out/build/arm64-generic/usr/include/cros-camera/mojo/iioservice/mojo/cros_sensor_service.mojom.cc - chromiumos/codesearch/gen/arm64-generic - Git at Google

 // iioservice/mojo/cros_sensor_service.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 "iioservice/mojo/cros_sensor_service.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 "iioservice/mojo/cros_sensor_service.mojom-params-data.h"
 #include "iioservice/mojo/cros_sensor_service.mojom-shared-message-ids.h"

 #include "iioservice/mojo/cros_sensor_service.mojom-import-headers.h"
 #include "iioservice/mojo/cros_sensor_service.mojom-test-utils.h"


 namespace cros::mojom {
 const char SensorHalServer::Name_[] = "cros.mojom.SensorHalServer";

 SensorHalServer::IPCStableHashFunction SensorHalServer::MessageToMethodInfo_(mojo::Message& message) {
 #if !BUILDFLAG(IS_FUCHSIA)
   switch (static_cast<messages::SensorHalServer>(message.name())) {
     case messages::SensorHalServer::kCreateChannel: {
       return &SensorHalServer::CreateChannel_Sym::IPCStableHash;
     }
   }
 #endif  // !BUILDFLAG(IS_FUCHSIA)
   return nullptr;
 }


 const char* SensorHalServer::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::SensorHalServer>(message.name())) {
       case messages::SensorHalServer::kCreateChannel:
             return "Receive cros::mojom::SensorHalServer::CreateChannel";
     }
   } else {
     switch (static_cast<messages::SensorHalServer>(message.name())) {
       case messages::SensorHalServer::kCreateChannel:
             return "Receive reply cros::mojom::SensorHalServer::CreateChannel";
     }
   }
   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 SensorHalServer::CreateChannel_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)cros::mojom::SensorHalServer::CreateChannel");
   const uint32_t hash = kHash;
   base::debug::Alias(&hash);
   return hash;
 }
 # endif // !BUILDFLAG(IS_FUCHSIA)

 SensorHalServerProxy::SensorHalServerProxy(mojo::MessageReceiverWithResponder* receiver)
     : receiver_(receiver) {
 }

 void SensorHalServerProxy::CreateChannel(
     ::mojo::PendingReceiver<::cros::mojom::SensorService> in_sensor_service_request) {
 #if BUILDFLAG(MOJO_TRACE_ENABLED)
   TRACE_EVENT1(
     "mojom", "Send cros::mojom::SensorHalServer::CreateChannel", "input_parameters",
     [&](perfetto::TracedValue context){
       auto dict = std::move(context).WriteDictionary();
       perfetto::WriteIntoTracedValueWithFallback(
            dict.AddItem("sensor_service_request"), in_sensor_service_request,
                         "<value of type ::mojo::PendingReceiver<::cros::mojom::SensorService>>");
    });
 #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::SensorHalServer::kCreateChannel), kFlags, estimated_payload_size);
   mojo::internal::MessageFragment<
       ::cros::mojom::internal::SensorHalServer_CreateChannel_Params_Data> params(
           message);
   params.Allocate();
   mojo::internal::Serialize<mojo::InterfaceRequestDataView<::cros::mojom::SensorServiceInterfaceBase>>(
       in_sensor_service_request, &params->sensor_service_request, &params.message());
   MOJO_INTERNAL_DLOG_SERIALIZATION_WARNING(
       !mojo::internal::IsHandleOrInterfaceValid(params->sensor_service_request),
       mojo::internal::VALIDATION_ERROR_UNEXPECTED_INVALID_HANDLE,
       "invalid sensor_service_request in SensorHalServer.CreateChannel request");

 #if defined(ENABLE_IPC_FUZZER)
   message.set_interface_name(SensorHalServer::Name_);
   message.set_method_name("CreateChannel");
 #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 SensorHalServerStubDispatch::Accept(
     SensorHalServer* impl,
     mojo::Message* message) {
   switch (static_cast<messages::SensorHalServer>(message->header()->name)) {
     case messages::SensorHalServer::kCreateChannel: {
       DCHECK(message->is_serialized());
       internal::SensorHalServer_CreateChannel_Params_Data* params =
           reinterpret_cast<internal::SensorHalServer_CreateChannel_Params_Data*>(
               message->mutable_payload());


