622 lines
26 KiB
Go
622 lines
26 KiB
Go
// Copyright 2015 Google Inc. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package android
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import (
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"fmt"
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"path/filepath"
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"strings"
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"android/soong/bazel"
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"github.com/google/blueprint"
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"github.com/google/blueprint/pathtools"
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)
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// bazel_paths contains methods to:
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// * resolve Soong path and module references into bazel.LabelList
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// * resolve Bazel path references into Soong-compatible paths
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//
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// There is often a similar method for Bazel as there is for Soong path handling and should be used
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// in similar circumstances
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//
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// Bazel Soong
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// ==============================================================
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// BazelLabelForModuleSrc PathForModuleSrc
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// BazelLabelForModuleSrcExcludes PathForModuleSrcExcludes
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// BazelLabelForModuleDeps n/a
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// tbd PathForSource
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// tbd ExistentPathsForSources
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// PathForBazelOut PathForModuleOut
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//
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// Use cases:
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// * Module contains a property (often tagged `android:"path"`) that expects paths *relative to the
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// module directory*:
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// * BazelLabelForModuleSrcExcludes, if the module also contains an excludes_<propname> property
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// * BazelLabelForModuleSrc, otherwise
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// * Converting references to other modules to Bazel Labels:
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// BazelLabelForModuleDeps
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// * Converting a path obtained from bazel_handler cquery results:
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// PathForBazelOut
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//
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// NOTE: all Soong globs are expanded within Soong rather than being converted to a Bazel glob
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// syntax. This occurs because Soong does not have a concept of crossing package boundaries,
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// so the glob as computed by Soong may contain paths that cross package-boundaries. These
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// would be unknowingly omitted if the glob were handled by Bazel. By expanding globs within
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// Soong, we support identification and detection (within Bazel) use of paths that cross
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// package boundaries.
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//
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// Path resolution:
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// * filepath/globs: resolves as itself or is converted to an absolute Bazel label (e.g.
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// //path/to/dir:<filepath>) if path exists in a separate package or subpackage.
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// * references to other modules (using the ":name{.tag}" syntax). These resolve as a Bazel label
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// for a target. If the Bazel target is in the local module directory, it will be returned
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// relative to the current package (e.g. ":<target>"). Otherwise, it will be returned as an
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// absolute Bazel label (e.g. "//path/to/dir:<target>"). If the reference to another module
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// cannot be resolved,the function will panic. This is often due to the dependency not being added
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// via an AddDependency* method.
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// BazelConversionContext is a minimal context interface to check if a module should be converted by bp2build,
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// with functions containing information to match against allowlists and denylists.
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// If a module is deemed to be convertible by bp2build, then it should rely on a
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// BazelConversionPathContext for more functions for dep/path features.
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type BazelConversionContext interface {
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Config() Config
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Module() Module
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OtherModuleType(m blueprint.Module) string
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OtherModuleName(m blueprint.Module) string
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OtherModuleDir(m blueprint.Module) string
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ModuleErrorf(format string, args ...interface{})
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}
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// A subset of the ModuleContext methods which are sufficient to resolve references to paths/deps in
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// order to form a Bazel-compatible label for conversion.
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type BazelConversionPathContext interface {
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EarlyModulePathContext
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BazelConversionContext
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ModuleName() string
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ModuleType() string
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ModuleErrorf(fmt string, args ...interface{})
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PropertyErrorf(property, fmt string, args ...interface{})
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GetDirectDep(name string) (blueprint.Module, blueprint.DependencyTag)
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ModuleFromName(name string) (blueprint.Module, bool)
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AddUnconvertedBp2buildDep(string)
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AddMissingBp2buildDep(dep string)
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}
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// BazelLabelForModuleDeps expects a list of reference to other modules, ("<module>"
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// or ":<module>") and returns a Bazel-compatible label which corresponds to dependencies on the
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// module within the given ctx.
