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// Copyright 2019 The Android Open Source Project
//
// 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 rust
import (
"android/soong/cc"
"errors"
"fmt"
"path/filepath"
"strings"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/rust/config"
)
type RustLinkage int
const (
DefaultLinkage RustLinkage = iota
RlibLinkage
DylibLinkage
)
type compiler interface {
initialize(ctx ModuleContext)
compilerFlags(ctx ModuleContext, flags Flags) Flags
cfgFlags(ctx ModuleContext, flags Flags) Flags
featureFlags(ctx ModuleContext, flags Flags) Flags
compilerProps() []interface{}
compile(ctx ModuleContext, flags Flags, deps PathDeps) buildOutput
compilerDeps(ctx DepsContext, deps Deps) Deps
crateName() string
edition() string
features() []string
rustdoc(ctx ModuleContext, flags Flags, deps PathDeps) android.OptionalPath
Thinlto() bool
// Output directory in which source-generated code from dependencies is
// copied. This is equivalent to Cargo's OUT_DIR variable.
cargoOutDir() android.OptionalPath
// cargoPkgVersion returns the value of the Cargo_pkg_version property.
cargoPkgVersion() string
// cargoEnvCompat returns whether Cargo environment variables should be used.
cargoEnvCompat() bool
inData() bool
install(ctx ModuleContext)
relativeInstallPath() string
everInstallable() bool
nativeCoverage() bool
Disabled() bool
SetDisabled()
stdLinkage(ctx *depsContext) RustLinkage
noStdlibs() bool
unstrippedOutputFilePath() android.Path
strippedOutputFilePath() android.OptionalPath
checkedCrateRootPath() (android.Path, error)
Aliases() map[string]string
}
func (compiler *baseCompiler) edition() string {
return proptools.StringDefault(compiler.Properties.Edition, config.DefaultEdition)
}
func (compiler *baseCompiler) setNoStdlibs() {
compiler.Properties.No_stdlibs = proptools.BoolPtr(true)
}
func (compiler *baseCompiler) disableLints() {
compiler.Properties.Lints = proptools.StringPtr("none")
}
func NewBaseCompiler(dir, dir64 string, location installLocation) *baseCompiler {
return &baseCompiler{
Properties: BaseCompilerProperties{},
dir: dir,
dir64: dir64,
location: location,
}
}
type installLocation int
const (
InstallInSystem installLocation = 0
InstallInData = iota
incorrectSourcesError = "srcs can only contain one path for a rust file and source providers prefixed by \":\""
genSubDir = "out/"
)
type BaseCompilerProperties struct {
// path to the source file that is the main entry point of the program (e.g. main.rs or lib.rs).
// Only a single source file can be defined. Modules which generate source can be included by prefixing
// the module name with ":", for example ":libfoo_bindgen"
//
// If no source file is defined, a single generated source module can be defined to be used as the main source.
Srcs []string `android:"path,arch_variant"`
// Entry point that is passed to rustc to begin the compilation. E.g. main.rs or lib.rs.
// When this property is set,
// * sandboxing is enabled for this module, and
// * the srcs attribute is interpreted as a list of all source files potentially
// used in compilation, including the entrypoint, and
// * compile_data can be used to add additional files used in compilation that
// not directly used as source files.
Crate_root *string `android:"path,arch_variant"`
// name of the lint set that should be used to validate this module.
//
// Possible values are "default" (for using a sensible set of lints
// depending on the module's location), "android" (for the strictest
// lint set that applies to all Android platform code), "vendor" (for
// a relaxed set) and "none" (for ignoring all lint warnings and
// errors). The default value is "default".
Lints *string
// flags to pass to rustc. To enable configuration options or features, use the "cfgs" or "features" properties.
Flags []string `android:"arch_variant"`
// flags to pass to the linker
Ld_flags []string `android:"arch_variant"`
// Rust crate dependencies to rename. Each entry should be a string of the form "dependencyname:alias".
