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chromium / chromium / src / out / 4151107ea1613e89152c1a944bd45944683cc1f2 / . / android-Debug / gen / services / service_manager / tests / lifecycle / lifecycle.test-mojom.cc
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// services/service_manager/tests/lifecycle/lifecycle.test-mojom.cc is auto generated by mojom_bindings_generator.py, do not edit
// Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#if defined(__clang__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wunused-private-field"
#endif
#include "services/service_manager/tests/lifecycle/lifecycle.test-mojom.h"
#include <math.h>
#include <stdint.h>
#include <utility>
#include "base/debug/alias.h"
#include "base/hash/md5_constexpr.h"
#include "base/run_loop.h"
#include "base/strings/string_number_conversions.h"
#include "base/trace_event/trace_event.h"
#include "base/trace_event/typed_macros.h"
#include "mojo/public/cpp/bindings/lib/generated_code_util.h"
#include "mojo/public/cpp/bindings/lib/message_internal.h"
#include "mojo/public/cpp/bindings/lib/send_message_helper.h"
#include "mojo/public/cpp/bindings/lib/proxy_to_responder.h"
#include "mojo/public/cpp/bindings/lib/serialization_util.h"
#include "mojo/public/cpp/bindings/lib/unserialized_message_context.h"
#include "mojo/public/cpp/bindings/lib/validate_params.h"
#include "mojo/public/cpp/bindings/lib/validation_errors.h"
#include "mojo/public/cpp/bindings/mojo_buildflags.h"
#include "mojo/public/interfaces/bindings/interface_control_messages.mojom.h"
#include "third_party/perfetto/include/perfetto/tracing/traced_value.h"
#include "services/service_manager/tests/lifecycle/lifecycle.test-mojom-params-data.h"
#include "services/service_manager/tests/lifecycle/lifecycle.test-mojom-shared-message-ids.h"
#include "services/service_manager/tests/lifecycle/lifecycle.test-mojom-import-headers.h"
#include "services/service_manager/tests/lifecycle/lifecycle.test-mojom-test-utils.h"
#ifndef SERVICES_SERVICE_MANAGER_TESTS_LIFECYCLE_LIFECYCLE_TEST_MOJOM_JUMBO_H_
#define SERVICES_SERVICE_MANAGER_TESTS_LIFECYCLE_LIFECYCLE_TEST_MOJOM_JUMBO_H_
#endif
namespace service_manager {
namespace test {
namespace mojom {
const char LifecycleControl::Name_[] = "service_manager.test.mojom.LifecycleControl";
std::pair<uint32_t, const void*> LifecycleControl::MessageToMethodInfo_(mojo::Message& message) {
switch (message.name()) {
case internal::kLifecycleControl_Ping_Name: {
constexpr uint32_t value = base::MD5Hash32Constexpr(
"(Impl)service_manager::test::mojom::LifecycleControl::Ping");
#if BUILDFLAG(IS_FUCHSIA)
return std::make_pair(value, nullptr);
#else
return std::make_pair(value, reinterpret_cast<const void*>(&LifecycleControl::Ping_Sym::IPCSymbol));
#endif // BUILDFLAG(IS_FUCHSIA)
}
case internal::kLifecycleControl_GracefulQuit_Name: {
constexpr uint32_t value = base::MD5Hash32Constexpr(
"(Impl)service_manager::test::mojom::LifecycleControl::GracefulQuit");
#if BUILDFLAG(IS_FUCHSIA)
return std::make_pair(value, nullptr);
#else
return std::make_pair(value, reinterpret_cast<const void*>(&LifecycleControl::GracefulQuit_Sym::IPCSymbol));
#endif // BUILDFLAG(IS_FUCHSIA)
}
case internal::kLifecycleControl_Crash_Name: {
constexpr uint32_t value = base::MD5Hash32Constexpr(
"(Impl)service_manager::test::mojom::LifecycleControl::Crash");
#if BUILDFLAG(IS_FUCHSIA)
return std::make_pair(value, nullptr);
#else
return std::make_pair(value, reinterpret_cast<const void*>(&LifecycleControl::Crash_Sym::IPCSymbol));
#endif // BUILDFLAG(IS_FUCHSIA)
}
case internal::kLifecycleControl_CloseServiceManagerConnection_Name: {
constexpr uint32_t value = base::MD5Hash32Constexpr(
"(Impl)service_manager::test::mojom::LifecycleControl::CloseServiceManagerConnection");
#if BUILDFLAG(IS_FUCHSIA)
return std::make_pair(value, nullptr);
#else
return std::make_pair(value, reinterpret_cast<const void*>(&LifecycleControl::CloseServiceManagerConnection_Sym::IPCSymbol));
#endif // BUILDFLAG(IS_FUCHSIA)
}
}
return std::make_pair(0, nullptr);
}
const char* LifecycleControl::MessageToMethodName_(mojo::Message& message) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
bool is_response = message.has_flag(mojo::Message::kFlagIsResponse);
if (!is_response) {
switch (message.name()) {
