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fuchsia / fuchsia / 60465c64241d659f652688f0fb2825366d13bc52 / . / garnet / go / src / fidl / compiler / backend / goldens / request_flexible_envelope.test.json.llcpp.cc.golden
blob: 8ea4f6bacc952e2615aabedd556387b06756fa28 [file] [log] [blame]
// WARNING: This file is machine generated by fidlgen.
#include <request_flexible_envelope.test.json.llcpp.h>
#include <memory>
namespace llcpp {
namespace fidl {
namespace test {
namespace json {
void ::llcpp::fidl::test::json::StrictFoo::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(StrictFoo) == sizeof(fidl_xunion_t));
static_assert(offsetof(StrictFoo, ordinal_) == offsetof(fidl_xunion_t, tag));
static_assert(offsetof(StrictFoo, envelope_) ==
offsetof(fidl_xunion_t, envelope));
}
auto ::llcpp::fidl::test::json::FlexibleFoo::which() const -> Tag {
ZX_ASSERT(!has_invalid_tag());
switch (ordinal_) {
case Ordinal::kS:
case Ordinal::kI:
return static_cast<Tag>(ordinal_);
default:
return Tag::kUnknown;
}
}
void ::llcpp::fidl::test::json::FlexibleFoo::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(FlexibleFoo) == sizeof(fidl_xunion_t));
static_assert(offsetof(FlexibleFoo, ordinal_) ==
offsetof(fidl_xunion_t, tag));
static_assert(offsetof(FlexibleFoo, envelope_) ==
offsetof(fidl_xunion_t, envelope));
}
namespace {
[[maybe_unused]] constexpr uint64_t
kProtocol_RequestStrictResponseFlexible_Ordinal = 8264567585134801538lu;
extern "C" const fidl_type_t
fidl_test_json_ProtocolRequestStrictResponseFlexibleRequestTable;
extern "C" const fidl_type_t
fidl_test_json_ProtocolRequestStrictResponseFlexibleResponseTable;
[[maybe_unused]] constexpr uint64_t
kProtocol_RequestFlexibleResponseStrict_Ordinal = 4801763909694511442lu;
extern "C" const fidl_type_t
fidl_test_json_ProtocolRequestFlexibleResponseStrictRequestTable;
extern "C" const fidl_type_t
fidl_test_json_ProtocolRequestFlexibleResponseStrictResponseTable;
} // namespace
template <>
Protocol::ResultOf::RequestStrictResponseFlexible_Impl<
Protocol::RequestStrictResponseFlexibleResponse>::
RequestStrictResponseFlexible_Impl(
::zx::unowned_channel _client_end,
::llcpp::fidl::test::json::StrictFoo& s) {
RequestStrictResponseFlexibleRequest _request(0, s);
auto _encoded = ::fidl::internal::LinearizedAndEncoded<
RequestStrictResponseFlexibleRequest>(&_request);
auto& _encode_result = _encoded.result();
if (_encode_result.status != ZX_OK) {
Super::SetFailure(std::move(_encode_result));
return;
}
::fidl::EncodedMessage<RequestStrictResponseFlexibleRequest>
_encoded_request = std::move(_encode_result.message);
Super::SetResult(Protocol::InPlace::RequestStrictResponseFlexible(
std::move(_client_end), std::move(_encoded_request),
Super::response_buffer()));
}
Protocol::ResultOf::RequestStrictResponseFlexible
Protocol::SyncClient::RequestStrictResponseFlexible(
::llcpp::fidl::test::json::StrictFoo s) {
return ResultOf::RequestStrictResponseFlexible(
::zx::unowned_channel(this->channel_), s);
}
Protocol::ResultOf::RequestStrictResponseFlexible
Protocol::Call::RequestStrictResponseFlexible(
::zx::unowned_channel _client_end, ::llcpp::fidl::test::json::StrictFoo s) {
return ResultOf::RequestStrictResponseFlexible(std::move(_client_end), s);
}
template <>
Protocol::UnownedResultOf::RequestStrictResponseFlexible_Impl<
Protocol::RequestStrictResponseFlexibleResponse>::
RequestStrictResponseFlexible_Impl(::zx::unowned_channel _client_end,
::fidl::BytePart _request_buffer,
::llcpp::fidl::test::json::StrictFoo s,