//
// "dependencyname" here should be the name of the crate, not the Android module. This is
// equivalent to writing `alias = { package = "dependencyname" }` in a `Cargo.toml`.
Aliases []string
// list of rust rlib crate dependencies
Rlibs []string `android:"arch_variant"`
// list of rust automatic crate dependencies.
// Rustlibs linkage is rlib for host targets and dylib for device targets.
Rustlibs []string `android:"arch_variant"`
// list of rust proc_macro crate dependencies
Proc_macros []string `android:"arch_variant"`
// list of C shared library dependencies
Shared_libs []string `android:"arch_variant"`
// list of C static library dependencies. These dependencies do not normally propagate to dependents
// and may need to be redeclared. See whole_static_libs for bundling static dependencies into a library.
Static_libs []string `android:"arch_variant"`
// Similar to static_libs, but will bundle the static library dependency into a library. This is helpful
// to avoid having to redeclare the dependency for dependents of this library, but in some cases may also
// result in bloat if multiple dependencies all include the same static library whole.
//
// The common use case for this is when the static library is unlikely to be a dependency of other modules to avoid
// having to redeclare the static library dependency for every dependent module.
// If you are not sure what to, for rust_library modules most static dependencies should go in static_libraries,
// and for rust_ffi modules most static dependencies should go into whole_static_libraries.
//
// For rust_ffi static variants, these libraries will be included in the resulting static library archive.
//
// For rust_library rlib variants, these libraries will be bundled into the resulting rlib library. This will
// include all of the static libraries symbols in any dylibs or binaries which use this rlib as well.
Whole_static_libs []string `android:"arch_variant"`
// list of Rust system library dependencies.
//
// This is usually only needed when `no_stdlibs` is true, in which case it can be used to depend on system crates
// like `core` and `alloc`.
Stdlibs []string `android:"arch_variant"`
// crate name, required for modules which produce Rust libraries: rust_library, rust_ffi and SourceProvider
// modules which create library variants (rust_bindgen). This must be the expected extern crate name used in
// source, and is required to conform to an enforced format matching library output files (if the output file is
// lib<someName><suffix>, the crate_name property must be <someName>).
Crate_name string `android:"arch_variant"`
// list of features to enable for this crate
Features []string `android:"arch_variant"`
// list of configuration options to enable for this crate. To enable features, use the "features" property.
Cfgs proptools.Configurable[[]string] `android:"arch_variant"`
// specific rust edition that should be used if the default version is not desired
Edition *string `android:"arch_variant"`
// sets name of the output
Stem *string `android:"arch_variant"`
// append to name of output
Suffix *string `android:"arch_variant"`
// install to a subdirectory of the default install path for the module
Relative_install_path *string `android:"arch_variant"`
// whether to suppress inclusion of standard crates - defaults to false
No_stdlibs *bool `android:"arch_variant"`
// Change the rustlibs linkage to select rlib linkage by default for device targets.
// Also link libstd as an rlib as well on device targets.
// Note: This is the default behavior for host targets.
//
// This is primarily meant for rust_binary and rust_ffi modules where the default
// linkage of libstd might need to be overridden in some use cases. This should
// generally be avoided with other module types since it may cause collisions at
// linkage if all dependencies of the root binary module do not link against libstd
// the same way.
Prefer_rlib *bool `android:"arch_variant"`
// Enables emitting certain Cargo environment variables. Only intended to be used for compatibility purposes.
// Will set CARGO_CRATE_NAME to the crate_name property's value.
// Will set CARGO_BIN_NAME to the output filename value without the extension.
Cargo_env_compat *bool
// If cargo_env_compat is true, sets the CARGO_PKG_VERSION env var to this value.
Cargo_pkg_version *string
// Control whether LTO is used for the final (Rust) linkage. This does not impact
// cross-language LTO.
Lto struct {
// Whether thin LTO should be enabled. By default this is true.
// LTO provides such a large code size benefit for Rust, this should always
// be enabled for production builds unless there's a clear need to disable it.