       // Validation for SensorHalServer.0
       bool success = true;
       ::mojo::PendingReceiver<::cros::mojom::SensorService> p_sensor_service_request{};
       SensorHalServer_CreateChannel_ParamsDataView input_data_view(params, message);

       if (success) {
         p_sensor_service_request =
             input_data_view.TakeSensorServiceRequest<decltype(p_sensor_service_request)>();
       }
       if (!success) {
         ReportValidationErrorForMessage(
             message,
             mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
             SensorHalServer::Name_, 0, false);
         return false;
       }
       // A null |impl| means no implementation was bound.
       DCHECK(impl);
       impl->CreateChannel(
         std::move(p_sensor_service_request));
       return true;
     }
   }
   return false;
 }

 // static
 bool SensorHalServerStubDispatch::AcceptWithResponder(
     SensorHalServer* 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::SensorHalServer>(message->header()->name)) {
     case messages::SensorHalServer::kCreateChannel: {
       break;
     }
   }
   return false;
 }
 namespace {
 }  // namespace
 static const mojo::internal::GenericValidationInfo kSensorHalServerValidationInfo[] = {
     { &internal::SensorHalServer_CreateChannel_Params_Data::Validate,
      nullptr /* no response */},
 };

 bool SensorHalServerRequestValidator::Accept(mojo::Message* message) {
   const char* name = ::cros::mojom::SensorHalServer::Name_;
   return mojo::internal::ValidateRequestGenericPacked(message, name, kSensorHalServerValidationInfo);
 }

 const char SensorHalClient::Name_[] = "cros.mojom.SensorHalClient";

 SensorHalClient::IPCStableHashFunction SensorHalClient::MessageToMethodInfo_(mojo::Message& message) {
 #if !BUILDFLAG(IS_FUCHSIA)
   switch (static_cast<messages::SensorHalClient>(message.name())) {
     case messages::SensorHalClient::kSetUpChannel: {
       return &SensorHalClient::SetUpChannel_Sym::IPCStableHash;
     }
   }
 #endif  // !BUILDFLAG(IS_FUCHSIA)
   return nullptr;
 }


 const char* SensorHalClient::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::SensorHalClient>(message.name())) {
       case messages::SensorHalClient::kSetUpChannel:
             return "Receive cros::mojom::SensorHalClient::SetUpChannel";
     }
   } else {
     switch (static_cast<messages::SensorHalClient>(message.name())) {
       case messages::SensorHalClient::kSetUpChannel:
             return "Receive reply cros::mojom::SensorHalClient::SetUpChannel";
     }
   }
   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 SensorHalClient::SetUpChannel_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)cros::mojom::SensorHalClient::SetUpChannel");
   const uint32_t hash = kHash;
   base::debug::Alias(&hash);
   return hash;
 }
 # endif // !BUILDFLAG(IS_FUCHSIA)

 SensorHalClientProxy::SensorHalClientProxy(mojo::MessageReceiverWithResponder* receiver)
     : receiver_(receiver) {
 }

 void SensorHalClientProxy::SetUpChannel(
     ::mojo::PendingRemote<::cros::mojom::SensorService> in_sensor_service_ptr) {
 #if BUILDFLAG(MOJO_TRACE_ENABLED)
   TRACE_EVENT1(
     "mojom", "Send cros::mojom::SensorHalClient::SetUpChannel", "input_parameters",
     [&](perfetto::TracedValue context){
       auto dict = std::move(context).WriteDictionary();
       perfetto::WriteIntoTracedValueWithFallback(
            dict.AddItem("sensor_service_ptr"), in_sensor_service_ptr,
                         "<value of type ::mojo::PendingRemote<::cros::mojom::SensorService>>");
    });
 #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::SensorHalClient::kSetUpChannel), kFlags, estimated_payload_size);
   mojo::internal::MessageFragment<
       ::cros::mojom::internal::SensorHalClient_SetUpChannel_Params_Data> params(
           message);
   params.Allocate();
   mojo::internal::Serialize<mojo::InterfacePtrDataView<::cros::mojom::SensorServiceInterfaceBase>>(
       in_sensor_service_ptr, &params->sensor_service_ptr, &params.message());
   MOJO_INTERNAL_DLOG_SERIALIZATION_WARNING(
       !mojo::internal::IsHandleOrInterfaceValid(params->sensor_service_ptr),
       mojo::internal::VALIDATION_ERROR_UNEXPECTED_INVALID_HANDLE,
       "invalid sensor_service_ptr in SensorHalClient.SetUpChannel request");

