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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 python
// This file contains the "Base" module type for building Python program.
import (
"fmt"
"path/filepath"
"regexp"
"sort"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
)
func init() {
android.PreDepsMutators(func(ctx android.RegisterMutatorsContext) {
ctx.BottomUp("version_split", versionSplitMutator()).Parallel()
})
}
// the version properties that apply to python libraries and binaries.
type VersionProperties struct {
// true, if the module is required to be built with this version.
Enabled *bool `android:"arch_variant"`
// non-empty list of .py files under this strict Python version.
// srcs may reference the outputs of other modules that produce source files like genrule
// or filegroup using the syntax ":module".
Srcs []string `android:"arch_variant"`
// list of source files that should not be used to build the Python module.
// This is most useful in the arch/multilib variants to remove non-common files
Exclude_srcs []string `android:"arch_variant"`
// list of the Python libraries under this Python version.
Libs []string `android:"arch_variant"`
// true, if the binary is required to be built with embedded launcher.
// TODO(nanzhang): Remove this flag when embedded Python3 is supported later.
Embedded_launcher *bool `android:"arch_variant"`
}
// properties that apply to python libraries and binaries.
type BaseProperties struct {
// the package path prefix within the output artifact at which to place the source/data
// files of the current module.
// eg. Pkg_path = "a/b/c"; Other packages can reference this module by using
// (from a.b.c import ...) statement.
// if left unspecified, all the source/data files of current module are copied to
// "runfiles/" tree directory directly.
Pkg_path *string `android:"arch_variant"`
// true, if the Python module is used internally, eg, Python std libs.
Is_internal *bool `android:"arch_variant"`
// list of source (.py) files compatible both with Python2 and Python3 used to compile the
// Python module.
// srcs may reference the outputs of other modules that produce source files like genrule
// or filegroup using the syntax ":module".
// Srcs has to be non-empty.
Srcs []string `android:"arch_variant"`
// list of source files that should not be used to build the C/C++ module.
// This is most useful in the arch/multilib variants to remove non-common files
Exclude_srcs []string `android:"arch_variant"`
// list of files or filegroup modules that provide data that should be installed alongside
// the test. the file extension can be arbitrary except for (.py).
Data []string `android:"arch_variant"`
// list of the Python libraries compatible both with Python2 and Python3.
Libs []string `android:"arch_variant"`
Version struct {
// all the "srcs" or Python dependencies that are to be used only for Python2.
Py2 VersionProperties `android:"arch_variant"`
// all the "srcs" or Python dependencies that are to be used only for Python3.
Py3 VersionProperties `android:"arch_variant"`
} `android:"arch_variant"`
// the actual version each module uses after variations created.
// this property name is hidden from users' perspectives, and soong will populate it during
// runtime.
Actual_version string `blueprint:"mutated"`
}
type pathMapping struct {
dest string
src android.Path
}
type Module struct {
android.ModuleBase
android.DefaultableModuleBase
properties BaseProperties
protoProperties android.ProtoProperties
// initialize before calling Init
hod android.HostOrDeviceSupported
multilib android.Multilib
// the bootstrapper is used to bootstrap .par executable.
// bootstrapper might be nil (Python library module).
bootstrapper bootstrapper
// the installer might be nil.
installer installer
// the Python files of current module after expanding source dependencies.
// pathMapping: <dest: runfile_path, src: source_path>
srcsPathMappings []pathMapping
// the data files of current module after expanding source dependencies.
// pathMapping: <dest: runfile_path, src: source_path>
dataPathMappings []pathMapping
// the zip filepath for zipping current module source/data files.
srcsZip android.Path
// dependency modules' zip filepath for zipping current module source/data files.
depsSrcsZips android.Paths
// (.intermediate) module output path as installation source.