Thin *bool `android:"arch_variant"`
} `android:"arch_variant"`
}
type baseCompiler struct {
Properties BaseCompilerProperties
// Install related
dir string
dir64 string
subDir string
relative string
path android.InstallPath
location installLocation
sanitize *sanitize
distFile android.OptionalPath
installDeps android.InstallPaths
// unstripped output file.
unstrippedOutputFile android.Path
// stripped output file.
strippedOutputFile android.OptionalPath
// If a crate has a source-generated dependency, a copy of the source file
// will be available in cargoOutDir (equivalent to Cargo OUT_DIR).
// This is stored internally because it may not be available during
// singleton-generation passes like rustdoc/rust_project.json, but should
// be stashed during initial generation.
cachedCargoOutDir android.ModuleOutPath
// Calculated crate root cached internally because ModuleContext is not
// available to singleton targets like rustdoc/rust_project.json
cachedCrateRootPath android.Path
// If cachedCrateRootPath is nil after initialization, this will contain
// an explanation of why
cachedCrateRootError error
}
func (compiler *baseCompiler) Disabled() bool {
return false
}
// Thin LTO is enabled by default.
func (compiler *baseCompiler) Thinlto() bool {
return BoolDefault(compiler.Properties.Lto.Thin, true)
}
func (compiler *baseCompiler) SetDisabled() {
panic("baseCompiler does not implement SetDisabled()")
}
func (compiler *baseCompiler) noStdlibs() bool {
return Bool(compiler.Properties.No_stdlibs)
}
func (compiler *baseCompiler) coverageOutputZipPath() android.OptionalPath {
panic("baseCompiler does not implement coverageOutputZipPath()")
}
func (compiler *baseCompiler) preferRlib() bool {
return Bool(compiler.Properties.Prefer_rlib)
}
func (compiler *baseCompiler) Aliases() map[string]string {
aliases := map[string]string{}
for _, entry := range compiler.Properties.Aliases {
dep, alias, found := strings.Cut(entry, ":")
if !found {
panic(fmt.Errorf("invalid aliases entry %q missing ':'", entry))
}
aliases[dep] = alias
}
return aliases
}
func (compiler *baseCompiler) stdLinkage(ctx *depsContext) RustLinkage {
// For devices, we always link stdlibs in as dylibs by default.
if compiler.preferRlib() {
return RlibLinkage
} else if ctx.Device() {
return DylibLinkage
} else {
return RlibLinkage
}
}
var _ compiler = (*baseCompiler)(nil)
func (compiler *baseCompiler) inData() bool {
return compiler.location == InstallInData
}
func (compiler *baseCompiler) compilerProps() []interface{} {
return []interface{}{&compiler.Properties}
}
func cfgsToFlags(cfgs []string) []string {
flags := make([]string, 0, len(cfgs))
for _, cfg := range cfgs {
flags = append(flags, "--cfg '"+cfg+"'")
}
return flags
}
func (compiler *baseCompiler) features() []string {
return compiler.Properties.Features
}
func (compiler *baseCompiler) featuresToFlags() []string {
flags := []string{}
for _, feature := range compiler.features() {
flags = append(flags, "--cfg 'feature=\""+feature+"\"'")
}
return flags
}
func (compiler *baseCompiler) featureFlags(ctx ModuleContext, flags Flags) Flags {
flags.RustFlags = append(flags.RustFlags, compiler.featuresToFlags()...)
flags.RustdocFlags = append(flags.RustdocFlags, compiler.featuresToFlags()...)
return flags
}
func CommonDefaultCfgFlags(flags Flags, vendor bool, product bool) Flags {
var cfgs []string
if vendor || product {
cfgs = append(cfgs, "android_vndk")
if vendor {
cfgs = append(cfgs, "android_vendor")
} else if product {
cfgs = append(cfgs, "android_product")
}
}
flags.RustFlags = append(flags.RustFlags, cfgsToFlags(cfgs)...)
flags.RustdocFlags = append(flags.RustdocFlags, cfgsToFlags(cfgs)...)