case internal::kLifecycleControl_Ping_Name:
return "Receive service_manager::test::mojom::LifecycleControl::Ping";
case internal::kLifecycleControl_GracefulQuit_Name:
return "Receive service_manager::test::mojom::LifecycleControl::GracefulQuit";
case internal::kLifecycleControl_Crash_Name:
return "Receive service_manager::test::mojom::LifecycleControl::Crash";
case internal::kLifecycleControl_CloseServiceManagerConnection_Name:
return "Receive service_manager::test::mojom::LifecycleControl::CloseServiceManagerConnection";
}
} else {
switch (message.name()) {
case internal::kLifecycleControl_Ping_Name:
return "Receive reply service_manager::test::mojom::LifecycleControl::Ping";
case internal::kLifecycleControl_GracefulQuit_Name:
return "Receive reply service_manager::test::mojom::LifecycleControl::GracefulQuit";
case internal::kLifecycleControl_Crash_Name:
return "Receive reply service_manager::test::mojom::LifecycleControl::Crash";
case internal::kLifecycleControl_CloseServiceManagerConnection_Name:
return "Receive reply service_manager::test::mojom::LifecycleControl::CloseServiceManagerConnection";
}
}
return "Receive unknown mojo message";
#else
bool is_response = message.has_flag(mojo::Message::kFlagIsResponse);
if (is_response) {
return "Receive mojo reply";
} else {
return "Receive mojo message";
}
#endif // BUILDFLAG(MOJO_TRACE_ENABLED)
}
#if !BUILDFLAG(IS_FUCHSIA)
void LifecycleControl::Ping_Sym::IPCSymbol() {
// This method's address is used for indetifiying the mojo method name after
// symblozation. So each IPCSymbol should have a unique address.
NO_CODE_FOLDING();
}
void LifecycleControl::GracefulQuit_Sym::IPCSymbol() {
// This method's address is used for indetifiying the mojo method name after
// symblozation. So each IPCSymbol should have a unique address.
NO_CODE_FOLDING();
}
void LifecycleControl::Crash_Sym::IPCSymbol() {
// This method's address is used for indetifiying the mojo method name after
// symblozation. So each IPCSymbol should have a unique address.
NO_CODE_FOLDING();
}
void LifecycleControl::CloseServiceManagerConnection_Sym::IPCSymbol() {
// This method's address is used for indetifiying the mojo method name after
// symblozation. So each IPCSymbol should have a unique address.
NO_CODE_FOLDING();
}
# endif // !BUILDFLAG(IS_FUCHSIA)
class LifecycleControl_Ping_ForwardToCallback
: public mojo::MessageReceiver {
public:
LifecycleControl_Ping_ForwardToCallback(
LifecycleControl::PingCallback callback
) : callback_(std::move(callback)) {
}
LifecycleControl_Ping_ForwardToCallback(const LifecycleControl_Ping_ForwardToCallback&) = delete;
LifecycleControl_Ping_ForwardToCallback& operator=(const LifecycleControl_Ping_ForwardToCallback&) = delete;
bool Accept(mojo::Message* message) override;
private:
LifecycleControl::PingCallback callback_;
};
LifecycleControlProxy::LifecycleControlProxy(mojo::MessageReceiverWithResponder* receiver)
: receiver_(receiver) {
}
void LifecycleControlProxy::Ping(
PingCallback callback) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send service_manager::test::mojom::LifecycleControl::Ping");
#endif
const bool kExpectsResponse = true;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kLifecycleControl_Ping_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::LifecycleControl_Ping_Params_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(LifecycleControl::Name_);
message.set_method_name("Ping");
#endif
std::unique_ptr<mojo::MessageReceiver> responder(
new LifecycleControl_Ping_ForwardToCallback(
std::move(callback)));
::mojo::internal::SendMessage(*receiver_, message, std::move(responder));
}
void LifecycleControlProxy::GracefulQuit(
) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send service_manager::test::mojom::LifecycleControl::GracefulQuit");
#endif
const bool kExpectsResponse = false;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kLifecycleControl_GracefulQuit_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::LifecycleControl_GracefulQuit_Params_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(LifecycleControl::Name_);
message.set_method_name("GracefulQuit");
#endif
// This return value may be ignored as false implies the Connector has
// encountered an error, which will be visible through other means.
