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668 lines
18 KiB
668 lines
18 KiB
/********************************************************************************
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USI TWI Slave driver.
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Created by Donald R. Blake. donblake at worldnet.att.net
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Adapted by Jochen Toppe, jochen.toppe at jtoee.com
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---------------------------------------------------------------------------------
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Created from Atmel source files for Application Note AVR312: Using the USI Module
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as an I2C slave.
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This program is free software; you can redistribute it and/or modify it under the
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terms of the GNU General Public License as published by the Free Software
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Foundation; either version 2 of the License, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
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PARTICULAR PURPOSE. See the GNU General Public License for more details.
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---------------------------------------------------------------------------------
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Change Activity:
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Date Description
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------ -------------
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16 Mar 2007 Created.
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27 Mar 2007 Added support for ATtiny261, 461 and 861.
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26 Apr 2007 Fixed ACK of slave address on a read.
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04 Jul 2007 Fixed USISIF in ATtiny45 def
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12 Dev 2009 Added callback functions for data requests
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********************************************************************************/
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/********************************************************************************
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includes
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********************************************************************************/
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#include <avr/io.h>
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#include <avr/interrupt.h>
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#include "usiTwiSlave.h"
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//#include "../common/util.h"
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/********************************************************************************
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device dependent defines
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********************************************************************************/
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#if defined( __AVR_ATtiny2313__ )
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# define DDR_USI DDRB
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# define PORT_USI PORTB
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# define PIN_USI PINB
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# define PORT_USI_SDA PB5
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# define PORT_USI_SCL PB7
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# define PIN_USI_SDA PINB5
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# define PIN_USI_SCL PINB7
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# define USI_START_COND_INT USISIF
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# define USI_START_VECTOR USI_START_vect
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# define USI_OVERFLOW_VECTOR USI_OVERFLOW_vect
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#endif
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#if defined(__AVR_ATtiny84__) | \
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defined(__AVR_ATtiny44__)
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# define DDR_USI DDRA
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# define PORT_USI PORTA
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# define PIN_USI PINA
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# define PORT_USI_SDA PORTA6
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# define PORT_USI_SCL PORTA4
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# define PIN_USI_SDA PINA6
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# define PIN_USI_SCL PINA4
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# define USI_START_COND_INT USISIF
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# define USI_START_VECTOR USI_START_vect
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# define USI_OVERFLOW_VECTOR USI_OVF_vect
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#endif
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#if defined( __AVR_ATtiny25__ ) | \
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defined( __AVR_ATtiny45__ ) | \
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defined( __AVR_ATtiny85__ )
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# define DDR_USI DDRB
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# define PORT_USI PORTB
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# define PIN_USI PINB
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# define PORT_USI_SDA PB0
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# define PORT_USI_SCL PB2
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# define PIN_USI_SDA PINB0
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# define PIN_USI_SCL PINB2
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# define USI_START_COND_INT USISIF
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# define USI_START_VECTOR USI_START_vect
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# define USI_OVERFLOW_VECTOR USI_OVF_vect
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#endif
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#if defined( __AVR_ATtiny26__ )
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# define DDR_USI DDRB
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# define PORT_USI PORTB
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# define PIN_USI PINB
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# define PORT_USI_SDA PB0
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# define PORT_USI_SCL PB2
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# define PIN_USI_SDA PINB0
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# define PIN_USI_SCL PINB2
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# define USI_START_COND_INT USISIF
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# define USI_START_VECTOR USI_STRT_vect
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# define USI_OVERFLOW_VECTOR USI_OVF_vect
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#endif
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#if defined( __AVR_ATtiny261__ ) | \
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defined( __AVR_ATtiny461__ ) | \
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defined( __AVR_ATtiny861__ )
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# define DDR_USI DDRB
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# define PORT_USI PORTB
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# define PIN_USI PINB
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# define PORT_USI_SDA PB0
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# define PORT_USI_SCL PB2
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# define PIN_USI_SDA PINB0
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# define PIN_USI_SCL PINB2
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# define USI_START_COND_INT USISIF
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# define USI_START_VECTOR USI_START_vect
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# define USI_OVERFLOW_VECTOR USI_OVF_vect
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#endif
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#if defined( __AVR_ATmega165__ ) | \
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defined( __AVR_ATmega325__ ) | \
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defined( __AVR_ATmega3250__ ) | \
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defined( __AVR_ATmega645__ ) | \
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defined( __AVR_ATmega6450__ ) | \
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defined( __AVR_ATmega329__ ) | \
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defined( __AVR_ATmega3290__ )
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# define DDR_USI DDRE
