// 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"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
)
func init() {
registerPythonMutators(android.InitRegistrationContext)
}
func registerPythonMutators(ctx android.RegistrationContext) {
ctx.PreDepsMutators(RegisterPythonPreDepsMutators)
}
// Exported to support other packages using Python modules in tests.
func RegisterPythonPreDepsMutators(ctx android.RegisterMutatorsContext) {
ctx.Transition("python_version", &versionSplitTransitionMutator{})
}
// the version-specific properties that apply to python modules.
type VersionProperties struct {
// whether the module is required to be built with this version.
// Defaults to true for Python 3, and false otherwise.
Enabled *bool
// list of source files specific to this Python version.
// Using the syntax ":module", srcs may reference the outputs of other modules that produce source files,
// e.g. genrule or filegroup.
Srcs []string `android:"path,arch_variant"`
// list of source files that should not be used to build the Python module for this version.
// This is most useful to remove files that are not common to all Python versions.
Exclude_srcs []string `android:"path,arch_variant"`
// list of the Python libraries used only for this Python version.
Libs []string `android:"arch_variant"`
// whether the binary is required to be built with embedded launcher for this version, defaults to true.
Embedded_launcher *bool // TODO(b/174041232): Remove this property
}
// properties that apply to all python modules
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 path is unchanged within zip file.
Pkg_path *string
// true, if the Python module is used internally, eg, Python std libs.
Is_internal *bool
// 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:"path,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:"path,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:"path,arch_variant"`
// Same as data, but will add dependencies on modules using the device's os variation and
// the common arch variation. Useful for a host test that wants to embed a module built for
// device.
Device_common_data []string `android:"path_device_common"`
// list of java modules that provide data that should be installed alongside the test.
Java_data []string
// list of the Python libraries compatible both with Python2 and Python3.
Libs []string `android:"arch_variant"`
Version struct {
// Python2-specific properties, including whether Python2 is supported for this module
// and version-specific sources, exclusions and dependencies.
Py2 VersionProperties `android:"arch_variant"`
// Python3-specific properties, including whether Python3 is supported for this module
// and version-specific sources, exclusions and dependencies.
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"`
// whether the module is required to be built with actual_version.
// this is set by the python version mutator based on version-specific properties
Enabled *bool `blueprint:"mutated"`
// whether the binary is required to be built with embedded launcher for this actual_version.
// this is set by the python version mutator based on version-specific properties
Embedded_launcher *bool `blueprint:"mutated"`
}
// Used to store files of current module after expanding dependencies
type pathMapping struct {
dest string
src android.Path
}
type PythonLibraryModule struct {
android.ModuleBase
android.DefaultableModuleBase
properties BaseProperties
protoProperties android.ProtoProperties
// initialize before calling Init
hod android.HostOrDeviceSupported
multilib android.Multilib
// 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 file containing the current module's source/data files.
srcsZip android.Path
// The zip file containing the current module's source/data files, with the
// source files precompiled.
precompiledSrcsZip android.Path
sourceProperties android.SourceProperties
}
// newModule generates new Python base module
func newModule(hod android.HostOrDeviceSupported, multilib android.Multilib) *PythonLibraryModule {
return &PythonLibraryModule{
hod: hod,
multilib: multilib,
}
}
// interface implemented by Python modules to provide source and data mappings and zip to python
// modules that depend on it
type pythonDependency interface {
getSrcsPathMappings() []pathMapping
getDataPathMappings() []pathMapping
getSrcsZip() android.Path
getPrecompiledSrcsZip() android.Path
getPkgPath() string
}
// getSrcsPathMappings gets this module's path mapping of src source path : runfiles destination
func (p *PythonLibraryModule) getSrcsPathMappings() []pathMapping {
return p.srcsPathMappings
}
// getSrcsPathMappings gets this module's path mapping of data source path : runfiles destination
func (p *PythonLibraryModule) getDataPathMappings() []pathMapping {
return p.dataPathMappings
}
// getSrcsZip returns the filepath where the current module's source/data files are zipped.
func (p *PythonLibraryModule) getSrcsZip() android.Path {
return p.srcsZip
}
// getSrcsZip returns the filepath where the current module's source/data files are zipped.