installSource android.OptionalPath
subAndroidMkOnce map[subAndroidMkProvider]bool
}
func newModule(hod android.HostOrDeviceSupported, multilib android.Multilib) *Module {
return &Module{
hod: hod,
multilib: multilib,
}
}
type bootstrapper interface {
bootstrapperProps() []interface{}
bootstrap(ctx android.ModuleContext, ActualVersion string, embeddedLauncher bool,
srcsPathMappings []pathMapping, srcsZip android.Path,
depsSrcsZips android.Paths) android.OptionalPath
}
type installer interface {
install(ctx android.ModuleContext, path android.Path)
}
type PythonDependency interface {
GetSrcsPathMappings() []pathMapping
GetDataPathMappings() []pathMapping
GetSrcsZip() android.Path
}
func (p *Module) GetSrcsPathMappings() []pathMapping {
return p.srcsPathMappings
}
func (p *Module) GetDataPathMappings() []pathMapping {
return p.dataPathMappings
}
func (p *Module) GetSrcsZip() android.Path {
return p.srcsZip
}
var _ PythonDependency = (*Module)(nil)
var _ android.AndroidMkDataProvider = (*Module)(nil)
func (p *Module) Init() android.Module {
p.AddProperties(&p.properties, &p.protoProperties)
if p.bootstrapper != nil {
p.AddProperties(p.bootstrapper.bootstrapperProps()...)
}
android.InitAndroidArchModule(p, p.hod, p.multilib)
android.InitDefaultableModule(p)
return p
}
type dependencyTag struct {
blueprint.BaseDependencyTag
name string
}
var (
pythonLibTag = dependencyTag{name: "pythonLib"}
launcherTag = dependencyTag{name: "launcher"}
pyIdentifierRegexp = regexp.MustCompile(`^[a-zA-Z_][a-zA-Z0-9_-]*$`)
pyExt = ".py"
protoExt = ".proto"
pyVersion2 = "PY2"
pyVersion3 = "PY3"
initFileName = "__init__.py"
mainFileName = "__main__.py"
entryPointFile = "entry_point.txt"
parFileExt = ".zip"
runFiles = "runfiles"
internal = "internal"
)
// create version variants for modules.
func versionSplitMutator() func(android.BottomUpMutatorContext) {
return func(mctx android.BottomUpMutatorContext) {
if base, ok := mctx.Module().(*Module); ok {
versionNames := []string{}
if base.properties.Version.Py2.Enabled != nil &&
*(base.properties.Version.Py2.Enabled) == true {
versionNames = append(versionNames, pyVersion2)
}
if !(base.properties.Version.Py3.Enabled != nil &&
*(base.properties.Version.Py3.Enabled) == false) {
versionNames = append(versionNames, pyVersion3)
}
modules := mctx.CreateVariations(versionNames...)
for i, v := range versionNames {
// set the actual version for Python module.
modules[i].(*Module).properties.Actual_version = v
}
}
}
}
func (p *Module) HostToolPath() android.OptionalPath {
if p.installer == nil {
// python_library is just meta module, and doesn't have any installer.
return android.OptionalPath{}
}
return android.OptionalPathForPath(p.installer.(*binaryDecorator).path)
}
func (p *Module) isEmbeddedLauncherEnabled(actual_version string) bool {
switch actual_version {
case pyVersion2:
return Bool(p.properties.Version.Py2.Embedded_launcher)
case pyVersion3:
return Bool(p.properties.Version.Py3.Embedded_launcher)
}
return false
}
func hasSrcExt(srcs []string, ext string) bool {
for _, src := range srcs {
if filepath.Ext(src) == ext {
return true
}
}
return false
}
func (p *Module) hasSrcExt(ctx android.BottomUpMutatorContext, ext string) bool {
if hasSrcExt(p.properties.Srcs, protoExt) {
return true
}
switch p.properties.Actual_version {
case pyVersion2:
return hasSrcExt(p.properties.Version.Py2.Srcs, protoExt)
case pyVersion3:
return hasSrcExt(p.properties.Version.Py3.Srcs, protoExt)
default:
panic(fmt.Errorf("unknown Python Actual_version: %q for module: %q.",
p.properties.Actual_version, ctx.ModuleName()))
}
}
func (p *Module) DepsMutator(ctx android.BottomUpMutatorContext) {
// deps from "data".
android.ExtractSourcesDeps(ctx, p.properties.Data)
// deps from "srcs".
android.ExtractSourcesDeps(ctx, p.properties.Srcs)
android.ExtractSourcesDeps(ctx, p.properties.Exclude_srcs)
if p.hasSrcExt(ctx, protoExt) && p.Name() != "libprotobuf-python" {
ctx.AddVariationDependencies(nil, pythonLibTag, "libprotobuf-python")
}
switch p.properties.Actual_version {
case pyVersion2:
// deps from "version.py2.srcs" property.
