299 lines
11 KiB
C++
299 lines
11 KiB
C++
/**
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* Marlin 3D Printer Firmware
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* Copyright (c) 2019 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
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*
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* Based on Sprinter and grbl.
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* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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*/
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#pragma once
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/**
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* MarlinSerial.h - Hardware serial library for Wiring
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* Copyright (c) 2006 Nicholas Zambetti. All right reserved.
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*
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* Modified 28 September 2010 by Mark Sproul
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* Modified 14 February 2016 by Andreas Hardtung (added tx buffer)
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* Modified 01 October 2017 by Eduardo José Tagle (added XON/XOFF)
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* Templatized 01 October 2018 by Eduardo José Tagle to allow multiple instances
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*/
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#include "../shared/MarlinSerial.h"
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#include <WString.h>
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#ifndef SERIAL_PORT
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#define SERIAL_PORT 0
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#endif
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#ifndef USBCON
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// The presence of the UBRRH register is used to detect a UART.
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#define UART_PRESENT(port) ((port == 0 && (defined(UBRRH) || defined(UBRR0H))) || \
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(port == 1 && defined(UBRR1H)) || (port == 2 && defined(UBRR2H)) || \
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(port == 3 && defined(UBRR3H)))
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// These are macros to build serial port register names for the selected SERIAL_PORT (C preprocessor
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// requires two levels of indirection to expand macro values properly)
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#define SERIAL_REGNAME(registerbase,number,suffix) SERIAL_REGNAME_INTERNAL(registerbase,number,suffix)
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#if SERIAL_PORT == 0 && (!defined(UBRR0H) || !defined(UDR0)) // use un-numbered registers if necessary
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#define SERIAL_REGNAME_INTERNAL(registerbase,number,suffix) registerbase##suffix
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#else
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#define SERIAL_REGNAME_INTERNAL(registerbase,number,suffix) registerbase##number##suffix
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#endif
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// Registers used by MarlinSerial class (expanded depending on selected serial port)
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// Templated 8bit register (generic)
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#define UART_REGISTER_DECL_BASE(registerbase, suffix) \
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template<int portNr> struct R_##registerbase##x##suffix {}
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// Templated 8bit register (specialization for each port)
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#define UART_REGISTER_DECL(port, registerbase, suffix) \
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template<> struct R_##registerbase##x##suffix<port> { \
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constexpr R_##registerbase##x##suffix(int) {} \
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FORCE_INLINE void operator=(uint8_t newVal) const { SERIAL_REGNAME(registerbase,port,suffix) = newVal; } \
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FORCE_INLINE operator uint8_t() const { return SERIAL_REGNAME(registerbase,port,suffix); } \
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}
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// Templated 1bit register (generic)
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#define UART_BIT_DECL_BASE(registerbase, suffix, bit) \
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template<int portNr>struct B_##bit##x {}
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// Templated 1bit register (specialization for each port)
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#define UART_BIT_DECL(port, registerbase, suffix, bit) \
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template<> struct B_##bit##x<port> { \
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constexpr B_##bit##x(int) {} \
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FORCE_INLINE void operator=(int newVal) const { \
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if (newVal) \
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SBI(SERIAL_REGNAME(registerbase,port,suffix),SERIAL_REGNAME(bit,port,)); \
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else \
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CBI(SERIAL_REGNAME(registerbase,port,suffix),SERIAL_REGNAME(bit,port,)); \
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} \
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FORCE_INLINE operator bool() const { return TEST(SERIAL_REGNAME(registerbase,port,suffix),SERIAL_REGNAME(bit,port,)); } \
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}
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#define UART_DECL_BASE() \
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UART_REGISTER_DECL_BASE(UCSR,A);\
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UART_REGISTER_DECL_BASE(UDR,);\
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UART_REGISTER_DECL_BASE(UBRR,H);\
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UART_REGISTER_DECL_BASE(UBRR,L);\
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UART_BIT_DECL_BASE(UCSR,B,RXEN);\
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UART_BIT_DECL_BASE(UCSR,B,TXEN);\
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UART_BIT_DECL_BASE(UCSR,A,TXC);\
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UART_BIT_DECL_BASE(UCSR,B,RXCIE);\
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UART_BIT_DECL_BASE(UCSR,A,UDRE);\
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UART_BIT_DECL_BASE(UCSR,A,FE);\
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UART_BIT_DECL_BASE(UCSR,A,DOR);\
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UART_BIT_DECL_BASE(UCSR,B,UDRIE);\
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UART_BIT_DECL_BASE(UCSR,A,RXC);\
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UART_BIT_DECL_BASE(UCSR,A,U2X)
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#define UART_DECL(port) \