::fidl::BytePart _response_buffer) {
if (_request_buffer.capacity() <
RequestStrictResponseFlexibleRequest::PrimarySize) {
Super::SetFailure(
::fidl::DecodeResult<RequestStrictResponseFlexibleResponse>(
ZX_ERR_BUFFER_TOO_SMALL, ::fidl::kErrorRequestBufferTooSmall));
return;
}
RequestStrictResponseFlexibleRequest _request(0, s);
auto _encode_result =
::fidl::LinearizeAndEncode<RequestStrictResponseFlexibleRequest>(
&_request, std::move(_request_buffer));
if (_encode_result.status != ZX_OK) {
Super::SetFailure(std::move(_encode_result));
return;
}
::fidl::EncodedMessage<RequestStrictResponseFlexibleRequest>
_encoded_request = std::move(_encode_result.message);
Super::SetResult(Protocol::InPlace::RequestStrictResponseFlexible(
std::move(_client_end), std::move(_encoded_request),
std::move(_response_buffer)));
}
Protocol::UnownedResultOf::RequestStrictResponseFlexible
Protocol::SyncClient::RequestStrictResponseFlexible(
::fidl::BytePart _request_buffer, ::llcpp::fidl::test::json::StrictFoo s,
::fidl::BytePart _response_buffer) {
return UnownedResultOf::RequestStrictResponseFlexible(
::zx::unowned_channel(this->channel_), std::move(_request_buffer),
std::move(s), std::move(_response_buffer));
}
Protocol::UnownedResultOf::RequestStrictResponseFlexible
Protocol::Call::RequestStrictResponseFlexible(
::zx::unowned_channel _client_end, ::fidl::BytePart _request_buffer,
::llcpp::fidl::test::json::StrictFoo s, ::fidl::BytePart _response_buffer) {
return UnownedResultOf::RequestStrictResponseFlexible(
std::move(_client_end), std::move(_request_buffer), std::move(s),
std::move(_response_buffer));
}
::fidl::DecodeResult<Protocol::RequestStrictResponseFlexibleResponse>
Protocol::InPlace::RequestStrictResponseFlexible(
::zx::unowned_channel _client_end,
::fidl::DecodedMessage<RequestStrictResponseFlexibleRequest> params,
::fidl::BytePart response_buffer) {
auto _encode_request_result = ::fidl::Encode(std::move(params));
if (_encode_request_result.status != ZX_OK) {
return ::fidl::DecodeResult<
Protocol::RequestStrictResponseFlexibleResponse>::
FromFailure(std::move(_encode_request_result));
}
return RequestStrictResponseFlexible(
std::move(_client_end), std::move(_encode_request_result.message),
std::move(response_buffer));
}
::fidl::DecodeResult<Protocol::RequestStrictResponseFlexibleResponse>
Protocol::InPlace::RequestStrictResponseFlexible(
::zx::unowned_channel _client_end,
::fidl::EncodedMessage<RequestStrictResponseFlexibleRequest> params,
::fidl::BytePart response_buffer) {
RequestStrictResponseFlexibleRequest* request =
reinterpret_cast<RequestStrictResponseFlexibleRequest*>(
params.bytes().data());
fidl_init_txn_header(&request->_hdr, 0,
kProtocol_RequestStrictResponseFlexible_Ordinal);
auto _call_result = ::fidl::Call<RequestStrictResponseFlexibleRequest,
RequestStrictResponseFlexibleResponse>(
std::move(_client_end), std::move(params), std::move(response_buffer));
if (_call_result.status != ZX_OK) {
return ::fidl::DecodeResult<
Protocol::RequestStrictResponseFlexibleResponse>::
FromFailure(std::move(_call_result));
}
return ::fidl::Decode(std::move(_call_result.message));
}
template <>
Protocol::ResultOf::RequestFlexibleResponseStrict_Impl<
Protocol::RequestFlexibleResponseStrictResponse>::
RequestFlexibleResponseStrict_Impl(
::zx::unowned_channel _client_end,
::llcpp::fidl::test::json::FlexibleFoo& s) {
RequestFlexibleResponseStrictRequest _request(0, s);
auto _encoded = ::fidl::internal::LinearizedAndEncoded<
RequestFlexibleResponseStrictRequest>(&_request);
