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fuchsia / fuchsia / ef2a7a4b9c69183c407f8f4b57a04171f6821407 / . / tools / fidl / fidlgen_llcpp / goldens / request_flexible_envelope_wire_messaging.cc.golden
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// WARNING: This file is machine generated by fidlgen.
#include <fidl/test.requestflexibleenvelope/cpp/wire_messaging.h>
#include <memory>
namespace test_requestflexibleenvelope {
[[maybe_unused]] constexpr uint64_t
kProtocol_RequestStrictResponseFlexible_Ordinal = 700529454616207123lu;
[[maybe_unused]] constexpr ::fidl::MessageDynamicFlags
kProtocol_RequestStrictResponseFlexible_DynamicFlags =
::fidl::MessageDynamicFlags::kStrictMethod;
extern "C" const fidl_type_t
test_requestflexibleenvelope_ProtocolRequestStrictResponseFlexibleRequestTable;
extern "C" const fidl_type_t
test_requestflexibleenvelope_ProtocolRequestStrictResponseFlexibleTopResponseTable;
[[maybe_unused]] constexpr uint64_t
kProtocol_RequestFlexibleResponseStrict_Ordinal = 5191655763393883319lu;
[[maybe_unused]] constexpr ::fidl::MessageDynamicFlags
kProtocol_RequestFlexibleResponseStrict_DynamicFlags =
::fidl::MessageDynamicFlags::kStrictMethod;
extern "C" const fidl_type_t
test_requestflexibleenvelope_ProtocolRequestFlexibleResponseStrictRequestTable;
extern "C" const fidl_type_t
test_requestflexibleenvelope_ProtocolRequestFlexibleResponseStrictTopResponseTable;
#ifdef __Fuchsia__
} // namespace test_requestflexibleenvelope
::fidl::WireResult<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>::
WireResult(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>
client,
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>* request) {
FIDL_INTERNAL_DISABLE_AUTO_VAR_INIT
::fidl::unstable::OwnedEncodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>,
::fidl::internal::ChannelTransport>
request_message(::fidl::internal::AllowUnownedInputRef{}, request);
auto& outgoing = request_message.GetOutgoingMessage();
outgoing.Call<::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>>(
client.handle(), bytes_.data(), static_cast<uint32_t>(bytes_.size()));
SetStatus(outgoing);
}
::fidl::WireResult<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>::
WireResult(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>
client,
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>* request,
zx_time_t deadline) {
FIDL_INTERNAL_DISABLE_AUTO_VAR_INIT
::fidl::unstable::OwnedEncodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>,
::fidl::internal::ChannelTransport>
request_message(::fidl::internal::AllowUnownedInputRef{}, request);
auto& outgoing = request_message.GetOutgoingMessage();
outgoing.Call<::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>>(
client.handle(), bytes_.data(), static_cast<uint32_t>(bytes_.size()),
fidl::CallOptions{.deadline = deadline});
SetStatus(outgoing);
}
namespace test_requestflexibleenvelope {
#endif // __Fuchsia__
#ifdef __Fuchsia__
} // namespace test_requestflexibleenvelope
::fidl::WireUnownedResult<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>::
WireUnownedResult(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>
client_end,
::fidl::internal::AnyBufferAllocator& allocator,
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>* request) {
constexpr uint32_t buffer_size = ::fidl::SyncClientMethodBufferSizeInChannel<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>();
::fitx::result<::fidl::Error, ::fidl::BufferSpan> allocation =
allocator.TryAllocate(buffer_size);
if (!allocation.is_ok()) {
::fidl::Status::operator=(allocation.error_value());
return;
}
uint8_t* buffer = allocation->data;
constexpr uint32_t request_byte_capacity =
::fidl::MaxSizeInChannel<::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>,
::fidl::MessageDirection::kSending>();
uint8_t* request_bytes = buffer;
static_assert(buffer_size > request_byte_capacity);
uint32_t response_byte_capacity = buffer_size - request_byte_capacity;
uint8_t* response_bytes = &buffer[request_byte_capacity];
::fidl::unstable::UnownedEncodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>>