 #if defined(ENABLE_IPC_FUZZER)
   message.set_interface_name(SensorHalClient::Name_);
   message.set_method_name("SetUpChannel");
 #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 SensorHalClientStubDispatch::Accept(
     SensorHalClient* impl,
     mojo::Message* message) {
   switch (static_cast<messages::SensorHalClient>(message->header()->name)) {
     case messages::SensorHalClient::kSetUpChannel: {
       DCHECK(message->is_serialized());
       internal::SensorHalClient_SetUpChannel_Params_Data* params =
           reinterpret_cast<internal::SensorHalClient_SetUpChannel_Params_Data*>(
               message->mutable_payload());


       // Validation for SensorHalClient.0
       bool success = true;
       ::mojo::PendingRemote<::cros::mojom::SensorService> p_sensor_service_ptr{};
       SensorHalClient_SetUpChannel_ParamsDataView input_data_view(params, message);

       if (success) {
         p_sensor_service_ptr =
             input_data_view.TakeSensorServicePtr<decltype(p_sensor_service_ptr)>();
       }
       if (!success) {
         ReportValidationErrorForMessage(
             message,
             mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
             SensorHalClient::Name_, 0, false);
         return false;
       }
       // A null |impl| means no implementation was bound.
       DCHECK(impl);
       impl->SetUpChannel(
         std::move(p_sensor_service_ptr));
       return true;
     }
   }
   return false;
 }

 // static
 bool SensorHalClientStubDispatch::AcceptWithResponder(
     SensorHalClient* 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::SensorHalClient>(message->header()->name)) {
     case messages::SensorHalClient::kSetUpChannel: {
       break;
     }
   }
   return false;
 }
 namespace {
 }  // namespace
 static const mojo::internal::GenericValidationInfo kSensorHalClientValidationInfo[] = {
     { &internal::SensorHalClient_SetUpChannel_Params_Data::Validate,
      nullptr /* no response */},
 };

 bool SensorHalClientRequestValidator::Accept(mojo::Message* message) {
   const char* name = ::cros::mojom::SensorHalClient::Name_;
   return mojo::internal::ValidateRequestGenericPacked(message, name, kSensorHalClientValidationInfo);
 }


 }  // cros::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 cros::mojom {


 void SensorHalServerInterceptorForTesting::CreateChannel(::mojo::PendingReceiver<::cros::mojom::SensorService> sensor_service_request) {
   GetForwardingInterface()->CreateChannel(std::move(sensor_service_request));
 }
 SensorHalServerAsyncWaiter::SensorHalServerAsyncWaiter(
     SensorHalServer* proxy) : proxy_(proxy) {}

 SensorHalServerAsyncWaiter::~SensorHalServerAsyncWaiter() = default;


 void SensorHalClientInterceptorForTesting::SetUpChannel(::mojo::PendingRemote<::cros::mojom::SensorService> sensor_service_ptr) {
   GetForwardingInterface()->SetUpChannel(std::move(sensor_service_ptr));
 }
 SensorHalClientAsyncWaiter::SensorHalClientAsyncWaiter(
     SensorHalClient* proxy) : proxy_(proxy) {}

 SensorHalClientAsyncWaiter::~SensorHalClientAsyncWaiter() = default;


