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fuchsia / fuchsia / 6b4c55d4e75bf976fcfbc3c656a73fbaeda65340 / . / tools / fidl / fidlgen_llcpp / goldens / driver_two_way_driver_wire_messaging.h.golden
blob: 976f813a53e05101766d38c6eea7187566cebea2 [file] [log] [blame]
// WARNING: This file is machine generated by fidlgen.
#pragma once
#include <fidl/test.drivertwoway/cpp/markers.h>
#include <fidl/test.drivertwoway/cpp/wire_types.h>
#include <lib/fidl_driver/cpp/wire_messaging.h>
#ifdef __Fuchsia__
#include <lib/fidl/llcpp/connect_service.h>
#include <lib/fidl/llcpp/server.h>
#include <lib/fidl/llcpp/service_handler_interface.h>
#include <lib/fidl/llcpp/sync_call.h>
#include <lib/fidl_driver/cpp/server.h>
#include <lib/fidl_driver/cpp/wire_client.h>
#endif // __Fuchsia__
namespace test_drivertwoway {
class TwoWay;
__LOCAL extern "C" const fidl_type_t test_drivertwoway_TwoWayAddRequestTable;
__LOCAL extern "C" const fidl_type_t test_drivertwoway_TwoWayAddTopResponseTable;
} // namespace test_drivertwoway
template <>
struct ::fidl::internal::WireOrdinal<::test_drivertwoway::TwoWay::Add> final {
static constexpr uint64_t value = 989730524426044687lu;
};
namespace test_drivertwoway {
} // namespace test_drivertwoway
#ifdef __Fuchsia__
template <>
struct ::fidl::internal::ProtocolDetails<::test_drivertwoway::TwoWay> {
};
#endif // __Fuchsia__
#ifdef __Fuchsia__
template <>
struct ::fidl::internal::WireServerDispatcher<::test_drivertwoway::TwoWay> final {
WireServerDispatcher() = delete;
static ::fidl::DispatchResult TryDispatch(::fdf::WireServer<::test_drivertwoway::TwoWay>* impl, ::fidl::IncomingMessage& msg,
internal::MessageStorageViewBase* storage_view,
::fidl::Transaction* txn);
static void Dispatch(::fdf::WireServer<::test_drivertwoway::TwoWay>* impl, ::fidl::IncomingMessage&& msg,
internal::MessageStorageViewBase* storage_view,
::fidl::Transaction* txn);
private:
static const ::fidl::internal::MethodEntry entries_[];
static const ::fidl::internal::MethodEntry* entries_end_;
};
#endif // __Fuchsia__
template <>
struct ::fidl::WireRequest<::test_drivertwoway::TwoWay::Add> final : public ::test_drivertwoway::wire::TwoWayAddRequest {
explicit WireRequest(::test_drivertwoway::wire::TwoWayAddRequest base) : ::test_drivertwoway::wire::TwoWayAddRequest(std::move(base)) {}
explicit WireRequest(uint16_t addend1, uint16_t addend2) : ::test_drivertwoway::wire::TwoWayAddRequest{.addend1 = std::move(addend1), .addend2 = std::move(addend2)} {}
WireRequest() = default;
using ResponseType = ::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>;
};
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public WireStructCodingTraitsBase<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t inline_size = 4;
static void Encode(
internal::WireEncoder* encoder, ::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
fidl::internal::WireCodingTraits<::test_drivertwoway::wire::TwoWayAddRequest, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>::Encode(
encoder, value, position, recursion_depth);
}
static void Decode(
internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
fidl::internal::WireCodingTraits<::test_drivertwoway::wire::TwoWayAddRequest, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>::Decode(
decoder, position, recursion_depth);
}
};
template <>
struct ::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add> final {
FIDL_ALIGNDECL
fidl_message_header_t header;
::fidl::WireRequest<::test_drivertwoway::TwoWay::Add> body;
explicit TransactionalRequest(uint16_t addend1, uint16_t addend2)
: body(::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>(addend1, addend2)) {
_InitHeader();
}
TransactionalRequest() {
_InitHeader();
}
using ResponseType = ::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>;
private:
void _InitHeader();
};
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public WireStructCodingTraitsBase<::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t inline_size = 4 + sizeof(fidl_message_header_t);
