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fuchsia / fuchsia / 5f4e5c88b8bcdc1adf5c54ffbfdf966772b6afda / . / tools / fidl / fidlgen_llcpp / goldens / service_wire_messaging.h.golden
blob: 56696f205c627b62176579cfb767c55f257515f8 [file] [log] [blame]
// WARNING: This file is machine generated by fidlgen.
#pragma once
#include <fidl/test.service/cpp/markers.h>
#include <fidl/test.service/cpp/wire_types.h>
#include <lib/fidl/llcpp/wire_messaging.h>
#ifdef __Fuchsia__
#include <lib/fidl/llcpp/client.h>
#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>
#endif // __Fuchsia__
namespace test_service {
class SecondProtocol;
class FirstProtocol;
class SingleMemberService;
class MultiHomogeneousMemberService;
class MultiHeterogeneousMemberService;
class EmptyService;
} // namespace test_service
template <>
struct ::fidl::internal::WireOrdinal<::test_service::SecondProtocol::MethodOnSecond> final {
static constexpr uint64_t value = 8121179205110225988lu;
};
namespace test_service {
} // namespace test_service
#ifdef __Fuchsia__
template <>
struct ::fidl::internal::ProtocolDetails<::test_service::SecondProtocol> {
};
#endif // __Fuchsia__
#ifdef __Fuchsia__
template <>
struct ::fidl::internal::WireServerDispatcher<::test_service::SecondProtocol> final {
WireServerDispatcher() = delete;
static ::fidl::DispatchResult TryDispatch(::fidl::WireServer<::test_service::SecondProtocol>* impl, ::fidl::IncomingMessage& msg,
internal::MessageStorageViewBase* storage_view,
::fidl::Transaction* txn);
static void Dispatch(::fidl::WireServer<::test_service::SecondProtocol>* 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_service::SecondProtocol::MethodOnSecond> final {
WireRequest() = default;
};
template <>
struct ::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond> final {
FIDL_ALIGNDECL
fidl_message_header_t header;
TransactionalRequest() {
_InitHeader();
}
private:
void _InitHeader();
};
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public WireStructCodingTraitsBase<::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t inline_size = 0 + sizeof(fidl_message_header_t);
static void Encode(internal::WireEncoder* encoder, ::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
*position.As<fidl_message_header_t>() = value->header;
}
static void Decode(
internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
}
};
namespace fidl {
template <>
struct IsFidlType<::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>> : public std::true_type {};
template <>
struct IsFidlType<::fidl::WireRequest<::test_service::SecondProtocol::MethodOnSecond>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::WireRequest<::test_service::SecondProtocol::MethodOnSecond>> : public std::false_type {};
template <>
struct TypeTraits<::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>> {
static constexpr const fidl_type_t* kType =
nullptr;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = FIDL_ALIGN(0 + sizeof(fidl_message_header_t));
static constexpr uint32_t kPrimarySizeV1 = FIDL_ALIGN(0 + 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_service::SecondProtocol::MethodOnSecond>) == TypeTraits<::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>>::kPrimarySize);
static_assert(offsetof(::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>, header) == 0);
template <>
struct TypeTraits<::fidl::WireRequest<::test_service::SecondProtocol::MethodOnSecond>> {
static constexpr const fidl_type_t* kType =
nullptr;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = 0;
static constexpr uint32_t kPrimarySizeV1 = 0;
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;
};
#ifdef __Fuchsia__
} // namespace fidl
template <>
struct ::fidl::internal::IncomingEventsHandleStorage<::test_service::SecondProtocol> final : public ::fidl::internal::ChannelHandleStorageBase<::fidl::internal::IncomingEventsHandleStorage<::test_service::SecondProtocol>> {
public:
static constexpr uint32_t kNumHandles = 0;
::std::array<zx_handle_t, kNumHandles> handles_;
::std::array<fidl_channel_handle_metadata_t, kNumHandles> handle_metadata_;
};
template <>
struct ::fidl::internal::IncomingEventsStorage<::test_service::SecondProtocol> final : public ::fidl::internal::ChannelMessageStorageBase<::fidl::internal::IncomingEventsStorage<::test_service::SecondProtocol>> {
public:
::fidl::internal::InlineMessageBuffer<16> bytes_;
