| /* |
| * Copyright (C) 2015, 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 "generate_cpp.h" |
| #include "aidl.h" |
| |
| #include <algorithm> |
| #include <cctype> |
| #include <cstring> |
| #include <memory> |
| #include <random> |
| #include <set> |
| #include <string> |
| |
| #include <android-base/format.h> |
| #include <android-base/stringprintf.h> |
| #include <android-base/strings.h> |
| |
| #include "aidl_language.h" |
| #include "aidl_to_cpp.h" |
| #include "ast_cpp.h" |
| #include "code_writer.h" |
| #include "logging.h" |
| #include "os.h" |
| |
| using android::base::Join; |
| using android::base::StringPrintf; |
| using std::set; |
| using std::string; |
| using std::unique_ptr; |
| using std::vector; |
| |
| namespace android { |
| namespace aidl { |
| namespace cpp { |
| namespace internals { |
| namespace { |
| |
| const char kAndroidStatusVarName[] = "_aidl_ret_status"; |
| const char kCodeVarName[] = "_aidl_code"; |
| const char kFlagsVarName[] = "_aidl_flags"; |
| const char kDataVarName[] = "_aidl_data"; |
| const char kErrorLabel[] = "_aidl_error"; |
| const char kImplVarName[] = "_aidl_impl"; |
| const char kParcelVarName[] = "_aidl_parcel"; |
| const char kReplyVarName[] = "_aidl_reply"; |
| const char kReturnVarName[] = "_aidl_return"; |
| const char kStatusVarName[] = "_aidl_status"; |
| const char kTraceVarName[] = "_aidl_trace"; |
| const char kAndroidParcelLiteral[] = "::android::Parcel"; |
| const char kAndroidStatusLiteral[] = "::android::status_t"; |
| const char kAndroidStatusOk[] = "::android::OK"; |
| const char kAndroidStatusBadValue[] = "::android::BAD_VALUE"; |
| const char kBinderStatusLiteral[] = "::android::binder::Status"; |
| const char kIBinderHeader[] = "binder/IBinder.h"; |
| const char kIInterfaceHeader[] = "binder/IInterface.h"; |
| const char kParcelHeader[] = "binder/Parcel.h"; |
| const char kStabilityHeader[] = "binder/Stability.h"; |
| const char kStatusHeader[] = "binder/Status.h"; |
| const char kString16Header[] = "utils/String16.h"; |
| const char kTraceHeader[] = "utils/Trace.h"; |
| const char kStrongPointerHeader[] = "utils/StrongPointer.h"; |
| const char kAndroidBaseMacrosHeader[] = "android-base/macros.h"; |
| |
| unique_ptr<AstNode> BreakOnStatusNotOk() { |
| IfStatement* ret = new IfStatement(new Comparison( |
| new LiteralExpression(kAndroidStatusVarName), "!=", |
| new LiteralExpression(kAndroidStatusOk))); |
| ret->OnTrue()->AddLiteral("break"); |
| return unique_ptr<AstNode>(ret); |
| } |
| |
| unique_ptr<AstNode> GotoErrorOnBadStatus() { |
| IfStatement* ret = new IfStatement(new Comparison( |
| new LiteralExpression(kAndroidStatusVarName), "!=", |
| new LiteralExpression(kAndroidStatusOk))); |
| ret->OnTrue()->AddLiteral(StringPrintf("goto %s", kErrorLabel)); |
| return unique_ptr<AstNode>(ret); |
| } |
| |
| unique_ptr<AstNode> ReturnOnStatusNotOk() { |
| IfStatement* ret = new IfStatement(new Comparison(new LiteralExpression(kAndroidStatusVarName), |
| "!=", new LiteralExpression(kAndroidStatusOk))); |
| ret->OnTrue()->AddLiteral(StringPrintf("return %s", kAndroidStatusVarName)); |
| return unique_ptr<AstNode>(ret); |
| } |
| |
| ArgList BuildArgList(const AidlTypenames& typenames, const AidlMethod& method, bool for_declaration, |
| bool type_name_only = false) { |
| // Build up the argument list for the server method call. |
| vector<string> method_arguments; |
| for (const unique_ptr<AidlArgument>& a : method.GetArguments()) { |
| string literal; |
| // b/144943748: CppNameOf FileDescriptor is unique_fd. Don't pass it by |
| // const reference but by value to make it easier for the user to keep |
| // it beyond the scope of the call. unique_fd is a thin wrapper for an |
| // int (fd) so passing by value is not expensive. |
| const bool nonCopyable = IsNonCopyableType(a->GetType(), typenames); |
| if (for_declaration) { |
| // Method declarations need typenames, pointers to out params, and variable |
| // names that match the .aidl specification. |
| literal = CppNameOf(a->GetType(), typenames); |
| |
| if (a->IsOut()) { |
| literal = literal + "*"; |
| } else { |
| const auto definedType = typenames.TryGetDefinedType(a->GetType().GetName()); |
| |
| const bool isEnum = definedType && definedType->AsEnumDeclaration() != nullptr; |
| const bool isPrimitive = AidlTypenames::IsPrimitiveTypename(a->GetType().GetName()); |
| |
| // We pass in parameters that are not primitives by const reference. |
| // Arrays of primitives are not primitives. |
| if (!(isPrimitive || isEnum || nonCopyable) || a->GetType().IsArray()) { |
| literal = "const " + literal + "&"; |
| } |
| } |
| if (!type_name_only) { |
| literal += " " + a->GetName(); |
| } |
| } else { |
| std::string varName = BuildVarName(*a); |
| if (a->IsOut()) { |
| literal = "&" + varName; |
| } else if (nonCopyable) { |
| literal = "std::move(" + varName + ")"; |
| } else { |
| literal = varName; |
| } |
| } |
| method_arguments.push_back(literal); |
| } |
| |
| if (method.GetType().GetName() != "void") { |
| string literal; |
| if (for_declaration) { |
| literal = CppNameOf(method.GetType(), typenames) + "*"; |
| if (!type_name_only) { |
| literal += " " + string(kReturnVarName); |
| } |
| } else { |
| literal = string{"&"} + kReturnVarName; |
| } |
| method_arguments.push_back(literal); |
| } |
| |
| return ArgList(method_arguments); |
| } |
| |
| unique_ptr<Declaration> BuildMethodDecl(const AidlMethod& method, const AidlTypenames& typenames, |
| bool for_interface) { |
| uint32_t modifiers = 0; |
| if (for_interface) { |
| modifiers |= MethodDecl::IS_VIRTUAL; |
| modifiers |= MethodDecl::IS_PURE_VIRTUAL; |
| } else { |
| modifiers |= MethodDecl::IS_OVERRIDE; |
| } |
| |
| const string attribute = GetDeprecatedAttribute(method); |
| return unique_ptr<Declaration>{new MethodDecl{ |
| kBinderStatusLiteral, method.GetName(), |
| BuildArgList(typenames, method, true /* for method decl */), modifiers, attribute}}; |
| } |
| |
| unique_ptr<Declaration> BuildMetaMethodDecl(const AidlMethod& method, const AidlTypenames&, |
| const Options& options, bool for_interface) { |
| AIDL_FATAL_IF(method.IsUserDefined(), method); |
| if (method.GetName() == kGetInterfaceVersion && options.Version()) { |
| std::ostringstream code; |
| if (for_interface) { |
| code << "virtual "; |
| } |
| code << "int32_t " << kGetInterfaceVersion << "()"; |
| if (for_interface) { |
| code << " = 0;\n"; |
| } else { |
| code << " override;\n"; |
| } |
| return unique_ptr<Declaration>(new LiteralDecl(code.str())); |
| } |
| if (method.GetName() == kGetInterfaceHash && !options.Hash().empty()) { |
| std::ostringstream code; |
| if (for_interface) { |
| code << "virtual "; |
| } |
| code << "std::string " << kGetInterfaceHash << "()"; |
| if (for_interface) { |
| code << " = 0;\n"; |
| } else { |
| code << " override;\n"; |
| } |
| return unique_ptr<Declaration>(new LiteralDecl(code.str())); |
| } |
| return nullptr; |
| } |
| |
| std::vector<unique_ptr<Declaration>> NestInNamespaces(vector<unique_ptr<Declaration>> decls, |
| const vector<string>& package) { |
| auto it = package.crbegin(); // Iterate over the namespaces inner to outer |
| for (; it != package.crend(); ++it) { |
| vector<unique_ptr<Declaration>> inner; |
| inner.emplace_back(unique_ptr<Declaration>{new CppNamespace{*it, std::move(decls)}}); |
| |
| decls = std::move(inner); |
| } |
| return decls; |
| } |
| |
| std::vector<unique_ptr<Declaration>> NestInNamespaces(unique_ptr<Declaration> decl, |
| const vector<string>& package) { |
| vector<unique_ptr<Declaration>> decls; |
| decls.push_back(std::move(decl)); |
| return NestInNamespaces(std::move(decls), package); |
| } |
| |
| unique_ptr<Declaration> DefineClientTransaction(const AidlTypenames& typenames, |
| const AidlInterface& interface, |
| const AidlMethod& method, const Options& options) { |
| const string i_name = ClassName(interface, ClassNames::INTERFACE); |
| const string bp_name = ClassName(interface, ClassNames::CLIENT); |
| unique_ptr<MethodImpl> ret{ |
| new MethodImpl{kBinderStatusLiteral, |
| bp_name, |
| method.GetName(), |
| {}, |
| ArgList{BuildArgList(typenames, method, true /* for method decl */)}}}; |
| StatementBlock* b = ret->GetStatementBlock(); |
| |
| // Declare parcels to hold our query and the response. |
| b->AddLiteral(StringPrintf("%s %s", kAndroidParcelLiteral, kDataVarName)); |