static void Encode(internal::WireEncoder* encoder, ::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
*position.As<fidl_message_header_t>() = value->header;
WireCodingTraits<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>, WireCodingConstraintEmpty, IsRecursive>::Encode(
encoder, &value->body, position + sizeof(fidl_message_header_t), recursion_depth);
}
static void Decode(
internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
WireCodingTraits<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>, WireCodingConstraintEmpty, IsRecursive>::Decode(
decoder, position + sizeof(fidl_message_header_t), recursion_depth);
}
};
template <>
struct ::fidl::WireResponse<::test_drivertwoway::TwoWay::Add> final : public ::test_drivertwoway::wire::TwoWayAddTopResponse {
explicit WireResponse(::test_drivertwoway::wire::TwoWayAddTopResponse base) : ::test_drivertwoway::wire::TwoWayAddTopResponse(std::move(base)) {}
explicit WireResponse(uint16_t sum) : ::test_drivertwoway::wire::TwoWayAddTopResponse{.sum = std::move(sum)} {}
WireResponse() = default;
};
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public WireStructCodingTraitsBase<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t inline_size = 2;
static void Encode(
internal::WireEncoder* encoder, ::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
fidl::internal::WireCodingTraits<::test_drivertwoway::wire::TwoWayAddTopResponse, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>::Encode(
encoder, value, position, recursion_depth);
}
static void Decode(
internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
fidl::internal::WireCodingTraits<::test_drivertwoway::wire::TwoWayAddTopResponse, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>::Decode(
decoder, position, recursion_depth);
}
};
template <>
struct ::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add> final {
FIDL_ALIGNDECL
fidl_message_header_t header;
::fidl::WireResponse<::test_drivertwoway::TwoWay::Add> body;
explicit TransactionalResponse(uint16_t sum)
: body(::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>(sum)) {
_InitHeader();
}
TransactionalResponse() {
_InitHeader();
}
private:
void _InitHeader();
};
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public WireStructCodingTraitsBase<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t inline_size = 2 + sizeof(fidl_message_header_t);
static void Encode(internal::WireEncoder* encoder, ::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
*position.As<fidl_message_header_t>() = value->header;
WireCodingTraits<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>, WireCodingConstraintEmpty, IsRecursive>::Encode(
encoder, &value->body, position + sizeof(fidl_message_header_t), recursion_depth);
}
static void Decode(
internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
WireCodingTraits<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>, WireCodingConstraintEmpty, IsRecursive>::Decode(
decoder, position + sizeof(fidl_message_header_t), recursion_depth);
}
};
#ifdef __Fuchsia__
template <>
struct ::fidl::internal::WireMethodTypes<::test_drivertwoway::TwoWay::Add> {
using Completer = fidl::Completer<::fidl::internal::WireCompleterBase<::test_drivertwoway::TwoWay::Add>>;
using Thenable = ::fidl::internal::WireThenableImpl<
::test_drivertwoway::TwoWay::Add,
::fidl::unstable::OwnedEncodedMessage<
::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::DriverTransport>>;
using BufferThenable = ::fidl::internal::WireThenableImpl<
::test_drivertwoway::TwoWay::Add,
::fidl::unstable::UnownedEncodedMessage<
::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>, ::fidl::internal::DriverTransport>>;
};
#endif // __Fuchsia__
namespace fidl {
template <>
struct IsFidlType<::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>> : public std::true_type {};
template <>
struct IsFidlType<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>> : public std::false_type {};
template <>
struct TypeTraits<::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>> {
static constexpr const fidl_type_t* kType =