request_message(request_bytes, request_byte_capacity, request);
auto& outgoing = request_message.GetOutgoingMessage();
outgoing.Call<::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>>(
client_end.handle(), response_bytes, response_byte_capacity);
bytes_ = response_bytes;
::fidl::Status::operator=(outgoing);
}
namespace test_requestflexibleenvelope {
#endif // __Fuchsia__
#ifdef __Fuchsia__
} // namespace test_requestflexibleenvelope
::fidl::WireResult<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>::
WireResult(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>
client,
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>* request) {
FIDL_INTERNAL_DISABLE_AUTO_VAR_INIT
::fidl::unstable::OwnedEncodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>,
::fidl::internal::ChannelTransport>
request_message(::fidl::internal::AllowUnownedInputRef{}, request);
auto& outgoing = request_message.GetOutgoingMessage();
outgoing.Call<::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>>(
client.handle(), bytes_.data(), static_cast<uint32_t>(bytes_.size()));
SetStatus(outgoing);
}
::fidl::WireResult<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>::
WireResult(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>
client,
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>* request,
zx_time_t deadline) {
FIDL_INTERNAL_DISABLE_AUTO_VAR_INIT
::fidl::unstable::OwnedEncodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>,
::fidl::internal::ChannelTransport>
request_message(::fidl::internal::AllowUnownedInputRef{}, request);
auto& outgoing = request_message.GetOutgoingMessage();
outgoing.Call<::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>>(
client.handle(), bytes_.data(), static_cast<uint32_t>(bytes_.size()),
fidl::CallOptions{.deadline = deadline});
SetStatus(outgoing);
}
namespace test_requestflexibleenvelope {
#endif // __Fuchsia__
#ifdef __Fuchsia__
} // namespace test_requestflexibleenvelope
::fidl::WireUnownedResult<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>::
WireUnownedResult(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>
client_end,
::fidl::internal::AnyBufferAllocator& allocator,
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>* request) {
constexpr uint32_t buffer_size = ::fidl::SyncClientMethodBufferSizeInChannel<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>();
::fitx::result<::fidl::Error, ::fidl::BufferSpan> allocation =
allocator.TryAllocate(buffer_size);
if (!allocation.is_ok()) {
::fidl::Status::operator=(allocation.error_value());
return;
}
uint8_t* buffer = allocation->data;
constexpr uint32_t request_byte_capacity =
::fidl::MaxSizeInChannel<::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>,
::fidl::MessageDirection::kSending>();
uint8_t* request_bytes = buffer;
static_assert(buffer_size > request_byte_capacity);
uint32_t response_byte_capacity = buffer_size - request_byte_capacity;
uint8_t* response_bytes = &buffer[request_byte_capacity];
::fidl::unstable::UnownedEncodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>>
request_message(request_bytes, request_byte_capacity, request);
auto& outgoing = request_message.GetOutgoingMessage();
outgoing.Call<::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>>(
client_end.handle(), response_bytes, response_byte_capacity);
bytes_ = response_bytes;
::fidl::Status::operator=(outgoing);
}
namespace test_requestflexibleenvelope {
#endif // __Fuchsia__
} // namespace test_requestflexibleenvelope
#ifdef __Fuchsia__
::fidl::internal::WireThenable<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
fidl::internal::WireWeakAsyncClientImpl<
::test_requestflexibleenvelope::Protocol>::
RequestStrictResponseFlexible(
::test_requestflexibleenvelope::wire::StrictFoo s) {
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
_request{s};
return ::fidl::internal::WireThenable<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>{
_client_base(), ::fidl::WriteOptions{},
::fidl::internal::AllowUnownedInputRef{}, &_request};
}
::fidl::internal::WireThenable<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
fidl::internal::WireWeakAsyncClientImpl<
