to be ancestors, e.g. "fooo/bar" should not be
 	// a descendant of "foo".
 	return strings.HasPrefix(p2, p1) && (len(p2) == len(p1) || p2[len(p1)] == '/')
 }

 func (r subpackagesRule) String() string {
 	return fmt.Sprintf("//%s:__subpackages__", r.pkgPrefix)
 }

 // visibilityRule for //visibility:public
 type publicRule struct{}

 var _ visibilityRule = publicRule{}

 func (r publicRule) matches(_ visibilityModuleReference) bool {
 	return true
 }

 func (r publicRule) String() string {
 	return "//visibility:public"
 }

 // visibilityRule for //visibility:private
 type privateRule struct{}

 var _ visibilityRule = privateRule{}

 func (r privateRule) matches(_ visibilityModuleReference) bool {
 	return false
 }

 func (r privateRule) String() string {
 	return "//visibility:private"
 }

 // visibilityRule for //visibility:any_partition
 type anyPartitionRule struct{}

 var _ visibilityRule = anyPartitionRule{}

 func (r anyPartitionRule) matches(m visibilityModuleReference) bool {
 	return m.isPartitionModule
 }

 func (r anyPartitionRule) String() string {
 	return "//visibility:any_partition"
 }

 var visibilityRuleMap = NewOnceKey("visibilityRuleMap")

 // The map from qualifiedModuleName to visibilityRule.
 func moduleToVisibilityRuleMap(config Config) *sync.Map {
 	return config.Once(visibilityRuleMap, func() interface{} {
 		return &sync.Map{}
 	}).(*sync.Map)
 }

 // Marker interface that identifies dependencies that are excluded from visibility
 // enforcement.
 type ExcludeFromVisibilityEnforcementTag interface {
 	blueprint.DependencyTag

 	// Method that differentiates this interface from others.
 	ExcludeFromVisibilityEnforcement()
 }

 // The visibility mutators.
 var PrepareForTestWithVisibility = FixtureRegisterWithContext(registerVisibilityMutators)

 func registerVisibilityMutators(ctx RegistrationContext) {
 	ctx.PreArchMutators(RegisterVisibilityRuleChecker)
 	ctx.PreArchMutators(RegisterVisibilityRuleGatherer)
 	ctx.PostDepsMutators(RegisterVisibilityRuleEnforcer)
 }

 // The rule checker needs to be registered before defaults expansion to correctly check that
 // //visibility:xxx isn't combined with other packages in the same list in any one module.
 func RegisterVisibilityRuleChecker(ctx RegisterMutatorsContext) {
 	ctx.BottomUp("visibilityRuleChecker", visibilityRuleChecker).Parallel()
 }

 // Registers the function that gathers the visibility rules for each module.
 //
 // Visibility is not dependent on arch so this must be registered before the arch phase to avoid
 // having to process multiple variants for each module. This goes after defaults expansion to gather
 // the complete visibility lists from flat lists and after the package info is gathered to ensure
 // that default_visibility is available.
 func RegisterVisibilityRuleGatherer(ctx RegisterMutatorsContext) {
 	ctx.BottomUp("visibilityRuleGatherer", visibilityRuleGatherer).Parallel()
 }

 // This must be registered after the deps have been resolved.
 func RegisterVisibilityRuleEnforcer(ctx RegisterMutatorsContext) {
 	ctx.TopDown("visibilityRuleEnforcer", visibilityRuleEnforcer).Parallel()
 }

 // Checks the per-module visibility rule lists before defaults expansion.
 func visibilityRuleChecker(ctx BottomUpMutatorContext) {
 	visibilityProperties := ctx.Module().visibilityProperties()
 	for _, p := range visibilityProperties {
 		if visibility := p.getStrings(); visibility != nil {
 			checkRules(ctx, ctx.ModuleDir(), p.getName(), visibility)
 		}
 	}
 }

 func checkRules(ctx BaseModuleContext, currentPkg, property string, visibility []string) {
 	ruleCount := len(visibility)
 	if ruleCount == 0 {
 		// This prohibits an empty list as its meaning is unclear, e.g. it could mean no visibility and
 		// it could mean public visibility. Requiring at least one rule makes the owner's intent
 		// clearer.
 		ctx.PropertyErrorf(property, "must contain at least one visibility rule")
 		return
 	}

 	for i, v := range visibility {
 		ok, pkg, name := splitRule(ctx, v, currentPkg, property)
 		if !ok {
 			continue
 		}

 		if pkg == "visibility" {
 			switch name {
 			case "private", "public", "any_partition":
 			case "legacy_public":
 				ctx.PropertyErrorf(property, "//visibility:legacy_public must not be used")
 				continue
 			case "override":
 				// This keyword does not create a rule so pretend it does not exist.
 				ruleCount -= 1
 			default:
 				ctx.PropertyErrorf(property, "unrecognized visibility rule %q", v)
 				continue
 			}
 			if name == "override" {
 				if i != 0 {
 					ctx.PropertyErrorf(property, `"%v" may only be used at the start of the visibility rules`, v)
 				}
 			} else if ruleCount != 1 {
 				ctx.PropertyErrorf(property, "cannot mix %q with any other visibility rules", v)
 				continue
 			}
 		}