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UART_REGISTER_DECL(port,UCSR,A);\
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UART_REGISTER_DECL(port,UDR,);\
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UART_REGISTER_DECL(port,UBRR,H);\
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UART_REGISTER_DECL(port,UBRR,L);\
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UART_BIT_DECL(port,UCSR,B,RXEN);\
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UART_BIT_DECL(port,UCSR,B,TXEN);\
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UART_BIT_DECL(port,UCSR,A,TXC);\
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UART_BIT_DECL(port,UCSR,B,RXCIE);\
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UART_BIT_DECL(port,UCSR,A,UDRE);\
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UART_BIT_DECL(port,UCSR,A,FE);\
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UART_BIT_DECL(port,UCSR,A,DOR);\
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UART_BIT_DECL(port,UCSR,B,UDRIE);\
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UART_BIT_DECL(port,UCSR,A,RXC);\
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UART_BIT_DECL(port,UCSR,A,U2X)
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// Declare empty templates
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UART_DECL_BASE();
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// And all the specializations for each possible serial port
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#if UART_PRESENT(0)
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UART_DECL(0);
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#endif
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#if UART_PRESENT(1)
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UART_DECL(1);
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#endif
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#if UART_PRESENT(2)
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UART_DECL(2);
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#endif
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#if UART_PRESENT(3)
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UART_DECL(3);
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#endif
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#define DEC 10
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#define HEX 16
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#define OCT 8
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#define BIN 2
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#define BYTE 0
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// Templated type selector
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template<bool b, typename T, typename F> struct TypeSelector { typedef T type;} ;
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template<typename T, typename F> struct TypeSelector<false, T, F> { typedef F type; };
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template<typename Cfg>
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class MarlinSerial {
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protected:
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// Registers
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static constexpr R_UCSRxA<Cfg::PORT> R_UCSRA = 0;
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static constexpr R_UDRx<Cfg::PORT> R_UDR = 0;
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static constexpr R_UBRRxH<Cfg::PORT> R_UBRRH = 0;
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static constexpr R_UBRRxL<Cfg::PORT> R_UBRRL = 0;
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// Bits
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static constexpr B_RXENx<Cfg::PORT> B_RXEN = 0;
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static constexpr B_TXENx<Cfg::PORT> B_TXEN = 0;
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static constexpr B_TXCx<Cfg::PORT> B_TXC = 0;
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static constexpr B_RXCIEx<Cfg::PORT> B_RXCIE = 0;
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static constexpr B_UDREx<Cfg::PORT> B_UDRE = 0;
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static constexpr B_FEx<Cfg::PORT> B_FE = 0;
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static constexpr B_DORx<Cfg::PORT> B_DOR = 0;
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static constexpr B_UDRIEx<Cfg::PORT> B_UDRIE = 0;
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static constexpr B_RXCx<Cfg::PORT> B_RXC = 0;
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static constexpr B_U2Xx<Cfg::PORT> B_U2X = 0;
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// Base size of type on buffer size
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typedef typename TypeSelector<(Cfg::RX_SIZE>256), uint16_t, uint8_t>::type ring_buffer_pos_t;
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struct ring_buffer_r {
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volatile ring_buffer_pos_t head, tail;
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unsigned char buffer[Cfg::RX_SIZE];
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};
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struct ring_buffer_t {
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volatile uint8_t head, tail;
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unsigned char buffer[Cfg::TX_SIZE];
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};
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static ring_buffer_r rx_buffer;
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static ring_buffer_t tx_buffer;
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static bool _written;
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static constexpr uint8_t XON_XOFF_CHAR_SENT = 0x80, // XON / XOFF Character was sent
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XON_XOFF_CHAR_MASK = 0x1F; // XON / XOFF character to send
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// XON / XOFF character definitions
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static constexpr uint8_t XON_CHAR = 17, XOFF_CHAR = 19;
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static uint8_t xon_xoff_state,
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rx_dropped_bytes,
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rx_buffer_overruns,
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rx_framing_errors;
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static ring_buffer_pos_t rx_max_enqueued;
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static FORCE_INLINE ring_buffer_pos_t atomic_read_rx_head();
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static volatile bool rx_tail_value_not_stable;
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static volatile uint16_t rx_tail_value_backup;
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static FORCE_INLINE void atomic_set_rx_tail(ring_buffer_pos_t value);
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static FORCE_INLINE ring_buffer_pos_t atomic_read_rx_tail();
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public:
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FORCE_INLINE static void store_rxd_char();