::fidl::internal::IncomingEventsHandleStorage<::test_service::SecondProtocol> handles_storage_;
};
template <>
class [[nodiscard]] ::fidl::WireResult<::test_service::SecondProtocol::MethodOnSecond> final : public ::fidl::Status {
public:
WireResult(
::fidl::UnownedClientEnd<::test_service::SecondProtocol> client,
::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>* request);
explicit WireResult(const ::fidl::Status& result) : ::fidl::Status(result) {}
WireResult(WireResult&&) = delete;
WireResult(const WireResult&) = delete;
WireResult& operator=(WireResult&&) = delete;
WireResult& operator=(const WireResult&) = delete;
~WireResult() = default;
};
template <>
class [[nodiscard]] ::fidl::WireUnownedResult<::test_service::SecondProtocol::MethodOnSecond> final : public ::fidl::Status {
public:
explicit WireUnownedResult(::fidl::UnownedClientEnd<::test_service::SecondProtocol> client_end, ::fidl::internal::AnyBufferAllocator& allocator, ::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond>* request);
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;
~WireUnownedResult() = default;
};
template <>
class ::fidl::internal::WireEventHandlerInterface<::test_service::SecondProtocol> : public ::fidl::internal::BaseEventHandlerInterface {
public:
WireEventHandlerInterface() = default;
virtual ~WireEventHandlerInterface() = default;
};
template <>
class ::fidl::WireAsyncEventHandler<::test_service::SecondProtocol>
: public ::fidl::internal::WireEventHandlerInterface<::test_service::SecondProtocol>, public ::fidl::internal::AsyncEventHandler {
public:
WireAsyncEventHandler() = default;
};
template <>
class ::fidl::WireSyncEventHandler<::test_service::SecondProtocol>
: public ::fidl::internal::WireEventHandlerInterface<::test_service::SecondProtocol>, public ::fidl::internal::SyncEventHandler {
public:
WireSyncEventHandler() = default;
// Handle all possible events defined in this protocol.
// Blocks to consume exactly one message from the channel, then call the corresponding virtual
// method.
::fidl::Status HandleOneEvent(
::fidl::UnownedClientEnd<::test_service::SecondProtocol> client_end);
};
template <>
class ::fidl::internal::WireEventDispatcher<::test_service::SecondProtocol> final : public ::fidl::internal::IncomingEventDispatcher<::fidl::internal::WireEventHandlerInterface<::test_service::SecondProtocol>> {
public:
explicit WireEventDispatcher(::fidl::internal::WireEventHandlerInterface<::test_service::SecondProtocol>* event_handler)
: IncomingEventDispatcher(event_handler) {}
};
// Methods to make a sync FIDL call directly on an unowned handle or a
// const reference to a |fidl::ClientEnd<::test_service::SecondProtocol>|,
// avoiding setting up a client.
template <>
class ::fidl::internal::WireSyncClientImpl<::test_service::SecondProtocol> final : public ::fidl::internal::SyncEndpointManagedVeneer<::fidl::internal::WireSyncClientImpl<::test_service::SecondProtocol>> {
public:
// Allocates 32 bytes of message buffer on the stack. No heap allocation necessary.
::fidl::WireResult<::test_service::SecondProtocol::MethodOnSecond> MethodOnSecond() {
::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond> _request{};
return ::fidl::WireResult<::test_service::SecondProtocol::MethodOnSecond>(_client_end(), &_request);
}
private:
::fidl::UnownedClientEnd<::test_service::SecondProtocol> _client_end() const {
return ::fidl::UnownedClientEnd<::test_service::SecondProtocol>(
_transport().get<::fidl::internal::ChannelTransport>());
}
};
template <>
class ::fidl::internal::WireSyncBufferClientImpl<::test_service::SecondProtocol> final : public ::fidl::internal::SyncEndpointBufferVeneer<::fidl::internal::WireSyncBufferClientImpl<::test_service::SecondProtocol>> {
public:
// Caller provides the backing storage for FIDL message via an argument to `.buffer()`.
::fidl::WireUnownedResult<::test_service::SecondProtocol::MethodOnSecond> MethodOnSecond() {
::fidl::internal::TransactionalRequest<::test_service::SecondProtocol::MethodOnSecond> _request{};
return ::fidl::WireUnownedResult<::test_service::SecondProtocol::MethodOnSecond>(_client_end(), _allocator(), &_request);
}
private:
::fidl::UnownedClientEnd<::test_service::SecondProtocol> _client_end() const {
return ::fidl::UnownedClientEnd<::test_service::SecondProtocol>(
_transport().get<::fidl::internal::ChannelTransport>());
}
};
// Pure-virtual interface to be implemented by a server.
