Google Git
Sign in
android / platform / system / tools / aidl / 3b55be2bae339e371f27a8f1c3236def26bd8675 / . / generate_rust.cpp
blob: e6d14e0ad2505f4c13e6bdb34d723b60f3960e67 [file] [log] [blame]
/*
* Copyright (C) 2020, 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_rust.h"
#include <android-base/stringprintf.h>
#include <android-base/strings.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <map>
#include <memory>
#include <sstream>
#include "aidl_to_cpp_common.h"
#include "aidl_to_rust.h"
#include "code_writer.h"
#include "comments.h"
#include "logging.h"
using android::base::Join;
using android::base::Split;
using std::ostringstream;
using std::shared_ptr;
using std::string;
using std::unique_ptr;
using std::vector;
namespace android {
namespace aidl {
namespace rust {
static constexpr const char kArgumentPrefix[] = "_arg_";
static constexpr const char kGetInterfaceVersion[] = "getInterfaceVersion";
static constexpr const char kGetInterfaceHash[] = "getInterfaceHash";
struct MangledAliasVisitor : AidlVisitor {
CodeWriter& out;
MangledAliasVisitor(CodeWriter& out) : out(out) {}
void Visit(const AidlStructuredParcelable& type) override { VisitType(type); }
void Visit(const AidlInterface& type) override { VisitType(type); }
void Visit(const AidlEnumDeclaration& type) override { VisitType(type); }
void Visit(const AidlUnionDecl& type) override { VisitType(type); }
template <typename T>
void VisitType(const T& type) {
out << " pub use " << Qname(type) << " as " << Mangled(type) << ";\n";
}
// Return a mangled name for a type (including AIDL package)
template <typename T>
string Mangled(const T& type) const {
ostringstream alias;
for (const auto& component : Split(type.GetCanonicalName(), ".")) {
alias << "_" << component.size() << "_" << component;
}
return alias.str();
}
template <typename T>
string Typename(const T& type) const {
if constexpr (std::is_same_v<T, AidlInterface>) {
return ClassName(type, cpp::ClassNames::INTERFACE);
} else {
return type.GetName();
}
}
// Return a fully qualified name for a type in the current file (excluding AIDL package)
template <typename T>
string Qname(const T& type) const {
return Module(type) + "::r#" + Typename(type);
}
// Return a module name for a type (relative to the file)
template <typename T>
string Module(const T& type) const {
if (type.GetParentType()) {
return Module(*type.GetParentType()) + "::r#" + type.GetName();
} else {
return "super";
}
}
};
void GenerateMangledAliases(CodeWriter& out, const AidlDefinedType& type) {
MangledAliasVisitor v(out);
out << "pub(crate) mod mangled {\n";
VisitTopDown(v, type);
out << "}\n";
}
string BuildArg(const AidlArgument& arg, const AidlTypenames& typenames, Lifetime lifetime) {
// We pass in parameters that are not primitives by const reference.
// Arrays get passed in as slices, which is handled in RustNameOf.
auto arg_mode = ArgumentStorageMode(arg, typenames);
auto arg_type = RustNameOf(arg.GetType(), typenames, arg_mode, lifetime);
return kArgumentPrefix + arg.GetName() + ": " + arg_type;
}
enum class MethodKind {
// This is a normal non-async method.
NORMAL,
// This is an async method. Identical to NORMAL except that async is added
// in front of `fn`.
ASYNC,
// This is an async function, but using a boxed future instead of the async
// keyword.
BOXED_FUTURE,
// This could have been a non-async method, but it returns a Future so that
// it would not be breaking to make the function do async stuff in the future.
READY_FUTURE,
};
string BuildMethod(const AidlMethod& method, const AidlTypenames& typenames,
const MethodKind kind = MethodKind::NORMAL) {
// We need to mark the arguments with a lifetime only when returning a future that
// actually captures the arguments.
Lifetime lifetime;
switch (kind) {
case MethodKind::NORMAL:
case MethodKind::ASYNC:
case MethodKind::READY_FUTURE:
lifetime = Lifetime::NONE;
break;
case MethodKind::BOXED_FUTURE:
lifetime = Lifetime::A;
break;
}
auto method_type = RustNameOf(method.GetType(), typenames, StorageMode::VALUE, lifetime);
auto return_type = string{"binder::Result<"} + method_type + ">";
auto fn_prefix = string{""};
switch (kind) {
case MethodKind::NORMAL:
// Don't wrap the return type in anything.
break;
case MethodKind::ASYNC:
fn_prefix = "async ";
break;
case MethodKind::BOXED_FUTURE:
return_type = "binder::BoxFuture<'a, " + return_type + ">";
break;
case MethodKind::READY_FUTURE:
return_type = "std::future::Ready<" + return_type + ">";
break;
}
string parameters = "&" + RustLifetimeName(lifetime) + "self";
string lifetime_str = RustLifetimeGeneric(lifetime);
for (const std::unique_ptr<AidlArgument>& arg : method.GetArguments()) {
parameters += ", ";
parameters += BuildArg(*arg, typenames, lifetime);
}
return fn_prefix + "fn r#" + method.GetName() + lifetime_str + "(" + parameters + ") -> " +
return_type;
}
void GenerateClientMethodHelpers(CodeWriter& out, const AidlInterface& iface,
const AidlMethod& method, const AidlTypenames& typenames,
const Options& options, const std::string& default_trait_name) {
string parameters = "&self";
for (const std::unique_ptr<AidlArgument>& arg : method.GetArguments()) {
parameters += ", ";
parameters += BuildArg(*arg, typenames, Lifetime::NONE);
}
// Generate build_parcel helper.