| if (interface.IsSensitiveData()) { |
| b->AddLiteral(StringPrintf("%s.markSensitive()", kDataVarName)); |
| } |
| b->AddLiteral(StringPrintf("%s.markForBinder(remoteStrong())", kDataVarName)); |
| |
| // Even if we're oneway, the transact method still takes a parcel. |
| b->AddLiteral(StringPrintf("%s %s", kAndroidParcelLiteral, kReplyVarName)); |
| |
| // Declare the status_t variable we need for error handling. |
| b->AddLiteral(StringPrintf("%s %s = %s", kAndroidStatusLiteral, |
| kAndroidStatusVarName, |
| kAndroidStatusOk)); |
| // We unconditionally return a Status object. |
| b->AddLiteral(StringPrintf("%s %s", kBinderStatusLiteral, kStatusVarName)); |
| |
| if (options.GenTraces()) { |
| b->AddLiteral( |
| StringPrintf("::android::ScopedTrace %s(ATRACE_TAG_AIDL, \"AIDL::cpp::%s::%s::cppClient\")", |
| kTraceVarName, interface.GetName().c_str(), method.GetName().c_str())); |
| } |
| |
| if (options.GenLog()) { |
| b->AddLiteral(GenLogBeforeExecute(bp_name, method, false /* isServer */, false /* isNdk */), |
| false /* no semicolon */); |
| } |
| |
| // Add the name of the interface we're hoping to call. |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| new MethodCall(StringPrintf("%s.writeInterfaceToken", |
| kDataVarName), |
| "getInterfaceDescriptor()"))); |
| b->AddStatement(GotoErrorOnBadStatus()); |
| |
| for (const auto& a: method.GetArguments()) { |
| const string var_name = ((a->IsOut()) ? "*" : "") + a->GetName(); |
| |
| if (a->IsIn()) { |
| // Serialization looks roughly like: |
| // _aidl_ret_status = _aidl_data.WriteInt32(in_param_name); |
| // if (_aidl_ret_status != ::android::OK) { goto error; } |
| const string& method = ParcelWriteMethodOf(a->GetType(), typenames); |
| b->AddStatement( |
| new Assignment(kAndroidStatusVarName, |
| new MethodCall(StringPrintf("%s.%s", kDataVarName, method.c_str()), |
| ParcelWriteCastOf(a->GetType(), typenames, var_name)))); |
| b->AddStatement(GotoErrorOnBadStatus()); |
| } else if (a->IsOut() && a->GetType().IsArray()) { |
| // Special case, the length of the out array is written into the parcel. |
| // _aidl_ret_status = _aidl_data.writeVectorSize(&out_param_name); |
| // if (_aidl_ret_status != ::android::OK) { goto error; } |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| new MethodCall(StringPrintf("%s.writeVectorSize", kDataVarName), var_name))); |
| b->AddStatement(GotoErrorOnBadStatus()); |
| } |
| } |
| |
| // Invoke the transaction on the remote binder and confirm status. |
| string transaction_code = GetTransactionIdFor(interface, method); |
| |
| vector<string> args = {transaction_code, kDataVarName, |
| StringPrintf("&%s", kReplyVarName)}; |
| |
| std::vector<std::string> flags; |
| if (method.IsOneway()) flags.push_back("::android::IBinder::FLAG_ONEWAY"); |
| if (interface.IsSensitiveData()) flags.push_back("::android::IBinder::FLAG_CLEAR_BUF"); |
| |
| args.push_back(flags.empty() ? "0" : Join(flags, " | ")); |
| |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| new MethodCall("remote()->transact", |
| ArgList(args)))); |
| |
| // If the method is not implemented in the remote side, try to call the |
| // default implementation, if provided. |
| vector<string> arg_names; |
| for (const auto& a : method.GetArguments()) { |
| if (IsNonCopyableType(a->GetType(), typenames)) { |
| arg_names.emplace_back(StringPrintf("std::move(%s)", a->GetName().c_str())); |
| } else { |
| arg_names.emplace_back(a->GetName()); |
| } |
| } |
| if (method.GetType().GetName() != "void") { |
| arg_names.emplace_back(kReturnVarName); |
| } |
| b->AddLiteral(StringPrintf("if (UNLIKELY(_aidl_ret_status == ::android::UNKNOWN_TRANSACTION && " |
| "%s::getDefaultImpl())) {\n" |
| " return %s::getDefaultImpl()->%s(%s);\n" |
| "}\n", |
| i_name.c_str(), i_name.c_str(), method.GetName().c_str(), |
| Join(arg_names, ", ").c_str()), |
| false /* no semicolon */); |
| |
| b->AddStatement(GotoErrorOnBadStatus()); |
| |
| if (!method.IsOneway()) { |
| // Strip off the exception header and fail if we see a remote exception. |
| // _aidl_ret_status = _aidl_status.readFromParcel(_aidl_reply); |
| // if (_aidl_ret_status != ::android::OK) { goto error; } |
| // if (!_aidl_status.isOk()) { return _aidl_ret_status; } |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| StringPrintf("%s.readFromParcel(%s)", kStatusVarName, kReplyVarName))); |
| b->AddStatement(GotoErrorOnBadStatus()); |
| IfStatement* exception_check = new IfStatement( |
| new LiteralExpression(StringPrintf("!%s.isOk()", kStatusVarName))); |
| b->AddStatement(exception_check); |
| exception_check->OnTrue()->AddLiteral( |
| StringPrintf("return %s", kStatusVarName)); |
| } |
| |
| // Type checking should guarantee that nothing below emits code until "return |
| // status" if we are a oneway method, so no more fear of accessing reply. |
| |
| // If the method is expected to return something, read it first by convention. |
| if (method.GetType().GetName() != "void") { |
| const string& method_call = ParcelReadMethodOf(method.GetType(), typenames); |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| new MethodCall(StringPrintf("%s.%s", kReplyVarName, method_call.c_str()), |
| ParcelReadCastOf(method.GetType(), typenames, kReturnVarName)))); |
| b->AddStatement(GotoErrorOnBadStatus()); |
| } |
| |
| for (const AidlArgument* a : method.GetOutArguments()) { |
| // Deserialization looks roughly like: |
| // _aidl_ret_status = _aidl_reply.ReadInt32(out_param_name); |
| // if (_aidl_status != ::android::OK) { goto _aidl_error; } |
| string method = ParcelReadMethodOf(a->GetType(), typenames); |
| |
| b->AddStatement( |
| new Assignment(kAndroidStatusVarName, |
| new MethodCall(StringPrintf("%s.%s", kReplyVarName, method.c_str()), |
| ParcelReadCastOf(a->GetType(), typenames, a->GetName())))); |
| b->AddStatement(GotoErrorOnBadStatus()); |
| } |
| |
| // If we've gotten to here, one of two things is true: |
| // 1) We've read some bad status_t |
| // 2) We've only read status_t == OK and there was no exception in the |
| // response. |
| // In both cases, we're free to set Status from the status_t and return. |
| b->AddLiteral(StringPrintf("%s:\n", kErrorLabel), false /* no semicolon */); |
| b->AddLiteral( |
| StringPrintf("%s.setFromStatusT(%s)", kStatusVarName, |
| kAndroidStatusVarName)); |
| |
| if (options.GenLog()) { |
| b->AddLiteral(GenLogAfterExecute(bp_name, interface, method, kStatusVarName, kReturnVarName, |
| false /* isServer */, false /* isNdk */), |
| false /* no semicolon */); |
| } |
| |
| b->AddLiteral(StringPrintf("return %s", kStatusVarName)); |
| |
| return unique_ptr<Declaration>(ret.release()); |
| } |
| |
| unique_ptr<Declaration> DefineClientMetaTransaction(const AidlTypenames& /* typenames */, |
| const AidlInterface& interface, |
| const AidlMethod& method, |
| const Options& options) { |
| AIDL_FATAL_IF(method.IsUserDefined(), method); |
| if (method.GetName() == kGetInterfaceVersion && options.Version() > 0) { |
| const string iface = ClassName(interface, ClassNames::INTERFACE); |
| const string proxy = ClassName(interface, ClassNames::CLIENT); |
| // Note: race condition can happen here, but no locking is required |
| // because 1) writing an interger is atomic and 2) this transaction |
| // will always return the same value, i.e., competing threads will |
| // give write the same value to cached_version_. |
| std::ostringstream code; |
| code << "int32_t " << proxy << "::" << kGetInterfaceVersion << "() {\n" |
| << " if (cached_version_ == -1) {\n" |
| << " ::android::Parcel data;\n" |
| << " ::android::Parcel reply;\n" |
| << " data.writeInterfaceToken(getInterfaceDescriptor());\n" |
| << " ::android::status_t err = remote()->transact(" << GetTransactionIdFor(interface, method) |
| << ", data, &reply);\n" |
| << " if (err == ::android::OK) {\n" |
| << " ::android::binder::Status _aidl_status;\n" |
| << " err = _aidl_status.readFromParcel(reply);\n" |
| << " if (err == ::android::OK && _aidl_status.isOk()) {\n" |
| << " cached_version_ = reply.readInt32();\n" |
| << " }\n" |
| << " }\n" |
| << " }\n" |
| << " return cached_version_;\n" |
| << "}\n"; |
| return unique_ptr<Declaration>(new LiteralDecl(code.str())); |
| } |
| if (method.GetName() == kGetInterfaceHash && !options.Hash().empty()) { |