// This interface uses typed channels (i.e. |fidl::ClientEnd<SomeProtocol>|
// and |fidl::ServerEnd<SomeProtocol>|).
template <>
class ::fidl::WireServer<::test_service::SecondProtocol> : public ::fidl::internal::IncomingMessageDispatcher {
public:
WireServer() = default;
virtual ~WireServer() = default;
// The FIDL protocol type that is implemented by this server.
using _EnclosingProtocol = ::test_service::SecondProtocol;
using MethodOnSecondCompleter = ::fidl::internal::WireCompleter<::test_service::SecondProtocol::MethodOnSecond>;
using MethodOnSecondRequestView = ::fidl::internal::WireRequestView<::test_service::SecondProtocol::MethodOnSecond>;
virtual void MethodOnSecond(
MethodOnSecondRequestView request, MethodOnSecondCompleter::Sync& completer) = 0;
private:
void dispatch_message(
::fidl::IncomingMessage&& msg, ::fidl::Transaction* txn,
::fidl::internal::MessageStorageViewBase* storage_view) final;
};
namespace fidl {
#endif // __Fuchsia__
} // namespace fidl
template <>
struct ::fidl::internal::WireOrdinal<::test_service::FirstProtocol::MethodOnFirst> final {
static constexpr uint64_t value = 6352548393671797041lu;
};
namespace test_service {
} // namespace test_service
#ifdef __Fuchsia__
template <>
struct ::fidl::internal::ProtocolDetails<::test_service::FirstProtocol> {
};
#endif // __Fuchsia__
#ifdef __Fuchsia__
template <>
struct ::fidl::internal::WireServerDispatcher<::test_service::FirstProtocol> final {
WireServerDispatcher() = delete;
static ::fidl::DispatchResult TryDispatch(::fidl::WireServer<::test_service::FirstProtocol>* impl, ::fidl::IncomingMessage& msg,
internal::MessageStorageViewBase* storage_view,
::fidl::Transaction* txn);
static void Dispatch(::fidl::WireServer<::test_service::FirstProtocol>* 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_service::FirstProtocol::MethodOnFirst> final {
WireRequest() = default;
};
template <>
struct ::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst> final {
FIDL_ALIGNDECL
fidl_message_header_t header;
TransactionalRequest() {
_InitHeader();
}
private:
void _InitHeader();
};
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public WireStructCodingTraitsBase<::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t inline_size = 0 + sizeof(fidl_message_header_t);
static void Encode(internal::WireEncoder* encoder, ::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
*position.As<fidl_message_header_t>() = value->header;
}
static void Decode(
internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
}
};
namespace fidl {
template <>
struct IsFidlType<::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>> : public std::true_type {};
template <>
struct IsFidlType<::fidl::WireRequest<::test_service::FirstProtocol::MethodOnFirst>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>> : public std::true_type {};
template <>
struct IsFidlTransactionalMessage<::fidl::WireRequest<::test_service::FirstProtocol::MethodOnFirst>> : public std::false_type {};
template <>
struct TypeTraits<::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>> {
static constexpr const fidl_type_t* kType =
nullptr;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = FIDL_ALIGN(0 + sizeof(fidl_message_header_t));
static constexpr uint32_t kPrimarySizeV1 = FIDL_ALIGN(0 + 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_service::FirstProtocol::MethodOnFirst>) == TypeTraits<::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>>::kPrimarySize);
static_assert(offsetof(::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>, header) == 0);
template <>
struct TypeTraits<::fidl::WireRequest<::test_service::FirstProtocol::MethodOnFirst>> {
static constexpr const fidl_type_t* kType =
nullptr;
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = 0;
static constexpr uint32_t kPrimarySizeV1 = 0;
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;
};
#ifdef __Fuchsia__
} // namespace fidl
template <>
struct ::fidl::internal::IncomingEventsHandleStorage<::test_service::FirstProtocol> final : public ::fidl::internal::ChannelHandleStorageBase<::fidl::internal::IncomingEventsHandleStorage<::test_service::FirstProtocol>> {
public:
static constexpr uint32_t kNumHandles = 0;
::std::array<zx_handle_t, kNumHandles> handles_;
::std::array<fidl_channel_handle_metadata_t, kNumHandles> handle_metadata_;
};
template <>
struct ::fidl::internal::IncomingEventsStorage<::test_service::FirstProtocol> final : public ::fidl::internal::ChannelMessageStorageBase<::fidl::internal::IncomingEventsStorage<::test_service::FirstProtocol>> {
