blob: aaa33ec3581c20933399e2b2732ee452b67d1ee6 [file] [log] [blame]
/*
* Copyright (C) 2016 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.
*/
#include "AST.h"
#include "Coordinator.h"
#include "Scope.h"
#include <android-base/logging.h>
#include <hidl-hash/Hash.h>
#include <hidl-util/FQName.h>
#include <hidl-util/Formatter.h>
#include <hidl-util/StringHelper.h>
#include <stdio.h>
#include <sys/stat.h>
#include <unistd.h>
#include <iostream>
#include <set>
#include <string>
#include <vector>
using namespace android;
enum class OutputMode {
NEEDS_DIR, // -o output option expects a directory
NEEDS_FILE, // -o output option expects a file
NEEDS_SRC, // for changes inside the source tree itself
NOT_NEEDED // does not create files
};
enum class GenerationGranularity {
PER_PACKAGE, // Files generated for each package
PER_FILE, // Files generated for each hal file
PER_TYPE, // Files generated for each hal file + each type in HAL files
};
// Represents a file that is generated by an -L option for an FQName
struct FileGenerator {
using ShouldGenerateFunction = std::function<bool(const FQName& fqName)>;
using FileNameForFQName = std::function<std::string(const FQName& fqName)>;
using GenerationFunction = std::function<status_t(Formatter& out, const FQName& fqName,
const Coordinator* coordinator)>;
ShouldGenerateFunction mShouldGenerateForFqName; // If generate function applies to this target
FileNameForFQName mFileNameForFqName; // Target -> filename
GenerationFunction mGenerationFunction; // Function to generate output for file
std::string getFileName(const FQName& fqName) const {
return mFileNameForFqName ? mFileNameForFqName(fqName) : "";
}
status_t getOutputFile(const FQName& fqName, const Coordinator* coordinator,
Coordinator::Location location, std::string* file) const {
if (!mShouldGenerateForFqName(fqName)) {
return OK;
}
return coordinator->getFilepath(fqName, location, getFileName(fqName), file);
}
status_t appendOutputFiles(const FQName& fqName, const Coordinator* coordinator,
Coordinator::Location location,
std::vector<std::string>* outputFiles) const {
if (location == Coordinator::Location::STANDARD_OUT) {
return OK;
}
if (mShouldGenerateForFqName(fqName)) {
std::string fileName;
status_t err = getOutputFile(fqName, coordinator, location, &fileName);
if (err != OK) return err;
if (!fileName.empty()) {
outputFiles->push_back(fileName);
}
}
return OK;
}
status_t generate(const FQName& fqName, const Coordinator* coordinator,
Coordinator::Location location) const {
CHECK(mShouldGenerateForFqName != nullptr);
CHECK(mGenerationFunction != nullptr);
if (!mShouldGenerateForFqName(fqName)) {
return OK;
}
Formatter out = coordinator->getFormatter(fqName, location, getFileName(fqName));
if (!out.isValid()) {
return UNKNOWN_ERROR;
}
return mGenerationFunction(out, fqName, coordinator);
}
// Helper methods for filling out this struct
static bool generateForTypes(const FQName& fqName) {
const auto names = fqName.names();
return names.size() > 0 && names[0] == "types";
}
static bool generateForInterfaces(const FQName& fqName) { return !generateForTypes(fqName); }
static bool alwaysGenerate(const FQName&) { return true; }
};
// Represents a -L option, takes a fqName and generates files
struct OutputHandler {
using ValidationFunction = std::function<bool(
const FQName& fqName, const Coordinator* coordinator, const std::string& language)>;
std::string mKey; // -L in Android.bp
std::string mDescription; // for display in help menu
OutputMode mOutputMode; // how this option interacts with -o
Coordinator::Location mLocation; // how to compute location relative to the output directory
GenerationGranularity mGenerationGranularity; // what to run generate function on
ValidationFunction mValidate; // if a given fqName is allowed for this option
std::vector<FileGenerator> mGenerateFunctions; // run for each target at this granularity
const std::string& name() const { return mKey; }
const std::string& description() const { return mDescription; }
status_t generate(const FQName& fqName, const Coordinator* coordinator) const;
status_t validate(const FQName& fqName, const Coordinator* coordinator,
const std::string& language) const {
return mValidate(fqName, coordinator, language);
}
status_t writeDepFile(const FQName& fqName, const Coordinator* coordinator) const;
private:
status_t appendTargets(const FQName& fqName, const Coordinator* coordinator,
std::vector<FQName>* targets) const;
status_t appendOutputFiles(const FQName& fqName, const Coordinator* coordinator,
std::vector<std::string>* outputFiles) const;
};
// Helper method for GenerationGranularity::PER_TYPE
// IFoo -> IFoo, types.hal (containing Bar, Baz) -> types.Bar, types.Baz
static status_t appendPerTypeTargets(const FQName& fqName, const Coordinator* coordinator,
std::vector<FQName>* exportedPackageInterfaces) {
CHECK(fqName.isFullyQualified());
if (fqName.name() != "types") {
exportedPackageInterfaces->push_back(fqName);
return OK;
}
AST* typesAST = coordinator->parse(fqName);
if (typesAST == nullptr) {
fprintf(stderr, "ERROR: Could not parse %s. Aborting.\n", fqName.string().c_str());
return UNKNOWN_ERROR;
}
std::vector<NamedType*> rootTypes = typesAST->getRootScope()->getSubTypes();
for (const NamedType* rootType : rootTypes) {
if (rootType->isTypeDef()) continue;
FQName rootTypeName(fqName.package(), fqName.version(), "types." + rootType->localName());
