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chromium / chromium / src / out / refs/heads/main / . / win-Debug / gen / services / audio / public / mojom / device_notifications.mojom.cc
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// services/audio/public/mojom/device_notifications.mojom.cc is auto generated by mojom_bindings_generator.py, do not edit
// Copyright 2013 The Chromium Authors
// 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/audio/public/mojom/device_notifications.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/task/thread_pool/thread_pool_instance.h"
#include "base/trace_event/trace_event.h"
#include "base/trace_event/typed_macros.h"
#include "mojo/public/cpp/bindings/features.h"
#include "mojo/public/cpp/bindings/lib/default_construct_tag_internal.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/proxy_to_responder.h"
#include "mojo/public/cpp/bindings/lib/send_message_helper.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/cpp/bindings/urgent_message_scope.h"
#include "mojo/public/interfaces/bindings/interface_control_messages.mojom.h"
#include "third_party/perfetto/include/perfetto/tracing/traced_value.h"
#include "services/audio/public/mojom/device_notifications.mojom-params-data.h"
#include "services/audio/public/mojom/device_notifications.mojom-shared-message-ids.h"
#include "services/audio/public/mojom/device_notifications.mojom-import-headers.h"
#include "services/audio/public/mojom/device_notifications.mojom-test-utils.h"
namespace audio::mojom {
const char DeviceListener::Name_[] = "audio.mojom.DeviceListener";
DeviceListener::IPCStableHashFunction DeviceListener::MessageToMethodInfo_(mojo::Message& message) {
#if !BUILDFLAG(IS_FUCHSIA)
switch (static_cast<messages::DeviceListener>(message.name())) {
case messages::DeviceListener::kDevicesChanged: {
return &DeviceListener::DevicesChanged_Sym::IPCStableHash;
}
}
#endif // !BUILDFLAG(IS_FUCHSIA)
return nullptr;
}
const char* DeviceListener::MessageToMethodName_(mojo::Message& message) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
bool is_response = message.has_flag(mojo::Message::kFlagIsResponse);
if (!is_response) {
switch (static_cast<messages::DeviceListener>(message.name())) {
case messages::DeviceListener::kDevicesChanged:
return "Receive audio::mojom::DeviceListener::DevicesChanged";
}
} else {
switch (static_cast<messages::DeviceListener>(message.name())) {
case messages::DeviceListener::kDevicesChanged:
return "Receive reply audio::mojom::DeviceListener::DevicesChanged";
}
}
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)
uint32_t DeviceListener::DevicesChanged_Sym::IPCStableHash() {
// This method's address is used for indetifiying the mojo method name after
// symbolization. So each IPCStableHash should have a unique address.
// We cannot use NO_CODE_FOLDING() here - it relies on the uniqueness of
// __LINE__ value, which is not unique accross different mojo modules.
// The code below is very similar to NO_CODE_FOLDING, but it uses a unique
// hash instead of __LINE__.
constexpr uint32_t kHash = base::MD5Hash32Constexpr(
"(Impl)audio::mojom::DeviceListener::DevicesChanged");
const uint32_t hash = kHash;
base::debug::Alias(&hash);
return hash;
}
# endif // !BUILDFLAG(IS_FUCHSIA)
DeviceListenerProxy::DeviceListenerProxy(mojo::MessageReceiverWithResponder* receiver)
: receiver_(receiver) {
}
void DeviceListenerProxy::DevicesChanged(
) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT0("mojom", "Send audio::mojom::DeviceListener::DevicesChanged");
#endif
const bool kExpectsResponse = false;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const bool is_urgent = false;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt) |