 }  // cros::mojom


 #if defined(__clang__)
 #pragma clang diagnostic pop
 #endif
	// iioservice/mojo/cros_sensor_service.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 "iioservice/mojo/cros_sensor_service.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 "iioservice/mojo/cros_sensor_service.mojom-params-data.h"
	#include "iioservice/mojo/cros_sensor_service.mojom-shared-message-ids.h"

	#include "iioservice/mojo/cros_sensor_service.mojom-import-headers.h"
	#include "iioservice/mojo/cros_sensor_service.mojom-test-utils.h"


	namespace cros::mojom {
	const char SensorHalServer::Name_[] = "cros.mojom.SensorHalServer";

	SensorHalServer::IPCStableHashFunction SensorHalServer::MessageToMethodInfo_(mojo::Message& message) {
	#if !BUILDFLAG(IS_FUCHSIA)
	switch (static_cast<messages::SensorHalServer>(message.name())) {
	case messages::SensorHalServer::kCreateChannel: {
	return &SensorHalServer::CreateChannel_Sym::IPCStableHash;
	}
	}
	#endif // !BUILDFLAG(IS_FUCHSIA)
	return nullptr;
	}


	const char* SensorHalServer::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::SensorHalServer>(message.name())) {
	case messages::SensorHalServer::kCreateChannel:
	return "Receive cros::mojom::SensorHalServer::CreateChannel";
	}
	} else {
	switch (static_cast<messages::SensorHalServer>(message.name())) {
	case messages::SensorHalServer::kCreateChannel:
	return "Receive reply cros::mojom::SensorHalServer::CreateChannel";
	}
	}
	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 SensorHalServer::CreateChannel_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)cros::mojom::SensorHalServer::CreateChannel");
	const uint32_t hash = kHash;
	base::debug::Alias(&hash);
	return hash;
	}
	# endif // !BUILDFLAG(IS_FUCHSIA)

	SensorHalServerProxy::SensorHalServerProxy(mojo::MessageReceiverWithResponder* receiver)
	: receiver_(receiver) {
	}

	void SensorHalServerProxy::CreateChannel(
	::mojo::PendingReceiver<::cros::mojom::SensorService> in_sensor_service_request) {
	#if BUILDFLAG(MOJO_TRACE_ENABLED)
	TRACE_EVENT1(
	"mojom", "Send cros::mojom::SensorHalServer::CreateChannel", "input_parameters",
	[&](perfetto::TracedValue context){
	auto dict = std::move(context).WriteDictionary();
	perfetto::WriteIntoTracedValueWithFallback(
	dict.AddItem("sensor_service_request"), in_sensor_service_request,
	"<value of type ::mojo::PendingReceiver<::cros::mojom::SensorService>>");
	});
	#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::SensorHalServer::kCreateChannel), kFlags, estimated_payload_size);
	mojo::internal::MessageFragment<
	::cros::mojom::internal::SensorHalServer_CreateChannel_Params_Data> params(
	message);
	params.Allocate();
	mojo::internal::Serialize<mojo::InterfaceRequestDataView<::cros::mojom::SensorServiceInterfaceBase>>(
	in_sensor_service_request, &params->sensor_service_request, &params.message());
	MOJO_INTERNAL_DLOG_SERIALIZATION_WARNING(
	!mojo::internal::IsHandleOrInterfaceValid(params->sensor_service_request),
	mojo::internal::VALIDATION_ERROR_UNEXPECTED_INVALID_HANDLE,
	"invalid sensor_service_request in SensorHalServer.CreateChannel request");

	#if defined(ENABLE_IPC_FUZZER)
	message.set_interface_name(SensorHalServer::Name_);
	message.set_method_name("CreateChannel");
	#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 SensorHalServerStubDispatch::Accept(
	SensorHalServer* impl,
	mojo::Message* message) {
	switch (static_cast<messages::SensorHalServer>(message->header()->name)) {
	case messages::SensorHalServer::kCreateChannel: {
	DCHECK(message->is_serialized());
	internal::SensorHalServer_CreateChannel_Params_Data* params =
	reinterpret_cast<internal::SensorHalServer_CreateChannel_Params_Data*>(
	message->mutable_payload());