exportedPackageInterfaces->push_back(rootTypeName);
}
return OK;
}
status_t OutputHandler::appendTargets(const FQName& fqName, const Coordinator* coordinator,
std::vector<FQName>* targets) const {
switch (mGenerationGranularity) {
case GenerationGranularity::PER_PACKAGE: {
targets->push_back(fqName.getPackageAndVersion());
} break;
case GenerationGranularity::PER_FILE: {
if (fqName.isFullyQualified()) {
targets->push_back(fqName);
break;
}
status_t err = coordinator->appendPackageInterfacesToVector(fqName, targets);
if (err != OK) return err;
} break;
case GenerationGranularity::PER_TYPE: {
if (fqName.isFullyQualified()) {
status_t err = appendPerTypeTargets(fqName, coordinator, targets);
if (err != OK) return err;
}
std::vector<FQName> packageInterfaces;
status_t err = coordinator->appendPackageInterfacesToVector(fqName, &packageInterfaces);
if (err != OK) return err;
for (const FQName& packageInterface : packageInterfaces) {
err = appendPerTypeTargets(packageInterface, coordinator, targets);
if (err != OK) return err;
}
} break;
default:
CHECK(!"Should be here");
}
return OK;
}
status_t OutputHandler::generate(const FQName& fqName, const Coordinator* coordinator) const {
std::vector<FQName> targets;
status_t err = appendTargets(fqName, coordinator, &targets);
if (err != OK) return err;
for (const FQName& fqName : targets) {
for (const FileGenerator& file : mGenerateFunctions) {
status_t err = file.generate(fqName, coordinator, mLocation);
if (err != OK) return err;
}
}
return OK;
}
status_t OutputHandler::appendOutputFiles(const FQName& fqName, const Coordinator* coordinator,
std::vector<std::string>* outputFiles) const {
std::vector<FQName> targets;
status_t err = appendTargets(fqName, coordinator, &targets);
if (err != OK) return err;
for (const FQName& fqName : targets) {
for (const FileGenerator& file : mGenerateFunctions) {
err = file.appendOutputFiles(fqName, coordinator, mLocation, outputFiles);
if (err != OK) return err;
}
}
return OK;
}
status_t OutputHandler::writeDepFile(const FQName& fqName, const Coordinator* coordinator) const {
std::vector<std::string> outputFiles;
status_t err = appendOutputFiles(fqName, coordinator, &outputFiles);
if (err != OK) return err;
// No need for dep files
if (outputFiles.empty()) {
return OK;
}
// Depfiles in Android for genrules should be for the 'main file'. Because hidl-gen doesn't have
// a main file for most targets, we are just outputting a depfile for one single file only.
const std::string forFile = outputFiles[0];
return coordinator->writeDepFile(forFile);
}
// Use an AST function as a OutputHandler GenerationFunction
static FileGenerator::GenerationFunction astGenerationFunction(void (AST::*generate)(Formatter&)
const = nullptr) {
return [generate](Formatter& out, const FQName& fqName,
const Coordinator* coordinator) -> status_t {
AST* ast = coordinator->parse(fqName);
if (ast == nullptr) {
fprintf(stderr, "ERROR: Could not parse %s. Aborting.\n", fqName.string().c_str());
return UNKNOWN_ERROR;
}
if (generate == nullptr) return OK; // just parsing AST
(ast->*generate)(out);
return OK;
};
}
// Common pattern: single file for package or standard out
static FileGenerator singleFileGenerator(
const std::string& fileName, const FileGenerator::GenerationFunction& generationFunction) {
return {
FileGenerator::alwaysGenerate, [fileName](const FQName&) { return fileName; },
generationFunction,
};
}
static status_t generateJavaForPackage(Formatter& out, const FQName& fqName,
const Coordinator* coordinator) {
AST* ast;
std::string limitToType;
// Required for legacy -Lmakefile files
if (fqName.name().find("types.") == 0) {
limitToType = fqName.name().substr(strlen("types."));
FQName typesName = fqName.getTypesForPackage();
ast = coordinator->parse(typesName);
} else {
ast = coordinator->parse(fqName);
}
if (ast == nullptr) {
fprintf(stderr, "ERROR: Could not parse %s. Aborting.\n", fqName.string().c_str());
return UNKNOWN_ERROR;
}
ast->generateJava(out, limitToType);
return OK;
};
static status_t dumpDefinedButUnreferencedTypeNames(const FQName& packageFQName,
const Coordinator* coordinator) {
std::vector<FQName> packageInterfaces;
status_t err = coordinator->appendPackageInterfacesToVector(packageFQName, &packageInterfaces);
if (err != OK) return err;
std::set<FQName> unreferencedDefinitions;
std::set<FQName> unreferencedImports;
err = coordinator->addUnreferencedTypes(packageInterfaces, &unreferencedDefinitions,
&unreferencedImports);
if (err != OK) return err;
for (const auto& fqName : unreferencedDefinitions) {
std::cerr
<< "VERBOSE: DEFINED-BUT-NOT-REFERENCED "
<< fqName.string()
<< std::endl;
}
for (const auto& fqName : unreferencedImports) {
std::cerr
<< "VERBOSE: IMPORTED-BUT-NOT-REFERENCED "
<< fqName.string()
<< std::endl;
}
return OK;
}
static std::string makeLibraryName(const FQName &packageFQName) {
return packageFQName.string();
}
static status_t isPackageJavaCompatible(const FQName& packageFQName, const Coordinator* coordinator,
bool* compatible) {
std::vector<FQName> todo;
status_t err =
coordinator->appendPackageInterfacesToVector(packageFQName, &todo);
if (err != OK) {
return err;
}
std::set<FQName> seen;
for (const auto &iface : todo) {
seen.insert(iface);
}
// Form the transitive closure of all imported interfaces (and types.hal-s)
// If any one of them is not java compatible, this package isn't either.