out << "fn build_parcel_" + method.GetName() + "(" + parameters +
") -> binder::Result<binder::binder_impl::Parcel> {\n";
out.Indent();
out << "let mut aidl_data = self.binder.prepare_transact()?;\n";
if (iface.IsSensitiveData()) {
out << "aidl_data.mark_sensitive();\n";
}
// Arguments
for (const std::unique_ptr<AidlArgument>& arg : method.GetArguments()) {
auto arg_name = kArgumentPrefix + arg->GetName();
if (arg->IsIn()) {
// If the argument is already a reference, don't reference it again
// (unless we turned it into an Option<&T>)
auto ref_mode = ArgumentReferenceMode(*arg, typenames);
if (IsReference(ref_mode)) {
out << "aidl_data.write(" << arg_name << ")?;\n";
} else {
out << "aidl_data.write(&" << arg_name << ")?;\n";
}
} else if (arg->GetType().IsDynamicArray()) {
// For out-only arrays, send the array size
if (arg->GetType().IsNullable()) {
out << "aidl_data.write_slice_size(" << arg_name << ".as_deref())?;\n";
} else {
out << "aidl_data.write_slice_size(Some(" << arg_name << "))?;\n";
}
}
}
out << "Ok(aidl_data)\n";
out.Dedent();
out << "}\n";
// Generate read_response helper.
auto return_type = RustNameOf(method.GetType(), typenames, StorageMode::VALUE, Lifetime::NONE);
out << "fn read_response_" + method.GetName() + "(" + parameters +
", _aidl_reply: std::result::Result<binder::binder_impl::Parcel, "
"binder::StatusCode>) -> binder::Result<" +
return_type + "> {\n";
out.Indent();
// Check for UNKNOWN_TRANSACTION and call the default impl
if (method.IsUserDefined()) {
string default_args;
for (const std::unique_ptr<AidlArgument>& arg : method.GetArguments()) {
if (!default_args.empty()) {
default_args += ", ";
}
default_args += kArgumentPrefix;
default_args += arg->GetName();
}
out << "if let Err(binder::StatusCode::UNKNOWN_TRANSACTION) = _aidl_reply {\n";
out << " if let Some(_aidl_default_impl) = <Self as " << default_trait_name
<< ">::getDefaultImpl() {\n";
out << " return _aidl_default_impl.r#" << method.GetName() << "(" << default_args << ");\n";
out << " }\n";
out << "}\n";
}
// Return all other errors
out << "let _aidl_reply = _aidl_reply?;\n";
string return_val = "()";
if (!method.IsOneway()) {
// Check for errors
out << "let _aidl_status: binder::Status = _aidl_reply.read()?;\n";
out << "if !_aidl_status.is_ok() { return Err(_aidl_status); }\n";
// Return reply value
if (method.GetType().GetName() != "void") {
auto return_type =
RustNameOf(method.GetType(), typenames, StorageMode::VALUE, Lifetime::NONE);
out << "let _aidl_return: " << return_type << " = _aidl_reply.read()?;\n";
return_val = "_aidl_return";
if (!method.IsUserDefined()) {
if (method.GetName() == kGetInterfaceVersion && options.Version() > 0) {
out << "self.cached_version.store(_aidl_return, std::sync::atomic::Ordering::Relaxed);\n";
}
if (method.GetName() == kGetInterfaceHash && !options.Hash().empty()) {
out << "*self.cached_hash.lock().unwrap() = Some(_aidl_return.clone());\n";
}
}
}
for (const AidlArgument* arg : method.GetOutArguments()) {
out << "_aidl_reply.read_onto(" << kArgumentPrefix << arg->GetName() << ")?;\n";
}
}
// Return the result
out << "Ok(" << return_val << ")\n";
out.Dedent();
out << "}\n";
}
void GenerateClientMethod(CodeWriter& out, const AidlInterface& iface, const AidlMethod& method,
const AidlTypenames& typenames, const Options& options,
const MethodKind kind) {
// Generate the method
out << BuildMethod(method, typenames, kind) << " {\n";
out.Indent();
if (!method.IsUserDefined()) {
if (method.GetName() == kGetInterfaceVersion && options.Version() > 0) {
// Check if the version is in the cache
out << "let _aidl_version = "
"self.cached_version.load(std::sync::atomic::Ordering::Relaxed);\n";
switch (kind) {
case MethodKind::NORMAL:
case MethodKind::ASYNC:
out << "if _aidl_version != -1 { return Ok(_aidl_version); }\n";
break;
case MethodKind::BOXED_FUTURE:
out << "if _aidl_version != -1 { return Box::pin(std::future::ready(Ok(_aidl_version))); "
"}\n";
break;
case MethodKind::READY_FUTURE:
out << "if _aidl_version != -1 { return std::future::ready(Ok(_aidl_version)); }\n";
break;
}
}
if (method.GetName() == kGetInterfaceHash && !options.Hash().empty()) {
out << "{\n";
out << " let _aidl_hash_lock = self.cached_hash.lock().unwrap();\n";
out << " if let Some(ref _aidl_hash) = *_aidl_hash_lock {\n";
switch (kind) {
case MethodKind::NORMAL:
case MethodKind::ASYNC:
out << " return Ok(_aidl_hash.clone());\n";
break;
case MethodKind::BOXED_FUTURE:
out << " return Box::pin(std::future::ready(Ok(_aidl_hash.clone())));\n";
break;
case MethodKind::READY_FUTURE:
out << " return std::future::ready(Ok(_aidl_hash.clone()));\n";
break;
}
out << " }\n";
out << "}\n";
}
}
string build_parcel_args;
for (const std::unique_ptr<AidlArgument>& arg : method.GetArguments()) {
if (!build_parcel_args.empty()) {
build_parcel_args += ", ";
}
build_parcel_args += kArgumentPrefix;
build_parcel_args += arg->GetName();
}
string read_response_args =
build_parcel_args.empty() ? "_aidl_reply" : build_parcel_args + ", _aidl_reply";
vector<string> flags;
if (method.IsOneway()) flags.push_back("binder::binder_impl::FLAG_ONEWAY");
if (iface.IsSensitiveData()) flags.push_back("binder::binder_impl::FLAG_CLEAR_BUF");
flags.push_back("binder::binder_impl::FLAG_PRIVATE_LOCAL");
string transact_flags = flags.empty() ? "0" : Join(flags, " | ");
switch (kind) {
case MethodKind::NORMAL:
case MethodKind::ASYNC:
// Prepare transaction.