| const string iface = ClassName(interface, ClassNames::INTERFACE); |
| const string proxy = ClassName(interface, ClassNames::CLIENT); |
| std::ostringstream code; |
| code << "std::string " << proxy << "::" << kGetInterfaceHash << "() {\n" |
| << " std::lock_guard<std::mutex> lockGuard(cached_hash_mutex_);\n" |
| << " if (cached_hash_ == \"-1\") {\n" |
| << " ::android::Parcel data;\n" |
| << " ::android::Parcel reply;\n" |
| << " data.writeInterfaceToken(getInterfaceDescriptor());\n" |
| << " ::android::status_t err = remote()->transact(" << GetTransactionIdFor(interface, method) |
| << ", data, &reply);\n" |
| << " if (err == ::android::OK) {\n" |
| << " ::android::binder::Status _aidl_status;\n" |
| << " err = _aidl_status.readFromParcel(reply);\n" |
| << " if (err == ::android::OK && _aidl_status.isOk()) {\n" |
| << " reply.readUtf8FromUtf16(&cached_hash_);\n" |
| << " }\n" |
| << " }\n" |
| << " }\n" |
| << " return cached_hash_;\n" |
| << "}\n"; |
| return unique_ptr<Declaration>(new LiteralDecl(code.str())); |
| } |
| return nullptr; |
| } |
| |
| } // namespace |
| |
| unique_ptr<Document> BuildClientSource(const AidlTypenames& typenames, |
| const AidlInterface& interface, const Options& options) { |
| vector<string> include_list = { |
| HeaderFile(interface, ClassNames::CLIENT, false), |
| HeaderFile(interface, ClassNames::SERVER, false), // for TRANSACTION_* consts |
| kParcelHeader, |
| kAndroidBaseMacrosHeader |
| }; |
| if (options.GenLog()) { |
| include_list.emplace_back("chrono"); |
| include_list.emplace_back("functional"); |
| } |
| vector<unique_ptr<Declaration>> file_decls; |
| |
| // The constructor just passes the IBinder instance up to the super |
| // class. |
| const string i_name = ClassName(interface, ClassNames::INTERFACE); |
| const string bp_name = ClassName(interface, ClassNames::CLIENT); |
| file_decls.push_back(unique_ptr<Declaration>{new ConstructorImpl{ |
| bp_name, |
| ArgList{StringPrintf("const ::android::sp<::android::IBinder>& %s", kImplVarName)}, |
| {"BpInterface<" + i_name + ">(" + kImplVarName + ")"}}}); |
| |
| if (options.GenLog()) { |
| string code; |
| CodeWriterPtr writer = CodeWriter::ForString(&code); |
| (*writer) << "std::function<void(const " + bp_name + "::TransactionLog&)> " << bp_name |
| << "::logFunc;\n"; |
| writer->Close(); |
| file_decls.push_back(unique_ptr<Declaration>(new LiteralDecl(code))); |
| } |
| |
| // Clients define a method per transaction. |
| for (const auto& method : interface.GetMethods()) { |
| unique_ptr<Declaration> m; |
| if (method->IsUserDefined()) { |
| m = DefineClientTransaction(typenames, interface, *method, options); |
| } else { |
| m = DefineClientMetaTransaction(typenames, interface, *method, options); |
| } |
| if (!m) { return nullptr; } |
| file_decls.push_back(std::move(m)); |
| } |
| return unique_ptr<Document>{new CppSource{ |
| include_list, |
| NestInNamespaces(std::move(file_decls), interface.GetSplitPackage())}}; |
| } |
| |
| namespace { |
| |
| void BuildConstantDefinitions(const AidlDefinedType& type, const AidlTypenames& typenames, |
| const std::vector<std::string>& type_params, |
| const std::string& class_name, |
| vector<unique_ptr<Declaration>>& decls) { |
| for (const auto& constant : type.GetConstantDeclarations()) { |
| const AidlConstantValue& value = constant->GetValue(); |
| if (value.GetType() != AidlConstantValue::Type::STRING) continue; |
| |
| std::string cppType = CppNameOf(constant->GetType(), typenames); |
| unique_ptr<MethodImpl> getter( |
| new MethodImpl("const " + cppType + "&", class_name, constant->GetName(), type_params, {})); |
| getter->GetStatementBlock()->AddLiteral( |
| StringPrintf("static const %s value(%s)", cppType.c_str(), |
| constant->ValueString(ConstantValueDecorator).c_str())); |
| getter->GetStatementBlock()->AddLiteral("return value"); |
| decls.push_back(std::move(getter)); |
| } |
| } |
| |
| void BuildConstantDeclarations(const AidlDefinedType& type, const AidlTypenames& typenames, |
| unique_ptr<ClassDecl>& cls, set<string>& includes) { |
| std::vector<std::unique_ptr<Declaration>> string_constants; |
| unique_ptr<Enum> byte_constant_enum{new Enum{"", "int8_t", false}}; |
| unique_ptr<Enum> int_constant_enum{new Enum{"", "int32_t", false}}; |
| unique_ptr<Enum> long_constant_enum{new Enum{"", "int64_t", false}}; |
| for (const auto& constant : type.GetConstantDeclarations()) { |
| const AidlTypeSpecifier& type = constant->GetType(); |
| const AidlConstantValue& value = constant->GetValue(); |
| |
| const string attribute = GetDeprecatedAttribute(*constant); |
| if (type.Signature() == "String") { |
| std::string cppType = CppNameOf(constant->GetType(), typenames); |
| unique_ptr<Declaration> getter(new MethodDecl("const " + cppType + "&", constant->GetName(), |
| {}, MethodDecl::IS_STATIC, attribute)); |
| string_constants.push_back(std::move(getter)); |
| } else if (type.Signature() == "byte") { |
| byte_constant_enum->AddValue(constant->GetName(), |
| constant->ValueString(ConstantValueDecorator), attribute); |
| } else if (type.Signature() == "int") { |
| int_constant_enum->AddValue(constant->GetName(), |
| constant->ValueString(ConstantValueDecorator), attribute); |
| } else if (type.Signature() == "long") { |
| long_constant_enum->AddValue(constant->GetName(), |
| constant->ValueString(ConstantValueDecorator), attribute); |
| } else { |
| AIDL_FATAL(value) << "Unrecognized constant type: " << type.Signature(); |
| } |
| } |
| if (byte_constant_enum->HasValues()) { |
| cls->AddPublic(std::move(byte_constant_enum)); |
| } |
| if (int_constant_enum->HasValues()) { |
| cls->AddPublic(std::move(int_constant_enum)); |
| } |
| if (long_constant_enum->HasValues()) { |
| cls->AddPublic(std::move(long_constant_enum)); |
| } |
| if (!string_constants.empty()) { |
| includes.insert(kString16Header); |
| |
| for (auto& string_constant : string_constants) { |
| cls->AddPublic(std::move(string_constant)); |
| } |
| } |
| } |
| |
| bool HandleServerTransaction(const AidlTypenames& typenames, const AidlInterface& interface, |
| const AidlMethod& method, const Options& options, StatementBlock* b) { |
| // Declare all the parameters now. In the common case, we expect no errors |
| // in serialization. |
| for (const unique_ptr<AidlArgument>& a : method.GetArguments()) { |
| b->AddLiteral(StringPrintf("%s %s", CppNameOf(a->GetType(), typenames).c_str(), |
| BuildVarName(*a).c_str())); |
| } |
| |
| // Declare a variable to hold the return value. |
| if (method.GetType().GetName() != "void") { |
| string type = CppNameOf(method.GetType(), typenames); |
| b->AddLiteral(StringPrintf("%s %s", type.c_str(), kReturnVarName)); |
| } |
| |
| // Check that the client is calling the correct interface. |
| IfStatement* interface_check = new IfStatement( |
| new MethodCall(StringPrintf("%s.checkInterface", |
| kDataVarName), "this"), |
| true /* invert the check */); |
| b->AddStatement(interface_check); |
| interface_check->OnTrue()->AddStatement( |
| new Assignment(kAndroidStatusVarName, "::android::BAD_TYPE")); |
| interface_check->OnTrue()->AddLiteral("break"); |
| |
| if (options.GenTraces()) { |
| b->AddLiteral( |
| StringPrintf("::android::ScopedTrace %s(ATRACE_TAG_AIDL, \"AIDL::cpp::%s::%s::cppServer\")", |
| kTraceVarName, interface.GetName().c_str(), method.GetName().c_str())); |
| } |
| |
| // Deserialize each "in" parameter to the transaction. |
| for (const auto& a: method.GetArguments()) { |
| // Deserialization looks roughly like: |
| // _aidl_ret_status = _aidl_data.ReadInt32(&in_param_name); |
| // if (_aidl_ret_status != ::android::OK) { break; } |
| const string& var_name = "&" + BuildVarName(*a); |
| if (a->IsIn()) { |
| const string& readMethod = ParcelReadMethodOf(a->GetType(), typenames); |
| b->AddStatement( |
| new Assignment{kAndroidStatusVarName, |
| new MethodCall{string(kDataVarName) + "." + readMethod, |
| ParcelReadCastOf(a->GetType(), typenames, var_name)}}); |
| b->AddStatement(BreakOnStatusNotOk()); |
| } else if (a->IsOut() && a->GetType().IsArray()) { |
| // Special case, the length of the out array is written into the parcel. |
| // _aidl_ret_status = _aidl_data.resizeOutVector(&out_param_name); |
| // if (_aidl_ret_status != ::android::OK) { break; } |
| b->AddStatement( |
| new Assignment{kAndroidStatusVarName, |
| new MethodCall{string(kDataVarName) + ".resizeOutVector", var_name}}); |