	// Validation for SensorHalServer.0
	bool success = true;
	::mojo::PendingReceiver<::cros::mojom::SensorService> p_sensor_service_request{};
	SensorHalServer_CreateChannel_ParamsDataView input_data_view(params, message);

	if (success) {
	p_sensor_service_request =
	input_data_view.TakeSensorServiceRequest<decltype(p_sensor_service_request)>();
	}
	if (!success) {
	ReportValidationErrorForMessage(
	message,
	mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
	SensorHalServer::Name_, 0, false);
	return false;
	}
	// A null \|impl\| means no implementation was bound.
	DCHECK(impl);
	impl->CreateChannel(
	std::move(p_sensor_service_request));
	return true;
	}
	}
	return false;
	}

	// static
	bool SensorHalServerStubDispatch::AcceptWithResponder(
	SensorHalServer* 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::SensorHalServer>(message->header()->name)) {
	case messages::SensorHalServer::kCreateChannel: {
	break;
	}
	}
	return false;
	}
	namespace {
	} // namespace
	static const mojo::internal::GenericValidationInfo kSensorHalServerValidationInfo[] = {
	{ &internal::SensorHalServer_CreateChannel_Params_Data::Validate,
	nullptr /* no response */},
	};

	bool SensorHalServerRequestValidator::Accept(mojo::Message* message) {
	const char* name = ::cros::mojom::SensorHalServer::Name_;
	return mojo::internal::ValidateRequestGenericPacked(message, name, kSensorHalServerValidationInfo);
	}

	const char SensorHalClient::Name_[] = "cros.mojom.SensorHalClient";

	SensorHalClient::IPCStableHashFunction SensorHalClient::MessageToMethodInfo_(mojo::Message& message) {
	#if !BUILDFLAG(IS_FUCHSIA)
	switch (static_cast<messages::SensorHalClient>(message.name())) {
	case messages::SensorHalClient::kSetUpChannel: {
	return &SensorHalClient::SetUpChannel_Sym::IPCStableHash;
	}
	}
	#endif // !BUILDFLAG(IS_FUCHSIA)
	return nullptr;
	}


	const char* SensorHalClient::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::SensorHalClient>(message.name())) {
	case messages::SensorHalClient::kSetUpChannel:
	return "Receive cros::mojom::SensorHalClient::SetUpChannel";
	}
	} else {
	switch (static_cast<messages::SensorHalClient>(message.name())) {
	case messages::SensorHalClient::kSetUpChannel:
	return "Receive reply cros::mojom::SensorHalClient::SetUpChannel";
	}
	}
	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 SensorHalClient::SetUpChannel_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)cros::mojom::SensorHalClient::SetUpChannel");
	const uint32_t hash = kHash;
	base::debug::Alias(&hash);
	return hash;
	}
	# endif // !BUILDFLAG(IS_FUCHSIA)

	SensorHalClientProxy::SensorHalClientProxy(mojo::MessageReceiverWithResponder* receiver)
	: receiver_(receiver) {
	}

	void SensorHalClientProxy::SetUpChannel(
	::mojo::PendingRemote<::cros::mojom::SensorService> in_sensor_service_ptr) {
	#if BUILDFLAG(MOJO_TRACE_ENABLED)
	TRACE_EVENT1(
	"mojom", "Send cros::mojom::SensorHalClient::SetUpChannel", "input_parameters",
	[&](perfetto::TracedValue context){
	auto dict = std::move(context).WriteDictionary();
	perfetto::WriteIntoTracedValueWithFallback(
	dict.AddItem("sensor_service_ptr"), in_sensor_service_ptr,
	"<value of type ::mojo::PendingRemote<::cros::mojom::SensorService>>");
	});
	#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::SensorHalClient::kSetUpChannel), kFlags, estimated_payload_size);
	mojo::internal::MessageFragment<
	::cros::mojom::internal::SensorHalClient_SetUpChannel_Params_Data> params(
	message);
	params.Allocate();
	mojo::internal::Serialize<mojo::InterfacePtrDataView<::cros::mojom::SensorServiceInterfaceBase>>(
	in_sensor_service_ptr, &params->sensor_service_ptr, &params.message());
	MOJO_INTERNAL_DLOG_SERIALIZATION_WARNING(
	!mojo::internal::IsHandleOrInterfaceValid(params->sensor_service_ptr),
	mojo::internal::VALIDATION_ERROR_UNEXPECTED_INVALID_HANDLE,
	"invalid sensor_service_ptr in SensorHalClient.SetUpChannel request");