out << "let _aidl_data = self.build_parcel_" + method.GetName() + "(" + build_parcel_args +
")?;\n";
// Submit transaction.
out << "let _aidl_reply = self.binder.submit_transact(transactions::r#" << method.GetName()
<< ", _aidl_data, " << transact_flags << ");\n";
// Deserialize response.
out << "self.read_response_" + method.GetName() + "(" + read_response_args + ")\n";
break;
case MethodKind::READY_FUTURE:
// Prepare transaction.
out << "let _aidl_data = match self.build_parcel_" + method.GetName() + "(" +
build_parcel_args + ") {\n";
out.Indent();
out << "Ok(_aidl_data) => _aidl_data,\n";
out << "Err(err) => return std::future::ready(Err(err)),\n";
out.Dedent();
out << "};\n";
// Submit transaction.
out << "let _aidl_reply = self.binder.submit_transact(transactions::r#" << method.GetName()
<< ", _aidl_data, " << transact_flags << ");\n";
// Deserialize response.
out << "std::future::ready(self.read_response_" + method.GetName() + "(" +
read_response_args + "))\n";
break;
case MethodKind::BOXED_FUTURE:
// Prepare transaction.
out << "let _aidl_data = match self.build_parcel_" + method.GetName() + "(" +
build_parcel_args + ") {\n";
out.Indent();
out << "Ok(_aidl_data) => _aidl_data,\n";
out << "Err(err) => return Box::pin(std::future::ready(Err(err))),\n";
out.Dedent();
out << "};\n";
// Submit transaction.
out << "let binder = self.binder.clone();\n";
out << "P::spawn(\n";
out.Indent();
out << "move || binder.submit_transact(transactions::r#" << method.GetName()
<< ", _aidl_data, " << transact_flags << "),\n";
out << "move |_aidl_reply| async move {\n";
out.Indent();
// Deserialize response.
out << "self.read_response_" + method.GetName() + "(" + read_response_args + ")\n";
out.Dedent();
out << "}\n";
out.Dedent();
out << ")\n";
break;
}
out.Dedent();
out << "}\n";
}
void GenerateServerTransaction(CodeWriter& out, const AidlInterface& interface,
const AidlMethod& method, const AidlTypenames& typenames) {
out << "transactions::r#" << method.GetName() << " => {\n";
out.Indent();
if (interface.EnforceExpression() || method.GetType().EnforceExpression()) {
out << "compile_error!(\"Permission checks not support for the Rust backend\");\n";
}
string args;
for (const auto& arg : method.GetArguments()) {
string arg_name = kArgumentPrefix + arg->GetName();
StorageMode arg_mode;
if (arg->IsIn()) {
arg_mode = StorageMode::VALUE;
} else {
// We need a value we can call Default::default() on
arg_mode = StorageMode::DEFAULT_VALUE;
}
auto arg_type = RustNameOf(arg->GetType(), typenames, arg_mode, Lifetime::NONE);
string arg_mut = arg->IsOut() ? "mut " : "";
string arg_init = arg->IsIn() ? "_aidl_data.read()?" : "Default::default()";
out << "let " << arg_mut << arg_name << ": " << arg_type << " = " << arg_init << ";\n";
if (!arg->IsIn() && arg->GetType().IsDynamicArray()) {
// _aidl_data.resize_[nullable_]out_vec(&mut _arg_foo)?;
auto resize_name = arg->GetType().IsNullable() ? "resize_nullable_out_vec" : "resize_out_vec";
out << "_aidl_data." << resize_name << "(&mut " << arg_name << ")?;\n";
}
auto ref_mode = ArgumentReferenceMode(*arg, typenames);
if (!args.empty()) {
args += ", ";
}
args += TakeReference(ref_mode, arg_name);
}
out << "let _aidl_return = _aidl_service.r#" << method.GetName() << "(" << args << ");\n";
if (!method.IsOneway()) {
out << "match &_aidl_return {\n";
out.Indent();
out << "Ok(_aidl_return) => {\n";
out.Indent();
out << "_aidl_reply.write(&binder::Status::from(binder::StatusCode::OK))?;\n";
if (method.GetType().GetName() != "void") {
out << "_aidl_reply.write(_aidl_return)?;\n";
}
// Serialize out arguments
for (const AidlArgument* arg : method.GetOutArguments()) {
string arg_name = kArgumentPrefix + arg->GetName();
auto& arg_type = arg->GetType();
if (!arg->IsIn() && arg_type.IsArray() && arg_type.GetName() == "ParcelFileDescriptor") {
// We represent arrays of ParcelFileDescriptor as
// Vec<Option<ParcelFileDescriptor>> when they're out-arguments,
// but we need all of them to be initialized to Some; if there's
// any None, return UNEXPECTED_NULL (this is what libbinder_ndk does)
out << "if " << arg_name << ".iter().any(Option::is_none) { "
<< "return Err(binder::StatusCode::UNEXPECTED_NULL); }\n";
} else if (!arg->IsIn() && TypeNeedsOption(arg_type, typenames)) {
// Unwrap out-only arguments that we wrapped in Option<T>
out << "let " << arg_name << " = " << arg_name
<< ".ok_or(binder::StatusCode::UNEXPECTED_NULL)?;\n";
}