android.ExtractSourcesDeps(ctx, p.properties.Version.Py2.Srcs)
android.ExtractSourcesDeps(ctx, p.properties.Version.Py2.Exclude_srcs)
ctx.AddVariationDependencies(nil, pythonLibTag,
uniqueLibs(ctx, p.properties.Libs, "version.py2.libs",
p.properties.Version.Py2.Libs)...)
if p.bootstrapper != nil && p.isEmbeddedLauncherEnabled(pyVersion2) {
ctx.AddVariationDependencies(nil, pythonLibTag, "py2-stdlib")
ctx.AddFarVariationDependencies([]blueprint.Variation{
{"arch", ctx.Target().String()},
}, launcherTag, "py2-launcher")
}
case pyVersion3:
// deps from "version.py3.srcs" property.
android.ExtractSourcesDeps(ctx, p.properties.Version.Py3.Srcs)
android.ExtractSourcesDeps(ctx, p.properties.Version.Py3.Exclude_srcs)
ctx.AddVariationDependencies(nil, pythonLibTag,
uniqueLibs(ctx, p.properties.Libs, "version.py3.libs",
p.properties.Version.Py3.Libs)...)
if p.bootstrapper != nil && p.isEmbeddedLauncherEnabled(pyVersion3) {
//TODO(nanzhang): Add embedded launcher for Python3.
ctx.PropertyErrorf("version.py3.embedded_launcher",
"is not supported yet for Python3.")
}
default:
panic(fmt.Errorf("unknown Python Actual_version: %q for module: %q.",
p.properties.Actual_version, ctx.ModuleName()))
}
}
// check "libs" duplicates from current module dependencies.
func uniqueLibs(ctx android.BottomUpMutatorContext,
commonLibs []string, versionProp string, versionLibs []string) []string {
set := make(map[string]string)
ret := []string{}
// deps from "libs" property.
for _, l := range commonLibs {
if _, found := set[l]; found {
ctx.PropertyErrorf("libs", "%q has duplicates within libs.", l)
} else {
set[l] = "libs"
ret = append(ret, l)
}
}
// deps from "version.pyX.libs" property.
for _, l := range versionLibs {
if _, found := set[l]; found {
ctx.PropertyErrorf(versionProp, "%q has duplicates within %q.", set[l])
} else {
set[l] = versionProp
ret = append(ret, l)
}
}
return ret
}
func (p *Module) GenerateAndroidBuildActions(ctx android.ModuleContext) {
p.GeneratePythonBuildActions(ctx)
// Only Python binaries and test has non-empty bootstrapper.
if p.bootstrapper != nil {
p.walkTransitiveDeps(ctx)
// TODO(nanzhang): Since embedded launcher is not supported for Python3 for now,
// so we initialize "embedded_launcher" to false.
embeddedLauncher := false
if p.properties.Actual_version == pyVersion2 {
embeddedLauncher = p.isEmbeddedLauncherEnabled(pyVersion2)
}
p.installSource = p.bootstrapper.bootstrap(ctx, p.properties.Actual_version,
embeddedLauncher, p.srcsPathMappings, p.srcsZip, p.depsSrcsZips)
}
if p.installer != nil && p.installSource.Valid() {
p.installer.install(ctx, p.installSource.Path())
}
}
func (p *Module) GeneratePythonBuildActions(ctx android.ModuleContext) {
// expand python files from "srcs" property.
srcs := p.properties.Srcs
exclude_srcs := p.properties.Exclude_srcs
switch p.properties.Actual_version {
case pyVersion2:
srcs = append(srcs, p.properties.Version.Py2.Srcs...)
exclude_srcs = append(exclude_srcs, p.properties.Version.Py2.Exclude_srcs...)
case pyVersion3:
srcs = append(srcs, p.properties.Version.Py3.Srcs...)
exclude_srcs = append(exclude_srcs, p.properties.Version.Py3.Exclude_srcs...)
default:
panic(fmt.Errorf("unknown Python Actual_version: %q for module: %q.",
p.properties.Actual_version, ctx.ModuleName()))
}
expandedSrcs := ctx.ExpandSources(srcs, exclude_srcs)
if len(expandedSrcs) == 0 {
ctx.ModuleErrorf("doesn't have any source files!")