while (!todo.empty()) {
const FQName fqName = todo.back();
todo.pop_back();
AST *ast = coordinator->parse(fqName);
if (ast == nullptr) {
return UNKNOWN_ERROR;
}
if (!ast->isJavaCompatible()) {
*compatible = false;
return OK;
}
std::set<FQName> importedPackages;
ast->getImportedPackages(&importedPackages);
for (const auto &package : importedPackages) {
std::vector<FQName> packageInterfaces;
status_t err = coordinator->appendPackageInterfacesToVector(
package, &packageInterfaces);
if (err != OK) {
return err;
}
for (const auto &iface : packageInterfaces) {
if (seen.find(iface) != seen.end()) {
continue;
}
todo.push_back(iface);
seen.insert(iface);
}
}
}
*compatible = true;
return OK;
}
static bool packageNeedsJavaCode(
const std::vector<FQName> &packageInterfaces, AST *typesAST) {
if (packageInterfaces.size() == 0) {
return false;
}
// If there is more than just a types.hal file to this package we'll
// definitely need to generate Java code.
if (packageInterfaces.size() > 1
|| packageInterfaces[0].name() != "types") {
return true;
}
CHECK(typesAST != nullptr);
// We'll have to generate Java code if types.hal contains any non-typedef
// type declarations.
Scope* rootScope = typesAST->getRootScope();
std::vector<NamedType *> subTypes = rootScope->getSubTypes();
for (const auto &subType : subTypes) {
if (!subType->isTypeDef()) {
return true;
}
}
return false;
}
bool validateIsPackage(const FQName& fqName, const Coordinator*,
const std::string& /* language */) {
if (fqName.package().empty()) {
fprintf(stderr, "ERROR: Expecting package name\n");
return false;
}
if (fqName.version().empty()) {
fprintf(stderr, "ERROR: Expecting package version\n");
return false;
}
if (!fqName.name().empty()) {
fprintf(stderr,
"ERROR: Expecting only package name and version.\n");
return false;
}
return true;
}
bool isHidlTransportPackage(const FQName& fqName) {
return fqName.package() == gIBaseFqName.package() ||
fqName.package() == gIManagerFqName.package();
}
bool isSystemProcessSupportedPackage(const FQName& fqName) {
// Technically, so is hidl IBase + IServiceManager, but
// these are part of libhidltransport.
return fqName.string() == "android.hardware.graphics.common@1.0" ||
fqName.string() == "android.hardware.graphics.common@1.1" ||
fqName.string() == "android.hardware.graphics.mapper@2.0" ||
fqName.string() == "android.hardware.graphics.mapper@2.1" ||
fqName.string() == "android.hardware.renderscript@1.0" ||
fqName.string() == "android.hidl.memory.token@1.0" ||
fqName.string() == "android.hidl.memory@1.0";
}
bool isSystemPackage(const FQName &package) {
return package.inPackage("android.hidl") ||
package.inPackage("android.system") ||
package.inPackage("android.frameworks") ||
package.inPackage("android.hardware");
}
// TODO(b/69862859): remove special case
status_t isTestPackage(const FQName& fqName, const Coordinator* coordinator, bool* isTestPackage) {
const auto fileExists = [](const std::string& file) {
struct stat buf;
return stat(file.c_str(), &buf) == 0;
};
std::string path;
status_t err = coordinator->getFilepath(fqName, Coordinator::Location::PACKAGE_ROOT,
".hidl_for_test", &path);
if (err != OK) return err;
const bool exists = fileExists(path);
if (exists) {
coordinator->onFileAccess(path, "r");
}
*isTestPackage = exists;
return OK;
}
static status_t generateAdapterMainSource(Formatter& out, const FQName& packageFQName,
const Coordinator* coordinator) {
std::vector<FQName> packageInterfaces;
status_t err =
coordinator->appendPackageInterfacesToVector(packageFQName,
&packageInterfaces);
if (err != OK) {
return err;