	#if defined(ENABLE_IPC_FUZZER)
	message.set_interface_name(SensorHalClient::Name_);
	message.set_method_name("SetUpChannel");
	#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 SensorHalClientStubDispatch::Accept(
	SensorHalClient* impl,
	mojo::Message* message) {
	switch (static_cast<messages::SensorHalClient>(message->header()->name)) {
	case messages::SensorHalClient::kSetUpChannel: {
	DCHECK(message->is_serialized());
	internal::SensorHalClient_SetUpChannel_Params_Data* params =
	reinterpret_cast<internal::SensorHalClient_SetUpChannel_Params_Data*>(
	message->mutable_payload());


	// Validation for SensorHalClient.0
	bool success = true;
	::mojo::PendingRemote<::cros::mojom::SensorService> p_sensor_service_ptr{};
	SensorHalClient_SetUpChannel_ParamsDataView input_data_view(params, message);

	if (success) {
	p_sensor_service_ptr =
	input_data_view.TakeSensorServicePtr<decltype(p_sensor_service_ptr)>();
	}
	if (!success) {
	ReportValidationErrorForMessage(
	message,
	mojo::internal::VALIDATION_ERROR_DESERIALIZATION_FAILED,
	SensorHalClient::Name_, 0, false);
	return false;
	}
	// A null \|impl\| means no implementation was bound.
	DCHECK(impl);
	impl->SetUpChannel(
	std::move(p_sensor_service_ptr));
	return true;
	}
	}
	return false;
	}

	// static
	bool SensorHalClientStubDispatch::AcceptWithResponder(
	SensorHalClient* 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::SensorHalClient>(message->header()->name)) {
	case messages::SensorHalClient::kSetUpChannel: {
	break;
	}
	}
	return false;
	}
	namespace {
	} // namespace
	static const mojo::internal::GenericValidationInfo kSensorHalClientValidationInfo[] = {
	{ &internal::SensorHalClient_SetUpChannel_Params_Data::Validate,
	nullptr /* no response */},
	};

	bool SensorHalClientRequestValidator::Accept(mojo::Message* message) {
	const char* name = ::cros::mojom::SensorHalClient::Name_;
	return mojo::internal::ValidateRequestGenericPacked(message, name, kSensorHalClientValidationInfo);
	}



	} // cros::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 cros::mojom {


	void SensorHalServerInterceptorForTesting::CreateChannel(::mojo::PendingReceiver<::cros::mojom::SensorService> sensor_service_request) {
	GetForwardingInterface()->CreateChannel(std::move(sensor_service_request));
	}
	SensorHalServerAsyncWaiter::SensorHalServerAsyncWaiter(
	SensorHalServer* proxy) : proxy_(proxy) {}

	SensorHalServerAsyncWaiter::~SensorHalServerAsyncWaiter() = default;




	void SensorHalClientInterceptorForTesting::SetUpChannel(::mojo::PendingRemote<::cros::mojom::SensorService> sensor_service_ptr) {
	GetForwardingInterface()->SetUpChannel(std::move(sensor_service_ptr));
	}
	SensorHalClientAsyncWaiter::SensorHalClientAsyncWaiter(
	SensorHalClient* proxy) : proxy_(proxy) {}

	SensorHalClientAsyncWaiter::~SensorHalClientAsyncWaiter() = default;






	} // cros::mojom


	#if defined(__clang__)
	#pragma clang diagnostic pop
	#endif