| b->AddStatement(BreakOnStatusNotOk()); |
| } |
| } |
| |
| const string bn_name = ClassName(interface, ClassNames::SERVER); |
| if (options.GenLog()) { |
| b->AddLiteral(GenLogBeforeExecute(bn_name, method, true /* isServer */, false /* isNdk */), |
| false); |
| } |
| // Call the actual method. This is implemented by the subclass. |
| vector<unique_ptr<AstNode>> status_args; |
| status_args.emplace_back(new MethodCall( |
| method.GetName(), BuildArgList(typenames, method, false /* not for method decl */))); |
| b->AddStatement(new Statement(new MethodCall( |
| StringPrintf("%s %s", kBinderStatusLiteral, kStatusVarName), |
| ArgList(std::move(status_args))))); |
| |
| if (options.GenLog()) { |
| b->AddLiteral(GenLogAfterExecute(bn_name, interface, method, kStatusVarName, kReturnVarName, |
| true /* isServer */, false /* isNdk */), |
| false); |
| } |
| |
| // Write exceptions during transaction handling to parcel. |
| if (!method.IsOneway()) { |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| StringPrintf("%s.writeToParcel(%s)", kStatusVarName, kReplyVarName))); |
| b->AddStatement(BreakOnStatusNotOk()); |
| IfStatement* exception_check = new IfStatement( |
| new LiteralExpression(StringPrintf("!%s.isOk()", kStatusVarName))); |
| b->AddStatement(exception_check); |
| exception_check->OnTrue()->AddLiteral("break"); |
| } |
| |
| // If we have a return value, write it first. |
| if (method.GetType().GetName() != "void") { |
| string writeMethod = |
| string(kReplyVarName) + "->" + ParcelWriteMethodOf(method.GetType(), typenames); |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| new MethodCall(writeMethod, |
| ParcelWriteCastOf(method.GetType(), typenames, kReturnVarName)))); |
| b->AddStatement(BreakOnStatusNotOk()); |
| } |
| // Write each out parameter to the reply parcel. |
| for (const AidlArgument* a : method.GetOutArguments()) { |
| // Serialization looks roughly like: |
| // _aidl_ret_status = data.WriteInt32(out_param_name); |
| // if (_aidl_ret_status != ::android::OK) { break; } |
| const string& writeMethod = ParcelWriteMethodOf(a->GetType(), typenames); |
| b->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| new MethodCall(string(kReplyVarName) + "->" + writeMethod, |
| ParcelWriteCastOf(a->GetType(), typenames, BuildVarName(*a))))); |
| b->AddStatement(BreakOnStatusNotOk()); |
| } |
| |
| return true; |
| } |
| |
| bool HandleServerMetaTransaction(const AidlTypenames&, const AidlInterface& interface, |
| const AidlMethod& method, const Options& options, |
| StatementBlock* b) { |
| AIDL_FATAL_IF(method.IsUserDefined(), method); |
| |
| if (method.GetName() == kGetInterfaceVersion && options.Version() > 0) { |
| std::ostringstream code; |
| code << "_aidl_data.checkInterface(this);\n" |
| << "_aidl_reply->writeNoException();\n" |
| << "_aidl_reply->writeInt32(" << ClassName(interface, ClassNames::INTERFACE) |
| << "::VERSION)"; |
| b->AddLiteral(code.str()); |
| return true; |
| } |
| if (method.GetName() == kGetInterfaceHash && !options.Hash().empty()) { |
| std::ostringstream code; |
| code << "_aidl_data.checkInterface(this);\n" |
| << "_aidl_reply->writeNoException();\n" |
| << "_aidl_reply->writeUtf8AsUtf16(" << ClassName(interface, ClassNames::INTERFACE) |
| << "::HASH)"; |
| b->AddLiteral(code.str()); |
| return true; |
| } |
| return false; |
| } |
| |
| } // namespace |
| |
| unique_ptr<Document> BuildServerSource(const AidlTypenames& typenames, |
| const AidlInterface& interface, const Options& options) { |
| const string bn_name = ClassName(interface, ClassNames::SERVER); |
| vector<string> include_list{ |
| HeaderFile(interface, ClassNames::SERVER, false), |
| kParcelHeader, |
| kStabilityHeader, |
| }; |
| if (options.GenLog()) { |
| include_list.emplace_back("chrono"); |
| include_list.emplace_back("functional"); |
| } |
| |
| unique_ptr<ConstructorImpl> constructor{new ConstructorImpl{bn_name, ArgList{}, {}}}; |
| |
| if (interface.IsVintfStability()) { |
| constructor->GetStatementBlock()->AddLiteral("::android::internal::Stability::markVintf(this)"); |
| } else { |
| constructor->GetStatementBlock()->AddLiteral( |
| "::android::internal::Stability::markCompilationUnit(this)"); |
| } |
| |
| unique_ptr<MethodImpl> on_transact{ |
| new MethodImpl{kAndroidStatusLiteral, |
| bn_name, |
| "onTransact", |
| {}, |
| ArgList{{StringPrintf("uint32_t %s", kCodeVarName), |
| StringPrintf("const %s& %s", kAndroidParcelLiteral, kDataVarName), |
| StringPrintf("%s* %s", kAndroidParcelLiteral, kReplyVarName), |
| StringPrintf("uint32_t %s", kFlagsVarName)}}}}; |
| |
| // Declare the status_t variable |
| on_transact->GetStatementBlock()->AddLiteral( |
| StringPrintf("%s %s = %s", kAndroidStatusLiteral, kAndroidStatusVarName, |
| kAndroidStatusOk)); |
| |
| // Add the all important switch statement, but retain a pointer to it. |
| SwitchStatement* s = new SwitchStatement{kCodeVarName}; |
| on_transact->GetStatementBlock()->AddStatement(s); |
| |
| // The switch statement has a case statement for each transaction code. |
| for (const auto& method : interface.GetMethods()) { |
| StatementBlock* b = s->AddCase(GetTransactionIdFor(interface, *method)); |
| if (!b) { return nullptr; } |
| |
| bool success = false; |
| if (method->IsUserDefined()) { |
| success = HandleServerTransaction(typenames, interface, *method, options, b); |
| } else { |
| success = HandleServerMetaTransaction(typenames, interface, *method, options, b); |
| } |
| if (!success) { |
| return nullptr; |
| } |
| } |
| |
| // The switch statement has a default case which defers to the super class. |
| // The superclass handles a few pre-defined transactions. |
| StatementBlock* b = s->AddCase(""); |
| b->AddLiteral(StringPrintf( |
| "%s = ::android::BBinder::onTransact(%s, %s, " |
| "%s, %s)", kAndroidStatusVarName, kCodeVarName, |
| kDataVarName, kReplyVarName, kFlagsVarName)); |
| |
| // If we saw a null reference, we can map that to an appropriate exception. |
| IfStatement* null_check = new IfStatement( |
| new LiteralExpression(string(kAndroidStatusVarName) + |
| " == ::android::UNEXPECTED_NULL")); |
| on_transact->GetStatementBlock()->AddStatement(null_check); |
| null_check->OnTrue()->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| StringPrintf("%s::fromExceptionCode(%s::EX_NULL_POINTER)" |
| ".writeToParcel(%s)", |
| kBinderStatusLiteral, kBinderStatusLiteral, |
| kReplyVarName))); |
| |
| // Finally, the server's onTransact method just returns a status code. |
| on_transact->GetStatementBlock()->AddLiteral( |
| StringPrintf("return %s", kAndroidStatusVarName)); |
| vector<unique_ptr<Declaration>> decls; |
| decls.push_back(std::move(constructor)); |
| |
| bool deprecated = interface.IsDeprecated() || |
| std::any_of(interface.GetMethods().begin(), interface.GetMethods().end(), |
| [](const auto& m) { return m->IsDeprecated(); }); |
| if (deprecated) { |
| decls.emplace_back( |
| new LiteralDecl("#pragma clang diagnostic push\n" |
| "#pragma clang diagnostic ignored \"-Wdeprecated\"\n")); |
| } |
| decls.push_back(std::move(on_transact)); |
| if (deprecated) { |
| decls.emplace_back(new LiteralDecl("#pragma clang diagnostic pop\n")); |
| } |
| |
| if (options.Version() > 0) { |
| std::ostringstream code; |
| code << "int32_t " << bn_name << "::" << kGetInterfaceVersion << "() {\n" |
| << " return " << ClassName(interface, ClassNames::INTERFACE) << "::VERSION;\n" |
| << "}\n"; |
| decls.emplace_back(new LiteralDecl(code.str())); |
| } |
| if (!options.Hash().empty()) { |
| std::ostringstream code; |
| code << "std::string " << bn_name << "::" << kGetInterfaceHash << "() {\n" |
| << " return " << ClassName(interface, ClassNames::INTERFACE) << "::HASH;\n" |
| << "}\n"; |
| decls.emplace_back(new LiteralDecl(code.str())); |
| } |
| |
| if (options.GenLog()) { |
| string code; |
| CodeWriterPtr writer = CodeWriter::ForString(&code); |
| (*writer) << "std::function<void(const " + bn_name + "::TransactionLog&)> " << bn_name |
| << "::logFunc;\n"; |
| writer->Close(); |
| decls.push_back(unique_ptr<Declaration>(new LiteralDecl(code))); |
| } |
| return unique_ptr<Document>{ |
| new CppSource{include_list, NestInNamespaces(std::move(decls), interface.GetSplitPackage())}}; |
| } |
| |
| unique_ptr<Document> BuildInterfaceSource(const AidlTypenames& typenames, |