out << "_aidl_reply.write(&" << arg_name << ")?;\n";
}
out.Dedent();
out << "}\n";
out << "Err(_aidl_status) => _aidl_reply.write(_aidl_status)?\n";
out.Dedent();
out << "}\n";
}
out << "Ok(())\n";
out.Dedent();
out << "}\n";
}
void GenerateServerItems(CodeWriter& out, const AidlInterface* iface,
const AidlTypenames& typenames) {
auto trait_name = ClassName(*iface, cpp::ClassNames::INTERFACE);
auto server_name = ClassName(*iface, cpp::ClassNames::SERVER);
// Forward all IFoo functions from Binder to the inner object
out << "impl " << trait_name << " for binder::binder_impl::Binder<" << server_name << "> {\n";
out.Indent();
for (const auto& method : iface->GetMethods()) {
string args;
for (const std::unique_ptr<AidlArgument>& arg : method->GetArguments()) {
if (!args.empty()) {
args += ", ";
}
args += kArgumentPrefix;
args += arg->GetName();
}
out << BuildMethod(*method, typenames) << " { "
<< "self.0.r#" << method->GetName() << "(" << args << ") }\n";
}
out.Dedent();
out << "}\n";
out << "fn on_transact("
"_aidl_service: &dyn "
<< trait_name
<< ", "
"_aidl_code: binder::binder_impl::TransactionCode, "
"_aidl_data: &binder::binder_impl::BorrowedParcel<'_>, "
"_aidl_reply: &mut binder::binder_impl::BorrowedParcel<'_>) -> std::result::Result<(), "
"binder::StatusCode> "
"{\n";
out.Indent();
out << "match _aidl_code {\n";
out.Indent();
for (const auto& method : iface->GetMethods()) {
GenerateServerTransaction(out, *iface, *method, typenames);
}
out << "_ => Err(binder::StatusCode::UNKNOWN_TRANSACTION)\n";
out.Dedent();
out << "}\n";
out.Dedent();
out << "}\n";
}
void GenerateDeprecated(CodeWriter& out, const AidlCommentable& type) {
if (auto deprecated = FindDeprecated(type.GetComments()); deprecated.has_value()) {
if (deprecated->note.empty()) {
out << "#[deprecated]\n";
} else {
out << "#[deprecated = " << QuotedEscape(deprecated->note) << "]\n";
}
}
}
template <typename TypeWithConstants>
void GenerateConstantDeclarations(CodeWriter& out, const TypeWithConstants& type,
const AidlTypenames& typenames) {
for (const auto& constant : type.GetConstantDeclarations()) {
const AidlTypeSpecifier& type = constant->GetType();
const AidlConstantValue& value = constant->GetValue();
string const_type;
if (type.Signature() == "String") {
const_type = "&str";
} else if (type.Signature() == "byte" || type.Signature() == "int" ||
type.Signature() == "long") {
const_type = RustNameOf(type, typenames, StorageMode::VALUE, Lifetime::NONE);
} else {
AIDL_FATAL(value) << "Unrecognized constant type: " << type.Signature();
}
GenerateDeprecated(out, *constant);
out << "pub const r#" << constant->GetName() << ": " << const_type << " = "
<< constant->ValueString(ConstantValueDecoratorRef) << ";\n";
}
}
void GenerateRustInterface(CodeWriter* code_writer, const AidlInterface* iface,
const AidlTypenames& typenames, const Options& options) {
*code_writer << "#![allow(non_upper_case_globals)]\n";
*code_writer << "#![allow(non_snake_case)]\n";
// Import IBinderInternal for transact()
*code_writer << "#[allow(unused_imports)] use binder::binder_impl::IBinderInternal;\n";
auto trait_name = ClassName(*iface, cpp::ClassNames::INTERFACE);
auto trait_name_async = trait_name + "Async";
auto trait_name_async_server = trait_name + "AsyncServer";
auto client_name = ClassName(*iface, cpp::ClassNames::CLIENT);
auto server_name = ClassName(*iface, cpp::ClassNames::SERVER);
*code_writer << "use binder::declare_binder_interface;\n";
*code_writer << "declare_binder_interface! {\n";
code_writer->Indent();
*code_writer << trait_name << "[\"" << iface->GetDescriptor() << "\"] {\n";
code_writer->Indent();
*code_writer << "native: " << server_name << "(on_transact),\n";
*code_writer << "proxy: " << client_name << " {\n";
code_writer->Indent();
if (options.Version() > 0) {
string comma = options.Hash().empty() ? "" : ",";
*code_writer << "cached_version: "
"std::sync::atomic::AtomicI32 = "
"std::sync::atomic::AtomicI32::new(-1)"
<< comma << "\n";
}
if (!options.Hash().empty()) {
*code_writer << "cached_hash: "
"std::sync::Mutex<Option<String>> = "
"std::sync::Mutex::new(None)\n";
}
code_writer->Dedent();
*code_writer << "},\n";
*code_writer << "async: " << trait_name_async << ",\n";
if (iface->IsVintfStability()) {
*code_writer << "stability: binder::binder_impl::Stability::Vintf,\n";
}
code_writer->Dedent();
*code_writer << "}\n";
code_writer->Dedent();
*code_writer << "}\n";
// Emit the trait.