 		// If the current directory is not in the vendor tree then there are some additional
 		// restrictions on the rules.
 		if !isAncestor("vendor", currentPkg) {
 			if !isAllowedFromOutsideVendor(pkg, name) {
 				ctx.PropertyErrorf(property,
 					"%q is not allowed. Packages outside //vendor cannot make themselves visible to specific"+
 						" targets within //vendor, they can only use //vendor:__subpackages__.", v)
 				continue
 			}
 		}
 	}
 }

 // Gathers the flattened visibility rules after defaults expansion, parses the visibility
 // properties, stores them in a map by qualifiedModuleName for retrieval during enforcement.
 //
 // See ../README.md#Visibility for information on the format of the visibility rules.
 func visibilityRuleGatherer(ctx BottomUpMutatorContext) {
 	m := ctx.Module()

 	qualifiedModuleId := m.qualifiedModuleId(ctx)
 	currentPkg := qualifiedModuleId.pkg

 	// Parse the visibility rules that control access to the module and store them by id
 	// for use when enforcing the rules.
 	primaryProperty := m.base().primaryVisibilityProperty
 	if primaryProperty != nil {
 		if visibility := primaryProperty.getStrings(); visibility != nil {
 			rule := parseRules(ctx, currentPkg, primaryProperty.getName(), visibility)
 			if rule != nil {
 				moduleToVisibilityRuleMap(ctx.Config()).Store(qualifiedModuleId, rule)
 			}
 		}
 	}
 }

 func parseRules(ctx BaseModuleContext, currentPkg, property string, visibility []string) compositeRule {
 	rules := make(compositeRule, 0, len(visibility))
 	hasPrivateRule := false
 	hasPublicRule := false
 	hasNonPrivateRule := false
 	for _, v := range visibility {
 		ok, pkg, name := splitRule(ctx, v, currentPkg, property)
 		if !ok {
 			continue
 		}

 		var r visibilityRule
 		isPrivateRule := false
 		if pkg == "visibility" {
 			switch name {
 			case "private":
 				r = privateRule{}
 				isPrivateRule = true
 			case "public":
 				r = publicRule{}
 				hasPublicRule = true
 			case "override":
 				// Discard all preceding rules and any state based on them.
 				rules = nil
 				hasPrivateRule = false
 				hasPublicRule = false
 				hasNonPrivateRule = false
 				// This does not actually create a rule so continue onto the next rule.
 				continue
 			case "any_partition":
 				r = anyPartitionRule{}
 			}
 		} else {
 			switch name {
 			case "__pkg__":
 				r = packageRule{pkg}
 			case "__subpackages__":
 				r = subpackagesRule{pkg}
 			default:
 				ctx.PropertyErrorf(property, "invalid visibility pattern %q. Must match "+
 					" //<package>:<scope>, //<package> or :<scope> "+
 					"where <scope> is one of \"__pkg__\", \"__subpackages__\"",
 					v)
 			}
 		}

 		if isPrivateRule {
 			hasPrivateRule = true
 		} else {
 			hasNonPrivateRule = true
 		}

 		rules = append(rules, r)
 	}

 	if hasPrivateRule && hasNonPrivateRule {
 		ctx.PropertyErrorf("visibility",
 			"cannot mix \"//visibility:private\" with any other visibility rules")
 		return compositeRule{privateRule{}}
 	}

 	if hasPublicRule {
 		// Public overrides all other rules so just return it.
 		return compositeRule{publicRule{}}
 	}

 	return rules
 }

 func isAllowedFromOutsideVendor(pkg string, name string) bool {
 	if pkg == "vendor" {
 		return name == "__subpackages__"
 	}

 	return !isAncestor("vendor", pkg)
 }

 func splitRule(ctx BaseModuleContext, ruleExpression string, currentPkg, property string) (bool, string, string) {
 	// Make sure that the rule is of the correct format.
 	matches := visibilityRuleRegexp.FindStringSubmatch(ruleExpression)
 	if ruleExpression == "" || matches == nil {
 		// Visibility rule is invalid so ignore it. Keep going rather than aborting straight away to
 		// ensure all the rules on this module are checked.
 		ctx.PropertyErrorf(property,
 			"invalid visibility pattern %q must match"+
 				" //<package>:<scope>, //<package> or :<scope> "+
 				"where <scope> is one of \"__pkg__\", \"__subpackages__\"",
 			ruleExpression)
 		return false, "", ""
 	}