public:
::fidl::internal::InlineMessageBuffer<16> bytes_;
::fidl::internal::IncomingEventsHandleStorage<::test_service::FirstProtocol> handles_storage_;
};
template <>
class [[nodiscard]] ::fidl::WireResult<::test_service::FirstProtocol::MethodOnFirst> final : public ::fidl::Status {
public:
WireResult(
::fidl::UnownedClientEnd<::test_service::FirstProtocol> client,
::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>* request);
explicit WireResult(const ::fidl::Status& result) : ::fidl::Status(result) {}
WireResult(WireResult&&) = delete;
WireResult(const WireResult&) = delete;
WireResult& operator=(WireResult&&) = delete;
WireResult& operator=(const WireResult&) = delete;
~WireResult() = default;
};
template <>
class [[nodiscard]] ::fidl::WireUnownedResult<::test_service::FirstProtocol::MethodOnFirst> final : public ::fidl::Status {
public:
explicit WireUnownedResult(::fidl::UnownedClientEnd<::test_service::FirstProtocol> client_end, ::fidl::internal::AnyBufferAllocator& allocator, ::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst>* request);
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;
~WireUnownedResult() = default;
};
template <>
class ::fidl::internal::WireEventHandlerInterface<::test_service::FirstProtocol> : public ::fidl::internal::BaseEventHandlerInterface {
public:
WireEventHandlerInterface() = default;
virtual ~WireEventHandlerInterface() = default;
};
template <>
class ::fidl::WireAsyncEventHandler<::test_service::FirstProtocol>
: public ::fidl::internal::WireEventHandlerInterface<::test_service::FirstProtocol>, public ::fidl::internal::AsyncEventHandler {
public:
WireAsyncEventHandler() = default;
};
template <>
class ::fidl::WireSyncEventHandler<::test_service::FirstProtocol>
: public ::fidl::internal::WireEventHandlerInterface<::test_service::FirstProtocol>, public ::fidl::internal::SyncEventHandler {
public:
WireSyncEventHandler() = default;
// Handle all possible events defined in this protocol.
// Blocks to consume exactly one message from the channel, then call the corresponding virtual
// method.
::fidl::Status HandleOneEvent(
::fidl::UnownedClientEnd<::test_service::FirstProtocol> client_end);
};
template <>
class ::fidl::internal::WireEventDispatcher<::test_service::FirstProtocol> final : public ::fidl::internal::IncomingEventDispatcher<::fidl::internal::WireEventHandlerInterface<::test_service::FirstProtocol>> {
public:
explicit WireEventDispatcher(::fidl::internal::WireEventHandlerInterface<::test_service::FirstProtocol>* event_handler)
: IncomingEventDispatcher(event_handler) {}
};
// Methods to make a sync FIDL call directly on an unowned handle or a
// const reference to a |fidl::ClientEnd<::test_service::FirstProtocol>|,
// avoiding setting up a client.
template <>
class ::fidl::internal::WireSyncClientImpl<::test_service::FirstProtocol> final : public ::fidl::internal::SyncEndpointManagedVeneer<::fidl::internal::WireSyncClientImpl<::test_service::FirstProtocol>> {
public:
// Allocates 32 bytes of message buffer on the stack. No heap allocation necessary.
::fidl::WireResult<::test_service::FirstProtocol::MethodOnFirst> MethodOnFirst() {
::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst> _request{};
return ::fidl::WireResult<::test_service::FirstProtocol::MethodOnFirst>(_client_end(), &_request);
}
private:
::fidl::UnownedClientEnd<::test_service::FirstProtocol> _client_end() const {
return ::fidl::UnownedClientEnd<::test_service::FirstProtocol>(
_transport().get<::fidl::internal::ChannelTransport>());
}
};
template <>
class ::fidl::internal::WireSyncBufferClientImpl<::test_service::FirstProtocol> final : public ::fidl::internal::SyncEndpointBufferVeneer<::fidl::internal::WireSyncBufferClientImpl<::test_service::FirstProtocol>> {
public:
// Caller provides the backing storage for FIDL message via an argument to `.buffer()`.
::fidl::WireUnownedResult<::test_service::FirstProtocol::MethodOnFirst> MethodOnFirst() {
::fidl::internal::TransactionalRequest<::test_service::FirstProtocol::MethodOnFirst> _request{};
return ::fidl::WireUnownedResult<::test_service::FirstProtocol::MethodOnFirst>(_client_end(), _allocator(), &_request);
}
private:
::fidl::UnownedClientEnd<::test_service::FirstProtocol> _client_end() const {
return ::fidl::UnownedClientEnd<::test_service::FirstProtocol>(
_transport().get<::fidl::internal::ChannelTransport>());
}
};
// Pure-virtual interface to be implemented by a server.