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# define PORT_USI PORTE
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# define PIN_USI PINE
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# define PORT_USI_SDA PE5
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# define PORT_USI_SCL PE4
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# define PIN_USI_SDA PINE5
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# define PIN_USI_SCL PINE4
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# define USI_START_COND_INT USISIF
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# define USI_START_VECTOR USI_START_vect
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# define USI_OVERFLOW_VECTOR USI_OVERFLOW_vect
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#endif
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#if defined( __AVR_ATmega169__ )
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# define DDR_USI DDRE
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# define PORT_USI PORTE
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# define PIN_USI PINE
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# define PORT_USI_SDA PE5
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# define PORT_USI_SCL PE4
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# define PIN_USI_SDA PINE5
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# define PIN_USI_SCL PINE4
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# define USI_START_COND_INT USISIF
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# define USI_START_VECTOR USI_START_vect
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# define USI_OVERFLOW_VECTOR USI_OVERFLOW_vect
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#endif
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/********************************************************************************
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functions implemented as macros
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********************************************************************************/
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#define SET_USI_TO_SEND_ACK( ) \
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{ \
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/* prepare ACK */ \
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USIDR = 0; \
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/* set SDA as output */ \
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DDR_USI |= ( 1 << PORT_USI_SDA ); \
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/* clear all interrupt flags, except Start Cond */ \
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USISR = \
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( 0 << USI_START_COND_INT ) | \
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( 1 << USIOIF ) | ( 1 << USIPF ) | \
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( 1 << USIDC )| \
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/* set USI counter to shift 1 bit */ \
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( 0x0E << USICNT0 ); \
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}
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#define SET_USI_TO_READ_ACK( ) \
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{ \
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/* set SDA as input */ \
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DDR_USI &= ~( 1 << PORT_USI_SDA ); \
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/* prepare ACK */ \
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USIDR = 0; \
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/* clear all interrupt flags, except Start Cond */ \
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USISR = \
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( 0 << USI_START_COND_INT ) | \
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( 1 << USIOIF ) | \
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( 1 << USIPF ) | \
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( 1 << USIDC ) | \
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/* set USI counter to shift 1 bit */ \
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( 0x0E << USICNT0 ); \
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}
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#define SET_USI_TO_TWI_START_CONDITION_MODE( ) \
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{ \
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USICR = \
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/* enable Start Condition Interrupt, disable Overflow Interrupt */ \
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( 1 << USISIE ) | ( 0 << USIOIE ) | \
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/* set USI in Two-wire mode, no USI Counter overflow hold */ \
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( 1 << USIWM1 ) | ( 0 << USIWM0 ) | \
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/* Shift Register Clock Source = External, positive edge */ \
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/* 4-Bit Counter Source = external, both edges */ \
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( 1 << USICS1 ) | ( 0 << USICS0 ) | ( 0 << USICLK ) | \
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/* no toggle clock-port pin */ \
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( 0 << USITC ); \
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USISR = \
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/* clear all interrupt flags, except Start Cond */ \
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( 0 << USI_START_COND_INT ) | ( 1 << USIOIF ) | ( 1 << USIPF ) | \
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( 1 << USIDC ) | ( 0x0 << USICNT0 ); \
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}
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#define SET_USI_TO_SEND_DATA( ) \
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{ \
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/* set SDA as output */ \
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DDR_USI |= ( 1 << PORT_USI_SDA ); \
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/* clear all interrupt flags, except Start Cond */ \
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USISR = \
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( 0 << USI_START_COND_INT ) | ( 1 << USIOIF ) | ( 1 << USIPF ) | \
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( 1 << USIDC) | \
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/* set USI to shift out 8 bits */ \
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( 0x0 << USICNT0 ); \
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}
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#define SET_USI_TO_READ_DATA( ) \
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{ \
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/* set SDA as input */ \
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DDR_USI &= ~( 1 << PORT_USI_SDA ); \
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/* clear all interrupt flags, except Start Cond */ \
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USISR = \
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( 0 << USI_START_COND_INT ) | ( 1 << USIOIF ) | \
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( 1 << USIPF ) | ( 1 << USIDC ) | \
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/* set USI to shift out 8 bits */ \
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( 0x0 << USICNT0 ); \
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}
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#define USI_RECEIVE_CALLBACK() \
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{ \
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if (usi_onReceiverPtr) \
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{ \
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if (usiTwiDataInReceiveBuffer()) \
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{ \
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usi_onReceiverPtr(usiTwiAmountDataInReceiveBuffer()); \
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} \
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} \
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}
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#define ONSTOP_USI_RECEIVE_CALLBACK() \
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{ \
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if (USISR & ( 1 << USIPF )) \
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{ \
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USI_RECEIVE_CALLBACK(); \
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} \
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}
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#define USI_REQUEST_CALLBACK() \
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{ \
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USI_RECEIVE_CALLBACK(); \
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if(usi_onRequestPtr) usi_onRequestPtr(); \
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}