::mojo::internal::SendMessage(*receiver_, message);
}
void LifecycleControlProxy::Crash(
) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send service_manager::test::mojom::LifecycleControl::Crash");
#endif
const bool kExpectsResponse = false;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kLifecycleControl_Crash_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::LifecycleControl_Crash_Params_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(LifecycleControl::Name_);
message.set_method_name("Crash");
#endif
// This return value may be ignored as false implies the Connector has
// encountered an error, which will be visible through other means.
::mojo::internal::SendMessage(*receiver_, message);
}
void LifecycleControlProxy::CloseServiceManagerConnection(
) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send service_manager::test::mojom::LifecycleControl::CloseServiceManagerConnection");
#endif
const bool kExpectsResponse = false;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kLifecycleControl_CloseServiceManagerConnection_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::LifecycleControl_CloseServiceManagerConnection_Params_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(LifecycleControl::Name_);
message.set_method_name("CloseServiceManagerConnection");
#endif
// This return value may be ignored as false implies the Connector has
// encountered an error, which will be visible through other means.
::mojo::internal::SendMessage(*receiver_, message);
}
class LifecycleControl_Ping_ProxyToResponder : public ::mojo::internal::ProxyToResponder {
public:
static LifecycleControl::PingCallback CreateCallback(
::mojo::Message& message,
std::unique_ptr<mojo::MessageReceiverWithStatus> responder) {
std::unique_ptr<LifecycleControl_Ping_ProxyToResponder> proxy(
new LifecycleControl_Ping_ProxyToResponder(
message, std::move(responder)));
return base::BindOnce(&LifecycleControl_Ping_ProxyToResponder::Run,
std::move(proxy));
}
~LifecycleControl_Ping_ProxyToResponder() {
#if DCHECK_IS_ON()
if (responder_) {
// If we're being destroyed without being run, we want to ensure the
// binding endpoint has been closed. This checks for that asynchronously.
// We pass a bound generated callback to handle the response so that any
// resulting DCHECK stack will have useful interface type information.
responder_->IsConnectedAsync(base::BindOnce(&OnIsConnectedComplete));
}
#endif
}
private:
LifecycleControl_Ping_ProxyToResponder(
::mojo::Message& message,
std::unique_ptr<mojo::MessageReceiverWithStatus> responder)
: ::mojo::internal::ProxyToResponder(message, std::move(responder)) {
}
#if DCHECK_IS_ON()
static void OnIsConnectedComplete(bool connected) {
DCHECK(!connected)
<< "LifecycleControl::PingCallback was destroyed without "
<< "first either being run or its corresponding binding being closed. "
<< "It is an error to drop response callbacks which still correspond "
<< "to an open interface pipe.";
}
#endif
void Run(
);
};
bool LifecycleControl_Ping_ForwardToCallback::Accept(
mojo::Message* message) {
DCHECK(message->is_serialized());
internal::LifecycleControl_Ping_ResponseParams_Data* params =
reinterpret_cast<
internal::LifecycleControl_Ping_ResponseParams_Data*>(
message->mutable_payload());
bool success = true;
LifecycleControl_Ping_ResponseParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
LifecycleControl::Name_, 0, true);
return false;
}
if (!callback_.is_null())
std::move(callback_).Run();
return true;
}
void LifecycleControl_Ping_ProxyToResponder::Run(
) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send reply service_manager::test::mojom::LifecycleControl::Ping");
#endif
const uint32_t kFlags = mojo::Message::kFlagIsResponse |
((is_sync_) ? mojo::Message::kFlagIsSync : 0) |
((true) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kLifecycleControl_Ping_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::LifecycleControl_Ping_ResponseParams_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(LifecycleControl::Name_);
message.set_method_name("Ping");
#endif
message.set_request_id(request_id_);
message.set_trace_nonce(trace_nonce_);
::mojo::internal::SendMessage(*responder_, message);
// SendMessage fails silently if the responder connection is closed,
// or if the message is malformed.
