platform_build_soong/android/neverallow.go

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// Copyright 2017 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 (
"path/filepath"
"reflect"
"strconv"
"strings"
"github.com/google/blueprint/proptools"
)
// "neverallow" rules for the build system.
//
// This allows things which aren't related to the build system and are enforced
// for sanity, in progress code refactors, or policy to be expressed in a
// straightforward away disjoint from implementations and tests which should
// work regardless of these restrictions.
//
// A module is disallowed if all of the following are true:
// - it is in one of the "In" paths
// - it is not in one of the "NotIn" paths
// - it has all "With" properties matched
// - - values are matched in their entirety
// - - nil is interpreted as an empty string
// - - nested properties are separated with a '.'
// - - if the property is a list, any of the values in the list being matches
// counts as a match
// - it has none of the "Without" properties matched (same rules as above)
func registerNeverallowMutator(ctx RegisterMutatorsContext) {
ctx.BottomUp("neverallow", neverallowMutator).Parallel()
}
var neverallows = []Rule{}
func init() {
AddNeverAllowRules(createIncludeDirsRules()...)
AddNeverAllowRules(createTrebleRules()...)
AddNeverAllowRules(createLibcoreRules()...)
AddNeverAllowRules(createJavaDeviceForHostRules()...)
}
// Add a NeverAllow rule to the set of rules to apply.
func AddNeverAllowRules(rules ...Rule) {
neverallows = append(neverallows, rules...)
}
func createIncludeDirsRules() []Rule {
// The list of paths that cannot be referenced using include_dirs
paths := []string{
"art",
"libcore",
"libnativehelper",
"external/apache-harmony",
"external/apache-xml",
"external/boringssl",
"external/bouncycastle",
"external/conscrypt",
"external/icu",
"external/okhttp",
"external/vixl",
"external/wycheproof",
"system/core/libnativebridge",
"system/core/libnativehelper",
}
// Create a composite matcher that will match if the value starts with any of the restricted
// paths. A / is appended to the prefix to ensure that restricting path X does not affect paths
// XY.
rules := make([]Rule, 0, len(paths))
for _, path := range paths {
rule :=
NeverAllow().
WithMatcher("include_dirs", StartsWith(path+"/")).
Because("include_dirs is deprecated, all usages of '" + path + "' have been migrated" +
" to use alternate mechanisms and so can no longer be used.")
rules = append(rules, rule)
}
return rules
}
func createTrebleRules() []Rule {
return []Rule{
NeverAllow().
In("vendor", "device").
With("vndk.enabled", "true").
Without("vendor", "true").
Because("the VNDK can never contain a library that is device dependent."),
NeverAllow().
With("vndk.enabled", "true").
Without("vendor", "true").
Without("owner", "").
Because("a VNDK module can never have an owner."),
// TODO(b/67974785): always enforce the manifest
NeverAllow().
Without("name", "libhidltransport").
With("product_variables.enforce_vintf_manifest.cflags", "*").
Because("manifest enforcement should be independent of ."),
// TODO(b/67975799): vendor code should always use /vendor/bin/sh
NeverAllow().
Without("name", "libc_bionic_ndk").
With("product_variables.treble_linker_namespaces.cflags", "*").
Because("nothing should care if linker namespaces are enabled or not"),
// Example:
// *NeverAllow().with("Srcs", "main.cpp"))
}
}
func createLibcoreRules() []Rule {
var coreLibraryProjects = []string{
"libcore",
"external/apache-harmony",
"external/apache-xml",
"external/bouncycastle",
"external/conscrypt",
"external/icu",
"external/okhttp",
"external/wycheproof",
// Not really a core library but still needs access to same capabilities.
"development",
}
// Core library constraints. The sdk_version: "none" can only be used in core library projects.
// Access to core library targets is restricted using visibility rules.
rules := []Rule{
NeverAllow().
NotIn(coreLibraryProjects...).
With("sdk_version", "none"),
}
return rules
}
func createJavaDeviceForHostRules() []Rule {
javaDeviceForHostProjectsWhitelist := []string{
"external/guava",
"external/robolectric-shadows",
"framework/layoutlib",
}
return []Rule{
NeverAllow().