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/********************************************************************************
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typedef's
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********************************************************************************/
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typedef enum
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{
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USI_SLAVE_CHECK_ADDRESS = 0x00,
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USI_SLAVE_SEND_DATA = 0x01,
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USI_SLAVE_REQUEST_REPLY_FROM_SEND_DATA = 0x02,
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USI_SLAVE_CHECK_REPLY_FROM_SEND_DATA = 0x03,
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USI_SLAVE_REQUEST_DATA = 0x04,
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USI_SLAVE_GET_DATA_AND_SEND_ACK = 0x05
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} overflowState_t;
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/********************************************************************************
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local variables
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********************************************************************************/
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static uint8_t slaveAddress;
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static volatile overflowState_t overflowState;
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static uint8_t rxBuf[ TWI_RX_BUFFER_SIZE ];
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static volatile uint8_t rxHead;
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static volatile uint8_t rxTail;
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static uint8_t txBuf[ TWI_TX_BUFFER_SIZE ];
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static volatile uint8_t txHead;
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static volatile uint8_t txTail;
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// data requested callback
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void (*_onTwiDataRequest)(void);
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/********************************************************************************
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local functions
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********************************************************************************/
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// flushes the TWI buffers
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static
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void
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flushTwiBuffers(
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void
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)
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{
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rxTail = 0;
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rxHead = 0;
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txTail = 0;
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txHead = 0;
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} // end flushTwiBuffers
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/********************************************************************************
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public functions
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********************************************************************************/
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// initialise USI for TWI slave mode
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void
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usiTwiSlaveInit(
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uint8_t ownAddress
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)
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{
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flushTwiBuffers( );
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slaveAddress = ownAddress;
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// In Two Wire mode (USIWM1, USIWM0 = 1X), the slave USI will pull SCL
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// low when a start condition is detected or a counter overflow (only
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// for USIWM1, USIWM0 = 11). This inserts a wait state. SCL is released
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// by the ISRs (USI_START_vect and USI_OVERFLOW_vect).
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// Set SCL and SDA as output
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DDR_USI |= ( 1 << PORT_USI_SCL ) | ( 1 << PORT_USI_SDA );
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// set SCL high
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PORT_USI |= ( 1 << PORT_USI_SCL );
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// set SDA high
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PORT_USI |= ( 1 << PORT_USI_SDA );
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// Set SDA as input
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DDR_USI &= ~( 1 << PORT_USI_SDA );
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USICR =
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// enable Start Condition Interrupt
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( 1 << USISIE ) |
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// disable Overflow Interrupt
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( 0 << USIOIE ) |
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// set USI in Two-wire mode, no USI Counter overflow hold
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( 1 << USIWM1 ) | ( 0 << USIWM0 ) |
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// Shift Register Clock Source = external, positive edge
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// 4-Bit Counter Source = external, both edges
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( 1 << USICS1 ) | ( 0 << USICS0 ) | ( 0 << USICLK ) |
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// no toggle clock-port pin
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( 0 << USITC );
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// clear all interrupt flags and reset overflow counter
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USISR = ( 1 << USI_START_COND_INT ) | ( 1 << USIOIF ) | ( 1 << USIPF ) | ( 1 << USIDC );
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} // end usiTwiSlaveInit
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bool usiTwiDataInTransmitBuffer(void)
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{
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// return 0 (false) if the receive buffer is empty
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return txHead != txTail;
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} // end usiTwiDataInTransmitBuffer
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// put data in the transmission buffer, wait if buffer is full
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void
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usiTwiTransmitByte(
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uint8_t data
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)
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{
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uint8_t tmphead;
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// calculate buffer index
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tmphead = ( txHead + 1 ) & TWI_TX_BUFFER_MASK;
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// wait for free space in buffer
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while ( tmphead == txTail );
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// store data in buffer
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txBuf[ tmphead ] = data;
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// store new index
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txHead = tmphead;
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} // end usiTwiTransmitByte
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// return a byte from the receive buffer, wait if buffer is empty
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uint8_t
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usiTwiReceiveByte(
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void
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)
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{
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// wait for Rx data
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while ( rxHead == rxTail );
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// calculate buffer index
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rxTail = ( rxTail + 1 ) & TWI_RX_BUFFER_MASK;
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// return data from the buffer.
