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controller/Scan/BETKB/scan_loop.c

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/* Copyright (C) 2012,2014,2016 by Jacob Alexander
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
// ----- Includes -----
// Compiler Includes
#include <Lib/ScanLib.h>
// Project Includes
#include <kll.h>
#include <kll_defs.h>
#include <led.h>
#include <macro.h>
#include <print.h>
// Local Includes
#include "scan_loop.h"
// ----- Defines -----
// Pinout Defines
#define HOLD_PORT PORTD
#define HOLD_DDR DDRD
#define HOLD_PIN 3
// ----- Macros -----
// ----- Enums -----
// Keypress States
typedef enum KeyPosition {
KeyState_Off = 0,
KeyState_Press = 1,
KeyState_Hold = 2,
KeyState_Release = 3,
KeyState_Invalid,
} KeyPosition;
// ----- Variables -----
// Buffer used to inform the macro processing module which keys have been detected as pressed
volatile uint8_t KeyIndex_Buffer[KEYBOARD_BUFFER];
volatile uint8_t KeyIndex_BufferUsed;
volatile uint8_t KeyIndex_Add_InputSignal; // Used to pass the (click/input value) to the keyboard for the clicker
// Buffer Signals
volatile uint8_t BufferReadyToClear;
// ----- Function Declarations -----
void processKeyValue( uint8_t keyValue );
void removeKeyValue( uint8_t keyValue );
// ----- Interrupt Functions -----
// USART Receive Buffer Full Interrupt
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
ISR(USART1_RX_vect)
#elif defined(_mk20dx128_) || defined(_mk20dx256_) // ARM
void uart0_status_isr()
#endif
{
cli(); // Disable Interrupts
uint8_t keyValue = 0x00;
uint8_t keyState = 0x00;
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
// Read the scancode packet from the USART (1st to 8th bits)
keyValue = UDR1;
// Read the release/press bit (9th bit) XXX Unnecessary, and wrong it seems, parity bit? or something else?
keyState = UCSR1B & 0x02;
#elif defined(_mk20dx128_) || defined(_mk20dx256_) // ARM
// UART0_S1 must be read for the interrupt to be cleared
if ( UART0_S1 & UART_S1_RDRF )
{
// Only doing single byte FIFO here
keyValue = UART0_D;
}
#endif
// High bit of keyValue, also represents press/release
keyState = keyValue & 0x80 ? 0x00 : 0x02;
// Debug
char tmpStr[6];
hexToStr( keyValue & 0x7F, tmpStr );
// Process the scancode
switch ( keyState )
{
case 0x00: // Released
dPrintStrs( tmpStr, "R " ); // Debug
break;
case 0x02: // Pressed
dPrintStrs( tmpStr, "P " ); // Debug
break;
}
// Add key event to macro key buffer
TriggerGuide guide = {
.type = 0x00,
.state = keyState == 0x02 ? 0x01 : 0x03,
.scanCode = keyValue & 0x7F,
};
Macro_pressReleaseAdd( &guide );
sei(); // Re-enable Interrupts
}
// ----- Functions -----
// Setup
inline void Scan_setup()
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
{
// Setup the the USART interface for keyboard data input
// NOTE: The input data signal needs to be inverted for the Teensy USART to properly work
// Setup baud rate
// 16 MHz / ( 16 * Baud ) = UBRR
// Baud <- 0.823284 ms per bit, thus 1000 / 0.823284 = 1214.65004 -> 823.2824
// Thus baud setting = 823
uint16_t baud = 823; // Max setting of 4095
UBRR1H = (uint8_t)(baud >> 8);
UBRR1L = (uint8_t)baud;
// Enable the receiver, and RX Complete Interrupt as well as 9 bit data
UCSR1B = 0x94;
// The transmitter is only to be enabled when needed
// Set the pin to be pull-up otherwise (use the lowered voltage inverter in order to sink)
HOLD_DDR &= ~(1 << HOLD_PIN);
HOLD_PORT |= (1 << HOLD_PIN);
// Set frame format: 9 data, 1 stop bit, no parity
// Asynchrounous USART mode
UCSR1C = 0x06;
// Initially buffer doesn't need to be cleared (it's empty...)