 	// Extract the package and name.
 	pkg := matches[1]
 	name := matches[2]

 	// Normalize the short hands
 	if pkg == "" {
 		pkg = currentPkg
 	}
 	if name == "" {
 		name = "__pkg__"
 	}

 	return true, pkg, name
 }

 func visibilityRuleEnforcer(ctx TopDownMutatorContext) {
 	qualified := createVisibilityModuleReference(ctx.ModuleName(), ctx.ModuleDir(), ctx.ModuleType())

 	// Visit all the dependencies making sure that this module has access to them all.
 	ctx.VisitDirectDeps(func(dep Module) {
 		// Ignore dependencies that have an ExcludeFromVisibilityEnforcementTag
 		tag := ctx.OtherModuleDependencyTag(dep)
 		if _, ok := tag.(ExcludeFromVisibilityEnforcementTag); ok {
 			return
 		}

 		depName := ctx.OtherModuleName(dep)
 		depDir := ctx.OtherModuleDir(dep)
 		depQualified := qualifiedModuleName{depDir, depName}

 		// Targets are always visible to other targets in their own package.
 		if depQualified.pkg == qualified.name.pkg {
 			return
 		}

 		rule := effectiveVisibilityRules(ctx.Config(), depQualified)
 		if !rule.matches(qualified) {
 			ctx.ModuleErrorf("depends on %s which is not visible to this module\nYou may need to add %q to its visibility", depQualified, "//"+ctx.ModuleDir())
 		}
 	})
 }

 // Default visibility is public.
 var defaultVisibility = compositeRule{publicRule{}}

 // Return the effective visibility rules.
 //
 // If no rules have been specified this will return the default visibility rule
 // which is currently //visibility:public.
 func effectiveVisibilityRules(config Config, qualified qualifiedModuleName) compositeRule {
 	moduleToVisibilityRule := moduleToVisibilityRuleMap(config)
 	value, ok := moduleToVisibilityRule.Load(qualified)
 	var rule compositeRule
 	if ok {
 		rule = value.(compositeRule)
 	} else {
 		rule = packageDefaultVisibility(moduleToVisibilityRule, qualified)
 	}

 	// If no rule is specified then return the default visibility rule to avoid
 	// every caller having to treat nil as public.
 	if rule == nil {
 		rule = defaultVisibility
 	}
 	return rule
 }

 func createQualifiedModuleName(moduleName, dir string) qualifiedModuleName {
 	qualified := qualifiedModuleName{dir, moduleName}
 	return qualified
 }

 func packageDefaultVisibility(moduleToVisibilityRule *sync.Map, moduleId qualifiedModuleName) compositeRule {
 	packageQualifiedId := moduleId.getContainingPackageId()
 	for {
 		value, ok := moduleToVisibilityRule.Load(packageQualifiedId)
 		if ok {
 			return value.(compositeRule)
 		}

 		if packageQualifiedId.isRootPackage() {
 			return nil
 		}

 		packageQualifiedId = packageQualifiedId.getContainingPackageId()
 	}
 }

 type VisibilityRuleSet interface {
 	// Widen the visibility with some extra rules.
 	Widen(extra []string) error

 	Strings() []string
 }

 type visibilityRuleSet struct {
 	rules []string
 }

 var _ VisibilityRuleSet = (*visibilityRuleSet)(nil)

 func (v *visibilityRuleSet) Widen(extra []string) error {
 	// Check the extra rules first just in case they are invalid. Otherwise, if
 	// the current visibility is public then the extra rules will just be ignored.
 	if len(extra) == 1 {
 		singularRule := extra[0]
 		switch singularRule {
 		case "//visibility:public":
 			// Public overrides everything so just discard any existing rules.
 			v.rules = extra
 			return nil
 		case "//visibility:private":
 			// Extending rule with private is an error.
 			return fmt.Errorf("%q does not widen the visibility", singularRule)
 		}
 	}

 	if len(v.rules) == 1 {
 		switch v.rules[0] {
 		case "//visibility:public":
 			// No point in adding rules to something which is already public.
 			return nil
 		case "//visibility:private":
 			// Adding any rules to private means it is no longer private so the
 			// private can be discarded.
 			v.rules = nil
 		}
 	}

 	v.rules = FirstUniqueStrings(append(v.rules, extra...))
 	sort.Strings(v.rules)
 	return nil
 }

 func (v *visibilityRuleSet) Strings() []string {
 	return v.rules
 }

 // Get the effective visibility rules, i.e. the actual rules that affect the visibility of the
 // property irrespective of where they are defined.
 //
 // Includes visibility rules specified by package default_visibility and/or on defaults.
 // Short hand forms, e.g. //:__subpackages__ are replaced with their full form, e.g.
 // //package/containing/rule:__subpackages__.
 func EffectiveVisibilityRules(ctx BaseModuleContext, module Module) VisibilityRuleSet {
 	moduleName := ctx.OtherModuleName(module)
 	dir := ctx.OtherModuleDir(module)
 	qualified := qualifiedModuleName{dir, moduleName}

 	rule := effectiveVisibilityRules(ctx.Config(), qualified)

 	currentModule := createVisibilityModuleReference(moduleName, dir, ctx.OtherModuleType(module))