func (p *PythonLibraryModule) getPrecompiledSrcsZip() android.Path {
return p.precompiledSrcsZip
}
// getPkgPath returns the pkg_path value
func (p *PythonLibraryModule) getPkgPath() string {
return String(p.properties.Pkg_path)
}
func (p *PythonLibraryModule) getBaseProperties() *BaseProperties {
return &p.properties
}
var _ pythonDependency = (*PythonLibraryModule)(nil)
func (p *PythonLibraryModule) init() android.Module {
p.AddProperties(&p.properties, &p.protoProperties, &p.sourceProperties)
android.InitAndroidArchModule(p, p.hod, p.multilib)
android.InitDefaultableModule(p)
return p
}
// Python-specific tag to transfer information on the purpose of a dependency.
// This is used when adding a dependency on a module, which can later be accessed when visiting
// dependencies.
type dependencyTag struct {
blueprint.BaseDependencyTag
name string
}
// Python-specific tag that indicates that installed files of this module should depend on installed
// files of the dependency
type installDependencyTag struct {
blueprint.BaseDependencyTag
// embedding this struct provides the installation dependency requirement
android.InstallAlwaysNeededDependencyTag
name string
}
var (
pythonLibTag = dependencyTag{name: "pythonLib"}
javaDataTag = dependencyTag{name: "javaData"}
// The python interpreter, with soong module name "py3-launcher" or "py3-launcher-autorun".
launcherTag = dependencyTag{name: "launcher"}
launcherSharedLibTag = installDependencyTag{name: "launcherSharedLib"}
// The python interpreter built for host so that we can precompile python sources.
// This only works because the precompiled sources don't vary by architecture.
// The soong module name is "py3-launcher".
hostLauncherTag = dependencyTag{name: "hostLauncher"}
hostlauncherSharedLibTag = dependencyTag{name: "hostlauncherSharedLib"}
hostStdLibTag = dependencyTag{name: "hostStdLib"}
pathComponentRegexp = regexp.MustCompile(`^[a-zA-Z_][a-zA-Z0-9_-]*$`)
pyExt = ".py"
protoExt = ".proto"
pyVersion2 = "PY2"
pyVersion3 = "PY3"
internalPath = "internal"
)
type basePropertiesProvider interface {
getBaseProperties() *BaseProperties
}
type versionSplitTransitionMutator struct{}
func (versionSplitTransitionMutator) Split(ctx android.BaseModuleContext) []string {
if base, ok := ctx.Module().(basePropertiesProvider); ok {
props := base.getBaseProperties()
var variants []string
// PY3 is first so that we alias the PY3 variant rather than PY2 if both
// are available
if proptools.BoolDefault(props.Version.Py3.Enabled, true) {
variants = append(variants, pyVersion3)
}
if proptools.BoolDefault(props.Version.Py2.Enabled, false) {
if ctx.ModuleName() != "py2-cmd" &&
ctx.ModuleName() != "py2-stdlib" {
ctx.PropertyErrorf("version.py2.enabled", "Python 2 is no longer supported, please convert to python 3.")
}
variants = append(variants, pyVersion2)
}
return variants
}
return []string{""}
}
func (versionSplitTransitionMutator) OutgoingTransition(ctx android.OutgoingTransitionContext, sourceVariation string) string {
return ""
}
func (versionSplitTransitionMutator) IncomingTransition(ctx android.IncomingTransitionContext, incomingVariation string) string {
if incomingVariation != "" {
return incomingVariation
}
if base, ok := ctx.Module().(basePropertiesProvider); ok {
props := base.getBaseProperties()
if proptools.BoolDefault(props.Version.Py3.Enabled, true) {
return pyVersion3
} else {
return pyVersion2
}
}
return ""
}
func (versionSplitTransitionMutator) Mutate(ctx android.BottomUpMutatorContext, variation string) {
if variation == "" {
return
}
if base, ok := ctx.Module().(basePropertiesProvider); ok {
props := base.getBaseProperties()
props.Actual_version = variation
var versionProps *VersionProperties
if variation == pyVersion3 {
versionProps = &props.Version.Py3
} else if variation == pyVersion2 {
versionProps = &props.Version.Py2
}
err := proptools.AppendMatchingProperties([]interface{}{props}, versionProps, nil)
if err != nil {
panic(err)
}
}
}
func anyHasExt(paths []string, ext string) bool {
for _, p := range paths {
if filepath.Ext(p) == ext {
return true
}
}
return false
}
func (p *PythonLibraryModule) anySrcHasExt(ctx android.BottomUpMutatorContext, ext string) bool {
return anyHasExt(p.properties.Srcs, ext)
}
// DepsMutator mutates dependencies for this module:
// - handles proto dependencies,
// - if required, specifies launcher and adds launcher dependencies,
// - applies python version mutations to Python dependencies
func (p *PythonLibraryModule) DepsMutator(ctx android.BottomUpMutatorContext) {
android.ProtoDeps(ctx, &p.protoProperties)
versionVariation := []blueprint.Variation{
{"python_version", p.properties.Actual_version},
}
// If sources contain a proto file, add dependency on libprotobuf-python
if p.anySrcHasExt(ctx, protoExt) && p.Name() != "libprotobuf-python" {
ctx.AddVariationDependencies(versionVariation, pythonLibTag, "libprotobuf-python")
}
// Add python library dependencies for this python version variation
ctx.AddVariationDependencies(versionVariation, pythonLibTag, android.LastUniqueStrings(p.properties.Libs)...)