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func BazelLabelForModuleDeps(ctx BazelConversionPathContext, modules []string) bazel.LabelList {
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return BazelLabelForModuleDepsWithFn(ctx, modules, BazelModuleLabel)
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}
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// BazelLabelForModuleWholeDepsExcludes expects two lists: modules (containing modules to include in
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// the list), and excludes (modules to exclude from the list). Both of these should contain
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// references to other modules, ("<module>" or ":<module>"). It returns a Bazel-compatible label
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// list which corresponds to dependencies on the module within the given ctx, and the excluded
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// dependencies. Prebuilt dependencies will be appended with _alwayslink so they can be handled as
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// whole static libraries.
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func BazelLabelForModuleDepsExcludes(ctx BazelConversionPathContext, modules, excludes []string) bazel.LabelList {
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return BazelLabelForModuleDepsExcludesWithFn(ctx, modules, excludes, BazelModuleLabel)
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}
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// BazelLabelForModuleDepsWithFn expects a list of reference to other modules, ("<module>"
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// or ":<module>") and applies moduleToLabelFn to determine and return a Bazel-compatible label
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// which corresponds to dependencies on the module within the given ctx.
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func BazelLabelForModuleDepsWithFn(ctx BazelConversionPathContext, modules []string,
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moduleToLabelFn func(BazelConversionPathContext, blueprint.Module) string) bazel.LabelList {
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var labels bazel.LabelList
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// In some cases, a nil string list is different than an explicitly empty list.
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if len(modules) == 0 && modules != nil {
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labels.Includes = []bazel.Label{}
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return labels
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}
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modules = FirstUniqueStrings(modules)
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for _, module := range modules {
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bpText := module
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if m := SrcIsModule(module); m == "" {
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module = ":" + module
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}
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if m, t := SrcIsModuleWithTag(module); m != "" {
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l := getOtherModuleLabel(ctx, m, t, moduleToLabelFn)
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if l != nil {
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l.OriginalModuleName = bpText
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labels.Includes = append(labels.Includes, *l)
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}
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} else {
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ctx.ModuleErrorf("%q, is not a module reference", module)
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}
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}
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return labels
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}
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// BazelLabelForModuleDepsExcludesWithFn expects two lists: modules (containing modules to include in the
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// list), and excludes (modules to exclude from the list). Both of these should contain references
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// to other modules, ("<module>" or ":<module>"). It applies moduleToLabelFn to determine and return a
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// Bazel-compatible label list which corresponds to dependencies on the module within the given ctx, and
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// the excluded dependencies.
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func BazelLabelForModuleDepsExcludesWithFn(ctx BazelConversionPathContext, modules, excludes []string,
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moduleToLabelFn func(BazelConversionPathContext, blueprint.Module) string) bazel.LabelList {
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moduleLabels := BazelLabelForModuleDepsWithFn(ctx, RemoveListFromList(modules, excludes), moduleToLabelFn)
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if len(excludes) == 0 {
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return moduleLabels
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}
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excludeLabels := BazelLabelForModuleDepsWithFn(ctx, excludes, moduleToLabelFn)
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return bazel.LabelList{
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Includes: moduleLabels.Includes,
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Excludes: excludeLabels.Includes,
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}
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}
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func BazelLabelForModuleSrcSingle(ctx BazelConversionPathContext, path string) bazel.Label {
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if srcs := BazelLabelForModuleSrcExcludes(ctx, []string{path}, []string(nil)).Includes; len(srcs) > 0 {
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return srcs[0]
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}
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return bazel.Label{}
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}
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func BazelLabelForModuleDepSingle(ctx BazelConversionPathContext, path string) bazel.Label {
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if srcs := BazelLabelForModuleDepsExcludes(ctx, []string{path}, []string(nil)).Includes; len(srcs) > 0 {
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return srcs[0]
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}
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return bazel.Label{}
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}
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// BazelLabelForModuleSrc expects a list of path (relative to local module directory) and module
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// references (":<module>") and returns a bazel.LabelList{} containing the resolved references in
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// paths, relative to the local module, or Bazel-labels (absolute if in a different package or
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// relative if within the same package).
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// Properties must have been annotated with struct tag `android:"path"` so that dependencies modules
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// will have already been handled by the pathdeps mutator.