//
// TODO(darin): If Accept() returns false due to a malformed message, that
// may be good reason to close the connection. However, we don't have a
// way to do that from here. We should add a way.
responder_ = nullptr;
}
// static
bool LifecycleControlStubDispatch::Accept(
LifecycleControl* impl,
mojo::Message* message) {
switch (message->header()->name) {
case internal::kLifecycleControl_Ping_Name: {
break;
}
case internal::kLifecycleControl_GracefulQuit_Name: {
DCHECK(message->is_serialized());
internal::LifecycleControl_GracefulQuit_Params_Data* params =
reinterpret_cast<internal::LifecycleControl_GracefulQuit_Params_Data*>(
message->mutable_payload());
bool success = true;
LifecycleControl_GracefulQuit_ParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
LifecycleControl::Name_, 1, false);
return false;
}
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->GracefulQuit();
return true;
}
case internal::kLifecycleControl_Crash_Name: {
DCHECK(message->is_serialized());
internal::LifecycleControl_Crash_Params_Data* params =
reinterpret_cast<internal::LifecycleControl_Crash_Params_Data*>(
message->mutable_payload());
bool success = true;
LifecycleControl_Crash_ParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
LifecycleControl::Name_, 2, false);
return false;
}
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->Crash();
return true;
}
case internal::kLifecycleControl_CloseServiceManagerConnection_Name: {
DCHECK(message->is_serialized());
internal::LifecycleControl_CloseServiceManagerConnection_Params_Data* params =
reinterpret_cast<internal::LifecycleControl_CloseServiceManagerConnection_Params_Data*>(
message->mutable_payload());
bool success = true;
LifecycleControl_CloseServiceManagerConnection_ParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
LifecycleControl::Name_, 3, false);
return false;
}
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->CloseServiceManagerConnection();
return true;
}
}
return false;
}
// static
bool LifecycleControlStubDispatch::AcceptWithResponder(
LifecycleControl* impl,
mojo::Message* message,
std::unique_ptr<mojo::MessageReceiverWithStatus> responder) {
[[maybe_unused]] const bool message_is_sync =
message->has_flag(mojo::Message::kFlagIsSync);
[[maybe_unused]] const uint64_t request_id = message->request_id();
switch (message->header()->name) {
case internal::kLifecycleControl_Ping_Name: {
internal::LifecycleControl_Ping_Params_Data* params =
reinterpret_cast<
internal::LifecycleControl_Ping_Params_Data*>(
message->mutable_payload());
bool success = true;
LifecycleControl_Ping_ParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
LifecycleControl::Name_, 0, false);
return false;
}
LifecycleControl::PingCallback callback =
LifecycleControl_Ping_ProxyToResponder::CreateCallback(
*message, std::move(responder));
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->Ping(std::move(callback));
return true;
}
case internal::kLifecycleControl_GracefulQuit_Name: {
break;
}
case internal::kLifecycleControl_Crash_Name: {
break;
}
case internal::kLifecycleControl_CloseServiceManagerConnection_Name: {
break;
}
}
return false;
}
static const mojo::internal::GenericValidationInfo kLifecycleControlValidationInfo[] = {
{&internal::LifecycleControl_Ping_Params_Data::Validate,
&internal::LifecycleControl_Ping_ResponseParams_Data::Validate},
{&internal::LifecycleControl_GracefulQuit_Params_Data::Validate,
nullptr /* no response */},
{&internal::LifecycleControl_Crash_Params_Data::Validate,
nullptr /* no response */},
{&internal::LifecycleControl_CloseServiceManagerConnection_Params_Data::Validate,
nullptr /* no response */},
};
bool LifecycleControlRequestValidator::Accept(mojo::Message* message) {
const char* name = ::service_manager::test::mojom::LifecycleControl::Name_;
return mojo::internal::ValidateRequestGenericPacked(message, name, kLifecycleControlValidationInfo);
}
bool LifecycleControlResponseValidator::Accept(mojo::Message* message) {
const char* name = ::service_manager::test::mojom::LifecycleControl::Name_;
return mojo::internal::ValidateResponseGenericPacked(message, name, kLifecycleControlValidationInfo);
}
const char Parent::Name_[] = "service_manager.test.mojom.Parent";