auto& _encode_result = _encoded.result();
if (_encode_result.status != ZX_OK) {
Super::SetFailure(std::move(_encode_result));
return;
}
::fidl::EncodedMessage<RequestFlexibleResponseStrictRequest>
_encoded_request = std::move(_encode_result.message);
Super::SetResult(Protocol::InPlace::RequestFlexibleResponseStrict(
std::move(_client_end), std::move(_encoded_request),
Super::response_buffer()));
}
Protocol::ResultOf::RequestFlexibleResponseStrict
Protocol::SyncClient::RequestFlexibleResponseStrict(
::llcpp::fidl::test::json::FlexibleFoo s) {
return ResultOf::RequestFlexibleResponseStrict(
::zx::unowned_channel(this->channel_), s);
}
Protocol::ResultOf::RequestFlexibleResponseStrict
Protocol::Call::RequestFlexibleResponseStrict(
::zx::unowned_channel _client_end,
::llcpp::fidl::test::json::FlexibleFoo s) {
return ResultOf::RequestFlexibleResponseStrict(std::move(_client_end), s);
}
template <>
Protocol::UnownedResultOf::RequestFlexibleResponseStrict_Impl<
Protocol::RequestFlexibleResponseStrictResponse>::
RequestFlexibleResponseStrict_Impl(::zx::unowned_channel _client_end,
::fidl::BytePart _request_buffer,
::llcpp::fidl::test::json::FlexibleFoo s,
::fidl::BytePart _response_buffer) {
if (_request_buffer.capacity() <
RequestFlexibleResponseStrictRequest::PrimarySize) {
Super::SetFailure(
::fidl::DecodeResult<RequestFlexibleResponseStrictResponse>(
ZX_ERR_BUFFER_TOO_SMALL, ::fidl::kErrorRequestBufferTooSmall));
return;
}
RequestFlexibleResponseStrictRequest _request(0, s);
auto _encode_result =
::fidl::LinearizeAndEncode<RequestFlexibleResponseStrictRequest>(
&_request, std::move(_request_buffer));
if (_encode_result.status != ZX_OK) {
Super::SetFailure(std::move(_encode_result));
return;
}
::fidl::EncodedMessage<RequestFlexibleResponseStrictRequest>
_encoded_request = std::move(_encode_result.message);
Super::SetResult(Protocol::InPlace::RequestFlexibleResponseStrict(
std::move(_client_end), std::move(_encoded_request),
std::move(_response_buffer)));
}
Protocol::UnownedResultOf::RequestFlexibleResponseStrict
Protocol::SyncClient::RequestFlexibleResponseStrict(
::fidl::BytePart _request_buffer, ::llcpp::fidl::test::json::FlexibleFoo s,
::fidl::BytePart _response_buffer) {
return UnownedResultOf::RequestFlexibleResponseStrict(
::zx::unowned_channel(this->channel_), std::move(_request_buffer),
std::move(s), std::move(_response_buffer));
}
Protocol::UnownedResultOf::RequestFlexibleResponseStrict
Protocol::Call::RequestFlexibleResponseStrict(
::zx::unowned_channel _client_end, ::fidl::BytePart _request_buffer,
::llcpp::fidl::test::json::FlexibleFoo s,
::fidl::BytePart _response_buffer) {
return UnownedResultOf::RequestFlexibleResponseStrict(
std::move(_client_end), std::move(_request_buffer), std::move(s),
std::move(_response_buffer));
}
::fidl::DecodeResult<Protocol::RequestFlexibleResponseStrictResponse>
Protocol::InPlace::RequestFlexibleResponseStrict(
::zx::unowned_channel _client_end,
::fidl::DecodedMessage<RequestFlexibleResponseStrictRequest> params,
::fidl::BytePart response_buffer) {
auto _encode_request_result = ::fidl::Encode(std::move(params));
if (_encode_request_result.status != ZX_OK) {
return ::fidl::DecodeResult<
Protocol::RequestFlexibleResponseStrictResponse>::
FromFailure(std::move(_encode_request_result));
}
return RequestFlexibleResponseStrict(
std::move(_client_end), std::move(_encode_request_result.message),
std::move(response_buffer));
}
::fidl::DecodeResult<Protocol::RequestFlexibleResponseStrictResponse>