::test_requestflexibleenvelope::Protocol>::
RequestFlexibleResponseStrict(
::test_requestflexibleenvelope::wire::FlexibleFoo s) {
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
_request{s};
return ::fidl::internal::WireThenable<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>{
_client_base(), ::fidl::WriteOptions{},
::fidl::internal::AllowUnownedInputRef{}, &_request};
}
::fidl::internal::WireBufferThenable<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
fidl::internal::WireWeakAsyncBufferClientImpl<
::test_requestflexibleenvelope::Protocol>::
RequestStrictResponseFlexible(
::test_requestflexibleenvelope::wire::StrictFoo s) {
constexpr uint32_t _buffer_size =
::fidl::AsyncClientMethodBufferSizeInChannel<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>();
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
_request{s};
return ::fidl::internal::WireBufferThenable<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>{
_client_base(), ::fidl::WriteOptions{}, _allocator(), _buffer_size,
&_request};
}
::fidl::internal::WireBufferThenable<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
fidl::internal::WireWeakAsyncBufferClientImpl<
::test_requestflexibleenvelope::Protocol>::
RequestFlexibleResponseStrict(
::test_requestflexibleenvelope::wire::FlexibleFoo s) {
constexpr uint32_t _buffer_size =
::fidl::AsyncClientMethodBufferSizeInChannel<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>();
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
_request{s};
return ::fidl::internal::WireBufferThenable<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>{
_client_base(), ::fidl::WriteOptions{}, _allocator(), _buffer_size,
&_request};
}
::fidl::WireResult<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
fidl::internal::WireWeakSyncClientImpl<
::test_requestflexibleenvelope::Protocol>::
RequestStrictResponseFlexible(
::test_requestflexibleenvelope::wire::StrictFoo s) {
return _client_base()->MakeSyncCallWith([&](std::shared_ptr<
::fidl::internal::AnyTransport>
_transport) {
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
_request{s};
return ::fidl::WireResult<::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>(
_transport->get<::fidl::internal::ChannelTransport>()),
&_request);
});
}
::fidl::WireResult<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
fidl::internal::WireWeakSyncClientImpl<
::test_requestflexibleenvelope::Protocol>::
RequestFlexibleResponseStrict(
::test_requestflexibleenvelope::wire::FlexibleFoo s) {
return _client_base()->MakeSyncCallWith([&](std::shared_ptr<
::fidl::internal::AnyTransport>
_transport) {
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
_request{s};
return ::fidl::WireResult<::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>(
_transport->get<::fidl::internal::ChannelTransport>()),
&_request);
});
}
#endif // __Fuchsia__
#ifdef __Fuchsia__
::fidl::Status
fidl::WireSyncEventHandler<::test_requestflexibleenvelope::Protocol>::
HandleOneEvent(
::fidl::UnownedClientEnd<::test_requestflexibleenvelope::Protocol>
client_end) {
zx_status_t status = client_end.channel()->wait_one(
ZX_CHANNEL_READABLE | ZX_CHANNEL_PEER_CLOSED, ::zx::time::infinite(),
nullptr);
if (status != ZX_OK) {
return ::fidl::Status::TransportError(
status, ::fidl::internal::kErrorWaitOneFailed);
}
constexpr uint32_t kHandleAllocSize = ([]() constexpr {
uint32_t x = 0;
if (x > ZX_CHANNEL_MAX_MSG_HANDLES) {
x = ZX_CHANNEL_MAX_MSG_HANDLES;
}
return x;
})();
static_assert(kHandleAllocSize <= ZX_CHANNEL_MAX_MSG_HANDLES);
::fidl::internal::BoxedMessageBuffer<ZX_CHANNEL_MAX_MSG_BYTES> read_storage;
std::array<zx_handle_t, kHandleAllocSize> read_handles;
// TODO(fxbug.dev/85734) Remove this channel-specific allocation.
std::array<fidl_channel_handle_metadata_t, kHandleAllocSize>
read_handle_metadata;
::fidl::IncomingMessage msg = ::fidl::MessageRead(
zx::unowned_channel(client_end.handle()), read_storage.view(),
read_handles.data(), read_handle_metadata.data(), kHandleAllocSize,
ReadOptions{.discardable = true});
if (msg.status() == ZX_ERR_BUFFER_TOO_SMALL) {
// Message size is unexpectedly larger than calculated.