std::pair<uint32_t, const void*> Parent::MessageToMethodInfo_(mojo::Message& message) {
switch (message.name()) {
case internal::kParent_ConnectToChild_Name: {
constexpr uint32_t value = base::MD5Hash32Constexpr(
"(Impl)service_manager::test::mojom::Parent::ConnectToChild");
#if BUILDFLAG(IS_FUCHSIA)
return std::make_pair(value, nullptr);
#else
return std::make_pair(value, reinterpret_cast<const void*>(&Parent::ConnectToChild_Sym::IPCSymbol));
#endif // BUILDFLAG(IS_FUCHSIA)
}
case internal::kParent_Quit_Name: {
constexpr uint32_t value = base::MD5Hash32Constexpr(
"(Impl)service_manager::test::mojom::Parent::Quit");
#if BUILDFLAG(IS_FUCHSIA)
return std::make_pair(value, nullptr);
#else
return std::make_pair(value, reinterpret_cast<const void*>(&Parent::Quit_Sym::IPCSymbol));
#endif // BUILDFLAG(IS_FUCHSIA)
}
}
return std::make_pair(0, nullptr);
}
const char* Parent::MessageToMethodName_(mojo::Message& message) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
bool is_response = message.has_flag(mojo::Message::kFlagIsResponse);
if (!is_response) {
switch (message.name()) {
case internal::kParent_ConnectToChild_Name:
return "Receive service_manager::test::mojom::Parent::ConnectToChild";
case internal::kParent_Quit_Name:
return "Receive service_manager::test::mojom::Parent::Quit";
}
} else {
switch (message.name()) {
case internal::kParent_ConnectToChild_Name:
return "Receive reply service_manager::test::mojom::Parent::ConnectToChild";
case internal::kParent_Quit_Name:
return "Receive reply service_manager::test::mojom::Parent::Quit";
}
}
return "Receive unknown mojo message";
#else
bool is_response = message.has_flag(mojo::Message::kFlagIsResponse);
if (is_response) {
return "Receive mojo reply";
} else {
return "Receive mojo message";
}
#endif // BUILDFLAG(MOJO_TRACE_ENABLED)
}
#if !BUILDFLAG(IS_FUCHSIA)
void Parent::ConnectToChild_Sym::IPCSymbol() {
// This method's address is used for indetifiying the mojo method name after
// symblozation. So each IPCSymbol should have a unique address.
NO_CODE_FOLDING();
}
void Parent::Quit_Sym::IPCSymbol() {
// This method's address is used for indetifiying the mojo method name after
// symblozation. So each IPCSymbol should have a unique address.
NO_CODE_FOLDING();
}
# endif // !BUILDFLAG(IS_FUCHSIA)
class Parent_ConnectToChild_ForwardToCallback
: public mojo::MessageReceiver {
public:
Parent_ConnectToChild_ForwardToCallback(
Parent::ConnectToChildCallback callback
) : callback_(std::move(callback)) {
}
Parent_ConnectToChild_ForwardToCallback(const Parent_ConnectToChild_ForwardToCallback&) = delete;
Parent_ConnectToChild_ForwardToCallback& operator=(const Parent_ConnectToChild_ForwardToCallback&) = delete;
bool Accept(mojo::Message* message) override;
private:
Parent::ConnectToChildCallback callback_;
};
ParentProxy::ParentProxy(mojo::MessageReceiverWithResponder* receiver)
: receiver_(receiver) {
}
void ParentProxy::ConnectToChild(
ConnectToChildCallback callback) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send service_manager::test::mojom::Parent::ConnectToChild");
#endif
const bool kExpectsResponse = true;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kParent_ConnectToChild_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::Parent_ConnectToChild_Params_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(Parent::Name_);
message.set_method_name("ConnectToChild");
#endif
std::unique_ptr<mojo::MessageReceiver> responder(
new Parent_ConnectToChild_ForwardToCallback(
std::move(callback)));
::mojo::internal::SendMessage(*receiver_, message, std::move(responder));
}
void ParentProxy::Quit(
) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send service_manager::test::mojom::Parent::Quit");
#endif
const bool kExpectsResponse = false;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kParent_Quit_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::Parent_Quit_Params_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(Parent::Name_);
message.set_method_name("Quit");
#endif
// This return value may be ignored as false implies the Connector has
// encountered an error, which will be visible through other means.
