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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 (
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"errors"
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"fmt"
"path/filepath"
"sort"
"strconv"
"strings"
"sync"
"github.com/google/blueprint"
)
func init ( ) {
RegisterModuleType ( "soong_namespace" , NamespaceFactory )
}
// threadsafe sorted list
type sortedNamespaces struct {
lock sync . Mutex
items [ ] * Namespace
sorted bool
}
func ( s * sortedNamespaces ) add ( namespace * Namespace ) {
s . lock . Lock ( )
defer s . lock . Unlock ( )
if s . sorted {
panic ( "It is not supported to call sortedNamespaces.add() after sortedNamespaces.sortedItems()" )
}
s . items = append ( s . items , namespace )
}
func ( s * sortedNamespaces ) sortedItems ( ) [ ] * Namespace {
s . lock . Lock ( )
defer s . lock . Unlock ( )
if ! s . sorted {
less := func ( i int , j int ) bool {
return s . items [ i ] . Path < s . items [ j ] . Path
}
sort . Slice ( s . items , less )
s . sorted = true
}
return s . items
}
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func ( s * sortedNamespaces ) index ( namespace * Namespace ) int {
for i , candidate := range s . sortedItems ( ) {
if namespace == candidate {
return i
}
}
return - 1
}
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// A NameResolver implements blueprint.NameInterface, and implements the logic to
// find a module from namespaces based on a query string.
// A query string can be a module name or can be be "//namespace_path:module_path"
type NameResolver struct {
rootNamespace * Namespace
// id counter for atomic.AddInt32
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nextNamespaceId int32
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// All namespaces, without duplicates.
sortedNamespaces sortedNamespaces
// Map from dir to namespace. Will have duplicates if two dirs are part of the same namespace.
namespacesByDir sync . Map // if generics were supported, this would be sync.Map[string]*Namespace
// func telling whether to export a namespace to Kati
namespaceExportFilter func ( * Namespace ) bool
}
func NewNameResolver ( namespaceExportFilter func ( * Namespace ) bool ) * NameResolver {
r := & NameResolver {
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namespacesByDir : sync . Map { } ,
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namespaceExportFilter : namespaceExportFilter ,
}
r . rootNamespace = r . newNamespace ( "." )
r . rootNamespace . visibleNamespaces = [ ] * Namespace { r . rootNamespace }
r . addNamespace ( r . rootNamespace )
return r
}
func ( r * NameResolver ) newNamespace ( path string ) * Namespace {
namespace := NewNamespace ( path )
namespace . exportToKati = r . namespaceExportFilter ( namespace )
return namespace
}
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func ( r * NameResolver ) addNewNamespaceForModule ( module * NamespaceModule , path string ) error {
fileName := filepath . Base ( path )
if fileName != "Android.bp" {
return errors . New ( "A namespace may only be declared in a file named Android.bp" )
}
dir := filepath . Dir ( path )
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namespace := r . newNamespace ( dir )
module . namespace = namespace
module . resolver = r
namespace . importedNamespaceNames = module . properties . Imports
return r . addNamespace ( namespace )
}
func ( r * NameResolver ) addNamespace ( namespace * Namespace ) ( err error ) {
existingNamespace , exists := r . namespaceAt ( namespace . Path )
if exists {
if existingNamespace . Path == namespace . Path {
return fmt . Errorf ( "namespace %v already exists" , namespace . Path )
} else {
// It would probably confuse readers if namespaces were declared anywhere but
// the top of the file, so we forbid declaring namespaces after anything else.
return fmt . Errorf ( "a namespace must be the first module in the file" )
}
}
r . sortedNamespaces . add ( namespace )
r . namespacesByDir . Store ( namespace . Path , namespace )
return nil
}
// non-recursive check for namespace
func ( r * NameResolver ) namespaceAt ( path string ) ( namespace * Namespace , found bool ) {
mapVal , found := r . namespacesByDir . Load ( path )
if ! found {
return nil , false
}
return mapVal . ( * Namespace ) , true
}
// recursive search upward for a namespace
func ( r * NameResolver ) findNamespace ( path string ) ( namespace * Namespace ) {
namespace , found := r . namespaceAt ( path )
if found {
return namespace
}
parentDir := filepath . Dir ( path )
if parentDir == path {
return nil
}
namespace = r . findNamespace ( parentDir )
r . namespacesByDir . Store ( path , namespace )
return namespace
}
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// A NamelessModule can never be looked up by name. It must still implement Name(), but the return
// value doesn't have to be unique.