| const AidlInterface& interface, |
| [[maybe_unused]] const Options& options) { |
| vector<string> include_list{ |
| HeaderFile(interface, ClassNames::RAW, false), |
| HeaderFile(interface, ClassNames::CLIENT, false), |
| }; |
| |
| vector<unique_ptr<Declaration>> decls; |
| |
| unique_ptr<MacroDecl> meta_if{ |
| new MacroDecl{"DO_NOT_DIRECTLY_USE_ME_IMPLEMENT_META_INTERFACE", |
| ArgList{vector<string>{ClassName(interface, ClassNames::BASE), |
| '"' + interface.GetDescriptor() + '"'}}}}; |
| decls.push_back(std::move(meta_if)); |
| |
| BuildConstantDefinitions(interface, typenames, {}, ClassName(interface, ClassNames::INTERFACE), |
| decls); |
| |
| return unique_ptr<Document>{new CppSource{ |
| include_list, |
| NestInNamespaces(std::move(decls), interface.GetSplitPackage())}}; |
| } |
| |
| unique_ptr<Document> BuildClientHeader(const AidlTypenames& typenames, |
| const AidlInterface& interface, const Options& options) { |
| const string i_name = ClassName(interface, ClassNames::INTERFACE); |
| const string bp_name = ClassName(interface, ClassNames::CLIENT); |
| |
| vector<string> includes = {kIBinderHeader, kIInterfaceHeader, "utils/Errors.h", |
| HeaderFile(interface, ClassNames::RAW, false)}; |
| |
| unique_ptr<ConstructorDecl> constructor{new ConstructorDecl{ |
| bp_name, |
| ArgList{StringPrintf("const ::android::sp<::android::IBinder>& %s", |
| kImplVarName)}, |
| ConstructorDecl::IS_EXPLICIT |
| }}; |
| unique_ptr<ConstructorDecl> destructor{new ConstructorDecl{ |
| "~" + bp_name, |
| ArgList{}, |
| ConstructorDecl::IS_VIRTUAL | ConstructorDecl::IS_DEFAULT}}; |
| |
| vector<unique_ptr<Declaration>> publics; |
| vector<unique_ptr<Declaration>> privates; |
| |
| publics.push_back(std::move(constructor)); |
| publics.push_back(std::move(destructor)); |
| |
| for (const auto& method: interface.GetMethods()) { |
| if (method->IsUserDefined()) { |
| publics.push_back(BuildMethodDecl(*method, typenames, false)); |
| } else { |
| publics.push_back(BuildMetaMethodDecl(*method, typenames, options, false)); |
| } |
| } |
| |
| if (options.GenLog()) { |
| includes.emplace_back("functional"); // for std::function |
| includes.emplace_back("android/binder_to_string.h"); |
| |
| publics.emplace_back(new LiteralDecl{kTransactionLogStruct}); |
| publics.emplace_back( |
| new LiteralDecl{"static std::function<void(const TransactionLog&)> logFunc;\n"}); |
| } |
| |
| if (options.Version() > 0) { |
| privates.emplace_back(new LiteralDecl("int32_t cached_version_ = -1;\n")); |
| } |
| if (!options.Hash().empty()) { |
| privates.emplace_back(new LiteralDecl("std::string cached_hash_ = \"-1\";\n")); |
| privates.emplace_back(new LiteralDecl("std::mutex cached_hash_mutex_;\n")); |
| } |
| |
| const string attribute = GetDeprecatedAttribute(interface); |
| unique_ptr<ClassDecl> bp_class{new ClassDecl{ |
| bp_name, |
| "::android::BpInterface<" + i_name + ">", |
| {}, |
| std::move(publics), |
| std::move(privates), |
| attribute, |
| }}; |
| |
| return unique_ptr<Document>{ |
| new CppHeader{includes, NestInNamespaces(std::move(bp_class), interface.GetSplitPackage())}}; |
| } |
| |
| unique_ptr<Document> BuildServerHeader(const AidlTypenames& /* typenames */, |
| const AidlInterface& interface, const Options& options) { |
| const string i_name = ClassName(interface, ClassNames::INTERFACE); |
| const string bn_name = ClassName(interface, ClassNames::SERVER); |
| |
| unique_ptr<ConstructorDecl> constructor{ |
| new ConstructorDecl{bn_name, ArgList{}, ConstructorDecl::IS_EXPLICIT}}; |
| |
| unique_ptr<Declaration> on_transact{new MethodDecl{ |
| kAndroidStatusLiteral, "onTransact", |
| ArgList{{StringPrintf("uint32_t %s", kCodeVarName), |
| StringPrintf("const %s& %s", kAndroidParcelLiteral, |
| kDataVarName), |
| StringPrintf("%s* %s", kAndroidParcelLiteral, kReplyVarName), |
| StringPrintf("uint32_t %s", kFlagsVarName)}}, |
| MethodDecl::IS_OVERRIDE |
| }}; |
| vector<string> includes = {"binder/IInterface.h", HeaderFile(interface, ClassNames::RAW, false)}; |
| |
| vector<unique_ptr<Declaration>> publics; |
| vector<unique_ptr<Declaration>> privates; |
| |
| for (const auto& method : interface.GetMethods()) { |
| std::ostringstream code; |
| code << "static constexpr uint32_t TRANSACTION_" << method->GetName() << " = " |
| << "::android::IBinder::FIRST_CALL_TRANSACTION + " << method->GetId() << ";\n"; |
| publics.push_back(std::make_unique<LiteralDecl>(code.str())); |
| } |
| |
| publics.push_back(std::move(constructor)); |
| publics.push_back(std::move(on_transact)); |
| |
| if (options.Version() > 0) { |
| std::ostringstream code; |
| code << "int32_t " << kGetInterfaceVersion << "() final;\n"; |
| publics.emplace_back(new LiteralDecl(code.str())); |
| } |
| if (!options.Hash().empty()) { |
| std::ostringstream code; |
| code << "std::string " << kGetInterfaceHash << "();\n"; |
| publics.emplace_back(new LiteralDecl(code.str())); |
| } |
| |
| if (options.GenLog()) { |
| includes.emplace_back("functional"); // for std::function |
| includes.emplace_back("android/binder_to_string.h"); |
| |
| publics.emplace_back(new LiteralDecl{kTransactionLogStruct}); |
| publics.emplace_back( |
| new LiteralDecl{"static std::function<void(const TransactionLog&)> logFunc;\n"}); |
| } |
| const string attribute = GetDeprecatedAttribute(interface); |
| unique_ptr<ClassDecl> bn_class{new ClassDecl{ |
| bn_name, |
| "::android::BnInterface<" + i_name + ">", |
| {}, |
| std::move(publics), |
| std::move(privates), |
| attribute, |
| }}; |
| |
| return unique_ptr<Document>{ |
| new CppHeader{includes, NestInNamespaces(std::move(bn_class), interface.GetSplitPackage())}}; |
| } |
| |
| unique_ptr<Document> BuildInterfaceHeader(const AidlTypenames& typenames, |
| const AidlInterface& interface, const Options& options) { |
| set<string> includes = {kIBinderHeader, kIInterfaceHeader, kStatusHeader, kStrongPointerHeader}; |
| |
| for (const auto& method : interface.GetMethods()) { |
| for (const auto& argument : method->GetArguments()) { |
| AddHeaders(argument->GetType(), typenames, &includes); |
| } |
| |
| AddHeaders(method->GetType(), typenames, &includes); |
| } |
| |
| const string i_name = ClassName(interface, ClassNames::INTERFACE); |
| const string attribute = GetDeprecatedAttribute(interface); |
| unique_ptr<ClassDecl> if_class{new ClassDecl{i_name, "::android::IInterface", {}, attribute}}; |
| if_class->AddPublic(unique_ptr<Declaration>{new MacroDecl{ |
| "DECLARE_META_INTERFACE", |
| ArgList{vector<string>{ClassName(interface, ClassNames::BASE)}}}}); |
| |
| if (options.Version() > 0) { |
| std::ostringstream code; |
| code << "const int32_t VERSION = " << options.Version() << ";\n"; |
| |
| if_class->AddPublic(unique_ptr<Declaration>(new LiteralDecl(code.str()))); |
| } |
| if (!options.Hash().empty()) { |
| std::ostringstream code; |
| code << "const std::string HASH = \"" << options.Hash() << "\";\n"; |
| |
| if_class->AddPublic(unique_ptr<Declaration>(new LiteralDecl(code.str()))); |
| } |
| |
| BuildConstantDeclarations(interface, typenames, if_class, includes); |
| |
| if (options.GenTraces()) { |
| includes.insert(kTraceHeader); |
| } |
| |
| if (!interface.GetMethods().empty()) { |
| for (const auto& method : interface.GetMethods()) { |
| if (method->IsUserDefined()) { |
| // Each method gets an enum entry and pure virtual declaration. |
| if_class->AddPublic(BuildMethodDecl(*method, typenames, true)); |
| } else { |
| if_class->AddPublic(BuildMetaMethodDecl(*method, typenames, options, true)); |
| } |
| } |
| } |
| |
| // Implement the default impl class. |
| vector<unique_ptr<Declaration>> method_decls; |
| // onAsBinder returns nullptr as this interface is not associated with a |
| // real binder. |
| method_decls.emplace_back( |
| new LiteralDecl("::android::IBinder* onAsBinder() override {\n" |
| " return nullptr;\n" |
| "}\n")); |
| // Each interface method by default returns UNKNOWN_TRANSACTION with is |
| // the same status that is returned by transact() when the method is |
| // not implemented in the server side. In other words, these default |
| // methods do nothing; they only exist to aid making a real default |
| // impl class without having to override all methods in an interface. |
| for (const auto& method : interface.GetMethods()) { |
| if (method->IsUserDefined()) { |
| std::ostringstream code; |