return flags
}
func (compiler *baseCompiler) cfgFlags(ctx ModuleContext, flags Flags) Flags {
flags = CommonDefaultCfgFlags(flags, ctx.RustModule().InVendor(), ctx.RustModule().InProduct())
cfgFlags := cfgsToFlags(compiler.Properties.Cfgs.GetOrDefault(ctx, nil))
flags.RustFlags = append(flags.RustFlags, cfgFlags...)
flags.RustdocFlags = append(flags.RustdocFlags, cfgFlags...)
return flags
}
func CommonDefaultFlags(ctx android.ModuleContext, toolchain config.Toolchain, flags Flags) Flags {
flags.GlobalRustFlags = append(flags.GlobalRustFlags, config.GlobalRustFlags...)
flags.GlobalRustFlags = append(flags.GlobalRustFlags, toolchain.ToolchainRustFlags())
flags.GlobalLinkFlags = append(flags.GlobalLinkFlags, toolchain.ToolchainLinkFlags())
flags.EmitXrefs = ctx.Config().EmitXrefRules()
if ctx.Host() && !ctx.Windows() {
flags.LinkFlags = append(flags.LinkFlags, cc.RpathFlags(ctx)...)
}
if ctx.Os() == android.Linux {
// Add -lc, -lrt, -ldl, -lpthread, -lm and -lgcc_s to glibc builds to match
// the default behavior of device builds.
flags.LinkFlags = append(flags.LinkFlags, config.LinuxHostGlobalLinkFlags...)
} else if ctx.Os() == android.Darwin {
// Add -lc, -ldl, -lpthread and -lm to glibc darwin builds to match the default
// behavior of device builds.
flags.LinkFlags = append(flags.LinkFlags,
"-lc",
"-ldl",
"-lpthread",
"-lm",
)
}
return flags
}
func (compiler *baseCompiler) compilerFlags(ctx ModuleContext, flags Flags) Flags {
flags = CommonDefaultFlags(ctx, ctx.toolchain(), flags)
lintFlags, err := config.RustcLintsForDir(ctx.ModuleDir(), compiler.Properties.Lints)
if err != nil {
ctx.PropertyErrorf("lints", err.Error())
}
// linkage-related flags are disallowed.
for _, s := range compiler.Properties.Ld_flags {
if strings.HasPrefix(s, "-Wl,-l") || strings.HasPrefix(s, "-Wl,-L") {
ctx.PropertyErrorf("ld_flags", "'-Wl,-l' and '-Wl,-L' flags cannot be manually specified")
}
}
for _, s := range compiler.Properties.Flags {
if strings.HasPrefix(s, "-l") || strings.HasPrefix(s, "-L") {
ctx.PropertyErrorf("flags", "'-l' and '-L' flags cannot be manually specified")
}
if strings.HasPrefix(s, "--extern") {
ctx.PropertyErrorf("flags", "'--extern' flag cannot be manually specified")
}
if strings.HasPrefix(s, "-Clink-args=") || strings.HasPrefix(s, "-C link-args=") {
ctx.PropertyErrorf("flags", "'-C link-args' flag cannot be manually specified")
}
}
flags.RustFlags = append(flags.RustFlags, lintFlags)
flags.RustFlags = append(flags.RustFlags, compiler.Properties.Flags...)
flags.RustFlags = append(flags.RustFlags, "--edition="+compiler.edition())
flags.RustdocFlags = append(flags.RustdocFlags, "--edition="+compiler.edition())
flags.LinkFlags = append(flags.LinkFlags, compiler.Properties.Ld_flags...)
return flags
}
func (compiler *baseCompiler) compile(ctx ModuleContext, flags Flags, deps PathDeps) buildOutput {
panic(fmt.Errorf("baseCrater doesn't know how to crate things!"))