::mojo::internal::SendMessage(*receiver_, message);
}
class Parent_ConnectToChild_ProxyToResponder : public ::mojo::internal::ProxyToResponder {
public:
static Parent::ConnectToChildCallback CreateCallback(
::mojo::Message& message,
std::unique_ptr<mojo::MessageReceiverWithStatus> responder) {
std::unique_ptr<Parent_ConnectToChild_ProxyToResponder> proxy(
new Parent_ConnectToChild_ProxyToResponder(
message, std::move(responder)));
return base::BindOnce(&Parent_ConnectToChild_ProxyToResponder::Run,
std::move(proxy));
}
~Parent_ConnectToChild_ProxyToResponder() {
#if DCHECK_IS_ON()
if (responder_) {
// If we're being destroyed without being run, we want to ensure the
// binding endpoint has been closed. This checks for that asynchronously.
// We pass a bound generated callback to handle the response so that any
// resulting DCHECK stack will have useful interface type information.
responder_->IsConnectedAsync(base::BindOnce(&OnIsConnectedComplete));
}
#endif
}
private:
Parent_ConnectToChild_ProxyToResponder(
::mojo::Message& message,
std::unique_ptr<mojo::MessageReceiverWithStatus> responder)
: ::mojo::internal::ProxyToResponder(message, std::move(responder)) {
}
#if DCHECK_IS_ON()
static void OnIsConnectedComplete(bool connected) {
DCHECK(!connected)
<< "Parent::ConnectToChildCallback was destroyed without "
<< "first either being run or its corresponding binding being closed. "
<< "It is an error to drop response callbacks which still correspond "
<< "to an open interface pipe.";
}
#endif
void Run(
);
};
bool Parent_ConnectToChild_ForwardToCallback::Accept(
mojo::Message* message) {
DCHECK(message->is_serialized());
internal::Parent_ConnectToChild_ResponseParams_Data* params =
reinterpret_cast<
internal::Parent_ConnectToChild_ResponseParams_Data*>(
message->mutable_payload());
bool success = true;
Parent_ConnectToChild_ResponseParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
Parent::Name_, 0, true);
return false;
}
if (!callback_.is_null())
std::move(callback_).Run();
return true;
}
void Parent_ConnectToChild_ProxyToResponder::Run(
) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send reply service_manager::test::mojom::Parent::ConnectToChild");
#endif
const uint32_t kFlags = mojo::Message::kFlagIsResponse |
((is_sync_) ? mojo::Message::kFlagIsSync : 0) |
((true) ? 0 : mojo::Message::kFlagNoInterrupt);
mojo::Message message(
internal::kParent_ConnectToChild_Name, kFlags, 0, 0, nullptr);
mojo::internal::MessageFragment<
::service_manager::test::mojom::internal::Parent_ConnectToChild_ResponseParams_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(Parent::Name_);
message.set_method_name("ConnectToChild");
#endif
message.set_request_id(request_id_);
message.set_trace_nonce(trace_nonce_);
::mojo::internal::SendMessage(*responder_, message);
// SendMessage fails silently if the responder connection is closed,
// or if the message is malformed.