 	// Modules are implicitly visible to other modules in the same package,
 	// without checking the visibility rules. Here we need to add that visibility
 	// explicitly.
 	if !rule.matches(currentModule) {
 		if len(rule) == 1 {
 			if _, ok := rule[0].(privateRule); ok {
 				// If the rule is //visibility:private we can't append another
 				// visibility to it. Semantically we need to convert it to a package
 				// visibility rule for the location where the result is used, but since
 				// modules are implicitly visible within the package we get the same
 				// result without any rule at all, so just make it an empty list to be
 				// appended below.
 				rule = nil
 			}
 		}
 		rule = append(rule, packageRule{dir})
 	}

 	return &visibilityRuleSet{rule.Strings()}
 }

 // Clear the default visibility properties so they can be replaced.
 func clearVisibilityProperties(module Module) {
 	module.base().visibilityPropertyInfo = nil
 }

 // Add a property that contains visibility rules so that they are checked for
 // correctness.
 func AddVisibilityProperty(module Module, name string, stringsProperty *[]string) {
 	addVisibilityProperty(module, name, stringsProperty)
 }

 func addVisibilityProperty(module Module, name string, stringsProperty *[]string) visibilityProperty {
 	base := module.base()
 	property := newVisibilityProperty(name, stringsProperty)
 	base.visibilityPropertyInfo = append(base.visibilityPropertyInfo, property)
 	return property
 }

 // Set the primary visibility property.
 //
 // Also adds the property to the list of properties to be validated.
 func setPrimaryVisibilityProperty(module Module, name string, stringsProperty *[]string) {
 	module.base().primaryVisibilityProperty = addVisibilityProperty(module, name, stringsProperty)
 }
	// Copyright 2019 Google Inc. All rights reserved.
	//
	// 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 android

	import (
	"fmt"
	"regexp"
	"sort"
	"strings"
	"sync"

	"github.com/google/blueprint"
	)

	// Enforces visibility rules between modules.
	//
	// Multi stage process:
	// * First stage works bottom up, before defaults expansion, to check the syntax of the visibility
	// rules that have been specified.
	//
	// * Second stage works bottom up to extract the package info for each package and store them in a
	// map by package name. See package.go for functionality for this.
	//
	// * Third stage works bottom up to extract visibility information from the modules, parse it,
	// create visibilityRule structures and store them in a map keyed by the module's
	// qualifiedModuleName instance, i.e. //<pkg>:<name>. The map is stored in the context rather
	// than a global variable for testing. Each test has its own Config so they do not share a map
	// and so can be run in parallel. If a module has no visibility specified then it uses the
	// default package visibility if specified.
	//
	// * Fourth stage works top down and iterates over all the deps for each module. If the dep is in
	// the same package then it is automatically visible. Otherwise, for each dep it first extracts
	// its visibilityRule from the config map. If one could not be found then it assumes that it is
	// publicly visible. Otherwise, it calls the visibility rule to check that the module can see
	// the dependency. If it cannot then an error is reported.
	//
	// TODO(b/130631145) - Make visibility work properly with prebuilts.

	// Patterns for the values that can be specified in visibility property.
	const (
	packagePattern = `//([^/:]+(?:/[^/:]+)*)`
	namePattern = `:([^/:]+)`
	visibilityRulePattern = `^(?:` + packagePattern + `)?(?:` + namePattern + `)?$`
	)

	var visibilityRuleRegexp = regexp.MustCompile(visibilityRulePattern)

	type visibilityModuleReference struct {
	name qualifiedModuleName
	isPartitionModule bool
	}

	func createVisibilityModuleReference(name, dir, typ string) visibilityModuleReference {
	isPartitionModule := false
	switch typ {
	case "android_filesystem", "android_system_image":
	isPartitionModule = true
	}
	return visibilityModuleReference{
	name: createQualifiedModuleName(name, dir),
	isPartitionModule: isPartitionModule,
	}
	}

	// A visibility rule is associated with a module and determines which other modules it is visible
	// to, i.e. which other modules can depend on the rule's module.
	type visibilityRule interface {
	// Check to see whether this rules matches m.
	// Returns true if it does, false otherwise.
	matches(m visibilityModuleReference) bool