}
func (compiler *baseCompiler) rustdoc(ctx ModuleContext, flags Flags,
deps PathDeps) android.OptionalPath {
return android.OptionalPath{}
}
func (compiler *baseCompiler) initialize(ctx ModuleContext) {
compiler.cachedCargoOutDir = android.PathForModuleOut(ctx, genSubDir)
if compiler.Properties.Crate_root == nil {
compiler.cachedCrateRootPath, compiler.cachedCrateRootError = srcPathFromModuleSrcs(ctx, compiler.Properties.Srcs)
} else {
compiler.cachedCrateRootPath = android.PathForModuleSrc(ctx, *compiler.Properties.Crate_root)
compiler.cachedCrateRootError = nil
}
}
func (compiler *baseCompiler) cargoOutDir() android.OptionalPath {
return android.OptionalPathForPath(compiler.cachedCargoOutDir)
}
func (compiler *baseCompiler) cargoEnvCompat() bool {
return Bool(compiler.Properties.Cargo_env_compat)
}
func (compiler *baseCompiler) cargoPkgVersion() string {
return String(compiler.Properties.Cargo_pkg_version)
}
func (compiler *baseCompiler) unstrippedOutputFilePath() android.Path {
return compiler.unstrippedOutputFile
}
func (compiler *baseCompiler) strippedOutputFilePath() android.OptionalPath {
return compiler.strippedOutputFile
}
func (compiler *baseCompiler) compilerDeps(ctx DepsContext, deps Deps) Deps {
deps.Rlibs = append(deps.Rlibs, compiler.Properties.Rlibs...)
deps.Rustlibs = append(deps.Rustlibs, compiler.Properties.Rustlibs...)
deps.ProcMacros = append(deps.ProcMacros, compiler.Properties.Proc_macros...)
deps.StaticLibs = append(deps.StaticLibs, compiler.Properties.Static_libs...)
deps.WholeStaticLibs = append(deps.WholeStaticLibs, compiler.Properties.Whole_static_libs...)
deps.SharedLibs = append(deps.SharedLibs, compiler.Properties.Shared_libs...)
deps.Stdlibs = append(deps.Stdlibs, compiler.Properties.Stdlibs...)
if !Bool(compiler.Properties.No_stdlibs) {
for _, stdlib := range config.Stdlibs {
// If we're building for the build host, use the prebuilt stdlibs, unless the host
// is linux_bionic which doesn't have prebuilts.
if ctx.Host() && !ctx.Target().HostCross && ctx.Target().Os != android.LinuxBionic {
stdlib = "prebuilt_" + stdlib
}
deps.Stdlibs = append(deps.Stdlibs, stdlib)
}
}
return deps
}
func bionicDeps(ctx DepsContext, deps Deps, static bool) Deps {
bionicLibs := []string{}
bionicLibs = append(bionicLibs, "liblog")
bionicLibs = append(bionicLibs, "libc")
bionicLibs = append(bionicLibs, "libm")
bionicLibs = append(bionicLibs, "libdl")
if static {
deps.StaticLibs = append(deps.StaticLibs, bionicLibs...)
} else {
deps.SharedLibs = append(deps.SharedLibs, bionicLibs...)
}
if ctx.RustModule().StaticExecutable() {
deps.StaticLibs = append(deps.StaticLibs, "libunwind")
}
if libRuntimeBuiltins := config.BuiltinsRuntimeLibrary(ctx.toolchain()); libRuntimeBuiltins != "" {
deps.StaticLibs = append(deps.StaticLibs, libRuntimeBuiltins)
}
return deps
}
func muslDeps(ctx DepsContext, deps Deps, static bool) Deps {
muslLibs := []string{"libc_musl"}
if static {
deps.StaticLibs = append(deps.StaticLibs, muslLibs...)
} else {
deps.SharedLibs = append(deps.SharedLibs, muslLibs...)