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FORCE_INLINE static void _tx_udr_empty_irq();
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public:
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MarlinSerial() {};
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static void begin(const long);
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static void end();
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static int peek();
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static int read();
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static void flush();
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static ring_buffer_pos_t available();
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static void write(const uint8_t c);
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static void flushTX();
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FORCE_INLINE static uint8_t dropped() { return Cfg::DROPPED_RX ? rx_dropped_bytes : 0; }
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FORCE_INLINE static uint8_t buffer_overruns() { return Cfg::RX_OVERRUNS ? rx_buffer_overruns : 0; }
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FORCE_INLINE static uint8_t framing_errors() { return Cfg::RX_FRAMING_ERRORS ? rx_framing_errors : 0; }
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FORCE_INLINE static ring_buffer_pos_t rxMaxEnqueued() { return Cfg::MAX_RX_QUEUED ? rx_max_enqueued : 0; }
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FORCE_INLINE static void write(const char* str) { while (*str) write(*str++); }
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FORCE_INLINE static void write(const uint8_t* buffer, size_t size) { while (size--) write(*buffer++); }
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FORCE_INLINE static void print(const String& s) { for (int i = 0; i < (int)s.length(); i++) write(s[i]); }
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FORCE_INLINE static void print(const char* str) { write(str); }
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static void print(char, int = BYTE);
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static void print(unsigned char, int = BYTE);
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static void print(int, int = DEC);
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static void print(unsigned int, int = DEC);
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static void print(long, int = DEC);
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static void print(unsigned long, int = DEC);
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static void print(double, int = 2);
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static void println(const String& s);
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static void println(const char[]);
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static void println(char, int = BYTE);
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static void println(unsigned char, int = BYTE);
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static void println(int, int = DEC);
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static void println(unsigned int, int = DEC);
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static void println(long, int = DEC);
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static void println(unsigned long, int = DEC);
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static void println(double, int = 2);
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static void println();
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operator bool() { return true; }
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private:
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static void printNumber(unsigned long, const uint8_t);
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static void printFloat(double, uint8_t);
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};
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template <uint8_t serial>
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struct MarlinSerialCfg {
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static constexpr int PORT = serial;
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static constexpr unsigned int RX_SIZE = RX_BUFFER_SIZE;
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static constexpr unsigned int TX_SIZE = TX_BUFFER_SIZE;
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static constexpr bool XONOFF = bSERIAL_XON_XOFF;
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static constexpr bool EMERGENCYPARSER = bEMERGENCY_PARSER;
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static constexpr bool DROPPED_RX = bSERIAL_STATS_DROPPED_RX;
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static constexpr bool RX_OVERRUNS = bSERIAL_STATS_RX_BUFFER_OVERRUNS;
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static constexpr bool RX_FRAMING_ERRORS = bSERIAL_STATS_RX_FRAMING_ERRORS;
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static constexpr bool MAX_RX_QUEUED = bSERIAL_STATS_MAX_RX_QUEUED;
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};
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extern MarlinSerial<MarlinSerialCfg<SERIAL_PORT>> customizedSerial1;
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#ifdef SERIAL_PORT_2
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extern MarlinSerial<MarlinSerialCfg<SERIAL_PORT_2>> customizedSerial2;
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#endif
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#endif // !USBCON
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#ifdef INTERNAL_SERIAL_PORT
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template <uint8_t serial>
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struct MarlinInternalSerialCfg {
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static constexpr int PORT = serial;
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static constexpr unsigned int RX_SIZE = 32;
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static constexpr unsigned int TX_SIZE = 32;
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static constexpr bool XONOFF = false;
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static constexpr bool EMERGENCYPARSER = false;
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static constexpr bool DROPPED_RX = false;
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static constexpr bool RX_OVERRUNS = false;
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static constexpr bool RX_FRAMING_ERRORS = false;
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static constexpr bool MAX_RX_QUEUED = false;
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};
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extern MarlinSerial<MarlinInternalSerialCfg<INTERNAL_SERIAL_PORT>> internalSerial;
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#endif
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// Use the UART for Bluetooth in AT90USB configurations
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#if defined(USBCON) && ENABLED(BLUETOOTH)
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extern HardwareSerial bluetoothSerial;
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#endif
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