	String() string
	}

	// Describes the properties provided by a module that contain visibility rules.
	type visibilityPropertyImpl struct {
	name string
	stringsProperty *[]string
	}

	type visibilityProperty interface {
	getName() string
	getStrings() []string
	}

	func newVisibilityProperty(name string, stringsProperty *[]string) visibilityProperty {
	return visibilityPropertyImpl{
	name: name,
	stringsProperty: stringsProperty,
	}
	}

	func (p visibilityPropertyImpl) getName() string {
	return p.name
	}

	func (p visibilityPropertyImpl) getStrings() []string {
	return *p.stringsProperty
	}

	// A compositeRule is a visibility rule composed from a list of atomic visibility rules.
	//
	// The list corresponds to the list of strings in the visibility property after defaults expansion.
	// Even though //visibility:public is not allowed together with other rules in the visibility list
	// of a single module, it is allowed here to permit a module to override an inherited visibility
	// spec with public visibility.
	//
	// //visibility:private is not allowed in the same way, since we'd need to check for it during the
	// defaults expansion to make that work. No non-private visibility rules are allowed in a
	// compositeRule containing a privateRule.
	//
	// This array will only be [] if all the rules are invalid and will behave as if visibility was
	// ["//visibility:private"].
	type compositeRule []visibilityRule

	var _ visibilityRule = compositeRule{}

	// A compositeRule matches if and only if any of its rules matches.
	func (c compositeRule) matches(m visibilityModuleReference) bool {
	for _, r := range c {
	if r.matches(m) {
	return true
	}
	}
	return false
	}

	func (c compositeRule) String() string {
	return "[" + strings.Join(c.Strings(), ", ") + "]"
	}

	func (c compositeRule) Strings() []string {
	s := make([]string, 0, len(c))
	for _, r := range c {
	s = append(s, r.String())
	}
	return s
	}

	// A packageRule is a visibility rule that matches modules in a specific package (i.e. directory).
	type packageRule struct {
	pkg string
	}

	var _ visibilityRule = packageRule{}

	func (r packageRule) matches(m visibilityModuleReference) bool {
	return m.name.pkg == r.pkg
	}

	func (r packageRule) String() string {
	return fmt.Sprintf("//%s", r.pkg) // :__pkg__ is the default, so skip it.
	}

	// A subpackagesRule is a visibility rule that matches modules in a specific package (i.e.
	// directory) or any of its subpackages (i.e. subdirectories).
	type subpackagesRule struct {
	pkgPrefix string
	}

	var _ visibilityRule = subpackagesRule{}

	func (r subpackagesRule) matches(m visibilityModuleReference) bool {
	return isAncestor(r.pkgPrefix, m.name.pkg)
	}

	func isAncestor(p1 string, p2 string) bool {
	// Equivalent to strings.HasPrefix(p2+"/", p1+"/"), but without the string copies
	// The check for a trailing slash is so that we don't consider sibling
	// directories with common prefixes to be ancestors, e.g. "fooo/bar" should not be
	// a descendant of "foo".
	return strings.HasPrefix(p2, p1) && (len(p2) == len(p1) \|\| p2[len(p1)] == '/')
	}

	func (r subpackagesRule) String() string {
	return fmt.Sprintf("//%s:__subpackages__", r.pkgPrefix)
	}

	// visibilityRule for //visibility:public
	type publicRule struct{}

	var _ visibilityRule = publicRule{}

	func (r publicRule) matches(_ visibilityModuleReference) bool {
	return true
	}

	func (r publicRule) String() string {
	return "//visibility:public"
	}

	// visibilityRule for //visibility:private
	type privateRule struct{}

	var _ visibilityRule = privateRule{}

	func (r privateRule) matches(_ visibilityModuleReference) bool {
	return false
	}

	func (r privateRule) String() string {
	return "//visibility:private"
	}

	// visibilityRule for //visibility:any_partition
	type anyPartitionRule struct{}

	var _ visibilityRule = anyPartitionRule{}

	func (r anyPartitionRule) matches(m visibilityModuleReference) bool {
	return m.isPartitionModule
	}

	func (r anyPartitionRule) String() string {
	return "//visibility:any_partition"
	}

	var visibilityRuleMap = NewOnceKey("visibilityRuleMap")

	// The map from qualifiedModuleName to visibilityRule.
	func moduleToVisibilityRuleMap(config Config) *sync.Map {
	return config.Once(visibilityRuleMap, func() interface{} {
	return &sync.Map{}
	}).(*sync.Map)
	}