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func BazelLabelForModuleSrc(ctx BazelConversionPathContext, paths []string) bazel.LabelList {
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return BazelLabelForModuleSrcExcludes(ctx, paths, []string(nil))
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}
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// BazelLabelForModuleSrc expects lists of path and excludes (relative to local module directory)
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// and module references (":<module>") and returns a bazel.LabelList{} containing the resolved
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// references in paths, minus those in excludes, relative to the local module, or Bazel-labels
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// (absolute if in a different package or relative if within the same package).
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// Properties must have been annotated with struct tag `android:"path"` so that dependencies modules
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// will have already been handled by the pathdeps mutator.
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func BazelLabelForModuleSrcExcludes(ctx BazelConversionPathContext, paths, excludes []string) bazel.LabelList {
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excludeLabels := expandSrcsForBazel(ctx, excludes, []string(nil))
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excluded := make([]string, 0, len(excludeLabels.Includes))
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for _, e := range excludeLabels.Includes {
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excluded = append(excluded, e.Label)
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}
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labels := expandSrcsForBazel(ctx, paths, excluded)
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labels.Excludes = excludeLabels.Includes
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labels = TransformSubpackagePaths(ctx.Config(), ctx.ModuleDir(), labels)
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return labels
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}
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func BazelLabelForSrcPatternExcludes(ctx BazelConversionPathContext, dir, pattern string, excludes []string) bazel.LabelList {
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topRelPaths, err := ctx.GlobWithDeps(filepath.Join(dir, pattern), excludes)
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if err != nil {
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ctx.ModuleErrorf("Could not search dir: %s for pattern %s due to %v\n", dir, pattern, err)
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}
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// An intermediate list of labels relative to `dir` that assumes that there no subpacakges beneath `dir`
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dirRelLabels := []bazel.Label{}
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for _, topRelPath := range topRelPaths {
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dirRelPath := Rel(ctx, dir, topRelPath)
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dirRelLabels = append(dirRelLabels, bazel.Label{Label: "./" + dirRelPath})
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}
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// Return the package boudary resolved labels
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return TransformSubpackagePaths(ctx.Config(), dir, bazel.MakeLabelList(dirRelLabels))
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}
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// Returns true if a prefix + components[:i] is a package boundary.
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//
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// A package boundary is determined by a BUILD file in the directory. This can happen in 2 cases:
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//
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// 1. An Android.bp exists, which bp2build will always convert to a sibling BUILD file.
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// 2. An Android.bp doesn't exist, but a checked-in BUILD/BUILD.bazel file exists, and that file
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// is allowlisted by the bp2build configuration to be merged into the symlink forest workspace.
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func isPackageBoundary(config Config, prefix string, components []string, componentIndex int) bool {
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prefix = filepath.Join(prefix, filepath.Join(components[:componentIndex+1]...))
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if exists, _, _ := config.fs.Exists(filepath.Join(prefix, "Android.bp")); exists {
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return true
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} else if config.Bp2buildPackageConfig.ShouldKeepExistingBuildFileForDir(prefix) {
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if exists, _, _ := config.fs.Exists(filepath.Join(prefix, "BUILD")); exists {
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return true
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} else if exists, _, _ := config.fs.Exists(filepath.Join(prefix, "BUILD.bazel")); exists {
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return true
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}
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}
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return false
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}
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// Transform a path (if necessary) to acknowledge package boundaries
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//
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// e.g. something like
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//
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// async_safe/include/async_safe/CHECK.h
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//
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// might become
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//
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// //bionic/libc/async_safe:include/async_safe/CHECK.h
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//
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// if the "async_safe" directory is actually a package and not just a directory.
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//
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// In particular, paths that extend into packages are transformed into absolute labels beginning with //.
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func transformSubpackagePath(cfg Config, dir string, path bazel.Label) bazel.Label {
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var newPath bazel.Label
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// Don't transform OriginalModuleName
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newPath.OriginalModuleName = path.OriginalModuleName
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// if it wasn't a module, store the original path. We may need the original path to replace
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// references if it is actually in another package
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if path.OriginalModuleName == "" {
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newPath.OriginalModuleName = path.Label
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}
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if strings.HasPrefix(path.Label, "//") {
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// Assume absolute labels are already correct (e.g. //path/to/some/package:foo.h)
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newPath.Label = path.Label
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return newPath
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}
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if strings.HasPrefix(path.Label, "./") {
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// Drop "./" for consistent handling of paths.