// This interface uses typed channels (i.e. |fidl::ClientEnd<SomeProtocol>|
// and |fidl::ServerEnd<SomeProtocol>|).
template <>
class ::fidl::WireServer<::test_service::FirstProtocol> : public ::fidl::internal::IncomingMessageDispatcher {
public:
WireServer() = default;
virtual ~WireServer() = default;
// The FIDL protocol type that is implemented by this server.
using _EnclosingProtocol = ::test_service::FirstProtocol;
using MethodOnFirstCompleter = ::fidl::internal::WireCompleter<::test_service::FirstProtocol::MethodOnFirst>;
using MethodOnFirstRequestView = ::fidl::internal::WireRequestView<::test_service::FirstProtocol::MethodOnFirst>;
virtual void MethodOnFirst(
MethodOnFirstRequestView request, MethodOnFirstCompleter::Sync& completer) = 0;
private:
void dispatch_message(
::fidl::IncomingMessage&& msg, ::fidl::Transaction* txn,
::fidl::internal::MessageStorageViewBase* storage_view) final;
};
namespace fidl {
#endif // __Fuchsia__
} // namespace fidl
namespace test_service {
class SingleMemberService final {
SingleMemberService() = default;
public:
static constexpr char Name[] = "test.service.SingleMemberService";
// Client protocol for connecting to member protocols of a service instance.
class ServiceClient final {
ServiceClient() = delete;
public:
ServiceClient(::zx::channel dir, ::fidl::internal::ConnectMemberFunc connect_func)
: dir_(std::move(dir)), connect_func_(connect_func) {}
// Connects to the member protocol "single_member".
// Returns a |fidl::ClientEnd<::test_service::FirstProtocol>| on success,
// which can be used with |fidl::BindSyncClient| to create a synchronous
// client, or |fidl::WireClient| or |fidl::WireSharedClient| to create a
// client that supports both asynchronous and synchronous operations.
//
// # Errors
//
// On failure, returns a |zx::error| with status != ZX_OK.
// Failures can occur if channel creation failed, or if there was an issue making
// a |fuchsia.io.Directory/Open| call.
//
// Since the call to |Open| is asynchronous, an error sent by the remote end will not
// result in a failure of this method. Any errors sent by the remote will appear on
// the |ClientEnd| returned from this method.
::zx::status<::fidl::ClientEnd<::test_service::FirstProtocol>> connect_single_member() {
auto endpoints = ::fidl::CreateEndpoints<::test_service::FirstProtocol>();
if (endpoints.is_error()) {
return endpoints.take_error();
}
auto connection = connect_func_(
::zx::unowned_channel(dir_),
::fidl::StringView("single_member"),
endpoints->server.TakeChannel());
if (connection.is_error()) {
return connection.take_error();
}
return ::zx::ok(std::move(endpoints->client));
}
private:
::zx::channel dir_;
::fidl::internal::ConnectMemberFunc connect_func_;
};
// Facilitates member protocol registration for servers.
class Handler final {
public:
// Constructs a FIDL Service-typed handler. Does not take ownership of |service_handler|.
explicit Handler(::fidl::ServiceHandlerInterface* service_handler)
: service_handler_(service_handler) {}
// Adds member "single_member" to the service instance. |handler| will be invoked on connection
// attempts.
//
// # Errors
//
// Returns ZX_ERR_ALREADY_EXISTS if the member was already added.
::zx::status<> add_single_member(
::fidl::ServiceHandlerInterface::MemberHandler<::test_service::FirstProtocol> handler) {
return service_handler_->AddMember("single_member", std::move(handler));
}
private:
::fidl::ServiceHandlerInterface* service_handler_; // Not owned.
};
};
class MultiHomogeneousMemberService final {
MultiHomogeneousMemberService() = default;
public:
static constexpr char Name[] = "test.service.MultiHomogeneousMemberService";
// Client protocol for connecting to member protocols of a service instance.
class ServiceClient final {
ServiceClient() = delete;
public:
ServiceClient(::zx::channel dir, ::fidl::internal::ConnectMemberFunc connect_func)
: dir_(std::move(dir)), connect_func_(connect_func) {}
// Connects to the member protocol "first_member".
// Returns a |fidl::ClientEnd<::test_service::FirstProtocol>| on success,
// which can be used with |fidl::BindSyncClient| to create a synchronous
// client, or |fidl::WireClient| or |fidl::WireSharedClient| to create a
// client that supports both asynchronous and synchronous operations.
//
// # Errors
//
// On failure, returns a |zx::error| with status != ZX_OK.
// Failures can occur if channel creation failed, or if there was an issue making
// a |fuchsia.io.Directory/Open| call.
//
// Since the call to |Open| is asynchronous, an error sent by the remote end will not
// result in a failure of this method. Any errors sent by the remote will appear on
// the |ClientEnd| returned from this method.