//
// TODO(darin): If Accept() returns false due to a malformed message, that
// may be good reason to close the connection. However, we don't have a
// way to do that from here. We should add a way.
responder_ = nullptr;
}
// static
bool ParentStubDispatch::Accept(
Parent* impl,
mojo::Message* message) {
switch (message->header()->name) {
case internal::kParent_ConnectToChild_Name: {
break;
}
case internal::kParent_Quit_Name: {
DCHECK(message->is_serialized());
internal::Parent_Quit_Params_Data* params =
reinterpret_cast<internal::Parent_Quit_Params_Data*>(
message->mutable_payload());
bool success = true;
Parent_Quit_ParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
Parent::Name_, 1, false);
return false;
}
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->Quit();
return true;
}
}
return false;
}
// static
bool ParentStubDispatch::AcceptWithResponder(
Parent* impl,
mojo::Message* message,
std::unique_ptr<mojo::MessageReceiverWithStatus> responder) {
[[maybe_unused]] const bool message_is_sync =
message->has_flag(mojo::Message::kFlagIsSync);
[[maybe_unused]] const uint64_t request_id = message->request_id();
switch (message->header()->name) {
case internal::kParent_ConnectToChild_Name: {
internal::Parent_ConnectToChild_Params_Data* params =
reinterpret_cast<
internal::Parent_ConnectToChild_Params_Data*>(
message->mutable_payload());
bool success = true;
Parent_ConnectToChild_ParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
Parent::Name_, 0, false);
return false;
}
Parent::ConnectToChildCallback callback =
Parent_ConnectToChild_ProxyToResponder::CreateCallback(
*message, std::move(responder));
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->ConnectToChild(std::move(callback));
return true;
}
case internal::kParent_Quit_Name: {
break;
}
}
return false;
}
static const mojo::internal::GenericValidationInfo kParentValidationInfo[] = {
{&internal::Parent_ConnectToChild_Params_Data::Validate,
&internal::Parent_ConnectToChild_ResponseParams_Data::Validate},
{&internal::Parent_Quit_Params_Data::Validate,
nullptr /* no response */},
};
bool ParentRequestValidator::Accept(mojo::Message* message) {
const char* name = ::service_manager::test::mojom::Parent::Name_;
return mojo::internal::ValidateRequestGenericPacked(message, name, kParentValidationInfo);
}
bool ParentResponseValidator::Accept(mojo::Message* message) {
const char* name = ::service_manager::test::mojom::Parent::Name_;
return mojo::internal::ValidateResponseGenericPacked(message, name, kParentValidationInfo);
}
} // namespace mojom
} // namespace test
} // namespace service_manager
namespace mojo {
} // namespace mojo
// Symbols declared in the -test-utils.h header are defined here instead of a
// separate .cc file to save compile time.
namespace service_manager {
namespace test {
namespace mojom {
void LifecycleControlInterceptorForTesting::Ping(PingCallback callback) {
GetForwardingInterface()->Ping(std::move(callback));
}
void LifecycleControlInterceptorForTesting::GracefulQuit() {
GetForwardingInterface()->GracefulQuit();
}
void LifecycleControlInterceptorForTesting::Crash() {
GetForwardingInterface()->Crash();
}
void LifecycleControlInterceptorForTesting::CloseServiceManagerConnection() {
GetForwardingInterface()->CloseServiceManagerConnection();
}
LifecycleControlAsyncWaiter::LifecycleControlAsyncWaiter(
LifecycleControl* proxy) : proxy_(proxy) {}
LifecycleControlAsyncWaiter::~LifecycleControlAsyncWaiter() = default;
void LifecycleControlAsyncWaiter::Ping(
) {
base::RunLoop loop;
proxy_->Ping(
base::BindOnce(
[](base::RunLoop* loop) {
loop->Quit();
},
&loop));
loop.Run();
}
void ParentInterceptorForTesting::ConnectToChild(ConnectToChildCallback callback) {
GetForwardingInterface()->ConnectToChild(std::move(callback));
}
void ParentInterceptorForTesting::Quit() {
GetForwardingInterface()->Quit();
}
ParentAsyncWaiter::ParentAsyncWaiter(
Parent* proxy) : proxy_(proxy) {}
ParentAsyncWaiter::~ParentAsyncWaiter() = default;
void ParentAsyncWaiter::ConnectToChild(
) {
base::RunLoop loop;
proxy_->ConnectToChild(
base::BindOnce(
[](base::RunLoop* loop) {
loop->Quit();
},
&loop));
loop.Run();
}
} // namespace mojom
} // namespace test
} // namespace service_manager
#if defined(__clang__)
#pragma clang diagnostic pop
#endif