	// Marker interface that identifies dependencies that are excluded from visibility
	// enforcement.
	type ExcludeFromVisibilityEnforcementTag interface {
	blueprint.DependencyTag

	// Method that differentiates this interface from others.
	ExcludeFromVisibilityEnforcement()
	}

	// The visibility mutators.
	var PrepareForTestWithVisibility = FixtureRegisterWithContext(registerVisibilityMutators)

	func registerVisibilityMutators(ctx RegistrationContext) {
	ctx.PreArchMutators(RegisterVisibilityRuleChecker)
	ctx.PreArchMutators(RegisterVisibilityRuleGatherer)
	ctx.PostDepsMutators(RegisterVisibilityRuleEnforcer)
	}

	// The rule checker needs to be registered before defaults expansion to correctly check that
	// //visibility:xxx isn't combined with other packages in the same list in any one module.
	func RegisterVisibilityRuleChecker(ctx RegisterMutatorsContext) {
	ctx.BottomUp("visibilityRuleChecker", visibilityRuleChecker).Parallel()
	}

	// Registers the function that gathers the visibility rules for each module.
	//
	// Visibility is not dependent on arch so this must be registered before the arch phase to avoid
	// having to process multiple variants for each module. This goes after defaults expansion to gather
	// the complete visibility lists from flat lists and after the package info is gathered to ensure
	// that default_visibility is available.
	func RegisterVisibilityRuleGatherer(ctx RegisterMutatorsContext) {
	ctx.BottomUp("visibilityRuleGatherer", visibilityRuleGatherer).Parallel()
	}

	// This must be registered after the deps have been resolved.
	func RegisterVisibilityRuleEnforcer(ctx RegisterMutatorsContext) {
	ctx.TopDown("visibilityRuleEnforcer", visibilityRuleEnforcer).Parallel()
	}

	// Checks the per-module visibility rule lists before defaults expansion.
	func visibilityRuleChecker(ctx BottomUpMutatorContext) {
	visibilityProperties := ctx.Module().visibilityProperties()
	for _, p := range visibilityProperties {
	if visibility := p.getStrings(); visibility != nil {
	checkRules(ctx, ctx.ModuleDir(), p.getName(), visibility)
	}
	}
	}

	func checkRules(ctx BaseModuleContext, currentPkg, property string, visibility []string) {
	ruleCount := len(visibility)
	if ruleCount == 0 {
	// This prohibits an empty list as its meaning is unclear, e.g. it could mean no visibility and
	// it could mean public visibility. Requiring at least one rule makes the owner's intent
	// clearer.
	ctx.PropertyErrorf(property, "must contain at least one visibility rule")
	return
	}

	for i, v := range visibility {
	ok, pkg, name := splitRule(ctx, v, currentPkg, property)
	if !ok {
	continue
	}

	if pkg == "visibility" {
	switch name {
	case "private", "public", "any_partition":
	case "legacy_public":
	ctx.PropertyErrorf(property, "//visibility:legacy_public must not be used")
	continue
	case "override":
	// This keyword does not create a rule so pretend it does not exist.
	ruleCount -= 1
	default:
	ctx.PropertyErrorf(property, "unrecognized visibility rule %q", v)
	continue
	}
	if name == "override" {
	if i != 0 {
	ctx.PropertyErrorf(property, `"%v" may only be used at the start of the visibility rules`, v)
	}
	} else if ruleCount != 1 {
	ctx.PropertyErrorf(property, "cannot mix %q with any other visibility rules", v)
	continue
	}
	}

	// If the current directory is not in the vendor tree then there are some additional
	// restrictions on the rules.
	if !isAncestor("vendor", currentPkg) {
	if !isAllowedFromOutsideVendor(pkg, name) {
	ctx.PropertyErrorf(property,
	"%q is not allowed. Packages outside //vendor cannot make themselves visible to specific"+
	" targets within //vendor, they can only use //vendor:__subpackages__.", v)
	continue
	}
	}
	}
	}

	// Gathers the flattened visibility rules after defaults expansion, parses the visibility
	// properties, stores them in a map by qualifiedModuleName for retrieval during enforcement.
	//
	// See ../README.md#Visibility for information on the format of the visibility rules.
	func visibilityRuleGatherer(ctx BottomUpMutatorContext) {
	m := ctx.Module()

	qualifiedModuleId := m.qualifiedModuleId(ctx)
	currentPkg := qualifiedModuleId.pkg