BufferReadyToClear = 0;
// InputSignal is off by default
KeyIndex_Add_InputSignal = 0x00;
// Reset the keyboard before scanning, we might be in a wierd state
scan_resetKeyboard();
}
#elif defined(_mk20dx128_) || defined(_mk20dx256_) // ARM
{
// Setup the the UART interface for keyboard data input
SIM_SCGC4 |= SIM_SCGC4_UART0; // Disable clock gating
// Pin Setup for UART0
PORTB_PCR16 = PORT_PCR_PE | PORT_PCR_PS | PORT_PCR_PFE | PORT_PCR_MUX(3); // RX Pin
PORTB_PCR17 = PORT_PCR_DSE | PORT_PCR_SRE | PORT_PCR_MUX(3); // TX Pin
// Setup baud rate - 1205 Baud
// 48 MHz / ( 16 * Baud ) = BDH/L
// Baud: 1215 -> 48 MHz / ( 16 * 1215 ) = 2469.1358
// Thus baud setting = 2469
// NOTE: If finer baud adjustment is needed see UARTx_C4 -> BRFA in the datasheet
uint16_t baud = 2469; // Max setting of 8191
UART0_BDH = (uint8_t)(baud >> 8);
UART0_BDL = (uint8_t)baud;
// 8 bit, Even Parity, Idle Character bit after stop
// NOTE: For 8 bit with Parity you must enable 9 bit transmission (pg. 1065)
// You only need to use UART0_D for 8 bit reading/writing though
// UART_C1_M UART_C1_PE UART_C1_PT UART_C1_ILT
UART0_C1 = UART_C1_M | UART_C1_PE | UART_C1_ILT;
// Number of bytes in FIFO before TX Interrupt
UART0_TWFIFO = 1;
// Number of bytes in FIFO before RX Interrupt
UART0_RWFIFO = 1;
// TX FIFO Disabled, TX FIFO Size 1 (Max 8 datawords), RX FIFO Enabled, RX FIFO Size 1 (Max 8 datawords)
// TX/RX FIFO Size:
// 0x0 - 1 dataword
// 0x1 - 4 dataword
// 0x2 - 8 dataword
//UART0_PFIFO = UART_PFIFO_TXFE | /*TXFIFOSIZE*/ (0x0 << 4) | UART_PFIFO_RXFE | /*RXFIFOSIZE*/ (0x0);
// Reciever Inversion Disabled, LSBF
// UART_S2_RXINV UART_S2_MSBF
UART0_S2 |= 0x00;
// Transmit Inversion Disabled
// UART_C3_TXINV
UART0_C3 |= 0x00;
// TX Disabled, RX Enabled, RX Interrupt Enabled
// UART_C2_TE UART_C2_RE UART_C2_RIE
UART0_C2 = UART_C2_RE | UART_C2_RIE | UART_C2_TE;
// Add interrupt to the vector table
NVIC_ENABLE_IRQ( IRQ_UART0_STATUS );
// Reset the keyboard before scanning, we might be in a wierd state
Scan_resetKeyboard();
}
#endif
// Main Detection Loop
// Not needed for the BETKB, this is just a busy loop
inline uint8_t Scan_loop()
{
return 0;
}
// Send data
uint8_t scan_sendData( uint8_t dataPayload )
{
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
// Enable the USART Transmitter
UCSR1B |= (1 << 3);
#elif defined(_mk20dx128_) || defined(_mk20dx256_) // ARM
#endif
// Debug
char tmpStr[6];
hexToStr( dataPayload, tmpStr );
info_dPrint( "Sending - ", tmpStr );
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
UDR1 = dataPayload;
#elif defined(_mk20dx128_) || defined(_mk20dx256_) // ARM
UART0_D = dataPayload;
#endif
// Wait for the payload
_delay_us( 800 );
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
// Disable the USART Transmitter
UCSR1B &= ~(1 << 3);
#elif defined(_mk20dx128_) || defined(_mk20dx256_) // ARM
#endif
return 0;
}
// Signal KeyIndex_Buffer that it has been properly read
void Scan_finishedWithMacro( uint8_t sentKeys )
{
}
// Signal that the keys have been properly sent over USB
void Scan_finishedWithOutput( uint8_t sentKeys )
{
}
// Reset/Hold keyboard
// NOTE: Does nothing with the BETKB
void Scan_lockKeyboard()
{
}
// NOTE: Does nothing with the BETKB
void Scan_unlockKeyboard()
{
}
// Reset Keyboard
void Scan_resetKeyboard()
{
// Not a calculated valued...
_delay_ms( 50 );
}
// NOTE: Does nothing with the BETKB
void Scan_currentChange( unsigned int current )
{
}