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// Specifically, to not let "." be considered a package boundary.
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// Say `inputPath` is `x/Android.bp` and that file has some module
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// with `srcs=["y/a.c", "z/b.c"]`.
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// And say the directory tree is:
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// x
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// ├── Android.bp
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// ├── y
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// │ ├── a.c
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// │ └── Android.bp
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// └── z
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// └── b.c
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// Then bazel equivalent labels in srcs should be:
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// //x/y:a.c, x/z/b.c
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// The above should still be the case if `x/Android.bp` had
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// srcs=["./y/a.c", "./z/b.c"]
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// However, if we didn't strip "./", we'd get
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// //x/./y:a.c, //x/.:z/b.c
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path.Label = strings.TrimPrefix(path.Label, "./")
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}
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pathComponents := strings.Split(path.Label, "/")
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newLabel := ""
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foundPackageBoundary := false
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// Check the deepest subdirectory first and work upwards
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for i := len(pathComponents) - 1; i >= 0; i-- {
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pathComponent := pathComponents[i]
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var sep string
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if !foundPackageBoundary && isPackageBoundary(cfg, dir, pathComponents, i) {
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sep = ":"
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foundPackageBoundary = true
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} else {
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sep = "/"
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}
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if newLabel == "" {
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newLabel = pathComponent
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} else {
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newLabel = pathComponent + sep + newLabel
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}
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}
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if foundPackageBoundary {
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// Ensure paths end up looking like //bionic/... instead of //./bionic/...
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moduleDir := dir
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if strings.HasPrefix(moduleDir, ".") {
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moduleDir = moduleDir[1:]
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}
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// Make the path into an absolute label (e.g. //bionic/libc/foo:bar.h instead of just foo:bar.h)
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if moduleDir == "" {
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newLabel = "//" + newLabel
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} else {
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newLabel = "//" + moduleDir + "/" + newLabel
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}
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}
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newPath.Label = newLabel
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return newPath
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}
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// Transform paths to acknowledge package boundaries
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// See transformSubpackagePath() for more information
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func TransformSubpackagePaths(cfg Config, dir string, paths bazel.LabelList) bazel.LabelList {
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var newPaths bazel.LabelList
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for _, include := range paths.Includes {
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newPaths.Includes = append(newPaths.Includes, transformSubpackagePath(cfg, dir, include))
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}
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for _, exclude := range paths.Excludes {
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newPaths.Excludes = append(newPaths.Excludes, transformSubpackagePath(cfg, dir, exclude))
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}
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return newPaths
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}
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// Converts root-relative Paths to a list of bazel.Label relative to the module in ctx.
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func RootToModuleRelativePaths(ctx BazelConversionPathContext, paths Paths) []bazel.Label {
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var newPaths []bazel.Label
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for _, path := range PathsWithModuleSrcSubDir(ctx, paths, "") {
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s := path.Rel()
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newPaths = append(newPaths, bazel.Label{Label: s})
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}
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return newPaths
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}
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// expandSrcsForBazel returns bazel.LabelList with paths rooted from the module's local source
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// directory and Bazel target labels, excluding those included in the excludes argument (which
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// should already be expanded to resolve references to Soong-modules). Valid elements of paths
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// include:
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// - filepath, relative to local module directory, resolves as a filepath relative to the local
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// source directory
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// - glob, relative to the local module directory, resolves as filepath(s), relative to the local
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// module directory. Because Soong does not have a concept of crossing package boundaries, the
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// glob as computed by Soong may contain paths that cross package-boundaries that would be
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// unknowingly omitted if the glob were handled by Bazel. To allow identification and detect
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// (within Bazel) use of paths that cross package boundaries, we expand globs within Soong rather
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// than converting Soong glob syntax to Bazel glob syntax. **Invalid for excludes.**
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// - other modules using the ":name{.tag}" syntax. These modules must implement SourceFileProducer
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// or OutputFileProducer. These resolve as a Bazel label for a target. If the Bazel target is in
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// the local module directory, it will be returned relative to the current package (e.g.