}
out << "#include <hidladapter/HidlBinderAdapter.h>\n";
for (auto &interface : packageInterfaces) {
if (interface.name() == "types") {
continue;
}
AST::generateCppPackageInclude(out, interface, interface.getInterfaceAdapterName());
}
out << "int main(int argc, char** argv) ";
out.block([&] {
out << "return ::android::hardware::adapterMain<\n";
out.indent();
for (auto &interface : packageInterfaces) {
if (interface.name() == "types") {
continue;
}
out << interface.getInterfaceAdapterFqName().cppName();
if (&interface != &packageInterfaces.back()) {
out << ",\n";
}
}
out << ">(\"" << packageFQName.string() << "\", argc, argv);\n";
out.unindent();
}).endl();
return OK;
}
static status_t generateAndroidBpForPackage(Formatter& out, const FQName& packageFQName,
const Coordinator* coordinator) {
CHECK(!packageFQName.isFullyQualified() && packageFQName.name().empty());
std::vector<FQName> packageInterfaces;
status_t err = coordinator->appendPackageInterfacesToVector(packageFQName, &packageInterfaces);
if (err != OK) {
return err;
}
std::set<FQName> importedPackagesHierarchy;
std::vector<const Type *> exportedTypes;
AST* typesAST = nullptr;
for (const auto& fqName : packageInterfaces) {
AST* ast = coordinator->parse(fqName);
if (ast == nullptr) {
fprintf(stderr, "ERROR: Could not parse %s. Aborting.\n", fqName.string().c_str());
return UNKNOWN_ERROR;
}
if (fqName.name() == "types") {
typesAST = ast;
}
ast->getImportedPackagesHierarchy(&importedPackagesHierarchy);
ast->appendToExportedTypesVector(&exportedTypes);
}
bool needsJavaCode = packageNeedsJavaCode(packageInterfaces, typesAST);
bool genJavaConstants = needsJavaCode && !exportedTypes.empty();
bool isJavaCompatible;
err = isPackageJavaCompatible(packageFQName, coordinator, &isJavaCompatible);
if (err != OK) return err;
bool genJavaLibrary = needsJavaCode && isJavaCompatible;
bool generateForTest;
err = isTestPackage(packageFQName, coordinator, &generateForTest);
if (err != OK) return err;
bool isVndk = !generateForTest && isSystemPackage(packageFQName);
bool isVndkSp = isVndk && isSystemProcessSupportedPackage(packageFQName);
std::string packageRoot;
err = coordinator->getPackageRoot(packageFQName, &packageRoot);
if (err != OK) return err;
out << "// This file is autogenerated by hidl-gen -Landroidbp.\n\n";
out << "hidl_interface ";
out.block([&] {
out << "name: \"" << makeLibraryName(packageFQName) << "\",\n";
if (!coordinator->getOwner().empty()) {
out << "owner: \"" << coordinator->getOwner() << "\",\n";
}
out << "root: \"" << packageRoot << "\",\n";
if (isHidlTransportPackage(packageFQName)) {
out << "core_interface: true,\n";
}
if (isVndk) {
out << "vndk: ";
out.block([&]() {
out << "enabled: true,\n";
if (isVndkSp) {
out << "support_system_process: true,\n";
}
}) << ",\n";
}
(out << "srcs: [\n").indent([&] {
for (const auto& fqName : packageInterfaces) {
out << "\"" << fqName.name() << ".hal\",\n";
}
}) << "],\n";
if (!importedPackagesHierarchy.empty()) {
(out << "interfaces: [\n").indent([&] {
for (const auto& fqName : importedPackagesHierarchy) {
out << "\"" << fqName.string() << "\",\n";
}
}) << "],\n";
}
if (typesAST != nullptr) {
(out << "types: [\n").indent([&] {
std::vector<NamedType *> subTypes = typesAST->getRootScope()->getSubTypes();
std::sort(
subTypes.begin(),
subTypes.end(),
[](const NamedType *a, const NamedType *b) -> bool {
return a->fqName() < b->fqName();
});
for (const auto &type : subTypes) {
if (type->isTypeDef()) {
continue;
}
out << "\"" << type->localName() << "\",\n";
}
}) << "],\n";
}
// Explicity call this out for developers.