&::test_drivertwoway::test_drivertwoway_TwoWayAddRequestTable;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = FIDL_ALIGN(4 + sizeof(fidl_message_header_t));
static constexpr uint32_t kPrimarySizeV1 = FIDL_ALIGN(4 + sizeof(fidl_message_header_t));
static constexpr uint32_t kMaxOutOfLine = 0;
static constexpr uint32_t kMaxOutOfLineV1 = 0;
static constexpr bool kHasFlexibleEnvelope = false;
static constexpr bool kHasEnvelope = false;
static constexpr bool kHasPointer = false;
static constexpr ::fidl::internal::TransactionalMessageKind kMessageKind =
::fidl::internal::TransactionalMessageKind::kRequest;
};
static_assert(sizeof(::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>) == TypeTraits<::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>>::kPrimarySize);
static_assert(offsetof(::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>, header) == 0);
static_assert(offsetof(::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>, body) == sizeof(fidl_message_header_t));
template <>
struct TypeTraits<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>> {
static constexpr const fidl_type_t* kType =
&::test_drivertwoway::test_drivertwoway_TwoWayAddRequestTable;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = 4;
static constexpr uint32_t kPrimarySizeV1 = 4;
static constexpr uint32_t kMaxOutOfLine = 0;
static constexpr uint32_t kMaxOutOfLineV1 = 0;
static constexpr bool kHasFlexibleEnvelope = false;
static constexpr bool kHasEnvelope = false;
static constexpr bool kHasPointer = false;
static constexpr ::fidl::internal::TransactionalMessageKind kMessageKind =
::fidl::internal::TransactionalMessageKind::kRequest;
};
static_assert(sizeof(::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>) == TypeTraits<::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>>::kPrimarySize);
static_assert(offsetof(::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>, addend1) == 0);
static_assert(offsetof(::fidl::WireRequest<::test_drivertwoway::TwoWay::Add>, addend2) == 2);
template <>
struct IsFidlType<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>> : public std::true_type {};
template <>
struct IsFidlType<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>> : public std::false_type {};
template <>
struct TypeTraits<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>> {
static constexpr const fidl_type_t* kType =
&::test_drivertwoway::test_drivertwoway_TwoWayAddTopResponseTable;
static constexpr bool kHasResponseBody = true;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = FIDL_ALIGN(2 + sizeof(fidl_message_header_t));
static constexpr uint32_t kPrimarySizeV1 = FIDL_ALIGN(2 + sizeof(fidl_message_header_t));
static constexpr uint32_t kMaxOutOfLine = 0;
static constexpr uint32_t kMaxOutOfLineV1 = 0;
static constexpr bool kHasFlexibleEnvelope = false;
static constexpr bool kHasEnvelope = false;
static constexpr bool kHasPointer = false;
static constexpr ::fidl::internal::TransactionalMessageKind kMessageKind =
::fidl::internal::TransactionalMessageKind::kResponse;
};
static_assert(sizeof(::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>) == TypeTraits<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>>::kPrimarySize);
static_assert(offsetof(::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>, header) == 0);
static_assert(offsetof(::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>, body) == sizeof(fidl_message_header_t));
template <>
struct TypeTraits<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>> {
static constexpr const fidl_type_t* kType =
&::test_drivertwoway::test_drivertwoway_TwoWayAddTopResponseTable;
static constexpr bool kHasResponseBody = true;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = 2;
static constexpr uint32_t kPrimarySizeV1 = 2;
static constexpr uint32_t kMaxOutOfLine = 0;
static constexpr uint32_t kMaxOutOfLineV1 = 0;
static constexpr bool kHasFlexibleEnvelope = false;
static constexpr bool kHasEnvelope = false;
static constexpr bool kHasPointer = false;