GenerateDeprecated(*code_writer, *iface);
*code_writer << "pub trait " << trait_name << ": binder::Interface + Send {\n";
code_writer->Indent();
*code_writer << "fn get_descriptor() -> &'static str where Self: Sized { \""
<< iface->GetDescriptor() << "\" }\n";
for (const auto& method : iface->GetMethods()) {
// Generate the method
GenerateDeprecated(*code_writer, *method);
if (method->IsUserDefined()) {
*code_writer << BuildMethod(*method, typenames) << ";\n";
} else {
// Generate default implementations for meta methods
*code_writer << BuildMethod(*method, typenames) << " {\n";
code_writer->Indent();
if (method->GetName() == kGetInterfaceVersion && options.Version() > 0) {
*code_writer << "Ok(VERSION)\n";
} else if (method->GetName() == kGetInterfaceHash && !options.Hash().empty()) {
*code_writer << "Ok(HASH.into())\n";
}
code_writer->Dedent();
*code_writer << "}\n";
}
}
// Emit the default implementation code inside the trait
auto default_trait_name = ClassName(*iface, cpp::ClassNames::DEFAULT_IMPL);
auto default_ref_name = default_trait_name + "Ref";
*code_writer << "fn getDefaultImpl()"
<< " -> " << default_ref_name << " where Self: Sized {\n";
*code_writer << " DEFAULT_IMPL.lock().unwrap().clone()\n";
*code_writer << "}\n";
*code_writer << "fn setDefaultImpl(d: " << default_ref_name << ")"
<< " -> " << default_ref_name << " where Self: Sized {\n";
*code_writer << " std::mem::replace(&mut *DEFAULT_IMPL.lock().unwrap(), d)\n";
*code_writer << "}\n";
code_writer->Dedent();
*code_writer << "}\n";
// Emit the async trait.
GenerateDeprecated(*code_writer, *iface);
*code_writer << "pub trait " << trait_name_async << "<P>: binder::Interface + Send {\n";
code_writer->Indent();
*code_writer << "fn get_descriptor() -> &'static str where Self: Sized { \""
<< iface->GetDescriptor() << "\" }\n";
for (const auto& method : iface->GetMethods()) {
// Generate the method
GenerateDeprecated(*code_writer, *method);
MethodKind kind = method->IsOneway() ? MethodKind::READY_FUTURE : MethodKind::BOXED_FUTURE;
if (method->IsUserDefined()) {
*code_writer << BuildMethod(*method, typenames, kind) << ";\n";
} else {
// Generate default implementations for meta methods
*code_writer << BuildMethod(*method, typenames, kind) << " {\n";
code_writer->Indent();
if (method->GetName() == kGetInterfaceVersion && options.Version() > 0) {
*code_writer << "Box::pin(async move { Ok(VERSION) })\n";
} else if (method->GetName() == kGetInterfaceHash && !options.Hash().empty()) {
*code_writer << "Box::pin(async move { Ok(HASH.into()) })\n";
}
code_writer->Dedent();
*code_writer << "}\n";
}
}
code_writer->Dedent();
*code_writer << "}\n";
// Emit the async server trait.
GenerateDeprecated(*code_writer, *iface);
*code_writer << "#[::async_trait::async_trait]\n";
*code_writer << "pub trait " << trait_name_async_server << ": binder::Interface + Send {\n";
code_writer->Indent();
*code_writer << "fn get_descriptor() -> &'static str where Self: Sized { \""
<< iface->GetDescriptor() << "\" }\n";
for (const auto& method : iface->GetMethods()) {
// Generate the method
if (method->IsUserDefined()) {
GenerateDeprecated(*code_writer, *method);
*code_writer << BuildMethod(*method, typenames, MethodKind::ASYNC) << ";\n";
}
}
code_writer->Dedent();
*code_writer << "}\n";
// Emit a new_async_binder method for binding an async server.
*code_writer << "impl " << server_name << " {\n";
code_writer->Indent();
*code_writer << "/// Create a new async binder service.\n";
*code_writer << "pub fn new_async_binder<T, R>(inner: T, rt: R, features: "
"binder::BinderFeatures) -> binder::Strong<dyn "
<< trait_name << ">\n";
*code_writer << "where\n";
code_writer->Indent();
*code_writer << "T: " << trait_name_async_server
<< " + binder::Interface + Send + Sync + 'static,\n";
*code_writer << "R: binder::binder_impl::BinderAsyncRuntime + Send + Sync + 'static,\n";
code_writer->Dedent();
*code_writer << "{\n";
code_writer->Indent();
// Define a wrapper struct that implements the non-async trait by calling block_on.
