/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#pragma once
#include
namespace ams::gpio {
#if defined(ATMOSPHERE_OS_HORIZON)
class RemotePadSessionImpl {
private:
::GpioPadSession m_srv;
public:
RemotePadSessionImpl(::GpioPadSession &p) : m_srv(p) { /* ... */ }
~RemotePadSessionImpl() { ::gpioPadClose(std::addressof(m_srv)); }
public:
/* Actual commands. */
Result SetDirection(gpio::Direction direction) {
R_RETURN(::gpioPadSetDirection(std::addressof(m_srv), static_cast<::GpioDirection>(static_cast(direction))));
}
Result GetDirection(ams::sf::Out out) {
static_assert(sizeof(gpio::Direction) == sizeof(::GpioDirection));
R_RETURN(::gpioPadGetDirection(std::addressof(m_srv), reinterpret_cast<::GpioDirection *>(out.GetPointer())));
}
Result SetInterruptMode(gpio::InterruptMode mode) {
R_RETURN(::gpioPadSetInterruptMode(std::addressof(m_srv), static_cast<::GpioInterruptMode>(static_cast(mode))));
}
Result GetInterruptMode(ams::sf::Out out) {
static_assert(sizeof(gpio::InterruptMode) == sizeof(::GpioInterruptMode));
R_RETURN(::gpioPadGetInterruptMode(std::addressof(m_srv), reinterpret_cast<::GpioInterruptMode *>(out.GetPointer())));
}
Result SetInterruptEnable(bool enable) {
R_RETURN(::gpioPadSetInterruptEnable(std::addressof(m_srv), enable));
}
Result GetInterruptEnable(ams::sf::Out out) {
R_RETURN(::gpioPadGetInterruptEnable(std::addressof(m_srv), out.GetPointer()));
}
Result GetInterruptStatus(ams::sf::Out out) {
static_assert(sizeof(gpio::InterruptStatus) == sizeof(::GpioInterruptStatus));
R_RETURN(::gpioPadGetInterruptStatus(std::addressof(m_srv), reinterpret_cast<::GpioInterruptStatus *>(out.GetPointer())));
}
Result ClearInterruptStatus() {
R_RETURN(::gpioPadClearInterruptStatus(std::addressof(m_srv)));
}
Result SetValue(gpio::GpioValue value) {
R_RETURN(::gpioPadSetValue(std::addressof(m_srv), static_cast<::GpioValue>(static_cast(value))));
}
Result GetValue(ams::sf::Out out) {
static_assert(sizeof(gpio::GpioValue) == sizeof(::GpioValue));
R_RETURN(::gpioPadGetValue(std::addressof(m_srv), reinterpret_cast<::GpioValue *>(out.GetPointer())));
}
Result BindInterrupt(ams::sf::OutCopyHandle out) {
::Event ev;
R_TRY(::gpioPadBindInterrupt(std::addressof(m_srv), std::addressof(ev)));
out.SetValue(ev.revent, true);
R_SUCCEED();
}
Result UnbindInterrupt() {
R_RETURN(::gpioPadUnbindInterrupt(std::addressof(m_srv)));
}
Result SetDebounceEnabled(bool enable) {
R_RETURN(::gpioPadSetDebounceEnabled(std::addressof(m_srv), enable));
}
Result GetDebounceEnabled(ams::sf::Out out) {
R_RETURN(::gpioPadGetDebounceEnabled(std::addressof(m_srv), out.GetPointer()));
}
Result SetDebounceTime(s32 ms) {
R_RETURN(::gpioPadSetDebounceTime(std::addressof(m_srv), ms));
}
Result GetDebounceTime(ams::sf::Out out) {
R_RETURN(::gpioPadGetDebounceTime(std::addressof(m_srv), out.GetPointer()));
}
Result SetValueForSleepState(gpio::GpioValue value) {
/* TODO: libnx bindings. */
AMS_UNUSED(value);
AMS_ABORT();
}
Result GetValueForSleepState(ams::sf::Out out) {
/* TODO: libnx bindings. */
AMS_UNUSED(out);
AMS_ABORT();
}
};
static_assert(gpio::sf::IsIPadSession);
#endif
}