// This can only be due to a newer version of the protocol defining a new
// event, whose size exceeds the maximum of known events in the current
// protocol.
return ::fidl::Status::UnexpectedMessage(
ZX_ERR_BUFFER_TOO_SMALL,
::fidl::internal::kErrorSyncEventBufferTooSmall);
}
if (!msg.ok()) {
return msg;
}
fidl_message_header_t* hdr = msg.header();
switch (hdr->ordinal) {
default: {
return ::fidl::Status::UnknownOrdinal();
}
}
}
std::optional<::fidl::UnbindInfo>
fidl::internal::WireEventDispatcher<::test_requestflexibleenvelope::Protocol>::
DispatchEvent(
::fidl::IncomingMessage& msg,
::fidl::internal::IncomingTransportContext transport_context) {
switch (msg.header()->ordinal) {
default:
break;
}
return ::fidl::UnbindInfo::UnknownOrdinal();
}
#endif // __Fuchsia__
#ifdef __Fuchsia__
constexpr ::fidl::internal::MethodEntry fidl::internal::WireServerDispatcher<
::test_requestflexibleenvelope::Protocol>::entries_[] = {
{
::test_requestflexibleenvelope::
kProtocol_RequestStrictResponseFlexible_Ordinal,
[](void* interface, ::fidl::IncomingMessage&& msg,
internal::IncomingTransportContext transport_context,
::fidl::Transaction* txn) {
::fidl::unstable::DecodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>>
decoded{std::move(msg)};
if (unlikely(!decoded.ok())) {
return decoded.status();
}
auto* primary = &decoded.PrimaryObject()->body;
::fidl::internal::WireCompleter<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>::Sync completer(txn);
reinterpret_cast<
::fidl::WireServer<::test_requestflexibleenvelope::Protocol>*>(
interface)
->RequestStrictResponseFlexible(primary, completer);
return ZX_OK;
},
},
{
::test_requestflexibleenvelope::
kProtocol_RequestFlexibleResponseStrict_Ordinal,
[](void* interface, ::fidl::IncomingMessage&& msg,
internal::IncomingTransportContext transport_context,
::fidl::Transaction* txn) {
::fidl::unstable::DecodedMessage<
::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>>
decoded{std::move(msg)};
if (unlikely(!decoded.ok())) {
return decoded.status();
}
auto* primary = &decoded.PrimaryObject()->body;
::fidl::internal::WireCompleter<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>::Sync completer(txn);
reinterpret_cast<
::fidl::WireServer<::test_requestflexibleenvelope::Protocol>*>(
interface)
->RequestFlexibleResponseStrict(primary, completer);
return ZX_OK;
},
},
};
const ::fidl::internal::MethodEntry* fidl::internal::WireServerDispatcher<
::test_requestflexibleenvelope::Protocol>::entries_end_ = &entries_[2];
::fidl::DispatchResult fidl::internal::
WireServerDispatcher<::test_requestflexibleenvelope::Protocol>::TryDispatch(
::fidl::WireServer<::test_requestflexibleenvelope::Protocol>* impl,
::fidl::IncomingMessage& msg,
internal::IncomingTransportContext transport_context,
::fidl::Transaction* txn) {
return ::fidl::internal::TryDispatch(impl, msg, std::move(transport_context),
txn, entries_, entries_end_);
}
void fidl::internal::
WireServerDispatcher<::test_requestflexibleenvelope::Protocol>::Dispatch(
::fidl::WireServer<::test_requestflexibleenvelope::Protocol>* impl,
::fidl::IncomingMessage&& msg,
internal::IncomingTransportContext transport_context,
::fidl::Transaction* txn) {
::fidl::internal::Dispatch(impl, msg, std::move(transport_context), txn,
entries_, entries_end_);
}
void fidl::WireServer<::test_requestflexibleenvelope::Protocol>::
dispatch_message(
::fidl::IncomingMessage&& msg, ::fidl::Transaction* txn,
::fidl::internal::IncomingTransportContext transport_context) {
::fidl::internal::
WireServerDispatcher<::test_requestflexibleenvelope::Protocol>::Dispatch(
this, std::move(msg), std::move(transport_context), txn);
}
#endif // __Fuchsia__
#ifdef __Fuchsia__
void fidl::internal::WireCompleterImpl<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>::
Reply(::test_requestflexibleenvelope::wire::FlexibleFoo f) {
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
_response{f};
FIDL_INTERNAL_DISABLE_AUTO_VAR_INIT
::fidl::unstable::OwnedEncodedMessage<
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>,
::fidl::internal::ChannelTransport>