out << "gen_java: " << (genJavaLibrary ? "true" : "false") << ",\n";
if (genJavaConstants) {
out << "gen_java_constants: true,\n";
}
}).endl().endl();
return OK;
}
static status_t generateAndroidBpImplForPackage(Formatter& out, const FQName& packageFQName,
const Coordinator* coordinator) {
const std::string libraryName = makeLibraryName(packageFQName) + "-impl";
std::vector<FQName> packageInterfaces;
status_t err =
coordinator->appendPackageInterfacesToVector(packageFQName,
&packageInterfaces);
if (err != OK) {
return err;
}
std::set<FQName> importedPackages;
for (const auto &fqName : packageInterfaces) {
AST *ast = coordinator->parse(fqName);
if (ast == nullptr) {
fprintf(stderr,
"ERROR: Could not parse %s. Aborting.\n",
fqName.string().c_str());
return UNKNOWN_ERROR;
}
ast->getImportedPackages(&importedPackages);
}
out << "cc_library_shared {\n";
out.indent([&] {
out << "// FIXME: this should only be -impl for a passthrough hal.\n"
<< "// In most cases, to convert this to a binderized implementation, you should:\n"
<< "// - change '-impl' to '-service' here and make it a cc_binary instead of a\n"
<< "// cc_library_shared.\n"
<< "// - add a *.rc file for this module.\n"
<< "// - delete HIDL_FETCH_I* functions.\n"
<< "// - call configureRpcThreadpool and registerAsService on the instance.\n"
<< "// You may also want to append '-impl/-service' with a specific identifier like\n"
<< "// '-vendor' or '-<hardware identifier>' etc to distinguish it.\n";
out << "name: \"" << libraryName << "\",\n";
if (!coordinator->getOwner().empty()) {
out << "owner: \"" << coordinator->getOwner() << "\",\n";
}
out << "relative_install_path: \"hw\",\n";
if (coordinator->getOwner().empty()) {
out << "// FIXME: this should be 'vendor: true' for modules that will eventually be\n"
"// on AOSP.\n";
}
out << "proprietary: true,\n";
out << "srcs: [\n";
out.indent([&] {
for (const auto &fqName : packageInterfaces) {
if (fqName.name() == "types") {
continue;
}
out << "\"" << fqName.getInterfaceBaseName() << ".cpp\",\n";
}
});
out << "],\n"
<< "shared_libs: [\n";
out.indent([&] {
out << "\"libhidlbase\",\n"
<< "\"libhidltransport\",\n"
<< "\"libutils\",\n"
<< "\"" << makeLibraryName(packageFQName) << "\",\n";
for (const auto &importedPackage : importedPackages) {
if (isHidlTransportPackage(importedPackage)) {
continue;
}
out << "\"" << makeLibraryName(importedPackage) << "\",\n";
}
});
out << "],\n";
});
out << "}\n";
return OK;
}
bool validateForSource(const FQName& fqName, const Coordinator* coordinator,
const std::string& language) {
if (fqName.package().empty()) {
fprintf(stderr, "ERROR: Expecting package name\n");
return false;
}
if (fqName.version().empty()) {
fprintf(stderr, "ERROR: Expecting package version\n");
return false;
}
const std::string &name = fqName.name();
if (!name.empty()) {
if (name.find('.') == std::string::npos) {
return true;
}
if (language != "java" || name.find("types.") != 0) {
// When generating java sources for "types.hal", output can be
// constrained to just one of the top-level types declared
// by using the extended syntax
// android.hardware.Foo@1.0::types.TopLevelTypeName.
// In all other cases (different language, not 'types') the dot
// notation in the name is illegal in this context.
return false;
}
return true;
}
if (language == "java") {
bool isJavaCompatible;
status_t err = isPackageJavaCompatible(fqName, coordinator, &isJavaCompatible);
if (err != OK) return false;
if (!isJavaCompatible) {
fprintf(stderr,
"ERROR: %s is not Java compatible. The Java backend"
" does NOT support union types nor native handles. "
"In addition, vectors of arrays are limited to at most "
"one-dimensional arrays and vectors of {vectors,interfaces} are"
" not supported.\n",
fqName.string().c_str());
return false;
}
}
return true;
}
FileGenerator::GenerationFunction generateExportHeaderForPackage(bool forJava) {
return [forJava](Formatter& out, const FQName& packageFQName,
const Coordinator* coordinator) -> status_t {
CHECK(!packageFQName.package().empty() && !packageFQName.version().empty() &&
packageFQName.name().empty());
std::vector<FQName> packageInterfaces;
status_t err = coordinator->appendPackageInterfacesToVector(
packageFQName, &packageInterfaces);
if (err != OK) {
return err;
}
std::vector<const Type *> exportedTypes;
for (const auto &fqName : packageInterfaces) {
AST *ast = coordinator->parse(fqName);
if (ast == nullptr) {
fprintf(stderr,
"ERROR: Could not parse %s. Aborting.\n",
fqName.string().c_str());
return UNKNOWN_ERROR;
}
ast->appendToExportedTypesVector(&exportedTypes);
}
if (exportedTypes.empty()) {
return OK;
}
if (!out.isValid()) {
return UNKNOWN_ERROR;
}
std::string packagePath;
err = coordinator->getPackagePath(packageFQName, false /* relative */,
false /* sanitized */, &packagePath);
if (err != OK) return err;
out << "// This file is autogenerated by hidl-gen. Do not edit manually.\n"
<< "// Source: " << packageFQName.string() << "\n"
<< "// Location: " << packagePath << "\n\n";
