// SPDX-FileCopyrightText: Copyright 2024 yuzu Emulator Project // SPDX-License-Identifier: GPL-3.0-or-later #include "core/hle/kernel/k_event.h" #include "core/hle/kernel/k_readable_event.h" #include "hid_core/hid_result.h" #include "hid_core/resources/abstracted_pad/abstract_nfc_handler.h" #include "hid_core/resources/abstracted_pad/abstract_pad_holder.h" #include "hid_core/resources/abstracted_pad/abstract_properties_handler.h" #include "hid_core/resources/npad/npad_types.h" namespace Service::HID { NpadAbstractNfcHandler::NpadAbstractNfcHandler() {} NpadAbstractNfcHandler::~NpadAbstractNfcHandler() = default; void NpadAbstractNfcHandler::SetAbstractPadHolder(NpadAbstractedPadHolder* holder) { abstract_pad_holder = holder; } void NpadAbstractNfcHandler::SetPropertiesHandler(NpadAbstractPropertiesHandler* handler) { properties_handler = handler; } Result NpadAbstractNfcHandler::IncrementRefCounter() { if (ref_counter == std::numeric_limits::max() - 1) { return ResultNpadHandlerOverflow; } ref_counter++; return ResultSuccess; } Result NpadAbstractNfcHandler::DecrementRefCounter() { if (ref_counter == 0) { return ResultNpadHandlerNotInitialized; } ref_counter--; return ResultSuccess; } void NpadAbstractNfcHandler::UpdateNfcState() { std::array abstract_pads{}; const std::size_t count = properties_handler->GetAbstractedPads(abstract_pads); if (count == 0) { if (sensor_state == NpadNfcState::Active) { nfc_activate_event->Signal(); } if (sensor_state == NpadNfcState::Unavailable) { return; } sensor_state = NpadNfcState::Unavailable; input_event->Signal(); return; } bool is_found{}; for (std::size_t i = 0; i < count; i++) { auto* abstract_pad = abstract_pads[i]; if (!abstract_pad->internal_flags.is_connected) { continue; } if (!abstract_pad->disabled_feature_set.has_nfc) { continue; } is_found = true; xcd_handle = 0; } if (is_found) { if (sensor_state == NpadNfcState::Active) { return; } if (sensor_state == NpadNfcState::Available) { return; } sensor_state = NpadNfcState::Available; input_event->Signal(); return; } if (sensor_state == NpadNfcState::Active) { nfc_activate_event->Signal(); } if (sensor_state == NpadNfcState::Unavailable) { return; } sensor_state = NpadNfcState::Unavailable; input_event->Signal(); return; } bool NpadAbstractNfcHandler::HasNfcSensor() { return sensor_state != NpadNfcState::Unavailable; } bool NpadAbstractNfcHandler::IsNfcActivated() { return sensor_state == NpadNfcState::Active; } Result NpadAbstractNfcHandler::GetAcquireNfcActivateEventHandle( Kernel::KReadableEvent** out_event) { *out_event = &nfc_activate_event->GetReadableEvent(); return ResultSuccess; } void NpadAbstractNfcHandler::SetInputEvent(Kernel::KEvent* event) { input_event = event; } Result NpadAbstractNfcHandler::ActivateNfc(bool is_enabled) { if (sensor_state == NpadNfcState::Active) { return ResultNfcIsNotReady; } NpadNfcState new_state = NpadNfcState::Available; if (is_enabled) { new_state = NpadNfcState::Active; } if (sensor_state != new_state) { sensor_state = new_state; nfc_activate_event->Signal(); } return ResultSuccess; } Result NpadAbstractNfcHandler::GetXcdHandleWithNfc(u64& out_xcd_handle) const { if (sensor_state == NpadNfcState::Unavailable) { return ResultNfcIsNotReady; } if (xcd_handle == 0) { return ResultNfcXcdHandleIsNotInitialized; } out_xcd_handle = xcd_handle; return ResultSuccess; } } // namespace Service::HID