::zx::status<::fidl::ClientEnd<::test_service::FirstProtocol>> connect_first_member() {
auto endpoints = ::fidl::CreateEndpoints<::test_service::FirstProtocol>();
if (endpoints.is_error()) {
return endpoints.take_error();
}
auto connection = connect_func_(
::zx::unowned_channel(dir_),
::fidl::StringView("first_member"),
endpoints->server.TakeChannel());
if (connection.is_error()) {
return connection.take_error();
}
return ::zx::ok(std::move(endpoints->client));
}
// Connects to the member protocol "second_member".
// Returns a |fidl::ClientEnd<::test_service::FirstProtocol>| on success,
// which can be used with |fidl::BindSyncClient| to create a synchronous
// client, or |fidl::WireClient| or |fidl::WireSharedClient| to create a
// client that supports both asynchronous and synchronous operations.
//
// # Errors
//
// On failure, returns a |zx::error| with status != ZX_OK.
// Failures can occur if channel creation failed, or if there was an issue making
// a |fuchsia.io.Directory/Open| call.
//
// Since the call to |Open| is asynchronous, an error sent by the remote end will not
// result in a failure of this method. Any errors sent by the remote will appear on
// the |ClientEnd| returned from this method.
::zx::status<::fidl::ClientEnd<::test_service::FirstProtocol>> connect_second_member() {
auto endpoints = ::fidl::CreateEndpoints<::test_service::FirstProtocol>();
if (endpoints.is_error()) {
return endpoints.take_error();
}
auto connection = connect_func_(
::zx::unowned_channel(dir_),
::fidl::StringView("second_member"),
endpoints->server.TakeChannel());
if (connection.is_error()) {
return connection.take_error();
}
return ::zx::ok(std::move(endpoints->client));
}
private:
::zx::channel dir_;
::fidl::internal::ConnectMemberFunc connect_func_;
};
// Facilitates member protocol registration for servers.
class Handler final {
public:
// Constructs a FIDL Service-typed handler. Does not take ownership of |service_handler|.
explicit Handler(::fidl::ServiceHandlerInterface* service_handler)
: service_handler_(service_handler) {}
// Adds member "first_member" to the service instance. |handler| will be invoked on connection
// attempts.
//
// # Errors
//
// Returns ZX_ERR_ALREADY_EXISTS if the member was already added.
::zx::status<> add_first_member(
::fidl::ServiceHandlerInterface::MemberHandler<::test_service::FirstProtocol> handler) {
return service_handler_->AddMember("first_member", std::move(handler));
}
// Adds member "second_member" to the service instance. |handler| will be invoked on connection
// attempts.
//
// # Errors
//
// Returns ZX_ERR_ALREADY_EXISTS if the member was already added.
::zx::status<> add_second_member(
::fidl::ServiceHandlerInterface::MemberHandler<::test_service::FirstProtocol> handler) {
return service_handler_->AddMember("second_member", std::move(handler));
}
private:
::fidl::ServiceHandlerInterface* service_handler_; // Not owned.
};
};
class MultiHeterogeneousMemberService final {
MultiHeterogeneousMemberService() = default;
public:
static constexpr char Name[] = "test.service.MultiHeterogeneousMemberService";
// Client protocol for connecting to member protocols of a service instance.
class ServiceClient final {
ServiceClient() = delete;
public:
ServiceClient(::zx::channel dir, ::fidl::internal::ConnectMemberFunc connect_func)
: dir_(std::move(dir)), connect_func_(connect_func) {}
// Connects to the member protocol "first_member".
// Returns a |fidl::ClientEnd<::test_service::FirstProtocol>| on success,
// which can be used with |fidl::BindSyncClient| to create a synchronous
// client, or |fidl::WireClient| or |fidl::WireSharedClient| to create a
// client that supports both asynchronous and synchronous operations.
//
// # Errors
//
// On failure, returns a |zx::error| with status != ZX_OK.
// Failures can occur if channel creation failed, or if there was an issue making
// a |fuchsia.io.Directory/Open| call.
//
// Since the call to |Open| is asynchronous, an error sent by the remote end will not
// result in a failure of this method. Any errors sent by the remote will appear on
// the |ClientEnd| returned from this method.
::zx::status<::fidl::ClientEnd<::test_service::FirstProtocol>> connect_first_member() {
auto endpoints = ::fidl::CreateEndpoints<::test_service::FirstProtocol>();
if (endpoints.is_error()) {
return endpoints.take_error();
}
auto connection = connect_func_(
::zx::unowned_channel(dir_),
::fidl::StringView("first_member"),
endpoints->server.TakeChannel());
if (connection.is_error()) {
return connection.take_error();
}
return ::zx::ok(std::move(endpoints->client));
}
// Connects to the member protocol "second_member".