std::string guard;
if (forJava) {
out << "package " << packageFQName.javaPackage() << ";\n\n";
out << "public class Constants {\n";
out.indent();
} else {
guard = "HIDL_GENERATED_";
guard += StringHelper::Uppercase(packageFQName.tokenName());
guard += "_";
guard += "EXPORTED_CONSTANTS_H_";
out << "#ifndef "
<< guard
<< "\n#define "
<< guard
<< "\n\n#ifdef __cplusplus\nextern \"C\" {\n#endif\n\n";
}
for (const auto &type : exportedTypes) {
type->emitExportedHeader(out, forJava);
}
if (forJava) {
out.unindent();
out << "}\n";
} else {
out << "#ifdef __cplusplus\n}\n#endif\n\n#endif // "
<< guard
<< "\n";
}
return OK;
};
}
static status_t generateHashOutput(Formatter& out, const FQName& fqName,
const Coordinator* coordinator) {
CHECK(fqName.isFullyQualified());
AST* ast = coordinator->parse(fqName, {} /* parsed */,
Coordinator::Enforce::NO_HASH /* enforcement */);
if (ast == nullptr) {
fprintf(stderr, "ERROR: Could not parse %s. Aborting.\n", fqName.string().c_str());
return UNKNOWN_ERROR;
}
out << Hash::getHash(ast->getFilename()).hexString() << " " << fqName.string() << "\n";
return OK;
}
template <typename T>
std::vector<T> operator+(const std::vector<T>& lhs, const std::vector<T>& rhs) {
std::vector<T> ret;
ret.reserve(lhs.size() + rhs.size());
ret.insert(ret.begin(), lhs.begin(), lhs.end());
ret.insert(ret.end(), rhs.begin(), rhs.end());
return ret;
}
// clang-format off
static const std::vector<FileGenerator> kCppHeaderFormats = {
{
FileGenerator::alwaysGenerate,
[](const FQName& fqName) { return fqName.name() + ".h"; },
astGenerationFunction(&AST::generateInterfaceHeader),
},
{
FileGenerator::alwaysGenerate,
[](const FQName& fqName) {
return fqName.isInterfaceName() ? fqName.getInterfaceHwName() + ".h" : "hwtypes.h";
},
astGenerationFunction(&AST::generateHwBinderHeader),
},
{
FileGenerator::generateForInterfaces,
[](const FQName& fqName) { return fqName.getInterfaceStubName() + ".h"; },
astGenerationFunction(&AST::generateStubHeader),
},
{
FileGenerator::generateForInterfaces,
[](const FQName& fqName) { return fqName.getInterfaceProxyName() + ".h"; },
astGenerationFunction(&AST::generateProxyHeader),
},
{
FileGenerator::generateForInterfaces,
[](const FQName& fqName) { return fqName.getInterfacePassthroughName() + ".h"; },
astGenerationFunction(&AST::generatePassthroughHeader),
},
};
static const std::vector<FileGenerator> kCppSourceFormats = {
{
FileGenerator::alwaysGenerate,
[](const FQName& fqName) {
return fqName.isInterfaceName() ? fqName.getInterfaceBaseName() + "All.cpp" : "types.cpp";
},
astGenerationFunction(&AST::generateCppSource),
},
};
static const std::vector<FileGenerator> kCppImplHeaderFormats = {
{
FileGenerator::generateForInterfaces,
[](const FQName& fqName) { return fqName.getInterfaceBaseName() + ".h"; },
astGenerationFunction(&AST::generateCppImplHeader),
},
};
static const std::vector<FileGenerator> kCppImplSourceFormats = {
{
FileGenerator::generateForInterfaces,
[](const FQName& fqName) { return fqName.getInterfaceBaseName() + ".cpp"; },
astGenerationFunction(&AST::generateCppImplSource),
},
};
static const std::vector<FileGenerator> kCppAdapterHeaderFormats = {
{
FileGenerator::alwaysGenerate,
[](const FQName& fqName) {
return fqName.isInterfaceName() ? fqName.getInterfaceAdapterName() + ".h" : "Atypes.h";
},
astGenerationFunction(&AST::generateCppAdapterHeader),
},
};
static const std::vector<FileGenerator> kCppAdapterSourceFormats = {
{
FileGenerator::alwaysGenerate,
[](const FQName& fqName) {
return fqName.isInterfaceName() ? fqName.getInterfaceAdapterName() + ".cpp" : "Atypes.cpp";
},
astGenerationFunction(&AST::generateCppAdapterSource),
},
};
static const std::vector<OutputHandler> kFormats = {
{
"check",
"Parses the interface to see if valid but doesn't write any files.",
OutputMode::NOT_NEEDED,
Coordinator::Location::STANDARD_OUT,
GenerationGranularity::PER_FILE,
validateForSource,
{
{
FileGenerator::alwaysGenerate,
nullptr /* filename for fqname */,
astGenerationFunction(),
},
},
},
{
"c++",
"(internal) (deprecated) Generates C++ interface files for talking to HIDL interfaces.",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_OUTPUT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppHeaderFormats + kCppSourceFormats,
},
{
"c++-headers",
"(internal) Generates C++ headers for interface files for talking to HIDL interfaces.",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_OUTPUT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppHeaderFormats,
},
{
"c++-sources",
"(internal) Generates C++ sources for interface files for talking to HIDL interfaces.",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_OUTPUT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppSourceFormats,
},
{
"export-header",
"Generates a header file from @export enumerations to help maintain legacy code.",
OutputMode::NEEDS_FILE,
Coordinator::Location::DIRECT,
GenerationGranularity::PER_PACKAGE,
validateIsPackage,