NotIn(javaDeviceForHostProjectsWhitelist...).
ModuleType("java_device_for_host", "java_host_for_device").
Because("java_device_for_host can only be used in whitelisted projects"),
}
}
func neverallowMutator(ctx BottomUpMutatorContext) {
m, ok := ctx.Module().(Module)
if !ok {
return
}
dir := ctx.ModuleDir() + "/"
properties := m.GetProperties()
for _, r := range neverallows {
n := r.(*rule)
if !n.appliesToPath(dir) {
continue
}
if !n.appliesToModuleType(ctx.ModuleType()) {
continue
}
if !n.appliesToProperties(properties) {
continue
}
if !n.appliesToDirectDeps(ctx) {
continue
}
ctx.ModuleErrorf("violates " + n.String())
}
}
type ValueMatcher interface {
test(string) bool
String() string
}
type equalMatcher struct {
expected string
}
func (m *equalMatcher) test(value string) bool {
return m.expected == value
}
func (m *equalMatcher) String() string {
return "=" + m.expected
}
type anyMatcher struct {
}
func (m *anyMatcher) test(value string) bool {
return true
}
func (m *anyMatcher) String() string {
return "=*"
}
var anyMatcherInstance = &anyMatcher{}
type startsWithMatcher struct {
prefix string
}
func (m *startsWithMatcher) test(value string) bool {
return strings.HasPrefix(value, m.prefix)
}
func (m *startsWithMatcher) String() string {
return ".starts-with(" + m.prefix + ")"
}
type ruleProperty struct {
fields []string // e.x.: Vndk.Enabled
matcher ValueMatcher
}
// A NeverAllow rule.
type Rule interface {
In(path ...string) Rule
NotIn(path ...string) Rule
InDirectDeps(deps ...string) Rule
ModuleType(types ...string) Rule
NotModuleType(types ...string) Rule
With(properties, value string) Rule
WithMatcher(properties string, matcher ValueMatcher) Rule
Without(properties, value string) Rule
WithoutMatcher(properties string, matcher ValueMatcher) Rule
Because(reason string) Rule
}
type rule struct {
// User string for why this is a thing.
reason string
paths []string
unlessPaths []string
directDeps map[string]bool
moduleTypes []string
unlessModuleTypes []string
props []ruleProperty
unlessProps []ruleProperty
}
// Create a new NeverAllow rule.
func NeverAllow() Rule {
return &rule{directDeps: make(map[string]bool)}
}
func (r *rule) In(path ...string) Rule {
r.paths = append(r.paths, cleanPaths(path)...)
return r
}
func (r *rule) NotIn(path ...string) Rule {
r.unlessPaths = append(r.unlessPaths, cleanPaths(path)...)
return r
}
func (r *rule) InDirectDeps(deps ...string) Rule {
for _, d := range deps {
r.directDeps[d] = true
}
return r
}
func (r *rule) ModuleType(types ...string) Rule {
r.moduleTypes = append(r.moduleTypes, types...)
return r
}
func (r *rule) NotModuleType(types ...string) Rule {
r.unlessModuleTypes = append(r.unlessModuleTypes, types...)