// Returns a |fidl::ClientEnd<::test_service::SecondProtocol>| on success,
// which can be used with |fidl::BindSyncClient| to create a synchronous
// client, or |fidl::WireClient| or |fidl::WireSharedClient| to create a
// client that supports both asynchronous and synchronous operations.
//
// # Errors
//
// On failure, returns a |zx::error| with status != ZX_OK.
// Failures can occur if channel creation failed, or if there was an issue making
// a |fuchsia.io.Directory/Open| call.
//
// Since the call to |Open| is asynchronous, an error sent by the remote end will not
// result in a failure of this method. Any errors sent by the remote will appear on
// the |ClientEnd| returned from this method.
::zx::status<::fidl::ClientEnd<::test_service::SecondProtocol>> connect_second_member() {
auto endpoints = ::fidl::CreateEndpoints<::test_service::SecondProtocol>();
if (endpoints.is_error()) {
return endpoints.take_error();
}
auto connection = connect_func_(
::zx::unowned_channel(dir_),
::fidl::StringView("second_member"),
endpoints->server.TakeChannel());
if (connection.is_error()) {
return connection.take_error();
}
return ::zx::ok(std::move(endpoints->client));
}
private:
::zx::channel dir_;
::fidl::internal::ConnectMemberFunc connect_func_;
};
// Facilitates member protocol registration for servers.
class Handler final {
public:
// Constructs a FIDL Service-typed handler. Does not take ownership of |service_handler|.
explicit Handler(::fidl::ServiceHandlerInterface* service_handler)
: service_handler_(service_handler) {}
// Adds member "first_member" to the service instance. |handler| will be invoked on connection
// attempts.
//
// # Errors
//
// Returns ZX_ERR_ALREADY_EXISTS if the member was already added.
::zx::status<> add_first_member(
::fidl::ServiceHandlerInterface::MemberHandler<::test_service::FirstProtocol> handler) {
return service_handler_->AddMember("first_member", std::move(handler));
}
// Adds member "second_member" to the service instance. |handler| will be invoked on connection
// attempts.
//
// # Errors
//
// Returns ZX_ERR_ALREADY_EXISTS if the member was already added.
::zx::status<> add_second_member(
::fidl::ServiceHandlerInterface::MemberHandler<::test_service::SecondProtocol> handler) {
return service_handler_->AddMember("second_member", std::move(handler));
}
private:
::fidl::ServiceHandlerInterface* service_handler_; // Not owned.
};
};
class EmptyService final {
EmptyService() = default;
public:
static constexpr char Name[] = "test.service.EmptyService";
// Client protocol for connecting to member protocols of a service instance.
class ServiceClient final {
ServiceClient() = delete;
public:
ServiceClient(::zx::channel dir, ::fidl::internal::ConnectMemberFunc connect_func) {
(void)dir;
(void)connect_func;
}
private:
};
// Facilitates member protocol registration for servers.
class Handler final {
public:
// Constructs a FIDL Service-typed handler. Does not take ownership of |service_handler|.
explicit Handler(::fidl::ServiceHandlerInterface* service_handler) { (void)service_handler; }
private:
};
};
} // namespace test_service
namespace fidl {
#ifdef __Fuchsia__
} // namespace fidl
template <>
class ::fidl::internal::WireWeakOnewayClientImpl<::test_service::SecondProtocol> : public ::fidl::internal::ClientImplBase {
public:
using ClientImplBase::ClientImplBase;
// Allocates 32 bytes of message buffer on the stack. No heap allocation necessary.
::fidl::Status MethodOnSecond();
};
template <>
class ::fidl::internal::WireWeakAsyncClientImpl<::test_service::SecondProtocol> final : public ::fidl::internal::WireWeakOnewayClientImpl<::test_service::SecondProtocol> {
public:
using WireWeakOnewayClientImpl::WireWeakOnewayClientImpl;
};
template <>
class ::fidl::internal::WireWeakOnewayBufferClientImpl<::test_service::SecondProtocol> : public ::fidl::internal::BufferClientImplBase {
public:
using BufferClientImplBase::BufferClientImplBase;
// Caller provides the backing storage for FIDL message.