((is_urgent) ? mojo::Message::kFlagIsUrgent : 0);
const size_t estimated_payload_size =
0;
mojo::Message message(
base::to_underlying(messages::DeviceListener::kDevicesChanged), kFlags, estimated_payload_size);
mojo::internal::MessageFragment<
::audio::mojom::internal::DeviceListener_DevicesChanged_Params_Data> params(
message);
params.Allocate();
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(DeviceListener::Name_);
message.set_method_name("DevicesChanged");
#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::SendMojoMessage(*receiver_, message);
}
// static
bool DeviceListenerStubDispatch::Accept(
DeviceListener* impl,
mojo::Message* message) {
switch (static_cast<messages::DeviceListener>(message->header()->name)) {
case messages::DeviceListener::kDevicesChanged: {
DCHECK(message->is_serialized());
internal::DeviceListener_DevicesChanged_Params_Data* params =
reinterpret_cast<internal::DeviceListener_DevicesChanged_Params_Data*>(
message->mutable_payload());
// Validation for DeviceListener.0
bool success = true;
DeviceListener_DevicesChanged_ParamsDataView input_data_view(params, message);
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
DeviceListener::Name_, 0, false);
return false;
}
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->DevicesChanged( );
return true;
}
}
return false;
}
// static
bool DeviceListenerStubDispatch::AcceptWithResponder(
DeviceListener* 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 (static_cast<messages::DeviceListener>(message->header()->name)) {
case messages::DeviceListener::kDevicesChanged: {
break;
}
}
return false;
}
namespace {
} // namespace
static const mojo::internal::GenericValidationInfo kDeviceListenerValidationInfo[] = {
{ &internal::DeviceListener_DevicesChanged_Params_Data::Validate,
nullptr /* no response */},
};
bool DeviceListenerRequestValidator::Accept(mojo::Message* message) {
const char* name = ::audio::mojom::DeviceListener::Name_;
return mojo::internal::ValidateRequestGenericPacked(message, name, kDeviceListenerValidationInfo);
}
const char DeviceNotifier::Name_[] = "audio.mojom.DeviceNotifier";
DeviceNotifier::IPCStableHashFunction DeviceNotifier::MessageToMethodInfo_(mojo::Message& message) {
#if !BUILDFLAG(IS_FUCHSIA)
switch (static_cast<messages::DeviceNotifier>(message.name())) {
case messages::DeviceNotifier::kRegisterListener: {
return &DeviceNotifier::RegisterListener_Sym::IPCStableHash;
}
}
#endif // !BUILDFLAG(IS_FUCHSIA)
return nullptr;
}
const char* DeviceNotifier::MessageToMethodName_(mojo::Message& message) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
bool is_response = message.has_flag(mojo::Message::kFlagIsResponse);
if (!is_response) {
switch (static_cast<messages::DeviceNotifier>(message.name())) {
case messages::DeviceNotifier::kRegisterListener:
return "Receive audio::mojom::DeviceNotifier::RegisterListener";
}
} else {
switch (static_cast<messages::DeviceNotifier>(message.name())) {
case messages::DeviceNotifier::kRegisterListener:
return "Receive reply audio::mojom::DeviceNotifier::RegisterListener";
}
}
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)
uint32_t DeviceNotifier::RegisterListener_Sym::IPCStableHash() {
// This method's address is used for indetifiying the mojo method name after
// symbolization. So each IPCStableHash should have a unique address.
// We cannot use NO_CODE_FOLDING() here - it relies on the uniqueness of
// __LINE__ value, which is not unique accross different mojo modules.
// The code below is very similar to NO_CODE_FOLDING, but it uses a unique
// hash instead of __LINE__.