// Emulate the data property for java_data but with the arch variation overridden to "common"
// so that it can point to java modules.
javaDataVariation := []blueprint.Variation{{"arch", android.Common.String()}}
ctx.AddVariationDependencies(javaDataVariation, javaDataTag, p.properties.Java_data...)
p.AddDepsOnPythonLauncherAndStdlib(ctx, hostStdLibTag, hostLauncherTag, hostlauncherSharedLibTag, false, ctx.Config().BuildOSTarget)
}
// AddDepsOnPythonLauncherAndStdlib will make the current module depend on the python stdlib,
// launcher (interpreter), and the launcher's shared libraries. If autorun is true, it will use
// the autorun launcher instead of the regular one. This function acceps a targetForDeps argument
// as the target to use for these dependencies. For embedded launcher python binaries, the launcher
// that will be embedded will be under the same target as the python module itself. But when
// precompiling python code, we need to get the python launcher built for host, even if we're
// compiling the python module for device, so we pass a different target to this function.
func (p *PythonLibraryModule) AddDepsOnPythonLauncherAndStdlib(ctx android.BottomUpMutatorContext,
stdLibTag, launcherTag, launcherSharedLibTag blueprint.DependencyTag,
autorun bool, targetForDeps android.Target) {
var stdLib string
var launcherModule string
// Add launcher shared lib dependencies. Ideally, these should be
// derived from the `shared_libs` property of the launcher. TODO: read these from
// the python launcher itself using ctx.OtherModuleProvider() or similar on the result
// of ctx.AddFarVariationDependencies()
launcherSharedLibDeps := []string{
"libsqlite",
}
// Add launcher-specific dependencies for bionic
if targetForDeps.Os.Bionic() {
launcherSharedLibDeps = append(launcherSharedLibDeps, "libc", "libdl", "libm")
}
if targetForDeps.Os == android.LinuxMusl && !ctx.Config().HostStaticBinaries() {
launcherSharedLibDeps = append(launcherSharedLibDeps, "libc_musl")
}
switch p.properties.Actual_version {
case pyVersion2:
stdLib = "py2-stdlib"
launcherModule = "py2-launcher"
if autorun {
launcherModule = "py2-launcher-autorun"
}
launcherSharedLibDeps = append(launcherSharedLibDeps, "libc++")
case pyVersion3:
var prebuiltStdLib bool
if targetForDeps.Os.Bionic() {
prebuiltStdLib = false
} else if ctx.Config().VendorConfig("cpython3").Bool("force_build_host") {
prebuiltStdLib = false
} else {
prebuiltStdLib = true
}
if prebuiltStdLib {
stdLib = "py3-stdlib-prebuilt"
} else {
stdLib = "py3-stdlib"
}
launcherModule = "py3-launcher"
if autorun {
launcherModule = "py3-launcher-autorun"
}
if ctx.Config().HostStaticBinaries() && targetForDeps.Os == android.LinuxMusl {
launcherModule += "-static"
}
if ctx.Device() {
launcherSharedLibDeps = append(launcherSharedLibDeps, "liblog")
}
default:
panic(fmt.Errorf("unknown Python Actual_version: %q for module: %q.",
p.properties.Actual_version, ctx.ModuleName()))
}
targetVariations := targetForDeps.Variations()
if ctx.ModuleName() != stdLib {
stdLibVariations := make([]blueprint.Variation, 0, len(targetVariations)+1)
stdLibVariations = append(stdLibVariations, blueprint.Variation{Mutator: "python_version", Variation: p.properties.Actual_version})
stdLibVariations = append(stdLibVariations, targetVariations...)