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// ":<target>"). Otherwise, it will be returned as an absolute Bazel label (e.g.
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// "//path/to/dir:<target>"). If the reference to another module cannot be resolved,the function
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// will panic.
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//
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// Properties passed as the paths or excludes argument must have been annotated with struct tag
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// `android:"path"` so that dependencies on other modules will have already been handled by the
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// pathdeps mutator.
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func expandSrcsForBazel(ctx BazelConversionPathContext, paths, expandedExcludes []string) bazel.LabelList {
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if paths == nil {
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return bazel.LabelList{}
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}
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labels := bazel.LabelList{
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Includes: []bazel.Label{},
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}
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// expandedExcludes contain module-dir relative paths, but root-relative paths
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// are needed for GlobFiles later.
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var rootRelativeExpandedExcludes []string
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for _, e := range expandedExcludes {
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rootRelativeExpandedExcludes = append(rootRelativeExpandedExcludes, filepath.Join(ctx.ModuleDir(), e))
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}
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for _, p := range paths {
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if m, tag := SrcIsModuleWithTag(p); m != "" {
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l := getOtherModuleLabel(ctx, m, tag, BazelModuleLabel)
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if l != nil && !InList(l.Label, expandedExcludes) {
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if strings.HasPrefix(m, "//") {
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// this is a module in a soong namespace
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// It appears as //<namespace>:<module_name> in srcs, and not ://<namespace>:<module_name>
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l.OriginalModuleName = m
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} else {
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l.OriginalModuleName = fmt.Sprintf(":%s", m)
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}
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labels.Includes = append(labels.Includes, *l)
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}
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} else {
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var expandedPaths []bazel.Label
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if pathtools.IsGlob(p) {
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// e.g. turn "math/*.c" in
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// external/arm-optimized-routines to external/arm-optimized-routines/math/*.c
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rootRelativeGlobPath := pathForModuleSrc(ctx, p).String()
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expandedPaths = RootToModuleRelativePaths(ctx, GlobFiles(ctx, rootRelativeGlobPath, rootRelativeExpandedExcludes))
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} else {
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if !InList(p, expandedExcludes) {
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expandedPaths = append(expandedPaths, bazel.Label{Label: p})
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}
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}
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labels.Includes = append(labels.Includes, expandedPaths...)
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}
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}
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return labels
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}
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// getOtherModuleLabel returns a bazel.Label for the given dependency/tag combination for the
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// module. The label will be relative to the current directory if appropriate. The dependency must
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// already be resolved by either deps mutator or path deps mutator.
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func getOtherModuleLabel(ctx BazelConversionPathContext, dep, tag string,
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labelFromModule func(BazelConversionPathContext, blueprint.Module) string) *bazel.Label {
|
|
m, _ := ctx.ModuleFromName(dep)
|
|
// The module was not found in an Android.bp file, this is often due to:
|
|
// * a limited manifest
|
|
// * a required module not being converted from Android.mk
|
|
if m == nil {
|
|
ctx.AddMissingBp2buildDep(dep)
|
|
return &bazel.Label{
|
|
Label: ":" + dep + "__BP2BUILD__MISSING__DEP",
|
|
}
|
|
}
|
|
if !convertedToBazel(ctx, m) {
|
|
ctx.AddUnconvertedBp2buildDep(dep)
|
|
}
|
|
label := BazelModuleLabel(ctx, ctx.Module())
|
|
otherLabel := labelFromModule(ctx, m)
|
|
|
|
// TODO(b/165114590): Convert tag (":name{.tag}") to corresponding Bazel implicit output targets.
|
|
|
|
if samePackage(label, otherLabel) {
|
|
otherLabel = bazelShortLabel(otherLabel)
|
|
}
|
|
|
|
return &bazel.Label{
|
|
Label: otherLabel,
|
|
}
|
|
}
|
|
|
|
func BazelModuleLabel(ctx BazelConversionPathContext, module blueprint.Module) string {
|
|
// TODO(b/165114590): Convert tag (":name{.tag}") to corresponding Bazel implicit output targets.