| code << "::android::binder::Status " << method->GetName() |
| << BuildArgList(typenames, *method, true, true).ToString() << " override"; |
| GenerateDeprecated(code, *method); |
| code << " {\n" |
| << " return ::android::binder::Status::fromStatusT(::android::UNKNOWN_TRANSACTION);\n" |
| << "}\n"; |
| method_decls.emplace_back(new LiteralDecl(code.str())); |
| } else { |
| if (method->GetName() == kGetInterfaceVersion && options.Version() > 0) { |
| std::ostringstream code; |
| code << "int32_t " << kGetInterfaceVersion << "() override {\n" |
| << " return 0;\n" |
| << "}\n"; |
| method_decls.emplace_back(new LiteralDecl(code.str())); |
| } |
| if (method->GetName() == kGetInterfaceHash && !options.Hash().empty()) { |
| std::ostringstream code; |
| code << "std::string " << kGetInterfaceHash << "() override {\n" |
| << " return \"\";\n" |
| << "}\n"; |
| method_decls.emplace_back(new LiteralDecl(code.str())); |
| } |
| } |
| } |
| |
| vector<unique_ptr<Declaration>> decls; |
| decls.emplace_back(std::move(if_class)); |
| decls.emplace_back(new ClassDecl{ |
| ClassName(interface, ClassNames::DEFAULT_IMPL), |
| i_name, |
| {}, |
| std::move(method_decls), |
| {}, |
| attribute, // inherits the same attributes |
| }); |
| |
| return unique_ptr<Document>{ |
| new CppHeader{vector<string>(includes.begin(), includes.end()), |
| NestInNamespaces(std::move(decls), interface.GetSplitPackage())}}; |
| } |
| |
| string GetInitializer(const AidlTypenames& typenames, const AidlVariableDeclaration& variable) { |
| string cppType = CppNameOf(variable.GetType(), typenames); |
| return cppType + "(" + variable.ValueString(ConstantValueDecorator) + ")"; |
| } |
| |
| void AddTypeSpecificHeaders(const AidlStructuredParcelable&, std::set<std::string>& includes) { |
| includes.insert("tuple"); // std::tie in comparison operators |
| } |
| |
| void BuildReadFromParcel(const AidlStructuredParcelable& parcel, const AidlTypenames& typenames, |
| StatementBlock* read_block) { |
| read_block->AddLiteral( |
| StringPrintf("%s %s = %s", kAndroidStatusLiteral, kAndroidStatusVarName, kAndroidStatusOk)); |
| |
| read_block->AddLiteral( |
| "[[maybe_unused]] size_t _aidl_start_pos = _aidl_parcel->dataPosition();\n" |
| "int32_t _aidl_parcelable_raw_size = _aidl_parcel->readInt32();\n" |
| "if (_aidl_parcelable_raw_size < 0) return ::android::BAD_VALUE;\n" |
| "[[maybe_unused]] size_t _aidl_parcelable_size = " |
| "static_cast<size_t>(_aidl_parcelable_raw_size);\n" |
| "if (_aidl_start_pos > SIZE_MAX - _aidl_parcelable_size) return ::android::BAD_VALUE;\n", |
| /*add_semicolon=*/false); |
| |
| auto checkAvailableData = StringPrintf( |
| "if (_aidl_parcel->dataPosition() - _aidl_start_pos >= _aidl_parcelable_size) {\n" |
| " _aidl_parcel->setDataPosition(_aidl_start_pos + _aidl_parcelable_size);\n" |
| " return %s;\n" |
| "}\n", |
| kAndroidStatusVarName); |
| |
| for (const auto& variable : parcel.GetFields()) { |
| read_block->AddLiteral(checkAvailableData, /*add_semicolon=*/false); |
| string method = ParcelReadMethodOf(variable->GetType(), typenames); |
| read_block->AddStatement(new Assignment( |
| kAndroidStatusVarName, new MethodCall(StringPrintf("_aidl_parcel->%s", method.c_str()), |
| ParcelReadCastOf(variable->GetType(), typenames, |
| "&" + variable->GetName())))); |
| read_block->AddStatement(ReturnOnStatusNotOk()); |
| } |
| read_block->AddLiteral("_aidl_parcel->setDataPosition(_aidl_start_pos + _aidl_parcelable_size)"); |
| read_block->AddLiteral(StringPrintf("return %s", kAndroidStatusVarName)); |
| } |
| |
| void BuildWriteToParcel(const AidlStructuredParcelable& parcel, const AidlTypenames& typenames, |
| StatementBlock* write_block) { |
| write_block->AddLiteral( |
| StringPrintf("%s %s = %s", kAndroidStatusLiteral, kAndroidStatusVarName, kAndroidStatusOk)); |
| |
| write_block->AddLiteral( |
| "auto _aidl_start_pos = _aidl_parcel->dataPosition();\n" |
| "_aidl_parcel->writeInt32(0);\n", |
| /*add_semicolon=*/false); |
| |
| for (const auto& variable : parcel.GetFields()) { |
| string method = ParcelWriteMethodOf(variable->GetType(), typenames); |
| write_block->AddStatement(new Assignment( |
| kAndroidStatusVarName, |
| new MethodCall(StringPrintf("_aidl_parcel->%s", method.c_str()), |
| ParcelWriteCastOf(variable->GetType(), typenames, variable->GetName())))); |
| write_block->AddStatement(ReturnOnStatusNotOk()); |
| } |
| |
| write_block->AddLiteral( |
| "auto _aidl_end_pos = _aidl_parcel->dataPosition();\n" |
| "_aidl_parcel->setDataPosition(_aidl_start_pos);\n" |
| "_aidl_parcel->writeInt32(_aidl_end_pos - _aidl_start_pos);\n" |
| "_aidl_parcel->setDataPosition(_aidl_end_pos);\n", |
| /*add_semicolon=*/false); |
| write_block->AddLiteral(StringPrintf("return %s", kAndroidStatusVarName)); |
| } |
| |
| ParcelWriterContext GetParcelWriterContext(const AidlTypenames& typenames) { |
| return ParcelWriterContext{ |
| .status_type = kAndroidStatusLiteral, |
| .status_ok = kAndroidStatusOk, |
| .status_bad = kAndroidStatusBadValue, |
| .read_func = |
| [&](CodeWriter& out, const string& var, const AidlTypeSpecifier& type) { |
| out << fmt::format("{}->{}({})", kParcelVarName, ParcelReadMethodOf(type, typenames), |
| ParcelReadCastOf(type, typenames, "&" + var)); |
| }, |
| .write_func = |
| [&](CodeWriter& out, const string& value, const AidlTypeSpecifier& type) { |
| out << fmt::format("{}->{}({})", kParcelVarName, ParcelWriteMethodOf(type, typenames), |
| ParcelWriteCastOf(type, typenames, value)); |
| }, |
| }; |
| } |
| |
| void AddTypeSpecificHeaders(const AidlUnionDecl&, std::set<std::string>& includes) { |
| includes.insert(std::begin(UnionWriter::headers), std::end(UnionWriter::headers)); |
| } |
| |
| void BuildReadFromParcel(const AidlUnionDecl& decl, const AidlTypenames& typenames, |
| StatementBlock* read_block) { |
| string body; |
| UnionWriter uw{decl, typenames, &CppNameOf, &ConstantValueDecorator}; |
| uw.ReadFromParcel(*CodeWriter::ForString(&body), GetParcelWriterContext(typenames)); |
| read_block->AddLiteral(body, /*add_semicolon=*/false); |
| } |
| |
| void BuildWriteToParcel(const AidlUnionDecl& decl, const AidlTypenames& typenames, |
| StatementBlock* write_block) { |
| string body; |
| UnionWriter uw{decl, typenames, &CppNameOf, &ConstantValueDecorator}; |
| uw.WriteToParcel(*CodeWriter::ForString(&body), GetParcelWriterContext(typenames)); |
| write_block->AddLiteral(body, /*add_semicolon=*/false); |
| } |
| |
| void BuildParcelFields(ClassDecl& clazz, const AidlStructuredParcelable& decl, |
| const AidlTypenames& typenames) { |
| for (const auto& variable : decl.GetFields()) { |
| std::ostringstream out; |
| std::string cppType = CppNameOf(variable->GetType(), typenames); |
| out << cppType; |
| GenerateDeprecated(out, *variable); |
| out << " " << variable->GetName().c_str(); |
| if (variable->GetDefaultValue()) { |
| out << " = " << GetInitializer(typenames, *variable); |
| } else if (variable->GetType().GetName() == "ParcelableHolder") { |
| if (decl.IsVintfStability()) { |
| out << " { ::android::Parcelable::Stability::STABILITY_VINTF }"; |
| } else { |
| out << " { ::android::Parcelable::Stability::STABILITY_LOCAL }"; |
| } |
| } else if (auto type = variable->GetType().GetDefinedType(); type) { |
| if (auto enum_type = type->AsEnumDeclaration(); enum_type) { |
| if (!variable->GetType().IsArray()) { |
| // if an enum doesn't have explicit default value, do zero-initialization |
| out << " = " << cppType << "(0)"; |
| } |
| } |
| } |
| out << ";\n"; |
| |
| clazz.AddPublic(std::unique_ptr<LiteralDecl>(new LiteralDecl(out.str()))); |
| } |
| } |
| |
| void BuildParcelFields(ClassDecl& clazz, const AidlUnionDecl& decl, |
| const AidlTypenames& typenames) { |
| UnionWriter uw{decl, typenames, &CppNameOf, &ConstantValueDecorator}; |
| string public_fields; |
| string private_fields; |
| uw.PublicFields(*CodeWriter::ForString(&public_fields)); |
| uw.PrivateFields(*CodeWriter::ForString(&private_fields)); |
| clazz.AddPublic(std::make_unique<LiteralDecl>(public_fields)); |
| clazz.AddPrivate(std::make_unique<LiteralDecl>(private_fields)); |
| } |
| |
| template <typename ParcelableType> |
| std::unique_ptr<Document> BuildParcelHeader(const AidlTypenames& typenames, |
| const ParcelableType& parcel, const Options&) { |
| const std::vector<std::string>& type_params = |