}
if libRuntimeBuiltins := config.BuiltinsRuntimeLibrary(ctx.toolchain()); libRuntimeBuiltins != "" {
deps.StaticLibs = append(deps.StaticLibs, libRuntimeBuiltins)
}
return deps
}
func (compiler *baseCompiler) crateName() string {
return compiler.Properties.Crate_name
}
func (compiler *baseCompiler) everInstallable() bool {
// Most modules are installable, so return true by default.
return true
}
func (compiler *baseCompiler) installDir(ctx ModuleContext) android.InstallPath {
dir := compiler.dir
if ctx.toolchain().Is64Bit() && compiler.dir64 != "" {
dir = compiler.dir64
}
if ctx.Target().NativeBridge == android.NativeBridgeEnabled {
dir = filepath.Join(dir, ctx.Target().NativeBridgeRelativePath)
}
if !ctx.Host() && ctx.Config().HasMultilibConflict(ctx.Arch().ArchType) {
dir = filepath.Join(dir, ctx.Arch().ArchType.String())
}
if compiler.location == InstallInData && ctx.RustModule().InVendorOrProduct() {
if ctx.RustModule().InProduct() {
dir = filepath.Join(dir, "product")
} else if ctx.RustModule().InVendor() {
dir = filepath.Join(dir, "vendor")
} else {
ctx.ModuleErrorf("Unknown data+VNDK installation kind")
}
}
return android.PathForModuleInstall(ctx, dir, compiler.subDir,
compiler.relativeInstallPath(), compiler.relative)
}
func (compiler *baseCompiler) nativeCoverage() bool {
return false
}
func (compiler *baseCompiler) install(ctx ModuleContext) {
path := ctx.RustModule().OutputFile()
compiler.path = ctx.InstallFile(compiler.installDir(ctx), path.Path().Base(), path.Path(), compiler.installDeps...)
}
func (compiler *baseCompiler) installTestData(ctx ModuleContext, data []android.DataPath) {
installedData := ctx.InstallTestData(compiler.installDir(ctx), data)
compiler.installDeps = append(compiler.installDeps, installedData...)
}
func (compiler *baseCompiler) getStem(ctx android.ModuleContext) string {
return compiler.getStemWithoutSuffix(ctx) + String(compiler.Properties.Suffix)
}
func (compiler *baseCompiler) getStemWithoutSuffix(ctx android.BaseModuleContext) string {
stem := ctx.ModuleName()
if String(compiler.Properties.Stem) != "" {
stem = String(compiler.Properties.Stem)
}
return stem
}
func (compiler *baseCompiler) relativeInstallPath() string {
return String(compiler.Properties.Relative_install_path)
}
func (compiler *baseCompiler) checkedCrateRootPath() (android.Path, error) {
return compiler.cachedCrateRootPath, compiler.cachedCrateRootError
}
func crateRootPath(ctx ModuleContext, compiler compiler) android.Path {
root, err := compiler.checkedCrateRootPath()
if err != nil {
ctx.PropertyErrorf("srcs", err.Error())
}
return root
}
// Returns the Path for the main source file along with Paths for generated source files from modules listed in srcs.
func srcPathFromModuleSrcs(ctx ModuleContext, srcs []string) (android.Path, error) {
// The srcs can contain strings with prefix ":".
// They are dependent modules of this module, with android.SourceDepTag.
// They are not the main source file compiled by rustc.
numSrcs := 0
srcIndex := 0
for i, s := range srcs {
if android.SrcIsModule(s) == "" {
numSrcs++
srcIndex = i
}
}
if numSrcs > 1 {
return nil, errors.New(incorrectSourcesError)
}
// If a main source file is not provided we expect only a single SourceProvider module to be defined
// within srcs, with the expectation that the first source it provides is the entry point.
if srcIndex != 0 {
return nil, errors.New("main source file must be the first in srcs")
} else if numSrcs > 1 {
return nil, errors.New("only a single generated source module can be defined without a main source file.")
}
// TODO: b/297264540 - once all modules are sandboxed, we need to select the proper
// entry point file from Srcs rather than taking the first one
paths := android.PathsForModuleSrc(ctx, srcs)
if len(paths) == 0 {
return nil, errors.New("srcs must not be empty")
}
return paths[srcIndex], nil
}