Protocol::InPlace::RequestFlexibleResponseStrict(
::zx::unowned_channel _client_end,
::fidl::EncodedMessage<RequestFlexibleResponseStrictRequest> params,
::fidl::BytePart response_buffer) {
RequestFlexibleResponseStrictRequest* request =
reinterpret_cast<RequestFlexibleResponseStrictRequest*>(
params.bytes().data());
fidl_init_txn_header(&request->_hdr, 0,
kProtocol_RequestFlexibleResponseStrict_Ordinal);
auto _call_result = ::fidl::Call<RequestFlexibleResponseStrictRequest,
RequestFlexibleResponseStrictResponse>(
std::move(_client_end), std::move(params), std::move(response_buffer));
if (_call_result.status != ZX_OK) {
return ::fidl::DecodeResult<
Protocol::RequestFlexibleResponseStrictResponse>::
FromFailure(std::move(_call_result));
}
return ::fidl::Decode(std::move(_call_result.message));
}
Protocol::ResultOf::RequestStrictResponseFlexible
Protocol::ClientImpl::RequestStrictResponseFlexible_Sync(
::llcpp::fidl::test::json::StrictFoo s) {
if (auto _binding = ::fidl::internal::ClientBase::GetBinding()) {
return ResultOf::RequestStrictResponseFlexible(_binding->channel(), s);
}
return ::fidl::StatusAndError(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
Protocol::UnownedResultOf::RequestStrictResponseFlexible
Protocol::ClientImpl::RequestStrictResponseFlexible_Sync(
::fidl::BytePart _request_buffer, ::llcpp::fidl::test::json::StrictFoo s,
::fidl::BytePart _response_buffer) {
if (auto _binding = ::fidl::internal::ClientBase::GetBinding()) {
return UnownedResultOf::RequestStrictResponseFlexible(
_binding->channel(), std::move(_request_buffer), std::move(s),
std::move(_response_buffer));
}
return ::fidl::StatusAndError(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
::fidl::StatusAndError Protocol::ClientImpl::RequestStrictResponseFlexible(
::llcpp::fidl::test::json::StrictFoo s,
::fit::callback<void(::llcpp::fidl::test::json::FlexibleFoo f)> _cb) {
class ManagedResponseContext
: public RequestStrictResponseFlexibleResponseContext {
public:
ManagedResponseContext(
::fit::callback<void(::llcpp::fidl::test::json::FlexibleFoo f)> cb)
: cb_(std::move(cb)) {}
void OnReply(::fidl::DecodedMessage<RequestStrictResponseFlexibleResponse>
msg) override {
auto message = msg.message();
cb_(std::move(message->f));
delete this;
}
void OnError() override { delete this; }
::fit::callback<void(::llcpp::fidl::test::json::FlexibleFoo f)> cb_;
};
constexpr uint32_t _kWriteAllocSize = ::fidl::internal::ClampedMessageSize<
RequestStrictResponseFlexibleRequest,
::fidl::MessageDirection::kSending>();
std::unique_ptr _write_bytes_boxed =
std::make_unique<::fidl::internal::AlignedBuffer<_kWriteAllocSize>>();
auto& _write_bytes_array = *_write_bytes_boxed;
auto* _context = new ManagedResponseContext(std::move(_cb));
auto status_and_error = RequestStrictResponseFlexible(
_write_bytes_array.view(), std::move(s), _context);
if (!status_and_error.ok()) {
delete _context;
}
return status_and_error;
}
::fidl::StatusAndError Protocol::ClientImpl::RequestStrictResponseFlexible(
::fidl::BytePart _request_buffer, ::llcpp::fidl::test::json::StrictFoo s,
RequestStrictResponseFlexibleResponseContext* _context) {
if (_request_buffer.capacity() <
RequestStrictResponseFlexibleRequest::PrimarySize) {
return ::fidl::StatusAndError(ZX_ERR_BUFFER_TOO_SMALL,
::fidl::kErrorRequestBufferTooSmall);
}
::fidl::internal::ClientBase::PrepareAsyncTxn(_context);
RequestStrictResponseFlexibleRequest _request(_context->Txid(), s);
auto _encode_request_result =