type NamelessModule interface {
Nameless ( )
}
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func ( r * NameResolver ) NewModule ( ctx blueprint . NamespaceContext , moduleGroup blueprint . ModuleGroup , module blueprint . Module ) ( namespace blueprint . Namespace , errs [ ] error ) {
// if this module is a namespace, then save it to our list of namespaces
newNamespace , ok := module . ( * NamespaceModule )
if ok {
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err := r . addNewNamespaceForModule ( newNamespace , ctx . ModulePath ( ) )
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if err != nil {
return nil , [ ] error { err }
}
return nil , nil
}
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if _ , ok := module . ( NamelessModule ) ; ok {
return nil , nil
}
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// if this module is not a namespace, then save it into the appropriate namespace
ns := r . findNamespaceFromCtx ( ctx )
_ , errs = ns . moduleContainer . NewModule ( ctx , moduleGroup , module )
if len ( errs ) > 0 {
return nil , errs
}
amod , ok := module . ( Module )
if ok {
// inform the module whether its namespace is one that we want to export to Make
amod . base ( ) . commonProperties . NamespaceExportedToMake = ns . exportToKati
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amod . base ( ) . commonProperties . DebugName = module . Name ( )
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}
return ns , nil
}
func ( r * NameResolver ) AllModules ( ) [ ] blueprint . ModuleGroup {
childLists := [ ] [ ] blueprint . ModuleGroup { }
totalCount := 0
for _ , namespace := range r . sortedNamespaces . sortedItems ( ) {
newModules := namespace . moduleContainer . AllModules ( )
totalCount += len ( newModules )
childLists = append ( childLists , newModules )
}
allModules := make ( [ ] blueprint . ModuleGroup , 0 , totalCount )
for _ , childList := range childLists {
allModules = append ( allModules , childList ... )
}
return allModules
}
// parses a fully-qualified path (like "//namespace_path:module_name") into a namespace name and a
// module name
func ( r * NameResolver ) parseFullyQualifiedName ( name string ) ( namespaceName string , moduleName string , ok bool ) {
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if ! strings . HasPrefix ( name , "//" ) {
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return "" , "" , false
}
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name = strings . TrimPrefix ( name , "//" )
components := strings . Split ( name , ":" )
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if len ( components ) != 2 {
return "" , "" , false
}
return components [ 0 ] , components [ 1 ] , true
}
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func ( r * NameResolver ) getNamespacesToSearchForModule ( sourceNamespace blueprint . Namespace ) ( searchOrder [ ] * Namespace ) {
ns , ok := sourceNamespace . ( * Namespace )
if ! ok || ns . visibleNamespaces == nil {
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// When handling dependencies before namespaceMutator, assume they are non-Soong Blueprint modules and give
// access to all namespaces.
return r . sortedNamespaces . sortedItems ( )
}
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return ns . visibleNamespaces
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}
func ( r * NameResolver ) ModuleFromName ( name string , namespace blueprint . Namespace ) ( group blueprint . ModuleGroup , found bool ) {
// handle fully qualified references like "//namespace_path:module_name"
nsName , moduleName , isAbs := r . parseFullyQualifiedName ( name )
if isAbs {
namespace , found := r . namespaceAt ( nsName )
if ! found {
return blueprint . ModuleGroup { } , false
}
container := namespace . moduleContainer
return container . ModuleFromName ( moduleName , nil )
}
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for _ , candidate := range r . getNamespacesToSearchForModule ( namespace ) {
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group , found = candidate . moduleContainer . ModuleFromName ( name , nil )
if found {
return group , true
}
}
return blueprint . ModuleGroup { } , false
}
func ( r * NameResolver ) Rename ( oldName string , newName string , namespace blueprint . Namespace ) [ ] error {
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return namespace . ( * Namespace ) . moduleContainer . Rename ( oldName , newName , namespace )
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}
// resolve each element of namespace.importedNamespaceNames and put the result in namespace.visibleNamespaces
func ( r * NameResolver ) FindNamespaceImports ( namespace * Namespace ) ( err error ) {
namespace . visibleNamespaces = make ( [ ] * Namespace , 0 , 2 + len ( namespace . importedNamespaceNames ) )
// search itself first
namespace . visibleNamespaces = append ( namespace . visibleNamespaces , namespace )
// search its imports next
for _ , name := range namespace . importedNamespaceNames {
imp , ok := r . namespaceAt ( name )
if ! ok {
return fmt . Errorf ( "namespace %v does not exist" , name )
}
namespace . visibleNamespaces = append ( namespace . visibleNamespaces , imp )
}
// search the root namespace last
namespace . visibleNamespaces = append ( namespace . visibleNamespaces , r . rootNamespace )
return nil
}
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func ( r * NameResolver ) chooseId ( namespace * Namespace ) {
id := r . sortedNamespaces . index ( namespace )