// Using AddFarVariationDependencies for all of these because they can be for a different
// platform, like if the python module itself was being compiled for device, we may want
// the python interpreter built for host so that we can precompile python sources.
ctx.AddFarVariationDependencies(stdLibVariations, stdLibTag, stdLib)
}
ctx.AddFarVariationDependencies(targetVariations, launcherTag, launcherModule)
ctx.AddFarVariationDependencies(targetVariations, launcherSharedLibTag, launcherSharedLibDeps...)
}
// GenerateAndroidBuildActions performs build actions common to all Python modules
func (p *PythonLibraryModule) GenerateAndroidBuildActions(ctx android.ModuleContext) {
expandedSrcs := android.PathsForModuleSrcExcludes(ctx, p.properties.Srcs, p.properties.Exclude_srcs)
android.SetProvider(ctx, blueprint.SrcsFileProviderKey, blueprint.SrcsFileProviderData{SrcPaths: expandedSrcs.Strings()})
// Keep before any early returns.
android.SetProvider(ctx, android.TestOnlyProviderKey, android.TestModuleInformation{
TestOnly: Bool(p.sourceProperties.Test_only),
TopLevelTarget: p.sourceProperties.Top_level_test_target,
})
// expand data files from "data" property.
expandedData := android.PathsForModuleSrc(ctx, p.properties.Data)
expandedData = append(expandedData, android.PathsForModuleSrc(ctx, p.properties.Device_common_data)...)
// Emulate the data property for java_data dependencies.
for _, javaData := range ctx.GetDirectDepsWithTag(javaDataTag) {
expandedData = append(expandedData, android.OutputFilesForModule(ctx, javaData, "")...)
}
// Validate pkg_path property
pkgPath := String(p.properties.Pkg_path)
if pkgPath != "" {
// TODO: export validation from android/paths.go handling to replace this duplicated functionality
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 property Is_internal is set, prepend pkgPath with internalPath
if proptools.BoolDefault(p.properties.Is_internal, false) {
pkgPath = filepath.Join(internalPath, pkgPath)
}
// generate src:destination path mappings for this module
p.genModulePathMappings(ctx, pkgPath, expandedSrcs, expandedData)
// generate the zipfile of all source and data files
p.srcsZip = p.createSrcsZip(ctx, pkgPath)
p.precompiledSrcsZip = p.precompileSrcs(ctx)
}
func isValidPythonPath(path string) error {
identifiers := strings.Split(strings.TrimSuffix(path, filepath.Ext(path)), "/")
for _, token := range identifiers {
if !pathComponentRegexp.MatchString(token) {
return fmt.Errorf("the path %q contains invalid subpath %q. "+
"Subpaths must be at least one character long. "+
"The first character must an underscore or letter. "+
"Following characters may be any of: letter, digit, underscore, hyphen.",
path, token)
}
}
return nil
}
// For this module, generate unique pathMappings: <dest: runfiles_path, src: source_path>
// for python/data files expanded from properties.
func (p *PythonLibraryModule) 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)
// Disable path checks for the stdlib, as it includes a "." in the version string
isInternal := proptools.BoolDefault(p.properties.Is_internal, false)
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())
if !isInternal {
if err := isValidPythonPath(runfilesPath); err != nil {
ctx.PropertyErrorf("srcs", err.Error())
}
}
if !checkForDuplicateOutputPath(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 {
ctx.PropertyErrorf("data", "found (.py) file: %q!", d.String())
continue
}
runfilesPath := filepath.Join(pkgPath, d.Rel())
if !checkForDuplicateOutputPath(ctx, destToPyData, runfilesPath, d.String(), p.Name(), p.Name()) {
p.dataPathMappings = append(p.dataPathMappings,
pathMapping{dest: runfilesPath, src: d})
}
}
}
// createSrcsZip registers build actions to zip current module's sources and data.