::fidl::LinearizeAndEncode<RequestStrictResponseFlexibleRequest>(
&_request, std::move(_request_buffer));
if (_encode_request_result.status != ZX_OK) {
::fidl::internal::ClientBase::ForgetAsyncTxn(_context);
return std::move(_encode_request_result);
}
if (auto _binding = ::fidl::internal::ClientBase::GetBinding()) {
zx_status_t _write_status = ::fidl::Write(
_binding->channel(), std::move(_encode_request_result.message));
if (_write_status != ZX_OK) {
::fidl::internal::ClientBase::ForgetAsyncTxn(_context);
return ::fidl::StatusAndError(_write_status, ::fidl::kErrorWriteFailed);
}
return ::fidl::StatusAndError(ZX_OK, nullptr);
}
::fidl::internal::ClientBase::ForgetAsyncTxn(_context);
return ::fidl::StatusAndError(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
Protocol::ResultOf::RequestFlexibleResponseStrict
Protocol::ClientImpl::RequestFlexibleResponseStrict_Sync(
::llcpp::fidl::test::json::FlexibleFoo s) {
if (auto _binding = ::fidl::internal::ClientBase::GetBinding()) {
return ResultOf::RequestFlexibleResponseStrict(_binding->channel(), s);
}
return ::fidl::StatusAndError(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
Protocol::UnownedResultOf::RequestFlexibleResponseStrict
Protocol::ClientImpl::RequestFlexibleResponseStrict_Sync(
::fidl::BytePart _request_buffer, ::llcpp::fidl::test::json::FlexibleFoo s,
::fidl::BytePart _response_buffer) {
if (auto _binding = ::fidl::internal::ClientBase::GetBinding()) {
return UnownedResultOf::RequestFlexibleResponseStrict(
_binding->channel(), std::move(_request_buffer), std::move(s),
std::move(_response_buffer));
}
return ::fidl::StatusAndError(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
::fidl::StatusAndError Protocol::ClientImpl::RequestFlexibleResponseStrict(
::llcpp::fidl::test::json::FlexibleFoo s,
::fit::callback<void(::llcpp::fidl::test::json::StrictFoo f)> _cb) {
class ManagedResponseContext
: public RequestFlexibleResponseStrictResponseContext {
public:
ManagedResponseContext(
::fit::callback<void(::llcpp::fidl::test::json::StrictFoo f)> cb)
: cb_(std::move(cb)) {}
void OnReply(::fidl::DecodedMessage<RequestFlexibleResponseStrictResponse>
msg) override {
auto message = msg.message();
cb_(std::move(message->f));
delete this;
}
void OnError() override { delete this; }
::fit::callback<void(::llcpp::fidl::test::json::StrictFoo f)> cb_;
};
constexpr uint32_t _kWriteAllocSize = ::fidl::internal::ClampedMessageSize<
RequestFlexibleResponseStrictRequest,
::fidl::MessageDirection::kSending>();
std::unique_ptr _write_bytes_boxed =
std::make_unique<::fidl::internal::AlignedBuffer<_kWriteAllocSize>>();
auto& _write_bytes_array = *_write_bytes_boxed;
auto* _context = new ManagedResponseContext(std::move(_cb));
auto status_and_error = RequestFlexibleResponseStrict(
_write_bytes_array.view(), std::move(s), _context);
if (!status_and_error.ok()) {
delete _context;
}
return status_and_error;
}
::fidl::StatusAndError Protocol::ClientImpl::RequestFlexibleResponseStrict(
::fidl::BytePart _request_buffer, ::llcpp::fidl::test::json::FlexibleFoo s,
RequestFlexibleResponseStrictResponseContext* _context) {
if (_request_buffer.capacity() <
RequestFlexibleResponseStrictRequest::PrimarySize) {
return ::fidl::StatusAndError(ZX_ERR_BUFFER_TOO_SMALL,
::fidl::kErrorRequestBufferTooSmall);
}
::fidl::internal::ClientBase::PrepareAsyncTxn(_context);
RequestFlexibleResponseStrictRequest _request(_context->Txid(), s);
auto _encode_request_result =
::fidl::LinearizeAndEncode<RequestFlexibleResponseStrictRequest>(
