uart/hardware1.hpp

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#pragma once
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#include <cstdint>
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#include <avr/interrupt.h>
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#include <avr/io.h>
#include <avr/sfr_defs.h>
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#include "config.hpp"
#include "hardware.hpp"
namespace uart {
namespace detail {
#if defined(__AVR_ATmega1284P__)
/*
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The following works in avr-gcc 5.4.0, but is not legal C++, because ptr's are not legal constexpr's:
constexpr auto *foo = ptr;
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Workaround is to store the the address of the ptr in a uintptr_t and reinterpret_cast it at call site.
The _SFR_ADDR macro in sfr_defs.h would give the address, but it does that by taking the address of the dereferenced
pointer and casts it to uint16_t, which is still not a legal constexpr.
The workaround therefore is to disable the pointer cast and dereference macro _MMIO_BYTE temporarily.
*/
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#pragma push_macro("_MMIO_BYTE")
#undef _MMIO_BYTE
#define _MMIO_BYTE
struct Registers1 {
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static constexpr std::uintptr_t IO_REG_ADDR = UDR1;
static constexpr std::uintptr_t CTRL_STAT_REG_A_ADDR = UCSR1A;
static constexpr std::uintptr_t CTRL_STAT_REG_B_ADDR = UCSR1B;
static constexpr std::uintptr_t CTRL_STAT_REG_C_ADDR = UCSR1C;
static constexpr std::uintptr_t BAUD_REG_L_ADDR = UBRR1L;
static constexpr std::uintptr_t BAUD_REG_H_ADDR = UBRR1H;
};
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#pragma pop_macro("_MMIO_BYTE")
enum class ControlFlagsA1 {
MULTI_PROC_COMM_MODE = MPCM1,
SPEED_2X = U2X1,
PARITY_ERROR = UPE1,
DATA_OVER_RUN = DOR1,
FRAME_ERROR = FE1,
DATA_REG_EMPTY = UDRE1,
TRANSMIT_COMPLETE = TXC1,
RECEIVE_COMPLETE = RXC1,
};
enum class ControlFlagsB1 {
TX_DATA_BIT_8 = TXB81,
RX_DATA_BIT_8 = RXB81,
CHAR_SIZE_2 = UCSZ12,
TX_ENABLE = TXEN1,
RX_ENABLE = RXEN1,
DATA_REG_EMPTY_INT_ENABLE = UDRIE1,
TX_INT_ENABLE = TXCIE1,
RX_INT_ENABLE = RXCIE1,
};
enum class ControlFlagsC1 {
CLK_POLARITY = UCPOL1,
CHAR_SIZE_0 = UCSZ10,
CHAR_SIZE_1 = UCSZ11,
STOP_BIT_SEL = USBS1,
PARITY_MODE_0 = UPM10,
PARITY_MODE_1 = UPM11,
MODE_SEL_0 = UMSEL10,
MODE_SEL_1 = UMSEL11,
};
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// clang-format off
constexpr int operator<<(const int &lhs, const ControlFlagsA1 &rhs) { return lhs << static_cast<int>(rhs); }
constexpr int operator<<(const int &lhs, const ControlFlagsB1 &rhs) { return lhs << static_cast<int>(rhs); }
constexpr int operator<<(const int &lhs, const ControlFlagsC1 &rhs) { return lhs << static_cast<int>(rhs); }
// clang-format on
#define HAS_UART1
#endif
} // namespace detail
#ifdef HAS_UART1
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template <class cfg = Config<>, Driven driven = Driven::INTERRUPT, Mode mode = Mode::ASYNCHRONOUS>
class Hardware1 : public detail::BlockingHardware<detail::Registers1, detail::ControlFlagsA1, detail::ControlFlagsB1,
detail::ControlFlagsC1, cfg, mode> {
};
template <class cfg, Mode mode>
class Hardware1<cfg, Driven::INTERRUPT, mode>
: public detail::InterruptHardware<detail::Registers1, detail::ControlFlagsA1, detail::ControlFlagsB1,
detail::ControlFlagsC1, cfg, mode> {
public:
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[[gnu::always_inline]] static void init()
{
HardwareImpl::init();
sei();
}
private:
using HardwareImpl = detail::Hardware<detail::Registers1, detail::ControlFlagsA1, detail::ControlFlagsB1,
detail::ControlFlagsC1, cfg, Driven::INTERRUPT, mode>;
using InterruptHardwareImpl = detail::InterruptHardware<detail::Registers1, detail::ControlFlagsA1,
detail::ControlFlagsB1, detail::ControlFlagsC1, cfg, mode>;
// Must be friends with Uart interface to call these private handlers
template <class Driver>
friend class Uart;
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[[gnu::always_inline]] static void rxIntHandler()
{
InterruptHardwareImpl::rxIntHandler();
}
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[[gnu::always_inline]] static void dataRegEmptyIntHandler()
{
InterruptHardwareImpl::dataRegEmptyIntHandler();
}
};
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#endif
} // namespace uart
//////////////////////////////////////////////////////////////////////////
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#ifdef HAS_UART1
// Forward declare interrupt functions to allow adding them as friends
extern "C" {
void USART1_RX_vect() __attribute__((signal));
void USART1_UDRE_vect() __attribute__((signal));
}
// clang-format off
#define REGISTER_UART1_INT_VECTORS(uart_type) \
ISR(USART1_RX_vect) \
{ \
uart_type::rxIntHandler(); \
} \
ISR(USART1_UDRE_vect) \
{ \
uart_type::dataRegEmptyIntHandler(); \
} \
struct _##uart_type { \
}
// clang-format off
#endif