|
|
if !convertedToBazel(ctx, module) || isGoModule(module) {
|
|
return bp2buildModuleLabel(ctx, module)
|
|
}
|
|
b, _ := module.(Bazelable)
|
|
return b.GetBazelLabel(ctx, module)
|
|
}
|
|
|
|
func bazelShortLabel(label string) string {
|
|
i := strings.Index(label, ":")
|
|
if i == -1 {
|
|
panic(fmt.Errorf("Could not find the ':' character in '%s', expected a fully qualified label.", label))
|
|
}
|
|
return label[i:]
|
|
}
|
|
|
|
func bazelPackage(label string) string {
|
|
i := strings.Index(label, ":")
|
|
if i == -1 {
|
|
panic(fmt.Errorf("Could not find the ':' character in '%s', expected a fully qualified label.", label))
|
|
}
|
|
return label[0:i]
|
|
}
|
|
|
|
func samePackage(label1, label2 string) bool {
|
|
return bazelPackage(label1) == bazelPackage(label2)
|
|
}
|
|
|
|
func bp2buildModuleLabel(ctx BazelConversionContext, module blueprint.Module) string {
|
|
moduleName := moduleNameWithPossibleOverride(ctx, module, ctx.OtherModuleName(module))
|
|
moduleDir := moduleDirWithPossibleOverride(ctx, module, ctx.OtherModuleDir(module))
|
|
if moduleDir == Bp2BuildTopLevel {
|
|
moduleDir = ""
|
|
}
|
|
return fmt.Sprintf("//%s:%s", moduleDir, moduleName)
|
|
}
|
|
|
|
// BazelOutPath is a Bazel output path compatible to be used for mixed builds within Soong/Ninja.
|
|
type BazelOutPath struct {
|
|
OutputPath
|
|
}
|
|
|
|
// ensure BazelOutPath implements Path
|
|
var _ Path = BazelOutPath{}
|
|
|
|
// ensure BazelOutPath implements genPathProvider
|
|
var _ genPathProvider = BazelOutPath{}
|
|
|
|
// ensure BazelOutPath implements objPathProvider
|
|
var _ objPathProvider = BazelOutPath{}
|
|
|
|
func (p BazelOutPath) genPathWithExt(ctx ModuleOutPathContext, subdir, ext string) ModuleGenPath {
|
|
return PathForModuleGen(ctx, subdir, pathtools.ReplaceExtension(p.path, ext))
|
|
}
|
|
|
|
func (p BazelOutPath) objPathWithExt(ctx ModuleOutPathContext, subdir, ext string) ModuleObjPath {
|
|
return PathForModuleObj(ctx, subdir, pathtools.ReplaceExtension(p.path, ext))
|
|
}
|
|
|
|
// PathForBazelOutRelative returns a BazelOutPath representing the path under an output directory dedicated to
|
|
// bazel-owned outputs. Calling .Rel() on the result will give the input path as relative to the given
|
|
// relativeRoot.
|
|
func PathForBazelOutRelative(ctx PathContext, relativeRoot string, path string) BazelOutPath {
|
|
validatedPath, err := validatePath(filepath.Join("execroot", "__main__", path))
|
|
if err != nil {
|
|
reportPathError(ctx, err)
|
|
}
|
|
var relativeRootPath string
|
|
if pathComponents := strings.SplitN(path, "/", 4); len(pathComponents) >= 3 &&
|
|
pathComponents[0] == "bazel-out" && pathComponents[2] == "bin" {
|
|
// If the path starts with something like: bazel-out/linux_x86_64-fastbuild-ST-b4ef1c4402f9/bin/
|
|
// make it relative to that folder. bazel-out/volatile-status.txt is an example
|
|
// of something that starts with bazel-out but is not relative to the bin folder
|
|
relativeRootPath = filepath.Join("execroot", "__main__", pathComponents[0], pathComponents[1], pathComponents[2], relativeRoot)
|
|
} else {
|
|
relativeRootPath = filepath.Join("execroot", "__main__", relativeRoot)
|
|
}
|
|
|
|
var relPath string
|
|
if relPath, err = filepath.Rel(relativeRootPath, validatedPath); err != nil || strings.HasPrefix(relPath, "../") {
|
|
// We failed to make this path relative to execroot/__main__, fall back to a non-relative path
|
|
// One case where this happens is when path is ../bazel_tools/something
|
|
relativeRootPath = ""
|
|
relPath = validatedPath
|
|
}
|
|
|
|
outputPath := OutputPath{
|
|
basePath{"", ""},
|
|
ctx.Config().soongOutDir,
|
|
ctx.Config().BazelContext.OutputBase(),
|
|
}
|
|
|
|
return BazelOutPath{
|
|
// .withRel() appends its argument onto the current path, and only the most
|
|
// recently appended part is returned by outputPath.rel().