constexpr uint32_t kHash = base::MD5Hash32Constexpr(
"(Impl)audio::mojom::DeviceNotifier::RegisterListener");
const uint32_t hash = kHash;
base::debug::Alias(&hash);
return hash;
}
# endif // !BUILDFLAG(IS_FUCHSIA)
DeviceNotifierProxy::DeviceNotifierProxy(mojo::MessageReceiverWithResponder* receiver)
: receiver_(receiver) {
}
void DeviceNotifierProxy::RegisterListener(
::mojo::PendingRemote<DeviceListener> in_listener) {
#if BUILDFLAG(MOJO_TRACE_ENABLED)
TRACE_EVENT1(
"mojom", "Send audio::mojom::DeviceNotifier::RegisterListener", "input_parameters",
[&](perfetto::TracedValue context){
auto dict = std::move(context).WriteDictionary();
perfetto::WriteIntoTracedValueWithFallback(
dict.AddItem("listener"), in_listener,
"<value of type ::mojo::PendingRemote<DeviceListener>>");
});
#endif
const bool kExpectsResponse = false;
const bool kIsSync = false;
const bool kAllowInterrupt = true;
const bool is_urgent = false;
const uint32_t kFlags =
((kExpectsResponse) ? mojo::Message::kFlagExpectsResponse : 0) |
((kIsSync) ? mojo::Message::kFlagIsSync : 0) |
((kAllowInterrupt) ? 0 : mojo::Message::kFlagNoInterrupt) |
((is_urgent) ? mojo::Message::kFlagIsUrgent : 0);
const size_t estimated_payload_size =
0;
mojo::Message message(
base::to_underlying(messages::DeviceNotifier::kRegisterListener), kFlags, estimated_payload_size);
mojo::internal::MessageFragment<
::audio::mojom::internal::DeviceNotifier_RegisterListener_Params_Data> params(
message);
params.Allocate();
mojo::internal::Serialize<mojo::InterfacePtrDataView<::audio::mojom::DeviceListenerInterfaceBase>>(
in_listener, &params->listener, &params.message());
MOJO_INTERNAL_DLOG_SERIALIZATION_WARNING(
!mojo::internal::IsHandleOrInterfaceValid(params->listener),
mojo::internal::VALIDATION_ERROR_UNEXPECTED_INVALID_HANDLE,
"invalid listener in DeviceNotifier.RegisterListener request");
#if defined(ENABLE_IPC_FUZZER)
message.set_interface_name(DeviceNotifier::Name_);
message.set_method_name("RegisterListener");
#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::SendMojoMessage(*receiver_, message);
}
// static
bool DeviceNotifierStubDispatch::Accept(
DeviceNotifier* impl,
mojo::Message* message) {
switch (static_cast<messages::DeviceNotifier>(message->header()->name)) {
case messages::DeviceNotifier::kRegisterListener: {
DCHECK(message->is_serialized());
internal::DeviceNotifier_RegisterListener_Params_Data* params =
reinterpret_cast<internal::DeviceNotifier_RegisterListener_Params_Data*>(
message->mutable_payload());
// Validation for DeviceNotifier.0
bool success = true;
::mojo::PendingRemote<DeviceListener> p_listener{};
DeviceNotifier_RegisterListener_ParamsDataView input_data_view(params, message);
if (success) {
p_listener =
input_data_view.TakeListener<decltype(p_listener)>();
}
if (!success) {
ReportValidationErrorForMessage(
message,
mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
DeviceNotifier::Name_, 0, false);
return false;
}
// A null |impl| means no implementation was bound.
DCHECK(impl);
impl->RegisterListener(
std::move(p_listener));
return true;
}
}
return false;
}
// static
bool DeviceNotifierStubDispatch::AcceptWithResponder(
DeviceNotifier* 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 (static_cast<messages::DeviceNotifier>(message->header()->name)) {
case messages::DeviceNotifier::kRegisterListener: {
break;
}
}
return false;
}
namespace {
} // namespace
static const mojo::internal::GenericValidationInfo kDeviceNotifierValidationInfo[] = {
{ &internal::DeviceNotifier_RegisterListener_Params_Data::Validate,
nullptr /* no response */},
};
bool DeviceNotifierRequestValidator::Accept(mojo::Message* message) {
const char* name = ::audio::mojom::DeviceNotifier::Name_;
return mojo::internal::ValidateRequestGenericPacked(message, name, kDeviceNotifierValidationInfo);
}
} // audio::mojom
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 audio::mojom {
void DeviceListenerInterceptorForTesting::DevicesChanged() {
GetForwardingInterface()->DevicesChanged();
}
DeviceListenerAsyncWaiter::DeviceListenerAsyncWaiter(
DeviceListener* proxy) : proxy_(proxy) {}
DeviceListenerAsyncWaiter::~DeviceListenerAsyncWaiter() = default;
void DeviceNotifierInterceptorForTesting::RegisterListener(::mojo::PendingRemote<DeviceListener> listener) {
GetForwardingInterface()->RegisterListener(
std::move(listener)
);
}
DeviceNotifierAsyncWaiter::DeviceNotifierAsyncWaiter(
DeviceNotifier* proxy) : proxy_(proxy) {}
DeviceNotifierAsyncWaiter::~DeviceNotifierAsyncWaiter() = default;
} // audio::mojom
#if defined(__clang__)
#pragma clang diagnostic pop
#endif