&_request, std::move(_request_buffer));
if (_encode_request_result.status != ZX_OK) {
::fidl::internal::ClientBase::ForgetAsyncTxn(_context);
return std::move(_encode_request_result);
}
if (auto _binding = ::fidl::internal::ClientBase::GetBinding()) {
zx_status_t _write_status = ::fidl::Write(
_binding->channel(), std::move(_encode_request_result.message));
if (_write_status != ZX_OK) {
::fidl::internal::ClientBase::ForgetAsyncTxn(_context);
return ::fidl::StatusAndError(_write_status, ::fidl::kErrorWriteFailed);
}
return ::fidl::StatusAndError(ZX_OK, nullptr);
}
::fidl::internal::ClientBase::ForgetAsyncTxn(_context);
return ::fidl::StatusAndError(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
zx_status_t Protocol::ClientImpl::Dispatch(
fidl_msg_t* msg, ::fidl::internal::ResponseContext* context) {
fidl_message_header_t* hdr =
reinterpret_cast<fidl_message_header_t*>(msg->bytes);
switch (hdr->ordinal) {
case kProtocol_RequestStrictResponseFlexible_Ordinal: {
auto result =
::fidl::DecodeAs<RequestStrictResponseFlexibleResponse>(msg);
if (result.status != ZX_OK) {
context->OnError();
return result.status;
}
static_cast<RequestStrictResponseFlexibleResponseContext*>(context)
->OnReply(std::move(result.message));
break;
}
case kProtocol_RequestFlexibleResponseStrict_Ordinal: {
auto result =
::fidl::DecodeAs<RequestFlexibleResponseStrictResponse>(msg);
if (result.status != ZX_OK) {
context->OnError();
return result.status;
}
static_cast<RequestFlexibleResponseStrictResponseContext*>(context)
->OnReply(std::move(result.message));
break;
}
case kFidlOrdinalEpitaph:
if (context) return ZX_ERR_INVALID_ARGS;
::fidl::internal::ClientBase::Close(
reinterpret_cast<fidl_epitaph_t*>(hdr)->error);
break;
default:
zx_handle_close_many(msg->handles, msg->num_handles);
if (context) context->OnError();
return ZX_ERR_NOT_SUPPORTED;
}
return ZX_OK;
}
bool Protocol::TryDispatch(Interface* impl, fidl_msg_t* msg,
::fidl::Transaction* txn) {
if (msg->num_bytes < sizeof(fidl_message_header_t)) {
zx_handle_close_many(msg->handles, msg->num_handles);
txn->Close(ZX_ERR_INVALID_ARGS);
return true;
}
fidl_message_header_t* hdr =
reinterpret_cast<fidl_message_header_t*>(msg->bytes);
zx_status_t status = fidl_validate_txn_header(hdr);
if (status != ZX_OK) {
txn->Close(status);
return true;
}
switch (hdr->ordinal) {
case kProtocol_RequestStrictResponseFlexible_Ordinal: {
auto result = ::fidl::DecodeAs<RequestStrictResponseFlexibleRequest>(msg);
if (result.status != ZX_OK) {
txn->Close(ZX_ERR_INVALID_ARGS);
return true;
}
auto message = result.message.message();
impl->RequestStrictResponseFlexible(
std::move(message->s),
Interface::RequestStrictResponseFlexibleCompleter::Sync(txn));
return true;
}
case kProtocol_RequestFlexibleResponseStrict_Ordinal: {
auto result = ::fidl::DecodeAs<RequestFlexibleResponseStrictRequest>(msg);
if (result.status != ZX_OK) {
txn->Close(ZX_ERR_INVALID_ARGS);
return true;
}
auto message = result.message.message();
impl->RequestFlexibleResponseStrict(
std::move(message->s),
Interface::RequestFlexibleResponseStrictCompleter::Sync(txn));
return true;
}
default: {
return false;
}
}
}
bool Protocol::Dispatch(Interface* impl, fidl_msg_t* msg,
::fidl::Transaction* txn) {
bool found = TryDispatch(impl, msg, txn);
if (!found) {
zx_handle_close_many(msg->handles, msg->num_handles);
txn->Close(ZX_ERR_NOT_SUPPORTED);
}
return found;
}
void Protocol::Interface::RequestStrictResponseFlexibleCompleterBase::Reply(
::llcpp::fidl::test::json::FlexibleFoo f) {