func (p *PythonLibraryModule) createSrcsZip(ctx android.ModuleContext, pkgPath string) android.Path {
relativeRootMap := make(map[string]android.Paths)
var protoSrcs android.Paths
addPathMapping := func(path pathMapping) {
relativeRoot := strings.TrimSuffix(path.src.String(), path.src.Rel())
relativeRootMap[relativeRoot] = append(relativeRootMap[relativeRoot], path.src)
}
// "srcs" or "data" properties may contain filegroups so it might happen that
// the root directory for each source path is different.
for _, path := range p.srcsPathMappings {
// handle proto sources separately
if path.src.Ext() == protoExt {
protoSrcs = append(protoSrcs, path.src)
} else {
addPathMapping(path)
}
}
for _, path := range p.dataPathMappings {
addPathMapping(path)
}
var zips android.Paths
if len(protoSrcs) > 0 {
protoFlags := android.GetProtoFlags(ctx, &p.protoProperties)
protoFlags.OutTypeFlag = "--python_out"
if pkgPath != "" {
pkgPathStagingDir := android.PathForModuleGen(ctx, "protos_staged_for_pkg_path")
rule := android.NewRuleBuilder(pctx, ctx)
var stagedProtoSrcs android.Paths
for _, srcFile := range protoSrcs {
stagedProtoSrc := pkgPathStagingDir.Join(ctx, pkgPath, srcFile.Rel())
rule.Command().Text("cp -f").Input(srcFile).Output(stagedProtoSrc)
stagedProtoSrcs = append(stagedProtoSrcs, stagedProtoSrc)
}
rule.Build("stage_protos_for_pkg_path", "Stage protos for pkg_path")
protoSrcs = stagedProtoSrcs
}
for _, srcFile := range protoSrcs {
zip := genProto(ctx, srcFile, protoFlags)
zips = append(zips, zip)
}
}
if len(relativeRootMap) > 0 {
// in order to keep stable order of soong_zip params, we sort the keys here.
roots := android.SortedKeys(relativeRootMap)
// Use -symlinks=false so that the symlinks in the bazel output directory are followed
parArgs := []string{"-symlinks=false"}
if pkgPath != "" {
// use package path as path prefix
parArgs = append(parArgs, `-P `+pkgPath)
}
paths := android.Paths{}
for _, root := range roots {
// specify relative root of file in following -f arguments
parArgs = append(parArgs, `-C `+root)
for _, path := range relativeRootMap[root] {
parArgs = append(parArgs, `-f `+path.String())
paths = append(paths, path)
}
}
origSrcsZip := android.PathForModuleOut(ctx, ctx.ModuleName()+".py.srcszip")
ctx.Build(pctx, android.BuildParams{
Rule: zip,
Description: "python library archive",
Output: origSrcsZip,
// as zip rule does not use $in, there is no real need to distinguish between Inputs and Implicits
Implicits: paths,
Args: map[string]string{
"args": strings.Join(parArgs, " "),
},
})
zips = append(zips, origSrcsZip)
}
// we may have multiple zips due to separate handling of proto source files
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 (p *PythonLibraryModule) precompileSrcs(ctx android.ModuleContext) android.Path {
// To precompile the python sources, we need a python interpreter and stdlib built
// for host. We then use those to compile the python sources, which may be used on either
// host of device. Python bytecode is architecture agnostic, so we're essentially
// "cross compiling" for device here purely by virtue of host and device python bytecode
// being the same.