	// Parse the visibility rules that control access to the module and store them by id
	// for use when enforcing the rules.
	primaryProperty := m.base().primaryVisibilityProperty
	if primaryProperty != nil {
	if visibility := primaryProperty.getStrings(); visibility != nil {
	rule := parseRules(ctx, currentPkg, primaryProperty.getName(), visibility)
	if rule != nil {
	moduleToVisibilityRuleMap(ctx.Config()).Store(qualifiedModuleId, rule)
	}
	}
	}
	}

	func parseRules(ctx BaseModuleContext, currentPkg, property string, visibility []string) compositeRule {
	rules := make(compositeRule, 0, len(visibility))
	hasPrivateRule := false
	hasPublicRule := false
	hasNonPrivateRule := false
	for _, v := range visibility {
	ok, pkg, name := splitRule(ctx, v, currentPkg, property)
	if !ok {
	continue
	}

	var r visibilityRule
	isPrivateRule := false
	if pkg == "visibility" {
	switch name {
	case "private":
	r = privateRule{}
	isPrivateRule = true
	case "public":
	r = publicRule{}
	hasPublicRule = true
	case "override":
	// Discard all preceding rules and any state based on them.
	rules = nil
	hasPrivateRule = false
	hasPublicRule = false
	hasNonPrivateRule = false
	// This does not actually create a rule so continue onto the next rule.
	continue
	case "any_partition":
	r = anyPartitionRule{}
	}
	} else {
	switch name {
	case "__pkg__":
	r = packageRule{pkg}
	case "__subpackages__":
	r = subpackagesRule{pkg}
	default:
	ctx.PropertyErrorf(property, "invalid visibility pattern %q. Must match "+
	" //<package>:<scope>, //<package> or :<scope> "+
	"where <scope> is one of \"__pkg__\", \"__subpackages__\"",
	v)
	}
	}

	if isPrivateRule {
	hasPrivateRule = true
	} else {
	hasNonPrivateRule = true
	}

	rules = append(rules, r)
	}

	if hasPrivateRule && hasNonPrivateRule {
	ctx.PropertyErrorf("visibility",
	"cannot mix \"//visibility:private\" with any other visibility rules")
	return compositeRule{privateRule{}}
	}

	if hasPublicRule {
	// Public overrides all other rules so just return it.
	return compositeRule{publicRule{}}
	}

	return rules
	}

	func isAllowedFromOutsideVendor(pkg string, name string) bool {
	if pkg == "vendor" {
	return name == "__subpackages__"
	}

	return !isAncestor("vendor", pkg)
	}

	func splitRule(ctx BaseModuleContext, ruleExpression string, currentPkg, property string) (bool, string, string) {
	// Make sure that the rule is of the correct format.
	matches := visibilityRuleRegexp.FindStringSubmatch(ruleExpression)
	if ruleExpression == "" \|\| matches == nil {
	// Visibility rule is invalid so ignore it. Keep going rather than aborting straight away to
	// ensure all the rules on this module are checked.
	ctx.PropertyErrorf(property,
	"invalid visibility pattern %q must match"+
	" //<package>:<scope>, //<package> or :<scope> "+
	"where <scope> is one of \"__pkg__\", \"__subpackages__\"",
	ruleExpression)
	return false, "", ""
	}

	// Extract the package and name.
	pkg := matches[1]
	name := matches[2]

	// Normalize the short hands
	if pkg == "" {
	pkg = currentPkg
	}
	if name == "" {
	name = "__pkg__"
	}

	return true, pkg, name
	}

	func visibilityRuleEnforcer(ctx TopDownMutatorContext) {
	qualified := createVisibilityModuleReference(ctx.ModuleName(), ctx.ModuleDir(), ctx.ModuleType())

	// Visit all the dependencies making sure that this module has access to them all.
	ctx.VisitDirectDeps(func(dep Module) {
	// Ignore dependencies that have an ExcludeFromVisibilityEnforcementTag
	tag := ctx.OtherModuleDependencyTag(dep)
	if _, ok := tag.(ExcludeFromVisibilityEnforcementTag); ok {
	return
	}

	depName := ctx.OtherModuleName(dep)
	depDir := ctx.OtherModuleDir(dep)
	depQualified := qualifiedModuleName{depDir, depName}

	// Targets are always visible to other targets in their own package.
	if depQualified.pkg == qualified.name.pkg {
	return
	}

	rule := effectiveVisibilityRules(ctx.Config(), depQualified)
	if !rule.matches(qualified) {
	ctx.ModuleErrorf("depends on %s which is not visible to this module\nYou may need to add %q to its visibility", depQualified, "//"+ctx.ModuleDir())
	}
	})
	}

	// Default visibility is public.
	var defaultVisibility = compositeRule{publicRule{}}

	// Return the effective visibility rules.
	//
	// If no rules have been specified this will return the default visibility rule
	// which is currently //visibility:public.
	func effectiveVisibilityRules(config Config, qualified qualifiedModuleName) compositeRule {
	moduleToVisibilityRule := moduleToVisibilityRuleMap(config)
	value, ok := moduleToVisibilityRule.Load(qualified)
	var rule compositeRule
	if ok {
	rule = value.(compositeRule)
	} else {
	rule = packageDefaultVisibility(moduleToVisibilityRule, qualified)
	}