*code_writer << "struct Wrapper<T, R> {\n";
code_writer->Indent();
*code_writer << "_inner: T,\n";
*code_writer << "_rt: R,\n";
code_writer->Dedent();
*code_writer << "}\n";
*code_writer << "impl<T, R> binder::Interface for Wrapper<T, R> where T: binder::Interface, R: "
"Send + Sync {\n";
code_writer->Indent();
*code_writer << "fn as_binder(&self) -> binder::SpIBinder { self._inner.as_binder() }\n";
*code_writer
<< "fn dump(&self, _file: &std::fs::File, _args: &[&std::ffi::CStr]) -> "
"std::result::Result<(), binder::StatusCode> { self._inner.dump(_file, _args) }\n";
code_writer->Dedent();
*code_writer << "}\n";
*code_writer << "impl<T, R> " << trait_name << " for Wrapper<T, R>\n";
*code_writer << "where\n";
code_writer->Indent();
*code_writer << "T: " << trait_name_async_server << " + Send + Sync + 'static,\n";
*code_writer << "R: binder::binder_impl::BinderAsyncRuntime + Send + Sync + 'static,\n";
code_writer->Dedent();
*code_writer << "{\n";
code_writer->Indent();
for (const auto& method : iface->GetMethods()) {
// Generate the method
if (method->IsUserDefined()) {
string args = "";
for (const std::unique_ptr<AidlArgument>& arg : method->GetArguments()) {
if (!args.empty()) {
args += ", ";
}
args += kArgumentPrefix;
args += arg->GetName();
}
*code_writer << BuildMethod(*method, typenames) << " {\n";
code_writer->Indent();
*code_writer << "self._rt.block_on(self._inner.r#" << method->GetName() << "(" << args
<< "))\n";
code_writer->Dedent();
*code_writer << "}\n";
}
}
code_writer->Dedent();
*code_writer << "}\n";
*code_writer << "let wrapped = Wrapper { _inner: inner, _rt: rt };\n";
*code_writer << "Self::new_binder(wrapped, features)\n";
code_writer->Dedent();
*code_writer << "}\n";
code_writer->Dedent();
*code_writer << "}\n";
// Emit the default trait
*code_writer << "pub trait " << default_trait_name << ": Send + Sync {\n";
code_writer->Indent();
for (const auto& method : iface->GetMethods()) {
if (!method->IsUserDefined()) {
continue;
}
// Generate the default method
*code_writer << BuildMethod(*method, typenames) << " {\n";
code_writer->Indent();
*code_writer << "Err(binder::StatusCode::UNKNOWN_TRANSACTION.into())\n";
code_writer->Dedent();
*code_writer << "}\n";
}
code_writer->Dedent();
*code_writer << "}\n";
// Generate the transaction code constants
// The constants get their own sub-module to avoid conflicts
*code_writer << "pub mod transactions {\n";
code_writer->Indent();
for (const auto& method : iface->GetMethods()) {
// Generate the transaction code constant
*code_writer << "pub const r#" << method->GetName()
<< ": binder::binder_impl::TransactionCode = "
"binder::binder_impl::FIRST_CALL_TRANSACTION + " +
std::to_string(method->GetId()) + ";\n";
}
code_writer->Dedent();
*code_writer << "}\n";
// Emit the default implementation code outside the trait
*code_writer << "pub type " << default_ref_name << " = Option<std::sync::Arc<dyn "
<< default_trait_name << ">>;\n";
*code_writer << "use lazy_static::lazy_static;\n";
*code_writer << "lazy_static! {\n";
*code_writer << " static ref DEFAULT_IMPL: std::sync::Mutex<" << default_ref_name
<< "> = std::sync::Mutex::new(None);\n";
*code_writer << "}\n";
// Emit the interface constants
GenerateConstantDeclarations(*code_writer, *iface, typenames);
// Emit VERSION and HASH
// These need to be top-level item constants instead of associated consts
// because the latter are incompatible with trait objects, see
// https://doc.rust-lang.org/reference/items/traits.html#object-safety
if (options.Version() > 0) {
*code_writer << "pub const VERSION: i32 = " << std::to_string(options.Version()) << ";\n";
}
if (!options.Hash().empty()) {
*code_writer << "pub const HASH: &str = \"" << options.Hash() << "\";\n";
}
// Generate the client-side method helpers
//
// The methods in this block are not marked pub, so they are not accessible from outside the
// AIDL generated code.
*code_writer << "impl " << client_name << " {\n";
code_writer->Indent();
for (const auto& method : iface->GetMethods()) {
GenerateClientMethodHelpers(*code_writer, *iface, *method, typenames, options, trait_name);
}
code_writer->Dedent();
*code_writer << "}\n";
// Generate the client-side methods
*code_writer << "impl " << trait_name << " for " << client_name << " {\n";
code_writer->Indent();
for (const auto& method : iface->GetMethods()) {
GenerateClientMethod(*code_writer, *iface, *method, typenames, options, MethodKind::NORMAL);
}
code_writer->Dedent();
*code_writer << "}\n";
// Generate the async client-side methods
*code_writer << "impl<P: binder::BinderAsyncPool> " << trait_name_async << "<P> for "
<< client_name << " {\n";
code_writer->Indent();
for (const auto& method : iface->GetMethods()) {
MethodKind kind = method->IsOneway() ? MethodKind::READY_FUTURE : MethodKind::BOXED_FUTURE;
GenerateClientMethod(*code_writer, *iface, *method, typenames, options, kind);
}
code_writer->Dedent();
*code_writer << "}\n";
// Generate the server-side methods
GenerateServerItems(*code_writer, iface, typenames);
}
void GenerateParcelBody(CodeWriter& out, const AidlStructuredParcelable* parcel,
const AidlTypenames& typenames) {
GenerateDeprecated(out, *parcel);
out << "pub struct r#" << parcel->GetName() << " {\n";
out.Indent();
for (const auto& variable : parcel->GetFields()) {
GenerateDeprecated(out, *variable);
auto field_type =
RustNameOf(variable->GetType(), typenames, StorageMode::PARCELABLE_FIELD, Lifetime::NONE);
out << "pub r#" << variable->GetName() << ": " << field_type << ",\n";
}
out.Dedent();
out << "}\n";
}
void GenerateParcelDefault(CodeWriter& out, const AidlStructuredParcelable* parcel) {
out << "impl Default for r#" << parcel->GetName() << " {\n";
out.Indent();
out << "fn default() -> Self {\n";
out.Indent();
out << "Self {\n";
out.Indent();
for (const auto& variable : parcel->GetFields()) {
out << "r#" << variable->GetName() << ": ";
if (variable->GetDefaultValue()) {
out << variable->ValueString(ConstantValueDecorator);
} else {
// Some types don't implement "Default".