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return rxBuf[ rxTail ];
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} // end usiTwiReceiveByte
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// check if there is data in the receive buffer
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bool
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usiTwiDataInReceiveBuffer(
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void
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)
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{
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// return 0 (false) if the receive buffer is empty
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return rxHead != rxTail;
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} // end usiTwiDataInReceiveBuffer
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uint8_t usiTwiAmountDataInReceiveBuffer(void)
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{
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if (rxHead == rxTail)
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{
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return 0;
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}
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if (rxHead < rxTail)
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{
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// Is there a better way ?
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return ((int8_t)rxHead - (int8_t)rxTail) + TWI_RX_BUFFER_SIZE;
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}
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return rxHead - rxTail;
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}
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/********************************************************************************
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USI Start Condition ISR
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********************************************************************************/
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ISR( USI_START_VECTOR )
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{
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/*
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// This triggers on second write, but claims to the callback there is only *one* byte in buffer
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ONSTOP_USI_RECEIVE_CALLBACK();
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*/
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/*
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// This triggers on second write, but claims to the callback there is only *one* byte in buffer
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USI_RECEIVE_CALLBACK();
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*/
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// set default starting conditions for new TWI package
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overflowState = USI_SLAVE_CHECK_ADDRESS;
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// set SDA as input
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DDR_USI &= ~( 1 << PORT_USI_SDA );
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// wait for SCL to go low to ensure the Start Condition has completed (the
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// start detector will hold SCL low ) - if a Stop Condition arises then leave
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// the interrupt to prevent waiting forever - don't use USISR to test for Stop
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// Condition as in Application Note AVR312 because the Stop Condition Flag is
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// going to be set from the last TWI sequence
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while (
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// SCL his high
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( PIN_USI & ( 1 << PIN_USI_SCL ) ) &&
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// and SDA is low
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!( ( PIN_USI & ( 1 << PIN_USI_SDA ) ) )
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);
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if ( !( PIN_USI & ( 1 << PIN_USI_SDA ) ) )
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{
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// a Stop Condition did not occur
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USICR =
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// keep Start Condition Interrupt enabled to detect RESTART
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( 1 << USISIE ) |
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// enable Overflow Interrupt
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( 1 << USIOIE ) |
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// set USI in Two-wire mode, hold SCL low on USI Counter overflow
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( 1 << USIWM1 ) | ( 1 << USIWM0 ) |
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// Shift Register Clock Source = External, positive edge
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// 4-Bit Counter Source = external, both edges
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( 1 << USICS1 ) | ( 0 << USICS0 ) | ( 0 << USICLK ) |
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// no toggle clock-port pin
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( 0 << USITC );
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}
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else
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{
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// a Stop Condition did occur
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USICR =
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// enable Start Condition Interrupt
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( 1 << USISIE ) |
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// disable Overflow Interrupt
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( 0 << USIOIE ) |
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// set USI in Two-wire mode, no USI Counter overflow hold
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( 1 << USIWM1 ) | ( 0 << USIWM0 ) |
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// Shift Register Clock Source = external, positive edge
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// 4-Bit Counter Source = external, both edges
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( 1 << USICS1 ) | ( 0 << USICS0 ) | ( 0 << USICLK ) |
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// no toggle clock-port pin
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( 0 << USITC );
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} // end if
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USISR =
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// clear interrupt flags - resetting the Start Condition Flag will
|
|
// release SCL
|
|
( 1 << USI_START_COND_INT ) | ( 1 << USIOIF ) |
|
|
( 1 << USIPF ) |( 1 << USIDC ) |
|
|
// set USI to sample 8 bits (count 16 external SCL pin toggles)
|
|
( 0x0 << USICNT0);
|
|
|
|
|
|
} // end ISR( USI_START_VECTOR )
|
|
|
|
|
|
|
|
/********************************************************************************
|
|
|
|
USI Overflow ISR
|
|
|
|
Handles all the communication.
|
|
|
|
Only disabled when waiting for a new Start Condition.