::fidl::Status MethodOnSecond();
};
template <>
class ::fidl::internal::WireWeakAsyncBufferClientImpl<::test_service::SecondProtocol> final : public ::fidl::internal::WireWeakOnewayBufferClientImpl<::test_service::SecondProtocol> {
public:
using WireWeakOnewayBufferClientImpl::WireWeakOnewayBufferClientImpl;
};
template <>
class ::fidl::internal::WireWeakSyncClientImpl<::test_service::SecondProtocol> final : public ::fidl::internal::WireWeakOnewayClientImpl<::test_service::SecondProtocol> {
public:
using WireWeakOnewayClientImpl::WireWeakOnewayClientImpl;
};
namespace fidl {
#endif // __Fuchsia__
} // namespace fidl
#ifdef __Fuchsia__
template <>
class ::fidl::internal::WireWeakEventSender<::test_service::SecondProtocol> : public ::fidl::internal::WeakEventSenderBase {
public:
using WeakEventSenderBase::WeakEventSenderBase;
};
template <>
class ::fidl::internal::WireWeakBufferEventSender<::test_service::SecondProtocol> : public ::fidl::internal::WeakBufferEventSenderBase {
public:
using WeakBufferEventSenderBase::WeakBufferEventSenderBase;
};
template <>
class ::fidl::internal::WireEventSender<::test_service::SecondProtocol>
: public ::fidl::internal::SyncEndpointManagedVeneer<::fidl::internal::WireEventSender<::test_service::SecondProtocol>> {
public:
using SyncEndpointManagedVeneer::SyncEndpointManagedVeneer;
};
template <>
class ::fidl::internal::WireBufferEventSender<::test_service::SecondProtocol>
: public ::fidl::internal::SyncEndpointBufferVeneer<::fidl::internal::WireBufferEventSender<::test_service::SecondProtocol>> {
public:
using SyncEndpointBufferVeneer::SyncEndpointBufferVeneer;
};
#endif // __Fuchsia__
#ifdef __Fuchsia__
template <>
class ::fidl::internal::WireWeakOnewayClientImpl<::test_service::FirstProtocol> : public ::fidl::internal::ClientImplBase {
public:
using ClientImplBase::ClientImplBase;
// Allocates 32 bytes of message buffer on the stack. No heap allocation necessary.
::fidl::Status MethodOnFirst();
};
template <>
class ::fidl::internal::WireWeakAsyncClientImpl<::test_service::FirstProtocol> final : public ::fidl::internal::WireWeakOnewayClientImpl<::test_service::FirstProtocol> {
public:
using WireWeakOnewayClientImpl::WireWeakOnewayClientImpl;
};
template <>
class ::fidl::internal::WireWeakOnewayBufferClientImpl<::test_service::FirstProtocol> : public ::fidl::internal::BufferClientImplBase {
public:
using BufferClientImplBase::BufferClientImplBase;
// Caller provides the backing storage for FIDL message.
::fidl::Status MethodOnFirst();
};
template <>
class ::fidl::internal::WireWeakAsyncBufferClientImpl<::test_service::FirstProtocol> final : public ::fidl::internal::WireWeakOnewayBufferClientImpl<::test_service::FirstProtocol> {
public:
using WireWeakOnewayBufferClientImpl::WireWeakOnewayBufferClientImpl;
};
template <>
class ::fidl::internal::WireWeakSyncClientImpl<::test_service::FirstProtocol> final : public ::fidl::internal::WireWeakOnewayClientImpl<::test_service::FirstProtocol> {
public:
using WireWeakOnewayClientImpl::WireWeakOnewayClientImpl;
};
#endif // __Fuchsia__
#ifdef __Fuchsia__
template <>
class ::fidl::internal::WireWeakEventSender<::test_service::FirstProtocol> : public ::fidl::internal::WeakEventSenderBase {
public:
using WeakEventSenderBase::WeakEventSenderBase;
};
template <>
class ::fidl::internal::WireWeakBufferEventSender<::test_service::FirstProtocol> : public ::fidl::internal::WeakBufferEventSenderBase {
public:
using WeakBufferEventSenderBase::WeakBufferEventSenderBase;
};
template <>
class ::fidl::internal::WireEventSender<::test_service::FirstProtocol>
: public ::fidl::internal::SyncEndpointManagedVeneer<::fidl::internal::WireEventSender<::test_service::FirstProtocol>> {
public:
using SyncEndpointManagedVeneer::SyncEndpointManagedVeneer;
};
template <>
class ::fidl::internal::WireBufferEventSender<::test_service::FirstProtocol>
: public ::fidl::internal::SyncEndpointBufferVeneer<::fidl::internal::WireBufferEventSender<::test_service::FirstProtocol>> {
public:
using SyncEndpointBufferVeneer::SyncEndpointBufferVeneer;
};
#endif // __Fuchsia__