// - ParcelableHolder
// - Arrays
if (variable->GetType().GetName() == "ParcelableHolder") {
out << "binder::ParcelableHolder::new(";
if (parcel->IsVintfStability()) {
out << "binder::binder_impl::Stability::Vintf";
} else {
out << "binder::binder_impl::Stability::Local";
}
out << ")";
} else if (variable->GetType().IsFixedSizeArray() && !variable->GetType().IsNullable()) {
out << ArrayDefaultValue(variable->GetType());
} else {
out << "Default::default()";
}
}
out << ",\n";
}
out.Dedent();
out << "}\n";
out.Dedent();
out << "}\n";
out.Dedent();
out << "}\n";
}
void GenerateParcelSerializeBody(CodeWriter& out, const AidlStructuredParcelable* parcel,
const AidlTypenames& typenames) {
out << "parcel.sized_write(|subparcel| {\n";
out.Indent();
for (const auto& variable : parcel->GetFields()) {
if (TypeNeedsOption(variable->GetType(), typenames)) {
out << "let __field_ref = self.r#" << variable->GetName()
<< ".as_ref().ok_or(binder::StatusCode::UNEXPECTED_NULL)?;\n";
out << "subparcel.write(__field_ref)?;\n";
} else {
out << "subparcel.write(&self.r#" << variable->GetName() << ")?;\n";
}
}
out << "Ok(())\n";
out.Dedent();
out << "})\n";
}
void GenerateParcelDeserializeBody(CodeWriter& out, const AidlStructuredParcelable* parcel,
const AidlTypenames& typenames) {
out << "parcel.sized_read(|subparcel| {\n";
out.Indent();
for (const auto& variable : parcel->GetFields()) {
out << "if subparcel.has_more_data() {\n";
out.Indent();
if (TypeNeedsOption(variable->GetType(), typenames)) {
out << "self.r#" << variable->GetName() << " = Some(subparcel.read()?);\n";
} else {
out << "self.r#" << variable->GetName() << " = subparcel.read()?;\n";
}
out.Dedent();
out << "}\n";
}
out << "Ok(())\n";
out.Dedent();
out << "})\n";
}
void GenerateParcelBody(CodeWriter& out, const AidlUnionDecl* parcel,
const AidlTypenames& typenames) {
GenerateDeprecated(out, *parcel);
out << "pub enum r#" << parcel->GetName() << " {\n";
out.Indent();
for (const auto& variable : parcel->GetFields()) {
GenerateDeprecated(out, *variable);
auto field_type =
RustNameOf(variable->GetType(), typenames, StorageMode::PARCELABLE_FIELD, Lifetime::NONE);
out << variable->GetCapitalizedName() << "(" << field_type << "),\n";
}
out.Dedent();
out << "}\n";
}
void GenerateParcelDefault(CodeWriter& out, const AidlUnionDecl* parcel) {
out << "impl Default for r#" << parcel->GetName() << " {\n";
out.Indent();
out << "fn default() -> Self {\n";
out.Indent();
AIDL_FATAL_IF(parcel->GetFields().empty(), *parcel)
<< "Union '" << parcel->GetName() << "' is empty.";
const auto& first_field = parcel->GetFields()[0];
const auto& first_value = first_field->ValueString(ConstantValueDecorator);
out << "Self::";
if (first_field->GetDefaultValue()) {
out << first_field->GetCapitalizedName() << "(" << first_value << ")\n";
} else {
out << first_field->GetCapitalizedName() << "(Default::default())\n";
}
out.Dedent();
out << "}\n";
out.Dedent();
out << "}\n";
}
void GenerateParcelSerializeBody(CodeWriter& out, const AidlUnionDecl* parcel,
const AidlTypenames& typenames) {
out << "match self {\n";
out.Indent();
int tag = 0;
for (const auto& variable : parcel->GetFields()) {
out << "Self::" << variable->GetCapitalizedName() << "(v) => {\n";
out.Indent();
out << "parcel.write(&" << std::to_string(tag++) << "i32)?;\n";
if (TypeNeedsOption(variable->GetType(), typenames)) {
out << "let __field_ref = v.as_ref().ok_or(binder::StatusCode::UNEXPECTED_NULL)?;\n";
out << "parcel.write(__field_ref)\n";
} else {
out << "parcel.write(v)\n";
}
out.Dedent();
out << "}\n";
}
out.Dedent();
out << "}\n";
}
void GenerateParcelDeserializeBody(CodeWriter& out, const AidlUnionDecl* parcel,
const AidlTypenames& typenames) {
out << "let tag: i32 = parcel.read()?;\n";
out << "match tag {\n";
out.Indent();
int tag = 0;
for (const auto& variable : parcel->GetFields()) {
auto field_type =
RustNameOf(variable->GetType(), typenames, StorageMode::PARCELABLE_FIELD, Lifetime::NONE);
out << std::to_string(tag++) << " => {\n";
out.Indent();
out << "let value: " << field_type << " = ";
if (TypeNeedsOption(variable->GetType(), typenames)) {
out << "Some(parcel.read()?);\n";
} else {
out << "parcel.read()?;\n";
}
out << "*self = Self::" << variable->GetCapitalizedName() << "(value);\n";
out << "Ok(())\n";
out.Dedent();
out << "}\n";
}
out << "_ => {\n";
out << " Err(binder::StatusCode::BAD_VALUE)\n";
out << "}\n";
out.Dedent();
out << "}\n";
}
template <typename ParcelableType>
void GenerateParcelableTrait(CodeWriter& out, const ParcelableType* parcel,
const AidlTypenames& typenames) {
out << "impl binder::Parcelable for r#" << parcel->GetName() << " {\n";
out.Indent();
out << "fn write_to_parcel(&self, "
"parcel: &mut binder::binder_impl::BorrowedParcel) -> std::result::Result<(), "