RequestStrictResponseFlexibleResponse _response{f};
auto _encoded = ::fidl::internal::LinearizedAndEncoded<
RequestStrictResponseFlexibleResponse>(&_response);
auto& _encode_result = _encoded.result();
if (_encode_result.status != ZX_OK) {
CompleterBase::Close(ZX_ERR_INTERNAL);
return;
}
CompleterBase::SendReply(std::move(_encode_result.message));
}
void Protocol::Interface::RequestStrictResponseFlexibleCompleterBase::Reply(
::fidl::BytePart _buffer, ::llcpp::fidl::test::json::FlexibleFoo f) {
if (_buffer.capacity() < RequestStrictResponseFlexibleResponse::PrimarySize) {
CompleterBase::Close(ZX_ERR_INTERNAL);
return;
}
RequestStrictResponseFlexibleResponse _response{f};
auto _encode_result =
::fidl::LinearizeAndEncode<RequestStrictResponseFlexibleResponse>(
&_response, std::move(_buffer));
if (_encode_result.status != ZX_OK) {
CompleterBase::Close(ZX_ERR_INTERNAL);
return;
}
CompleterBase::SendReply(std::move(_encode_result.message));
}
void Protocol::Interface::RequestStrictResponseFlexibleCompleterBase::Reply(
::fidl::DecodedMessage<RequestStrictResponseFlexibleResponse> params) {
ZX_DEBUG_ASSERT(params.message()->_hdr.magic_number ==
kFidlWireFormatMagicNumberInitial);
ZX_DEBUG_ASSERT(params.message()->_hdr.ordinal ==
kProtocol_RequestStrictResponseFlexible_Ordinal);
CompleterBase::SendReply(std::move(params));
}
void Protocol::Interface::RequestFlexibleResponseStrictCompleterBase::Reply(
::llcpp::fidl::test::json::StrictFoo f) {
RequestFlexibleResponseStrictResponse _response{f};
auto _encoded = ::fidl::internal::LinearizedAndEncoded<
RequestFlexibleResponseStrictResponse>(&_response);
auto& _encode_result = _encoded.result();
if (_encode_result.status != ZX_OK) {
CompleterBase::Close(ZX_ERR_INTERNAL);
return;
}
CompleterBase::SendReply(std::move(_encode_result.message));
}
void Protocol::Interface::RequestFlexibleResponseStrictCompleterBase::Reply(
::fidl::BytePart _buffer, ::llcpp::fidl::test::json::StrictFoo f) {
if (_buffer.capacity() < RequestFlexibleResponseStrictResponse::PrimarySize) {
CompleterBase::Close(ZX_ERR_INTERNAL);
return;
}
RequestFlexibleResponseStrictResponse _response{f};
auto _encode_result =
::fidl::LinearizeAndEncode<RequestFlexibleResponseStrictResponse>(
&_response, std::move(_buffer));
if (_encode_result.status != ZX_OK) {
CompleterBase::Close(ZX_ERR_INTERNAL);
return;
}
CompleterBase::SendReply(std::move(_encode_result.message));
}
void Protocol::Interface::RequestFlexibleResponseStrictCompleterBase::Reply(
::fidl::DecodedMessage<RequestFlexibleResponseStrictResponse> params) {
ZX_DEBUG_ASSERT(params.message()->_hdr.magic_number ==
kFidlWireFormatMagicNumberInitial);
ZX_DEBUG_ASSERT(params.message()->_hdr.ordinal ==
kProtocol_RequestFlexibleResponseStrict_Ordinal);
CompleterBase::SendReply(std::move(params));
}
void Protocol::RequestStrictResponseFlexibleRequest::_InitHeader(
zx_txid_t _txid) {
fidl_init_txn_header(&_hdr, _txid,
kProtocol_RequestStrictResponseFlexible_Ordinal);
}
void Protocol::RequestStrictResponseFlexibleResponse::_InitHeader() {
fidl_init_txn_header(&_hdr, 0,
kProtocol_RequestStrictResponseFlexible_Ordinal);
}
void Protocol::RequestFlexibleResponseStrictRequest::_InitHeader(
zx_txid_t _txid) {
fidl_init_txn_header(&_hdr, _txid,
kProtocol_RequestFlexibleResponseStrict_Ordinal);
}
void Protocol::RequestFlexibleResponseStrictResponse::_InitHeader() {
fidl_init_txn_header(&_hdr, 0,
kProtocol_RequestFlexibleResponseStrict_Ordinal);
}
} // namespace json
} // namespace test
} // namespace fidl
} // namespace llcpp