return r
}
func (r *rule) With(properties, value string) Rule {
return r.WithMatcher(properties, selectMatcher(value))
}
func (r *rule) WithMatcher(properties string, matcher ValueMatcher) Rule {
r.props = append(r.props, ruleProperty{
fields: fieldNamesForProperties(properties),
matcher: matcher,
})
return r
}
func (r *rule) Without(properties, value string) Rule {
return r.WithoutMatcher(properties, selectMatcher(value))
}
func (r *rule) WithoutMatcher(properties string, matcher ValueMatcher) Rule {
r.unlessProps = append(r.unlessProps, ruleProperty{
fields: fieldNamesForProperties(properties),
matcher: matcher,
})
return r
}
func selectMatcher(expected string) ValueMatcher {
if expected == "*" {
return anyMatcherInstance
}
return &equalMatcher{expected: expected}
}
func (r *rule) Because(reason string) Rule {
r.reason = reason
return r
}
func (r *rule) String() string {
s := "neverallow"
for _, v := range r.paths {
s += " dir:" + v + "*"
}
for _, v := range r.unlessPaths {
s += " -dir:" + v + "*"
}
for _, v := range r.moduleTypes {
s += " type:" + v
}
for _, v := range r.unlessModuleTypes {
s += " -type:" + v
}
for _, v := range r.props {
s += " " + strings.Join(v.fields, ".") + v.matcher.String()
}
for _, v := range r.unlessProps {
s += " -" + strings.Join(v.fields, ".") + v.matcher.String()
}
for k := range r.directDeps {
s += " deps:" + k
}
if len(r.reason) != 0 {
s += " which is restricted because " + r.reason
}
return s
}
func (r *rule) appliesToPath(dir string) bool {
includePath := len(r.paths) == 0 || hasAnyPrefix(dir, r.paths)
excludePath := hasAnyPrefix(dir, r.unlessPaths)
return includePath && !excludePath
}
func (r *rule) appliesToDirectDeps(ctx BottomUpMutatorContext) bool {
if len(r.directDeps) == 0 {
return true
}
matches := false
ctx.VisitDirectDeps(func(m Module) {
if !matches {
name := ctx.OtherModuleName(m)
matches = r.directDeps[name]
}
})
return matches
}
func (r *rule) appliesToModuleType(moduleType string) bool {
return (len(r.moduleTypes) == 0 || InList(moduleType, r.moduleTypes)) && !InList(moduleType, r.unlessModuleTypes)
}
func (r *rule) appliesToProperties(properties []interface{}) bool {
includeProps := hasAllProperties(properties, r.props)
excludeProps := hasAnyProperty(properties, r.unlessProps)
return includeProps && !excludeProps
}
func StartsWith(prefix string) ValueMatcher {
return &startsWithMatcher{prefix}
}
// assorted utils
func cleanPaths(paths []string) []string {
res := make([]string, len(paths))
for i, v := range paths {
res[i] = filepath.Clean(v) + "/"
}
return res
}
func fieldNamesForProperties(propertyNames string) []string {
names := strings.Split(propertyNames, ".")
for i, v := range names {
names[i] = proptools.FieldNameForProperty(v)
}
return names
}
func hasAnyPrefix(s string, prefixes []string) bool {
for _, prefix := range prefixes {
if strings.HasPrefix(s, prefix) {
return true
}
}
return false
}
func hasAnyProperty(properties []interface{}, props []ruleProperty) bool {
for _, v := range props {
if hasProperty(properties, v) {
return true
}
}
return false
}
func hasAllProperties(properties []interface{}, props []ruleProperty) bool {
for _, v := range props {
if !hasProperty(properties, v) {
return false
}
}
return true
}
func hasProperty(properties []interface{}, prop ruleProperty) bool {
for _, propertyStruct := range properties {
propertiesValue := reflect.ValueOf(propertyStruct).Elem()
for _, v := range prop.fields {
if !propertiesValue.IsValid() {
break
}
propertiesValue = propertiesValue.FieldByName(v)
}
if !propertiesValue.IsValid() {
continue
}
check := func(value string) bool {
return prop.matcher.test(value)
}
if matchValue(propertiesValue, check) {
return true
}
}
return false
}
func matchValue(value reflect.Value, check func(string) bool) bool {
if !value.IsValid() {
return false
}
if value.Kind() == reflect.Ptr {
if value.IsNil() {
return check("")
}
value = value.Elem()
}
switch value.Kind() {
case reflect.String:
return check(value.String())
case reflect.Bool:
return check(strconv.FormatBool(value.Bool()))
case reflect.Int:
return check(strconv.FormatInt(value.Int(), 10))
case reflect.Slice:
slice, ok := value.Interface().([]string)
if !ok {
panic("Can only handle slice of string")
}
for _, v := range slice {
if check(v) {
return true
}
}
return false
}
panic("Can't handle type: " + value.Kind().String())
}