if id < 0 {
panic ( fmt . Sprintf ( "Namespace not found: %v\n" , namespace . id ) )
}
namespace . id = strconv . Itoa ( id )
}
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func ( r * NameResolver ) MissingDependencyError ( depender string , dependerNamespace blueprint . Namespace , depName string ) ( err error ) {
text := fmt . Sprintf ( "%q depends on undefined module %q" , depender , depName )
_ , _ , isAbs := r . parseFullyQualifiedName ( depName )
if isAbs {
// if the user gave a fully-qualified name, we don't need to look for other
// modules that they might have been referring to
return fmt . Errorf ( text )
}
// determine which namespaces the module can be found in
foundInNamespaces := [ ] string { }
for _ , namespace := range r . sortedNamespaces . sortedItems ( ) {
_ , found := namespace . moduleContainer . ModuleFromName ( depName , nil )
if found {
foundInNamespaces = append ( foundInNamespaces , namespace . Path )
}
}
if len ( foundInNamespaces ) > 0 {
// determine which namespaces are visible to dependerNamespace
dependerNs := dependerNamespace . ( * Namespace )
searched := r . getNamespacesToSearchForModule ( dependerNs )
importedNames := [ ] string { }
for _ , ns := range searched {
importedNames = append ( importedNames , ns . Path )
}
text += fmt . Sprintf ( "\nModule %q is defined in namespace %q which can read these %v namespaces: %q" , depender , dependerNs . Path , len ( importedNames ) , importedNames )
text += fmt . Sprintf ( "\nModule %q can be found in these namespaces: %q" , depName , foundInNamespaces )
}
return fmt . Errorf ( text )
}
func ( r * NameResolver ) GetNamespace ( ctx blueprint . NamespaceContext ) blueprint . Namespace {
return r . findNamespaceFromCtx ( ctx )
}
func ( r * NameResolver ) findNamespaceFromCtx ( ctx blueprint . NamespaceContext ) * Namespace {
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return r . findNamespace ( filepath . Dir ( ctx . ModulePath ( ) ) )
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}
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func ( r * NameResolver ) UniqueName ( ctx blueprint . NamespaceContext , name string ) ( unique string ) {
prefix := r . findNamespaceFromCtx ( ctx ) . id
if prefix != "" {
prefix = prefix + "-"
}
return prefix + name
}
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var _ blueprint . NameInterface = ( * NameResolver ) ( nil )
type Namespace struct {
blueprint . NamespaceMarker
Path string
// names of namespaces listed as imports by this namespace
importedNamespaceNames [ ] string
// all namespaces that should be searched when a module in this namespace declares a dependency
visibleNamespaces [ ] * Namespace
id string
exportToKati bool
moduleContainer blueprint . NameInterface
}
func NewNamespace ( path string ) * Namespace {
return & Namespace { Path : path , moduleContainer : blueprint . NewSimpleNameInterface ( ) }
}
var _ blueprint . Namespace = ( * Namespace ) ( nil )
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type namespaceProperties struct {
// a list of namespaces that contain modules that will be referenced
// by modules in this namespace.
Imports [ ] string ` android:"path" `
}
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type NamespaceModule struct {
ModuleBase
namespace * Namespace
resolver * NameResolver
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properties namespaceProperties
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}
func ( n * NamespaceModule ) GenerateAndroidBuildActions ( ctx ModuleContext ) {
}
func ( n * NamespaceModule ) GenerateBuildActions ( ctx blueprint . ModuleContext ) {
}
func ( n * NamespaceModule ) Name ( ) ( name string ) {
return * n . nameProperties . Name
}
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// soong_namespace provides a scope to modules in an Android.bp file to prevent
// module name conflicts with other defined modules in different Android.bp
// files. Once soong_namespace has been defined in an Android.bp file, the
// namespacing is applied to all modules that follow the soong_namespace in
// the current Android.bp file, as well as modules defined in Android.bp files
// in subdirectories. An Android.bp file in a subdirectory can define its own
// soong_namespace which is applied to all its modules and as well as modules
// defined in subdirectories Android.bp files. Modules in a soong_namespace are
// visible to Make by listing the namespace path in PRODUCT_SOONG_NAMESPACES
// make variable in a makefile.
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func NamespaceFactory ( ) Module {
module := & NamespaceModule { }
name := "soong_namespace"
module . nameProperties . Name = & name
module . AddProperties ( & module . properties )
return module
}
func RegisterNamespaceMutator ( ctx RegisterMutatorsContext ) {
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ctx . BottomUp ( "namespace_deps" , namespaceMutator ) . Parallel ( )
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}
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func namespaceMutator ( ctx BottomUpMutatorContext ) {
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module , ok := ctx . Module ( ) . ( * NamespaceModule )
if ok {
err := module . resolver . FindNamespaceImports ( module . namespace )
if err != nil {
ctx . ModuleErrorf ( err . Error ( ) )
}
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module . resolver . chooseId ( module . namespace )
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}
}