var stdLib android.Path
var stdLibPkg string
var launcher android.Path
if proptools.BoolDefault(p.properties.Is_internal, false) {
stdLib = p.srcsZip
stdLibPkg = p.getPkgPath()
} else {
ctx.VisitDirectDepsWithTag(hostStdLibTag, func(module android.Module) {
if dep, ok := module.(pythonDependency); ok {
stdLib = dep.getPrecompiledSrcsZip()
stdLibPkg = dep.getPkgPath()
}
})
}
ctx.VisitDirectDepsWithTag(hostLauncherTag, func(module android.Module) {
if dep, ok := module.(IntermPathProvider); ok {
optionalLauncher := dep.IntermPathForModuleOut()
if optionalLauncher.Valid() {
launcher = optionalLauncher.Path()
}
}
})
var launcherSharedLibs android.Paths
var ldLibraryPath []string
ctx.VisitDirectDepsWithTag(hostlauncherSharedLibTag, func(module android.Module) {
if dep, ok := module.(IntermPathProvider); ok {
optionalPath := dep.IntermPathForModuleOut()
if optionalPath.Valid() {
launcherSharedLibs = append(launcherSharedLibs, optionalPath.Path())
ldLibraryPath = append(ldLibraryPath, filepath.Dir(optionalPath.Path().String()))
}
}
})
out := android.PathForModuleOut(ctx, ctx.ModuleName()+".srcszipprecompiled")
if stdLib == nil || launcher == nil {
// This shouldn't happen in a real build because we'll error out when adding dependencies
// on the stdlib and launcher if they don't exist. But some tests set
// AllowMissingDependencies.
return out
}
ctx.Build(pctx, android.BuildParams{
Rule: precompile,
Input: p.srcsZip,
Output: out,
Implicits: launcherSharedLibs,
Description: "Precompile the python sources of " + ctx.ModuleName(),
Args: map[string]string{
"stdlibZip": stdLib.String(),
"stdlibPkg": stdLibPkg,
"launcher": launcher.String(),
"ldLibraryPath": strings.Join(ldLibraryPath, ":"),
},
})
return out
}
// isPythonLibModule returns whether the given module is a Python library PythonLibraryModule or not
func isPythonLibModule(module blueprint.Module) bool {
if _, ok := module.(*PythonLibraryModule); ok {
if _, ok := module.(*PythonBinaryModule); !ok {
return true
}
}
return false
}
// collectPathsFromTransitiveDeps checks for source/data files for duplicate paths
// for module and its transitive dependencies and collects list of data/source file
// zips for transitive dependencies.
func (p *PythonLibraryModule) collectPathsFromTransitiveDeps(ctx android.ModuleContext, precompiled bool) android.Paths {
// 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()
}
seen := make(map[android.Module]bool)
var result android.Paths
// visit all its dependencies in depth first.
ctx.WalkDeps(func(child, parent android.Module) bool {
// we only collect dependencies tagged as python library deps
if ctx.OtherModuleDependencyTag(child) != pythonLibTag {
return false
}
if seen[child] {
return false
}
seen[child] = true
// Python modules only can depend on Python libraries.
if !isPythonLibModule(child) {
ctx.PropertyErrorf("libs",
"the dependency %q of module %q is not Python library!",
ctx.OtherModuleName(child), ctx.ModuleName())
}
// collect source and data paths, checking that there are no duplicate output file conflicts
if dep, ok := child.(pythonDependency); ok {
srcs := dep.getSrcsPathMappings()
for _, path := range srcs {
checkForDuplicateOutputPath(ctx, destToPySrcs,
path.dest, path.src.String(), ctx.ModuleName(), ctx.OtherModuleName(child))
}
data := dep.getDataPathMappings()
for _, path := range data {
checkForDuplicateOutputPath(ctx, destToPyData,
path.dest, path.src.String(), ctx.ModuleName(), ctx.OtherModuleName(child))
}
if precompiled {
result = append(result, dep.getPrecompiledSrcsZip())
} else {
result = append(result, dep.getSrcsZip())
}
}
return true
})
return result
}
// chckForDuplicateOutputPath checks whether outputPath has already been included in map m, which
// would result in two files being placed in the same location.
// If there is a duplicate path, an error is thrown and true is returned
// Otherwise, outputPath: srcPath is added to m and returns false
func checkForDuplicateOutputPath(ctx android.ModuleContext, m map[string]string, outputPath, srcPath, curModule, otherModule string) bool {
if oldSrcPath, found := m[outputPath]; found {
ctx.ModuleErrorf("found two files to be placed at the same location within zip %q."+
" First file: in module %s at path %q."+
" Second file: in module %s at path %q.",
outputPath, curModule, oldSrcPath, otherModule, srcPath)
return true
}
m[outputPath] = srcPath
return false
}
// InstallInData returns true as Python is not supported in the system partition
func (p *PythonLibraryModule) InstallInData() bool {
return true
}
var Bool = proptools.Bool
var BoolDefault = proptools.BoolDefault
var String = proptools.String