| parcel.IsGeneric() ? parcel.GetTypeParameters() : std::vector<std::string>(); |
| const std::string attribute = GetDeprecatedAttribute(parcel); |
| unique_ptr<ClassDecl> parcel_class{ |
| new ClassDecl{parcel.GetName(), "::android::Parcelable", type_params, attribute}}; |
| |
| set<string> includes = {kStatusHeader, kParcelHeader, kString16Header}; |
| AddTypeSpecificHeaders(parcel, includes); |
| |
| for (const auto& variable : parcel.GetFields()) { |
| AddHeaders(variable->GetType(), typenames, &includes); |
| } |
| |
| string operator_code; |
| GenerateParcelableComparisonOperators(*CodeWriter::ForString(&operator_code), parcel); |
| parcel_class->AddPublic(std::make_unique<LiteralDecl>(operator_code)); |
| |
| BuildParcelFields(*parcel_class, parcel, typenames); |
| BuildConstantDeclarations(parcel, typenames, parcel_class, includes); |
| |
| if (parcel.IsVintfStability()) { |
| parcel_class->AddPublic(std::unique_ptr<LiteralDecl>( |
| new LiteralDecl("::android::Parcelable::Stability getStability() const override { return " |
| "::android::Parcelable::Stability::STABILITY_VINTF; }\n"))); |
| } |
| |
| unique_ptr<MethodDecl> read(new MethodDecl(kAndroidStatusLiteral, "readFromParcel", |
| ArgList("const ::android::Parcel* _aidl_parcel"), |
| MethodDecl::IS_FINAL)); |
| parcel_class->AddPublic(std::move(read)); |
| unique_ptr<MethodDecl> write(new MethodDecl(kAndroidStatusLiteral, "writeToParcel", |
| ArgList("::android::Parcel* _aidl_parcel"), |
| MethodDecl::IS_CONST | MethodDecl::IS_FINAL)); |
| parcel_class->AddPublic(std::move(write)); |
| |
| parcel_class->AddPublic(std::unique_ptr<LiteralDecl>( |
| new LiteralDecl(StringPrintf("static const ::android::String16& getParcelableDescriptor() {\n" |
| " static const ::android::StaticString16 DESCIPTOR (u\"%s\");\n" |
| " return DESCIPTOR;\n" |
| "}\n", |
| parcel.GetCanonicalName().c_str())))); |
| |
| // toString() method |
| includes.insert("android/binder_to_string.h"); |
| string to_string; |
| GenerateToString(*CodeWriter::ForString(&to_string), parcel); |
| parcel_class->AddPublic(std::make_unique<LiteralDecl>(to_string)); |
| |
| auto decls = NestInNamespaces(std::move(parcel_class), parcel.GetSplitPackage()); |
| // TODO(b/31559095) bionic on host should define this |
| if (parcel.AsUnionDeclaration()) { |
| decls.insert(decls.begin(), |
| std::make_unique<LiteralDecl>( |
| "#ifndef __BIONIC__\n#define __assert2(a,b,c,d) ((void)0)\n#endif\n\n")); |
| } |
| return unique_ptr<Document>{ |
| new CppHeader{vector<string>(includes.begin(), includes.end()), std::move(decls)}}; |
| } |
| |
| template <typename T> |
| std::unique_ptr<Document> BuildParcelSource(const AidlTypenames& typenames, const T& parcel, |
| const Options&) { |
| const std::vector<std::string>& type_params = |
| parcel.IsGeneric() ? parcel.GetTypeParameters() : std::vector<std::string>(); |
| auto read = |
| std::make_unique<MethodImpl>(kAndroidStatusLiteral, parcel.GetName(), "readFromParcel", |
| type_params, ArgList("const ::android::Parcel* _aidl_parcel")); |
| BuildReadFromParcel(parcel, typenames, read->GetStatementBlock()); |
| |
| auto write = std::make_unique<MethodImpl>( |
| kAndroidStatusLiteral, parcel.GetName(), "writeToParcel", type_params, |
| ArgList("::android::Parcel* _aidl_parcel"), true /*const*/); |
| BuildWriteToParcel(parcel, typenames, write->GetStatementBlock()); |
| |
| vector<unique_ptr<Declaration>> file_decls; |
| BuildConstantDefinitions(parcel, typenames, type_params, parcel.GetName(), file_decls); |
| file_decls.push_back(std::move(read)); |
| file_decls.push_back(std::move(write)); |
| |
| set<string> includes = {}; |
| AddHeaders(parcel, &includes); |
| |
| return unique_ptr<Document>{ |
| new CppSource{vector<string>(includes.begin(), includes.end()), |
| NestInNamespaces(std::move(file_decls), parcel.GetSplitPackage())}}; |
| } |
| |
| std::string GenerateEnumToString(const AidlTypenames& typenames, |
| const AidlEnumDeclaration& enum_decl) { |
| std::ostringstream code; |
| code << "[[nodiscard]]"; |
| GenerateDeprecated(code, enum_decl); |
| code << " static inline std::string toString(" << enum_decl.GetName() << " val)"; |
| code << " {\n"; |
| code << " switch(val) {\n"; |
| std::set<std::string> unique_cases; |
| for (const auto& enumerator : enum_decl.GetEnumerators()) { |
| std::string c = enumerator->ValueString(enum_decl.GetBackingType(), ConstantValueDecorator); |
| // Only add a case if its value has not yet been used in the switch |
| // statement. C++ does not allow multiple cases with the same value, but |
| // enums does allow this. In this scenario, the first declared |
| // enumerator with the given value is printed. |
| if (unique_cases.count(c) == 0) { |
| unique_cases.insert(c); |
| code << " case " << enum_decl.GetName() << "::" << enumerator->GetName() << ":\n"; |
| code << " return \"" << enumerator->GetName() << "\";\n"; |
| } |
| } |
| code << " default:\n"; |
| code << " return std::to_string(static_cast<" |
| << CppNameOf(enum_decl.GetBackingType(), typenames) << ">(val));\n"; |
| code << " }\n"; |
| code << "}\n"; |
| return code.str(); |
| } |
| |
| std::unique_ptr<Document> BuildEnumHeader(const AidlTypenames& typenames, |
| const AidlEnumDeclaration& enum_decl) { |
| const std::string attribute = GetDeprecatedAttribute(enum_decl); |
| std::unique_ptr<Enum> generated_enum{new Enum{ |
| enum_decl.GetName(), CppNameOf(enum_decl.GetBackingType(), typenames), true, attribute}}; |
| for (const auto& enumerator : enum_decl.GetEnumerators()) { |
| generated_enum->AddValue( |
| enumerator->GetName(), |
| enumerator->ValueString(enum_decl.GetBackingType(), ConstantValueDecorator)); |
| } |
| |
| std::set<std::string> includes = { |
| "array", |
| "binder/Enums.h", |
| "string", |
| }; |
| AddHeaders(enum_decl.GetBackingType(), typenames, &includes); |
| |
| std::vector<std::unique_ptr<Declaration>> decls1; |
| decls1.push_back(std::move(generated_enum)); |
| decls1.push_back(std::make_unique<LiteralDecl>(GenerateEnumToString(typenames, enum_decl))); |
| |
| std::vector<std::unique_ptr<Declaration>> decls2; |
| decls2.push_back(std::make_unique<LiteralDecl>(GenerateEnumValues(enum_decl, {""}))); |
| |
| return unique_ptr<Document>{ |
| new CppHeader{vector<string>(includes.begin(), includes.end()), |
| Append(NestInNamespaces(std::move(decls1), enum_decl.GetSplitPackage()), |
| NestInNamespaces(std::move(decls2), {"android", "internal"}))}}; |
| } |
| |
| bool WriteHeader(const Options& options, const AidlTypenames& typenames, |
| const AidlInterface& interface, const IoDelegate& io_delegate, |
| ClassNames header_type) { |
| unique_ptr<Document> header; |
| switch (header_type) { |
| case ClassNames::INTERFACE: |
| header = BuildInterfaceHeader(typenames, interface, options); |
| header_type = ClassNames::RAW; |
| break; |
| case ClassNames::CLIENT: |
| header = BuildClientHeader(typenames, interface, options); |
| break; |
| case ClassNames::SERVER: |
| header = BuildServerHeader(typenames, interface, options); |
| break; |
| default: |
| AIDL_FATAL(interface) << "aidl internal error"; |
| } |
| if (!header) { |
| AIDL_ERROR(interface) << "aidl internal error: Failed to generate header."; |
| return false; |
| } |
| |
| const string header_path = options.OutputHeaderDir() + HeaderFile(interface, header_type); |
| unique_ptr<CodeWriter> code_writer(io_delegate.GetCodeWriter(header_path)); |
| header->Write(code_writer.get()); |
| |
| const bool success = code_writer->Close(); |
| if (!success) { |
| io_delegate.RemovePath(header_path); |
| } |
| |
| return success; |
| } |
| |
| } // namespace internals |
| |
| using namespace internals; |
| |
| bool GenerateCppInterface(const string& output_file, const Options& options, |
| const AidlTypenames& typenames, const AidlInterface& interface, |
| const IoDelegate& io_delegate) { |
| auto interface_src = BuildInterfaceSource(typenames, interface, options); |
| auto client_src = BuildClientSource(typenames, interface, options); |
| auto server_src = BuildServerSource(typenames, interface, options); |
| |
| if (!interface_src || !client_src || !server_src) { |
| return false; |
| } |
| |
| if (!WriteHeader(options, typenames, interface, io_delegate, ClassNames::INTERFACE) || |
| !WriteHeader(options, typenames, interface, io_delegate, ClassNames::CLIENT) || |