	// If no rule is specified then return the default visibility rule to avoid
	// every caller having to treat nil as public.
	if rule == nil {
	rule = defaultVisibility
	}
	return rule
	}

	func createQualifiedModuleName(moduleName, dir string) qualifiedModuleName {
	qualified := qualifiedModuleName{dir, moduleName}
	return qualified
	}

	func packageDefaultVisibility(moduleToVisibilityRule *sync.Map, moduleId qualifiedModuleName) compositeRule {
	packageQualifiedId := moduleId.getContainingPackageId()
	for {
	value, ok := moduleToVisibilityRule.Load(packageQualifiedId)
	if ok {
	return value.(compositeRule)
	}

	if packageQualifiedId.isRootPackage() {
	return nil
	}

	packageQualifiedId = packageQualifiedId.getContainingPackageId()
	}
	}

	type VisibilityRuleSet interface {
	// Widen the visibility with some extra rules.
	Widen(extra []string) error

	Strings() []string
	}

	type visibilityRuleSet struct {
	rules []string
	}

	var _ VisibilityRuleSet = (*visibilityRuleSet)(nil)

	func (v *visibilityRuleSet) Widen(extra []string) error {
	// Check the extra rules first just in case they are invalid. Otherwise, if
	// the current visibility is public then the extra rules will just be ignored.
	if len(extra) == 1 {
	singularRule := extra[0]
	switch singularRule {
	case "//visibility:public":
	// Public overrides everything so just discard any existing rules.
	v.rules = extra
	return nil
	case "//visibility:private":
	// Extending rule with private is an error.
	return fmt.Errorf("%q does not widen the visibility", singularRule)
	}
	}

	if len(v.rules) == 1 {
	switch v.rules[0] {
	case "//visibility:public":
	// No point in adding rules to something which is already public.
	return nil
	case "//visibility:private":
	// Adding any rules to private means it is no longer private so the
	// private can be discarded.
	v.rules = nil
	}
	}

	v.rules = FirstUniqueStrings(append(v.rules, extra...))
	sort.Strings(v.rules)
	return nil
	}

	func (v *visibilityRuleSet) Strings() []string {
	return v.rules
	}

	// Get the effective visibility rules, i.e. the actual rules that affect the visibility of the
	// property irrespective of where they are defined.
	//
	// Includes visibility rules specified by package default_visibility and/or on defaults.
	// Short hand forms, e.g. //:__subpackages__ are replaced with their full form, e.g.
	// //package/containing/rule:__subpackages__.
	func EffectiveVisibilityRules(ctx BaseModuleContext, module Module) VisibilityRuleSet {
	moduleName := ctx.OtherModuleName(module)
	dir := ctx.OtherModuleDir(module)
	qualified := qualifiedModuleName{dir, moduleName}

	rule := effectiveVisibilityRules(ctx.Config(), qualified)

	currentModule := createVisibilityModuleReference(moduleName, dir, ctx.OtherModuleType(module))

	// Modules are implicitly visible to other modules in the same package,
	// without checking the visibility rules. Here we need to add that visibility
	// explicitly.
	if !rule.matches(currentModule) {
	if len(rule) == 1 {
	if _, ok := rule[0].(privateRule); ok {
	// If the rule is //visibility:private we can't append another
	// visibility to it. Semantically we need to convert it to a package
	// visibility rule for the location where the result is used, but since
	// modules are implicitly visible within the package we get the same
	// result without any rule at all, so just make it an empty list to be
	// appended below.
	rule = nil
	}
	}
	rule = append(rule, packageRule{dir})
	}

	return &visibilityRuleSet{rule.Strings()}
	}

	// Clear the default visibility properties so they can be replaced.
	func clearVisibilityProperties(module Module) {
	module.base().visibilityPropertyInfo = nil
	}

	// Add a property that contains visibility rules so that they are checked for
	// correctness.
	func AddVisibilityProperty(module Module, name string, stringsProperty *[]string) {
	addVisibilityProperty(module, name, stringsProperty)
	}

	func addVisibilityProperty(module Module, name string, stringsProperty *[]string) visibilityProperty {
	base := module.base()
	property := newVisibilityProperty(name, stringsProperty)
	base.visibilityPropertyInfo = append(base.visibilityPropertyInfo, property)
	return property
	}

	// Set the primary visibility property.
	//
	// Also adds the property to the list of properties to be validated.
	func setPrimaryVisibilityProperty(module Module, name string, stringsProperty *[]string) {
	module.base().primaryVisibilityProperty = addVisibilityProperty(module, name, stringsProperty)
	}