}
// expand data files from "data" property.
expandedData := ctx.ExpandSources(p.properties.Data, nil)
// sanitize pkg_path.
pkgPath := String(p.properties.Pkg_path)
if pkgPath != "" {
pkgPath = filepath.Clean(String(p.properties.Pkg_path))
if pkgPath == ".." || strings.HasPrefix(pkgPath, "../") ||
strings.HasPrefix(pkgPath, "/") {
ctx.PropertyErrorf("pkg_path",
"%q must be a relative path contained in par file.",
String(p.properties.Pkg_path))
return
}
if p.properties.Is_internal != nil && *p.properties.Is_internal {
// pkg_path starts from "internal/" implicitly.
pkgPath = filepath.Join(internal, pkgPath)
} else {
if !p.isEmbeddedLauncherEnabled(p.properties.Actual_version) {
// pkg_path starts from "runfiles/" implicitly.
pkgPath = filepath.Join(runFiles, pkgPath)
}
}
} else {
if p.properties.Is_internal != nil && *p.properties.Is_internal {
// pkg_path starts from "runfiles/" implicitly.
pkgPath = internal
} else {
if !p.isEmbeddedLauncherEnabled(p.properties.Actual_version) {
// pkg_path starts from "runfiles/" implicitly.
pkgPath = runFiles
}
}
}
p.genModulePathMappings(ctx, pkgPath, expandedSrcs, expandedData)
p.srcsZip = p.createSrcsZip(ctx, pkgPath)
}
// generate current module unique pathMappings: <dest: runfiles_path, src: source_path>
// for python/data files.
func (p *Module) genModulePathMappings(ctx android.ModuleContext, pkgPath string,
expandedSrcs, expandedData android.Paths) {
// fetch <runfiles_path, source_path> pairs from "src" and "data" properties to
// check current module duplicates.
destToPySrcs := make(map[string]string)
destToPyData := make(map[string]string)
for _, s := range expandedSrcs {
if s.Ext() != pyExt && s.Ext() != protoExt {
ctx.PropertyErrorf("srcs", "found non (.py|.proto) file: %q!", s.String())
continue
}
runfilesPath := filepath.Join(pkgPath, s.Rel())
identifiers := strings.Split(strings.TrimSuffix(runfilesPath,
filepath.Ext(runfilesPath)), "/")
for _, token := range identifiers {
if !pyIdentifierRegexp.MatchString(token) {
ctx.PropertyErrorf("srcs", "the path %q contains invalid token %q.",
runfilesPath, token)
}
}
if fillInMap(ctx, destToPySrcs, runfilesPath, s.String(), p.Name(), p.Name()) {
p.srcsPathMappings = append(p.srcsPathMappings,
pathMapping{dest: runfilesPath, src: s})
}
}
for _, d := range expandedData {
if d.Ext() == pyExt || d.Ext() == protoExt {
ctx.PropertyErrorf("data", "found (.py|.proto) file: %q!", d.String())
continue
}
runfilesPath := filepath.Join(pkgPath, d.Rel())
if fillInMap(ctx, destToPyData, runfilesPath, d.String(), p.Name(), p.Name()) {
p.dataPathMappings = append(p.dataPathMappings,
pathMapping{dest: runfilesPath, src: d})
}
}
}
// register build actions to zip current module's sources.
func (p *Module) createSrcsZip(ctx android.ModuleContext, pkgPath string) android.Path {
relativeRootMap := make(map[string]android.Paths)
pathMappings := append(p.srcsPathMappings, p.dataPathMappings...)
var protoSrcs android.Paths
// "srcs" or "data" properties may have filegroup so it might happen that
// the relative root for each source path is different.