| !WriteHeader(options, typenames, interface, io_delegate, ClassNames::SERVER)) { |
| return false; |
| } |
| |
| unique_ptr<CodeWriter> writer = io_delegate.GetCodeWriter(output_file); |
| interface_src->Write(writer.get()); |
| client_src->Write(writer.get()); |
| server_src->Write(writer.get()); |
| |
| const bool success = writer->Close(); |
| if (!success) { |
| io_delegate.RemovePath(output_file); |
| } |
| |
| return success; |
| } |
| |
| template <typename ParcelableType> |
| bool GenerateCppParcelable(const std::string& output_file, const Options& options, |
| const AidlTypenames& typenames, const ParcelableType& parcelable, |
| const IoDelegate& io_delegate) { |
| auto header = BuildParcelHeader(typenames, parcelable, options); |
| auto source = BuildParcelSource(typenames, parcelable, options); |
| |
| if (!header || !source) { |
| return false; |
| } |
| |
| const string header_path = options.OutputHeaderDir() + HeaderFile(parcelable, ClassNames::RAW); |
| unique_ptr<CodeWriter> header_writer(io_delegate.GetCodeWriter(header_path)); |
| header->Write(header_writer.get()); |
| if (parcelable.IsGeneric()) { |
| // Need to write all of the source in the header file, not cpp file. |
| source->Write(header_writer.get()); |
| } |
| AIDL_FATAL_IF(!header_writer->Close(), header_path); |
| |
| // TODO(b/111362593): no unecessary files just to have consistent output with interfaces |
| const string bp_header = options.OutputHeaderDir() + HeaderFile(parcelable, ClassNames::CLIENT); |
| unique_ptr<CodeWriter> bp_writer(io_delegate.GetCodeWriter(bp_header)); |
| bp_writer->Write("#error TODO(b/111362593) parcelables do not have bp classes"); |
| AIDL_FATAL_IF(!bp_writer->Close(), bp_header); |
| const string bn_header = options.OutputHeaderDir() + HeaderFile(parcelable, ClassNames::SERVER); |
| unique_ptr<CodeWriter> bn_writer(io_delegate.GetCodeWriter(bn_header)); |
| bn_writer->Write("#error TODO(b/111362593) parcelables do not have bn classes"); |
| AIDL_FATAL_IF(!bn_writer->Close(), bn_header); |
| |
| unique_ptr<CodeWriter> source_writer = io_delegate.GetCodeWriter(output_file); |
| if (parcelable.IsGeneric()) { |
| // Since the type is generic, the source is written in the header file |
| auto empty_source = unique_ptr<Document>{new CppSource{{}, {}}}; |
| empty_source->Write(source_writer.get()); |
| } else { |
| source->Write(source_writer.get()); |
| } |
| AIDL_FATAL_IF(!source_writer->Close(), output_file); |
| |
| return true; |
| } |
| |
| bool GenerateCppParcelDeclaration(const std::string& filename, const Options& options, |
| const AidlParcelable& parcelable, const IoDelegate& io_delegate) { |
| CodeWriterPtr source_writer = io_delegate.GetCodeWriter(filename); |
| *source_writer |
| << "// This file is intentionally left blank as placeholder for parcel declaration.\n"; |
| AIDL_FATAL_IF(!source_writer->Close(), filename); |
| |
| // TODO(b/111362593): no unecessary files just to have consistent output with interfaces |
| const string header_path = options.OutputHeaderDir() + HeaderFile(parcelable, ClassNames::RAW); |
| unique_ptr<CodeWriter> header_writer(io_delegate.GetCodeWriter(header_path)); |
| header_writer->Write("#error TODO(b/111362593) parcelables do not have headers"); |
| AIDL_FATAL_IF(!header_writer->Close(), header_path); |
| const string bp_header = options.OutputHeaderDir() + HeaderFile(parcelable, ClassNames::CLIENT); |
| unique_ptr<CodeWriter> bp_writer(io_delegate.GetCodeWriter(bp_header)); |
| bp_writer->Write("#error TODO(b/111362593) parcelables do not have bp classes"); |
| AIDL_FATAL_IF(!bp_writer->Close(), bp_header); |
| const string bn_header = options.OutputHeaderDir() + HeaderFile(parcelable, ClassNames::SERVER); |
| unique_ptr<CodeWriter> bn_writer(io_delegate.GetCodeWriter(bn_header)); |
| bn_writer->Write("#error TODO(b/111362593) parcelables do not have bn classes"); |
| AIDL_FATAL_IF(!bn_writer->Close(), bn_header); |
| |
| return true; |
| } |
| |
| bool GenerateCppEnumDeclaration(const std::string& filename, const Options& options, |
| const AidlTypenames& typenames, |
| const AidlEnumDeclaration& enum_decl, |
| const IoDelegate& io_delegate) { |
| auto header = BuildEnumHeader(typenames, enum_decl); |
| if (!header) return false; |
| |
| const string header_path = options.OutputHeaderDir() + HeaderFile(enum_decl, ClassNames::RAW); |
| unique_ptr<CodeWriter> header_writer(io_delegate.GetCodeWriter(header_path)); |
| header->Write(header_writer.get()); |
| AIDL_FATAL_IF(!header_writer->Close(), header_path); |
| |
| // TODO(b/111362593): no unnecessary files just to have consistent output with interfaces |
| CodeWriterPtr source_writer = io_delegate.GetCodeWriter(filename); |
| *source_writer |
| << "// This file is intentionally left blank as placeholder for enum declaration.\n"; |
| AIDL_FATAL_IF(!source_writer->Close(), filename); |
| const string bp_header = options.OutputHeaderDir() + HeaderFile(enum_decl, ClassNames::CLIENT); |
| unique_ptr<CodeWriter> bp_writer(io_delegate.GetCodeWriter(bp_header)); |
| bp_writer->Write("#error TODO(b/111362593) enums do not have bp classes"); |
| AIDL_FATAL_IF(!bp_writer->Close(), bp_header); |
| const string bn_header = options.OutputHeaderDir() + HeaderFile(enum_decl, ClassNames::SERVER); |
| unique_ptr<CodeWriter> bn_writer(io_delegate.GetCodeWriter(bn_header)); |
| bn_writer->Write("#error TODO(b/111362593) enums do not have bn classes"); |
| AIDL_FATAL_IF(!bn_writer->Close(), bn_header); |
| |
| return true; |
| } |
| |
| // Ensures that output_file is <out_dir>/<packagename>/<typename>.cpp |
| bool ValidateOutputFilePath(const string& output_file, const Options& options, |
| const AidlDefinedType& defined_type) { |
| const auto& out_dir = |
| !options.OutputDir().empty() ? options.OutputDir() : options.OutputHeaderDir(); |
| if (output_file.empty() || !android::base::StartsWith(output_file, out_dir)) { |
| // If output_file is not set (which happens in the unit tests) or is outside of out_dir, we can |
| // help but accepting it, because the path is what the user has requested. |
| return true; |
| } |
| |
| string canonical_name = defined_type.GetCanonicalName(); |
| std::replace(canonical_name.begin(), canonical_name.end(), '.', OS_PATH_SEPARATOR); |
| const string expected = out_dir + canonical_name + ".cpp"; |
| if (expected != output_file) { |
| AIDL_ERROR(defined_type) << "Output file is expected to be at " << expected << ", but is " |
| << output_file << ".\n If this is an Android platform " |
| << "build, consider providing the input AIDL files using a filegroup " |
| << "with `path:\"<base>\"` so that the AIDL files are located at " |
| << "<base>/<packagename>/<typename>.aidl."; |
| return false; |
| } |
| return true; |
| } |
| |
| bool GenerateCpp(const string& output_file, const Options& options, const AidlTypenames& typenames, |
| const AidlDefinedType& defined_type, const IoDelegate& io_delegate) { |
| if (!ValidateOutputFilePath(output_file, options, defined_type)) { |
| return false; |
| } |
| |
| const AidlStructuredParcelable* parcelable = defined_type.AsStructuredParcelable(); |
| if (parcelable != nullptr) { |
| return GenerateCppParcelable(output_file, options, typenames, *parcelable, io_delegate); |
| } |
| |
| // should come before AsParcelable() because union is a parcelable |
| const AidlUnionDecl* union_decl = defined_type.AsUnionDeclaration(); |
| if (union_decl != nullptr) { |
| return GenerateCppParcelable(output_file, options, typenames, *union_decl, io_delegate); |
| } |
| |
| // unstructured parcelable |
| const AidlParcelable* parcelable_decl = defined_type.AsParcelable(); |
| if (parcelable_decl != nullptr) { |
| return GenerateCppParcelDeclaration(output_file, options, *parcelable_decl, io_delegate); |
| } |
| |
| const AidlEnumDeclaration* enum_decl = defined_type.AsEnumDeclaration(); |
| if (enum_decl != nullptr) { |
| return GenerateCppEnumDeclaration(output_file, options, typenames, *enum_decl, io_delegate); |
| } |
| |
| const AidlInterface* interface = defined_type.AsInterface(); |
| if (interface != nullptr) { |
| return GenerateCppInterface(output_file, options, typenames, *interface, io_delegate); |
| } |
| |
| AIDL_FATAL(defined_type) << "Unrecognized type sent for cpp generation."; |
| return false; |
| } |
| |
| } // namespace cpp |
| } // namespace aidl |
| } // namespace android |