static constexpr ::fidl::internal::TransactionalMessageKind kMessageKind =
::fidl::internal::TransactionalMessageKind::kResponse;
};
static_assert(sizeof(::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>) == TypeTraits<::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>>::kPrimarySize);
static_assert(offsetof(::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>, sum) == 0);
#ifdef __Fuchsia__
} // namespace fidl
template <>
struct ::fidl::internal::IncomingMessageStorage<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>> final
: public ::fidl::internal::DriverMessageStorageBase<::fidl::internal::IncomingMessageStorage<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>>> {};
template <>
class [[nodiscard]] ::fdf::WireUnownedResult<::test_drivertwoway::TwoWay::Add> final : public ::fidl::Status {
public:
explicit WireUnownedResult(::fdf::UnownedClientEnd<::test_drivertwoway::TwoWay> client_end, const ::fdf::Arena& arena, ::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add>* request);
explicit WireUnownedResult(::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>* response)
: fidl::Status(fidl::Status::Ok()), decoded_(response) {
}
explicit WireUnownedResult(
::fidl::unstable::DecodedMessage<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>>&& decoded,
::fidl::internal::MessageStorageViewBase* storage_view) : ::fidl::Status(decoded), arena_(::fidl::internal::TakeDriverArenaFromStorage(storage_view)) {
if (decoded.ok()) {
decoded_ = decoded.Take();
}
}
explicit WireUnownedResult(const ::fidl::Status& result) : ::fidl::Status(result) {}
WireUnownedResult(WireUnownedResult&&) = delete;
WireUnownedResult(const WireUnownedResult&) = delete;
WireUnownedResult* operator=(WireUnownedResult&&) = delete;
WireUnownedResult* operator=(const WireUnownedResult&) = delete;
::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>* Unwrap() {
ZX_ASSERT(ok());
return &decoded_.Value()->body;
}
const ::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>* Unwrap() const {
ZX_ASSERT(ok());
return &decoded_.Value()->body;
}
::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>& value() { return *Unwrap(); }
const ::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>& value() const { return *Unwrap(); }
::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>* operator->() { return &value(); }
const ::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>* operator->() const { return &value(); }
::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>& operator*() { return value(); }
const ::fidl::WireResponse<::test_drivertwoway::TwoWay::Add>& operator*() const { return value(); }
fdf::Arena& arena() {
ZX_ASSERT(ok());
return arena_;
}
private:
::fdf::Arena arena_;
::fidl::internal::DecodedValue<::fidl::internal::TransactionalResponse<::test_drivertwoway::TwoWay::Add>> decoded_;
};
template <>
class ::fidl::internal::WireEventHandlerInterface<::test_drivertwoway::TwoWay> : public ::fidl::internal::BaseEventHandlerInterface {
public:
WireEventHandlerInterface() = default;
virtual ~WireEventHandlerInterface() = default;
};
template <>
class ::fdf::WireAsyncEventHandler<::test_drivertwoway::TwoWay>
: public ::fidl::internal::WireEventHandlerInterface<::test_drivertwoway::TwoWay>, public ::fidl::internal::AsyncEventHandler {
public:
WireAsyncEventHandler() = default;
};
template <>
class ::fidl::internal::WireEventDispatcher<::test_drivertwoway::TwoWay> final : public ::fidl::internal::IncomingEventDispatcher<::fidl::internal::WireEventHandlerInterface<::test_drivertwoway::TwoWay>> {
public:
explicit WireEventDispatcher(::fidl::internal::WireEventHandlerInterface<::test_drivertwoway::TwoWay>* event_handler)
: IncomingEventDispatcher(event_handler) {}
};
template <>
class ::fidl::internal::WireSyncBufferClientImpl<::test_drivertwoway::TwoWay> final : public ::fdf::internal::SyncEndpointBufferVeneer<::fidl::internal::WireSyncBufferClientImpl<::test_drivertwoway::TwoWay>> {
public:
// Caller provides the backing storage for FIDL message via an argument to `.buffer()`.