for _, path := range pathMappings {
if path.src.Ext() == protoExt {
protoSrcs = append(protoSrcs, path.src)
} else {
var relativeRoot string
relativeRoot = strings.TrimSuffix(path.src.String(), path.src.Rel())
if v, found := relativeRootMap[relativeRoot]; found {
relativeRootMap[relativeRoot] = append(v, path.src)
} else {
relativeRootMap[relativeRoot] = android.Paths{path.src}
}
}
}
var zips android.Paths
if len(protoSrcs) > 0 {
for _, srcFile := range protoSrcs {
zip := genProto(ctx, &p.protoProperties, srcFile,
android.ProtoFlags(ctx, &p.protoProperties), pkgPath)
zips = append(zips, zip)
}
}
if len(relativeRootMap) > 0 {
var keys []string
// in order to keep stable order of soong_zip params, we sort the keys here.
for k := range relativeRootMap {
keys = append(keys, k)
}
sort.Strings(keys)
parArgs := []string{}
if pkgPath != "" {
parArgs = append(parArgs, `-P `+pkgPath)
}
implicits := android.Paths{}
for _, k := range keys {
parArgs = append(parArgs, `-C `+k)
for _, path := range relativeRootMap[k] {
parArgs = append(parArgs, `-f `+path.String())
implicits = append(implicits, path)
}
}
origSrcsZip := android.PathForModuleOut(ctx, ctx.ModuleName()+".py.srcszip")
ctx.Build(pctx, android.BuildParams{
Rule: zip,
Description: "python library archive",
Output: origSrcsZip,
Implicits: implicits,
Args: map[string]string{
"args": strings.Join(parArgs, " "),
},
})
zips = append(zips, origSrcsZip)
}
if len(zips) == 1 {
return zips[0]
} else {
combinedSrcsZip := android.PathForModuleOut(ctx, ctx.ModuleName()+".srcszip")
ctx.Build(pctx, android.BuildParams{
Rule: combineZip,
Description: "combine python library archive",
Output: combinedSrcsZip,
Inputs: zips,
})
return combinedSrcsZip
}
}
func isPythonLibModule(module blueprint.Module) bool {
if m, ok := module.(*Module); ok {
// Python library has no bootstrapper or installer.
if m.bootstrapper != nil || m.installer != nil {
return false
}
return true
}
return false
}
// check Python source/data files duplicates for whole runfiles tree since Python binary/test
// need collect and zip all srcs of whole transitive dependencies to a final par file.
func (p *Module) walkTransitiveDeps(ctx android.ModuleContext) {
// fetch <runfiles_path, source_path> pairs from "src" and "data" properties to
// check duplicates.
destToPySrcs := make(map[string]string)
destToPyData := make(map[string]string)
for _, path := range p.srcsPathMappings {
destToPySrcs[path.dest] = path.src.String()
}
for _, path := range p.dataPathMappings {
destToPyData[path.dest] = path.src.String()
}
// visit all its dependencies in depth first.
ctx.VisitDepsDepthFirst(func(module android.Module) {
if ctx.OtherModuleDependencyTag(module) != pythonLibTag {
return
}
// Python modules only can depend on Python libraries.
if !isPythonLibModule(module) {
panic(fmt.Errorf(
"the dependency %q of module %q is not Python library!",
ctx.ModuleName(), ctx.OtherModuleName(module)))
}
if dep, ok := module.(PythonDependency); ok {
srcs := dep.GetSrcsPathMappings()
for _, path := range srcs {
if !fillInMap(ctx, destToPySrcs,
path.dest, path.src.String(), ctx.ModuleName(), ctx.OtherModuleName(module)) {
continue
}
}
data := dep.GetDataPathMappings()
for _, path := range data {
fillInMap(ctx, destToPyData,
path.dest, path.src.String(), ctx.ModuleName(), ctx.OtherModuleName(module))
}
p.depsSrcsZips = append(p.depsSrcsZips, dep.GetSrcsZip())
}
})
}
func fillInMap(ctx android.ModuleContext, m map[string]string,
key, value, curModule, otherModule string) bool {
if oldValue, found := m[key]; found {
ctx.ModuleErrorf("found two files to be placed at the same runfiles location %q."+
" First file: in module %s at path %q."+
" Second file: in module %s at path %q.",
key, curModule, oldValue, otherModule, value)
return false
} else {
m[key] = value
}
return true
}
func (p *Module) InstallInData() bool {
return true
}
var Bool = proptools.Bool
var String = proptools.String
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