|
|
|
|
********************************************************************************/
|
|
volatile uint8_t last_unknown_address = 0;
|
|
//ISR( USI_OVERFLOW_VECTOR )
|
|
void usiTwiSlaveOvlHandler()
|
|
{
|
|
|
|
switch ( overflowState )
|
|
{
|
|
|
|
// Address mode: check address and send ACK (and next USI_SLAVE_SEND_DATA) if OK,
|
|
// else reset USI
|
|
case USI_SLAVE_CHECK_ADDRESS:
|
|
if ( ( USIDR == 0 ) || ( ( USIDR >> 1 ) == slaveAddress) )
|
|
{
|
|
// callback
|
|
if(_onTwiDataRequest) _onTwiDataRequest();
|
|
if ( USIDR & 0x01 )
|
|
{
|
|
overflowState = USI_SLAVE_SEND_DATA;
|
|
}
|
|
else
|
|
{
|
|
overflowState = USI_SLAVE_REQUEST_DATA;
|
|
} // end if
|
|
SET_USI_TO_SEND_ACK( );
|
|
}
|
|
else
|
|
{
|
|
last_unknown_address = USIDR >> 1;
|
|
SET_USI_TO_TWI_START_CONDITION_MODE( );
|
|
}
|
|
break;
|
|
|
|
// Master write data mode: check reply and goto USI_SLAVE_SEND_DATA if OK,
|
|
// else reset USI
|
|
case USI_SLAVE_CHECK_REPLY_FROM_SEND_DATA:
|
|
if ( USIDR )
|
|
{
|
|
// if NACK, the master does not want more data
|
|
SET_USI_TO_TWI_START_CONDITION_MODE( );
|
|
return;
|
|
}
|
|
// from here we just drop straight into USI_SLAVE_SEND_DATA if the
|
|
// master sent an ACK
|
|
|
|
// copy data from buffer to USIDR and set USI to shift byte
|
|
// next USI_SLAVE_REQUEST_REPLY_FROM_SEND_DATA
|
|
case USI_SLAVE_SEND_DATA:
|
|
USI_REQUEST_CALLBACK();
|
|
// Get data from Buffer
|
|
if ( txHead != txTail )
|
|
{
|
|
txTail = ( txTail + 1 ) & TWI_TX_BUFFER_MASK;
|
|
USIDR = txBuf[ txTail ];
|
|
}
|
|
else
|
|
{
|
|
// the buffer is empty
|
|
SET_USI_TO_READ_ACK( ); // This might be neccessary sometimes see http://www.avrfreaks.net/index.php?name=PNphpBB2&file=viewtopic&p=805227#805227
|
|
SET_USI_TO_TWI_START_CONDITION_MODE( );
|
|
return;
|
|
} // end if
|
|
overflowState = USI_SLAVE_REQUEST_REPLY_FROM_SEND_DATA;
|
|
SET_USI_TO_SEND_DATA( );
|
|
break;
|
|
|
|
// set USI to sample reply from master
|
|
// next USI_SLAVE_CHECK_REPLY_FROM_SEND_DATA
|
|
case USI_SLAVE_REQUEST_REPLY_FROM_SEND_DATA:
|
|
overflowState = USI_SLAVE_CHECK_REPLY_FROM_SEND_DATA;
|
|
SET_USI_TO_READ_ACK( );
|
|
break;
|
|
|
|
// Master read data mode: set USI to sample data from master, next
|
|
// USI_SLAVE_GET_DATA_AND_SEND_ACK
|
|
case USI_SLAVE_REQUEST_DATA:
|
|
overflowState = USI_SLAVE_GET_DATA_AND_SEND_ACK;
|
|
SET_USI_TO_READ_DATA( );
|
|
break;
|
|
|
|
// copy data from USIDR and send ACK
|
|
// next USI_SLAVE_REQUEST_DATA
|
|
case USI_SLAVE_GET_DATA_AND_SEND_ACK:
|
|
// put data into buffer
|
|
// Not necessary, but prevents warnings
|
|
rxHead = ( rxHead + 1 ) & TWI_RX_BUFFER_MASK;
|
|
// check buffer size
|
|
if (rxHead == rxTail) {
|
|
// overrun
|
|
rxHead = (rxHead + TWI_RX_BUFFER_SIZE - 1) & TWI_RX_BUFFER_MASK;
|
|
} else {
|
|
rxBuf[ rxHead ] = USIDR;
|
|
}
|
|
// next USI_SLAVE_REQUEST_DATA
|
|
overflowState = USI_SLAVE_REQUEST_DATA;
|
|
SET_USI_TO_SEND_ACK( );
|
|
break;
|
|
|
|
} // end switch
|
|
|
|
} // end ISR( USI_OVERFLOW_VECTOR )
|