::fdf::WireUnownedResult<::test_drivertwoway::TwoWay::Add> Add(uint16_t addend1, uint16_t addend2) {
::fidl::internal::TransactionalRequest<::test_drivertwoway::TwoWay::Add> _request{addend1, addend2};
return ::fdf::WireUnownedResult<::test_drivertwoway::TwoWay::Add>(_client_end(), _arena(), &_request);
}
private:
::fdf::UnownedClientEnd<::test_drivertwoway::TwoWay> _client_end() const {
return ::fdf::UnownedClientEnd<::test_drivertwoway::TwoWay>(
_transport().get<::fidl::internal::DriverTransport>());
}
};
template <>
class ::fidl::internal::WireCompleterImpl<::test_drivertwoway::TwoWay::Add> : public ::fdf::internal::CompleterImplBase<::test_drivertwoway::TwoWay::Add> {
public:
using CompleterImplBase::CompleterImplBase;
};
template <>
class ::fidl::internal::WireBufferCompleterImpl<::test_drivertwoway::TwoWay::Add> : public ::fdf::internal::BufferCompleterImplBase {
public:
using BufferCompleterImplBase::BufferCompleterImplBase;
void Reply(uint16_t sum);
private:
void MakeReply(uint16_t sum);
};
template <>
class ::fidl::internal::WireCompleterBase<::test_drivertwoway::TwoWay::Add> : public ::fidl::CompleterBase, public ::fidl::internal::WireCompleterImpl<::test_drivertwoway::TwoWay::Add> {
public:
WireCompleterBase(::fidl::Transaction* transaction, bool owned, bool expects_reply)
: CompleterBase(transaction, owned, expects_reply),
WireCompleterImpl(this) {}
WireCompleterBase(WireCompleterBase&& other) noexcept
: CompleterBase(std::move(other)), WireCompleterImpl(this) {}
WireCompleterBase& operator=(WireCompleterBase&& other) noexcept {
CompleterBase::operator=(std::move(other));
WireCompleterImpl::_set_core(this);
return *this;
}
};
// Pure-virtual interface to be implemented by a server.
// This interface uses typed channels (i.e. |fdf::ClientEnd<SomeProtocol>|
// and |fdf::ServerEnd<SomeProtocol>|).
template <>
class ::fdf::WireServer<::test_drivertwoway::TwoWay> : public ::fidl::internal::IncomingMessageDispatcher {
public:
WireServer() = default;
virtual ~WireServer() = default;
// The FIDL protocol type that is implemented by this server.
using _EnclosingProtocol = ::test_drivertwoway::TwoWay;
using AddCompleter = ::fidl::internal::WireCompleter<::test_drivertwoway::TwoWay::Add>;
using AddRequestView = ::fidl::internal::WireRequestView<::test_drivertwoway::TwoWay::Add>;
virtual void Add(
AddRequestView request, fdf::Arena& arena, AddCompleter::Sync& completer) = 0;
private:
void dispatch_message(
::fidl::IncomingMessage&& msg, ::fidl::Transaction* txn,
::fidl::internal::MessageStorageViewBase* storage_view) final;
};
namespace fidl {
#endif // __Fuchsia__
#ifdef __Fuchsia__
} // namespace fidl
template <>
class ::fidl::internal::WireWeakOnewayBufferClientImpl<::test_drivertwoway::TwoWay> : public ::fdf::internal::BufferClientImplBase {
public:
using BufferClientImplBase::BufferClientImplBase;
};
template <>
class ::fidl::internal::WireWeakAsyncBufferClientImpl<::test_drivertwoway::TwoWay> final : public ::fidl::internal::WireWeakOnewayBufferClientImpl<::test_drivertwoway::TwoWay> {
public:
using WireWeakOnewayBufferClientImpl::WireWeakOnewayBufferClientImpl;
// Caller provides the backing storage for FIDL message.
::fidl::internal::WireBufferThenable<::test_drivertwoway::TwoWay::Add> Add(uint16_t addend1, uint16_t addend2);
};
template <>
class ::fidl::internal::WireWeakOnewayClientImpl<::test_drivertwoway::TwoWay> : public ::fidl::internal::ClientImplBase {
public:
WireWeakOnewayClientImpl(fidl::internal::ClientBase* client_base, const fdf::Arena& arena)
: ClientImplBase(client_base), arena_(arena) {}
protected:
const ::fdf::Arena& arena_;
};
template <>
class ::fidl::internal::WireWeakSyncClientImpl<::test_drivertwoway::TwoWay> final : public ::fidl::internal::WireWeakOnewayClientImpl<::test_drivertwoway::TwoWay> {
public:
using WireWeakOnewayClientImpl::WireWeakOnewayClientImpl;
// Allocates 48 bytes of message buffer on the stack. No heap allocation necessary.
::fdf::WireUnownedResult<::test_drivertwoway::TwoWay::Add> Add(uint16_t addend1, uint16_t addend2);
};
namespace fidl {
#endif // __Fuchsia__
} // namespace fidl