"binder::StatusCode> "
"{\n";
out.Indent();
GenerateParcelSerializeBody(out, parcel, typenames);
out.Dedent();
out << "}\n";
out << "fn read_from_parcel(&mut self, "
"parcel: &binder::binder_impl::BorrowedParcel) -> std::result::Result<(), "
"binder::StatusCode> {\n";
out.Indent();
GenerateParcelDeserializeBody(out, parcel, typenames);
out.Dedent();
out << "}\n";
out.Dedent();
out << "}\n";
// Emit the outer (de)serialization traits
out << "binder::impl_serialize_for_parcelable!(r#" << parcel->GetName() << ");\n";
out << "binder::impl_deserialize_for_parcelable!(r#" << parcel->GetName() << ");\n";
}
template <typename ParcelableType>
void GenerateMetadataTrait(CodeWriter& out, const ParcelableType* parcel) {
out << "impl binder::binder_impl::ParcelableMetadata for r#" << parcel->GetName() << " {\n";
out.Indent();
out << "fn get_descriptor() -> &'static str { \"" << parcel->GetCanonicalName() << "\" }\n";
if (parcel->IsVintfStability()) {
out << "fn get_stability(&self) -> binder::binder_impl::Stability { "
"binder::binder_impl::Stability::Vintf }\n";
}
out.Dedent();
out << "}\n";
}
template <typename ParcelableType>
void GenerateRustParcel(CodeWriter* code_writer, const ParcelableType* parcel,
const AidlTypenames& typenames) {
vector<string> derives = parcel->RustDerive();
// Debug is always derived because all Rust AIDL types implement it
// ParcelFileDescriptor doesn't support any of the others because
// it's a newtype over std::fs::File which only implements Debug
derives.insert(derives.begin(), "Debug");
*code_writer << "#[derive(" << Join(derives, ", ") << ")]\n";
GenerateParcelBody(*code_writer, parcel, typenames);
GenerateConstantDeclarations(*code_writer, *parcel, typenames);
GenerateParcelDefault(*code_writer, parcel);
GenerateParcelableTrait(*code_writer, parcel, typenames);
GenerateMetadataTrait(*code_writer, parcel);
}
void GenerateRustEnumDeclaration(CodeWriter* code_writer, const AidlEnumDeclaration* enum_decl,
const AidlTypenames& typenames) {
const auto& aidl_backing_type = enum_decl->GetBackingType();
auto backing_type = RustNameOf(aidl_backing_type, typenames, StorageMode::VALUE, Lifetime::NONE);
*code_writer << "#![allow(non_upper_case_globals)]\n";
*code_writer << "use binder::declare_binder_enum;\n";
*code_writer << "declare_binder_enum! {\n";
code_writer->Indent();
GenerateDeprecated(*code_writer, *enum_decl);
*code_writer << "r#" << enum_decl->GetName() << " : [" << backing_type << "; "
<< std::to_string(enum_decl->GetEnumerators().size()) << "] {\n";
code_writer->Indent();
for (const auto& enumerator : enum_decl->GetEnumerators()) {
auto value = enumerator->GetValue()->ValueString(aidl_backing_type, ConstantValueDecorator);
GenerateDeprecated(*code_writer, *enumerator);
*code_writer << "r#" << enumerator->GetName() << " = " << value << ",\n";
}
code_writer->Dedent();
*code_writer << "}\n";
code_writer->Dedent();
*code_writer << "}\n";
}
void GenerateClass(CodeWriter* code_writer, const AidlDefinedType& defined_type,
const AidlTypenames& types, const Options& options) {
if (const AidlStructuredParcelable* parcelable = defined_type.AsStructuredParcelable();
parcelable != nullptr) {
GenerateRustParcel(code_writer, parcelable, types);
} else if (const AidlEnumDeclaration* enum_decl = defined_type.AsEnumDeclaration();
enum_decl != nullptr) {
GenerateRustEnumDeclaration(code_writer, enum_decl, types);
} else if (const AidlInterface* interface = defined_type.AsInterface(); interface != nullptr) {
GenerateRustInterface(code_writer, interface, types, options);
} else if (const AidlUnionDecl* union_decl = defined_type.AsUnionDeclaration();
union_decl != nullptr) {
GenerateRustParcel(code_writer, union_decl, types);
} else {
AIDL_FATAL(defined_type) << "Unrecognized type sent for Rust generation.";
}
for (const auto& nested : defined_type.GetNestedTypes()) {
(*code_writer) << "pub mod r#" << nested->GetName() << " {\n";
code_writer->Indent();
GenerateClass(code_writer, *nested, types, options);
code_writer->Dedent();
(*code_writer) << "}\n";
}
}
void GenerateRust(const string& filename, const Options& options, const AidlTypenames& types,
const AidlDefinedType& defined_type, const IoDelegate& io_delegate) {
CodeWriterPtr code_writer = io_delegate.GetCodeWriter(filename);
// Forbid the use of unsafe in auto-generated code.
// Unsafe code should only be allowed in libbinder_rs.
*code_writer << "#![forbid(unsafe_code)]\n";
// Disable rustfmt on auto-generated files, including the golden outputs
*code_writer << "#![rustfmt::skip]\n";
GenerateClass(code_writer.get(), defined_type, types, options);
GenerateMangledAliases(*code_writer, defined_type);
AIDL_FATAL_IF(!code_writer->Close(), defined_type) << "I/O Error!";
}
} // namespace rust
} // namespace aidl
} // namespace android