_response_message{::fidl::internal::AllowUnownedInputRef{}, &_response};
return _core()->SendReply(&_response_message.GetOutgoingMessage(),
::fidl::internal::OutgoingTransportContext());
}
void fidl::internal::WireBufferCompleterImpl<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>::
Reply(::test_requestflexibleenvelope::wire::FlexibleFoo f) {
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>
_response{f};
constexpr uint32_t _buffer_size = ::fidl::ServerReplyBufferSizeInChannel<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>();
::fitx::result<::fidl::Error, ::fidl::BufferSpan> _allocation =
_allocator().TryAllocate(_buffer_size);
if (!_allocation.is_ok()) {
::fidl::OutgoingMessage _failure{_allocation.error_value()};
return _core()->SendReply(&_failure,
::fidl::internal::OutgoingTransportContext());
}
::fidl::unstable::UnownedEncodedMessage<
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::
RequestStrictResponseFlexible>,
::fidl::internal::ChannelTransport>
_response_message(_allocation->data, _buffer_size, &_response);
return _core()->SendReply(&_response_message.GetOutgoingMessage(),
::fidl::internal::OutgoingTransportContext());
}
#endif // __Fuchsia__
#ifdef __Fuchsia__
void fidl::internal::WireCompleterImpl<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>::
Reply(::test_requestflexibleenvelope::wire::StrictFoo f) {
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
_response{f};
FIDL_INTERNAL_DISABLE_AUTO_VAR_INIT
::fidl::unstable::OwnedEncodedMessage<
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>,
::fidl::internal::ChannelTransport>
_response_message{::fidl::internal::AllowUnownedInputRef{}, &_response};
return _core()->SendReply(&_response_message.GetOutgoingMessage(),
::fidl::internal::OutgoingTransportContext());
}
void fidl::internal::WireBufferCompleterImpl<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>::
Reply(::test_requestflexibleenvelope::wire::StrictFoo f) {
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>
_response{f};
constexpr uint32_t _buffer_size = ::fidl::ServerReplyBufferSizeInChannel<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>();
::fitx::result<::fidl::Error, ::fidl::BufferSpan> _allocation =
_allocator().TryAllocate(_buffer_size);
if (!_allocation.is_ok()) {
::fidl::OutgoingMessage _failure{_allocation.error_value()};
return _core()->SendReply(&_failure,
::fidl::internal::OutgoingTransportContext());
}
::fidl::unstable::UnownedEncodedMessage<
::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::
RequestFlexibleResponseStrict>,
::fidl::internal::ChannelTransport>
_response_message(_allocation->data, _buffer_size, &_response);
return _core()->SendReply(&_response_message.GetOutgoingMessage(),
::fidl::internal::OutgoingTransportContext());
}
#endif // __Fuchsia__
void ::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>::
_InitHeader() {
::fidl::InitTxnHeader(
&header, 0,
::test_requestflexibleenvelope::
kProtocol_RequestStrictResponseFlexible_Ordinal,
::test_requestflexibleenvelope::
kProtocol_RequestStrictResponseFlexible_DynamicFlags);
}
void ::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestStrictResponseFlexible>::
_InitHeader() {
::fidl::InitTxnHeader(
&header, 0,
::test_requestflexibleenvelope::
kProtocol_RequestStrictResponseFlexible_Ordinal,
::test_requestflexibleenvelope::
kProtocol_RequestStrictResponseFlexible_DynamicFlags);
}
void ::fidl::internal::TransactionalRequest<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>::
_InitHeader() {
::fidl::InitTxnHeader(
&header, 0,
::test_requestflexibleenvelope::
kProtocol_RequestFlexibleResponseStrict_Ordinal,
::test_requestflexibleenvelope::
kProtocol_RequestFlexibleResponseStrict_DynamicFlags);
}
void ::fidl::internal::TransactionalResponse<
::test_requestflexibleenvelope::Protocol::RequestFlexibleResponseStrict>::
_InitHeader() {
::fidl::InitTxnHeader(
&header, 0,
::test_requestflexibleenvelope::
kProtocol_RequestFlexibleResponseStrict_Ordinal,
::test_requestflexibleenvelope::
kProtocol_RequestFlexibleResponseStrict_DynamicFlags);
}
#ifdef __Fuchsia__
#endif // __Fuchsia__