{singleFileGenerator("", generateExportHeaderForPackage(false /* forJava */))}
},
{
"c++-impl",
"Generates boilerplate implementation of a hidl interface in C++ (for convenience).",
OutputMode::NEEDS_DIR,
Coordinator::Location::DIRECT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppImplHeaderFormats + kCppImplSourceFormats,
},
{
"c++-impl-headers",
"c++-impl but headers only",
OutputMode::NEEDS_DIR,
Coordinator::Location::DIRECT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppImplHeaderFormats,
},
{
"c++-impl-sources",
"c++-impl but sources only",
OutputMode::NEEDS_DIR,
Coordinator::Location::DIRECT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppImplSourceFormats,
},
{
"c++-adapter",
"Takes a x.(y+n) interface and mocks an x.y interface.",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_OUTPUT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppAdapterHeaderFormats + kCppAdapterSourceFormats,
},
{
"c++-adapter-headers",
"c++-adapter but helper headers only",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_OUTPUT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppAdapterHeaderFormats,
},
{
"c++-adapter-sources",
"c++-adapter but helper sources only",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_OUTPUT,
GenerationGranularity::PER_FILE,
validateForSource,
kCppAdapterSourceFormats,
},
{
"c++-adapter-main",
"c++-adapter but the adapter binary source only",
OutputMode::NEEDS_DIR,
Coordinator::Location::DIRECT,
GenerationGranularity::PER_PACKAGE,
validateIsPackage,
{singleFileGenerator("main.cpp", generateAdapterMainSource)},
},
{
"java",
"(internal) Generates Java library for talking to HIDL interfaces in Java.",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_SANITIZED,
GenerationGranularity::PER_TYPE,
validateForSource,
{
{
FileGenerator::alwaysGenerate,
[](const FQName& fqName) {
return StringHelper::LTrim(fqName.name(), "types.") + ".java";
},
generateJavaForPackage,
},
}
},
{
"java-constants",
"(internal) Like export-header but for Java (always created by -Lmakefile if @export exists).",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_SANITIZED,
GenerationGranularity::PER_PACKAGE,
validateIsPackage,
{singleFileGenerator("Constants.java", generateExportHeaderForPackage(true /* forJava */))}
},
{
"vts",
"(internal) Generates vts proto files for use in vtsd.",
OutputMode::NEEDS_DIR,
Coordinator::Location::GEN_OUTPUT,
GenerationGranularity::PER_FILE,
validateForSource,
{
{
FileGenerator::alwaysGenerate,
[](const FQName& fqName) {
return fqName.isInterfaceName() ? fqName.getInterfaceBaseName() + ".vts" : "types.vts";
},
astGenerationFunction(&AST::generateVts),
},
}
},
{
"makefile",
"(removed) Used to generate makefiles for -Ljava and -Ljava-constants.",
OutputMode::NEEDS_SRC,
Coordinator::Location::PACKAGE_ROOT,
GenerationGranularity::PER_PACKAGE,
[](const FQName &, const Coordinator*, const std::string &) {
fprintf(stderr, "ERROR: makefile output is not supported. Use -Landroidbp for all build file generation.\n");
return false;
},
{},
},
{
"androidbp",
"(internal) Generates Soong bp files for -Lc++-headers, -Lc++-sources, -Ljava, -Ljava-constants, and -Lc++-adapter.",
OutputMode::NEEDS_SRC,
Coordinator::Location::PACKAGE_ROOT,
GenerationGranularity::PER_PACKAGE,
validateIsPackage,
{singleFileGenerator("Android.bp", generateAndroidBpForPackage)},
},
{
"androidbp-impl",
"Generates boilerplate bp files for implementation created with -Lc++-impl.",
OutputMode::NEEDS_DIR,
Coordinator::Location::DIRECT,
GenerationGranularity::PER_PACKAGE,
validateIsPackage,
{singleFileGenerator("Android.bp", generateAndroidBpImplForPackage)},
},
{
"hash",
"Prints hashes of interface in `current.txt` format to standard out.",
OutputMode::NOT_NEEDED,
Coordinator::Location::STANDARD_OUT,
GenerationGranularity::PER_FILE,
validateForSource,
{
{
FileGenerator::alwaysGenerate,
nullptr /* file name for fqName */,
generateHashOutput,
},
}
},
};
// clang-format on
static void usage(const char *me) {
fprintf(stderr,
"usage: %s [-p <root path>] -o <output path> -L <language> [-O <owner>] (-r <interface "
"root>)+ [-v] [-d <depfile>] FQNAME...\n\n",
me);
fprintf(stderr,
"Process FQNAME, PACKAGE(.SUBPACKAGE)*@[0-9]+.[0-9]+(::TYPE)?, to create output.\n\n");
fprintf(stderr, " -h: Prints this menu.\n");
fprintf(stderr, " -L <language>: The following options are available:\n");
for (auto& e : kFormats) {
fprintf(stderr, " %-16s: %s\n", e.name().c_str(), e.description().c_str());
}
fprintf(stderr, " -O <owner>: The owner of the module for -Landroidbp(-impl)?.\n");
fprintf(stderr, " -o <output path>: Location to output files.\n");
fprintf(stderr, " -p <root path>: Android build root, defaults to $ANDROID_BUILD_TOP or pwd.\n");
fprintf(stderr, " -r <package:path root>: E.g., android.hardware:hardware/interfaces.\n");
fprintf(stderr, " -v: verbose output.\n");
fprintf(stderr, " -d <depfile>: location of depfile to write to.\n");
}
// hidl is intentionally leaky. Turn off LeakSanitizer by default.