|
|
// So outputPath.rel() will return relPath.
|
|
OutputPath: outputPath.withRel(relativeRootPath).withRel(relPath),
|
|
}
|
|
}
|
|
|
|
// PathForBazelOut returns a BazelOutPath representing the path under an output directory dedicated to
|
|
// bazel-owned outputs.
|
|
func PathForBazelOut(ctx PathContext, path string) BazelOutPath {
|
|
return PathForBazelOutRelative(ctx, "", path)
|
|
}
|
|
|
|
// PathsForBazelOut returns a list of paths representing the paths under an output directory
|
|
// dedicated to Bazel-owned outputs.
|
|
func PathsForBazelOut(ctx PathContext, paths []string) Paths {
|
|
outs := make(Paths, 0, len(paths))
|
|
for _, p := range paths {
|
|
outs = append(outs, PathForBazelOut(ctx, p))
|
|
}
|
|
return outs
|
|
}
|
|
|
|
// BazelStringOrLabelFromProp splits a Soong module property that can be
|
|
// either a string literal, path (with android:path tag) or a module reference
|
|
// into separate bazel string or label attributes. Bazel treats string and label
|
|
// attributes as distinct types, so this function categorizes a string property
|
|
// into either one of them.
|
|
//
|
|
// e.g. apex.private_key = "foo.pem" can either refer to:
|
|
//
|
|
// 1. "foo.pem" in the current directory -> file target
|
|
// 2. "foo.pem" module -> rule target
|
|
// 3. "foo.pem" file in a different directory, prefixed by a product variable handled
|
|
// in a bazel macro. -> string literal
|
|
//
|
|
// For the first two cases, they are defined using the label attribute. For the third case,
|
|
// it's defined with the string attribute.
|
|
func BazelStringOrLabelFromProp(
|
|
ctx TopDownMutatorContext,
|
|
propToDistinguish *string) (bazel.LabelAttribute, bazel.StringAttribute) {
|
|
|
|
var labelAttr bazel.LabelAttribute
|
|
var strAttr bazel.StringAttribute
|
|
|
|
if propToDistinguish == nil {
|
|
// nil pointer
|
|
return labelAttr, strAttr
|
|
}
|
|
|
|
prop := String(propToDistinguish)
|
|
if SrcIsModule(prop) != "" {
|
|
// If it's a module (SrcIsModule will return the module name), set the
|
|
// resolved label to the label attribute.
|
|
labelAttr.SetValue(BazelLabelForModuleDepSingle(ctx, prop))
|
|
} else {
|
|
// Not a module name. This could be a string literal or a file target in
|
|
// the current dir. Check if the path exists:
|
|
path := ExistentPathForSource(ctx, ctx.ModuleDir(), prop)
|
|
|
|
if path.Valid() && parentDir(path.String()) == ctx.ModuleDir() {
|
|
// If it exists and the path is relative to the current dir, resolve the bazel label
|
|
// for the _file target_ and set it to the label attribute.
|
|
//
|
|
// Resolution is necessary because this could be a file in a subpackage.
|
|
labelAttr.SetValue(BazelLabelForModuleSrcSingle(ctx, prop))
|
|
} else {
|
|
// Otherwise, treat it as a string literal and assign to the string attribute.
|
|
strAttr.Value = propToDistinguish
|
|
}
|
|
}
|
|
|
|
return labelAttr, strAttr
|
|
}
|