extern "C" const char *__asan_default_options() {
return "detect_leaks=0";
}
int main(int argc, char **argv) {
const char *me = argv[0];
if (argc == 1) {
usage(me);
exit(1);
}
const OutputHandler* outputFormat = nullptr;
Coordinator coordinator;
std::string outputPath;
int res;
while ((res = getopt(argc, argv, "hp:o:O:r:L:vd:")) >= 0) {
switch (res) {
case 'p': {
if (!coordinator.getRootPath().empty()) {
fprintf(stderr, "ERROR: -p <root path> can only be specified once.\n");
exit(1);
}
coordinator.setRootPath(optarg);
break;
}
case 'v': {
coordinator.setVerbose(true);
break;
}
case 'd': {
coordinator.setDepFile(optarg);
break;
}
case 'o': {
if (!outputPath.empty()) {
fprintf(stderr, "ERROR: -o <output path> can only be specified once.\n");
exit(1);
}
outputPath = optarg;
break;
}
case 'O': {
if (!coordinator.getOwner().empty()) {
fprintf(stderr, "ERROR: -O <owner> can only be specified once.\n");
exit(1);
}
coordinator.setOwner(optarg);
break;
}
case 'r': {
std::string val(optarg);
auto index = val.find_first_of(':');
if (index == std::string::npos) {
fprintf(stderr, "ERROR: -r option must contain ':': %s\n", val.c_str());
exit(1);
}
auto root = val.substr(0, index);
auto path = val.substr(index + 1);
std::string error;
status_t err = coordinator.addPackagePath(root, path, &error);
if (err != OK) {
fprintf(stderr, "%s\n", error.c_str());
exit(1);
}
break;
}
case 'L': {
if (outputFormat != nullptr) {
fprintf(stderr,
"ERROR: only one -L option allowed. \"%s\" already specified.\n",
outputFormat->name().c_str());
exit(1);
}
for (auto& e : kFormats) {
if (e.name() == optarg) {
outputFormat = &e;
break;
}
}
if (outputFormat == nullptr) {
fprintf(stderr,
"ERROR: unrecognized -L option: \"%s\".\n",
optarg);
exit(1);
}
break;
}
case '?':
case 'h':
default: {
usage(me);
exit(1);
break;
}
}
}
if (coordinator.getRootPath().empty()) {
const char* ANDROID_BUILD_TOP = getenv("ANDROID_BUILD_TOP");
if (ANDROID_BUILD_TOP != nullptr) {
coordinator.setRootPath(ANDROID_BUILD_TOP);
}
}
if (outputFormat == nullptr) {
fprintf(stderr,
"ERROR: no -L option provided.\n");
exit(1);
}
argc -= optind;
argv += optind;
if (argc == 0) {
fprintf(stderr, "ERROR: no fqname specified.\n");
usage(me);
exit(1);
}
// Valid options are now in argv[0] .. argv[argc - 1].
switch (outputFormat->mOutputMode) {
case OutputMode::NEEDS_DIR:
case OutputMode::NEEDS_FILE: {
if (outputPath.empty()) {
usage(me);
exit(1);
}
if (outputFormat->mOutputMode == OutputMode::NEEDS_DIR) {
if (outputPath.back() != '/') {
outputPath += "/";
}
}
break;
}
case OutputMode::NEEDS_SRC: {
if (outputPath.empty()) {
outputPath = coordinator.getRootPath();
}
if (outputPath.back() != '/') {
outputPath += "/";
}
break;
}
default:
outputPath.clear(); // Unused.
break;
}
coordinator.setOutputPath(outputPath);
coordinator.addDefaultPackagePath("android.hardware", "hardware/interfaces");
coordinator.addDefaultPackagePath("android.hidl", "system/libhidl/transport");
coordinator.addDefaultPackagePath("android.frameworks", "frameworks/hardware/interfaces");
coordinator.addDefaultPackagePath("android.system", "system/hardware/interfaces");
for (int i = 0; i < argc; ++i) {
FQName fqName;
if (!FQName::parse(argv[i], &fqName)) {
fprintf(stderr, "ERROR: Invalid fully-qualified name as argument: %s.\n", argv[i]);
exit(1);
}
// TODO(b/65200821): remove
gCurrentCompileName = "_" + StringHelper::Uppercase(fqName.tokenName());
// Dump extra verbose output
if (coordinator.isVerbose()) {
status_t err =
dumpDefinedButUnreferencedTypeNames(fqName.getPackageAndVersion(), &coordinator);
if (err != OK) return err;
}
if (!outputFormat->validate(fqName, &coordinator, outputFormat->name())) {
fprintf(stderr,
"ERROR: output handler failed.\n");
exit(1);
}
status_t err = outputFormat->generate(fqName, &coordinator);
if (err != OK) exit(1);
err = outputFormat->writeDepFile(fqName, &coordinator);
if (err != OK) exit(1);
}
return 0;
}