174d4dd80c
This example platform for this port is the EVAL-ADF7XXXMB4Z w/ radio daughter cards: http://www.analog.com/en/evaluation/eval-adf7023/eb.html See the platform readme for usage and platform information: https://github.com/contiki-os/contiki/tree/master/platform/eval-adf7xxxmb4z/readme.md All files provided by Analog Devices for this port are released under the same license as Contiki and copyright Analog Devices Inc. per agreement between Redwire Consulting, LLC and Analog Devices Inc. (SOW 08122013)
706 lines
18 KiB
C
706 lines
18 KiB
C
/*
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* Copyright (c) 2014, Analog Devices, Inc.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* 3. Neither the name of the copyright holder nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
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* COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
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* OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/**
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* \author Dragos Bogdan <Dragos.Bogdan@Analog.com>, Ian Martin <martini@redwirellc.com>
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*/
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/******************************************************************************/
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/***************************** Include Files **********************************/
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/******************************************************************************/
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#include <stdint.h>
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#include "rl78.h"
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#include "Communication.h" /* Communication definitions */
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#ifndef NOP
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#define NOP asm ("nop")
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#endif
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/* Enable interrupts: */
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#ifndef EI
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#ifdef __GNUC__
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#define EI asm ("ei");
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#else
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#define EI __enable_interrupt();
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#endif
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#endif
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#undef BIT
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#define BIT(n) (1 << (n))
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#define CLK_SCALER (0x4)
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#define SCALED_CLK (f_CLK / (1 << CLK_SCALER))
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#define BITBANG_SPI 1
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char IICA0_Flag;
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/******************************************************************************/
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/************************ Functions Definitions *******************************/
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/******************************************************************************/
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/***************************************************************************//**
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* @brief I2C interrupt service routine.
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*
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* @return None.
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*******************************************************************************/
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/*__interrupt */ static void
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IICA0_Interrupt(void)
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{
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IICA0_Flag = 1;
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}
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/***************************************************************************//**
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* @brief Initializes the SPI communication peripheral.
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*
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* @param lsbFirst - Transfer format (0 or 1).
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* Example: 0x0 - MSB first.
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* 0x1 - LSB first.
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* @param clockFreq - SPI clock frequency (Hz).
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* Example: 1000 - SPI clock frequency is 1 kHz.
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* @param clockPol - SPI clock polarity (0 or 1).
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* Example: 0x0 - Idle state for clock is a low level; active
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* state is a high level;
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* 0x1 - Idle state for clock is a high level; active
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* state is a low level.
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* @param clockEdg - SPI clock edge (0 or 1).
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* Example: 0x0 - Serial output data changes on transition
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* from idle clock state to active clock state;
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* 0x1 - Serial output data changes on transition
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* from active clock state to idle clock state.
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*
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* @return status - Result of the initialization procedure.
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* Example: 0 - if initialization was successful;
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* -1 - if initialization was unsuccessful.
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*******************************************************************************/
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char
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SPI_Init(enum CSI_Bus bus,
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char lsbFirst,
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long clockFreq,
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char clockPol,
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char clockEdg)
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{
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#if BITBANG_SPI
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PIOR5 = 1; /* Move SPI/I2C/UART functions from Port 0 pins 2-4 to Port 8. */
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/* Configure SCLK as an output. */
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PM0 &= ~BIT(4);
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POM0 &= ~BIT(4);
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/* Configure MOSI as an output: */
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PM0 &= ~BIT(2);
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POM0 &= ~BIT(2);
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PMC0 &= ~BIT(2);
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/* Configure MISO as an input: */
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PM0 |= BIT(3);
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PMC0 &= ~BIT(3);
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#else
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char sdrValue = 0;
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char delay = 0;
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uint16_t scr;
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uint8_t shift;
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PIOR5 = 0; /* Keep SPI functions on Port 0 pins 2-4. */
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/* Enable input clock supply. */
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if(bus <= CSI11) {
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SAU0EN = 1;
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} else { SAU1EN = 1;
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}
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/* After setting the SAUmEN bit to 1, be sure to set serial clock select
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register m (SPSm) after 4 or more fCLK clocks have elapsed. */
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NOP;
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NOP;
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NOP;
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NOP;
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/* Select the fCLK as input clock. */
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if(bus <= CSI11) {
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SPS0 = (CLK_SCALER << 4) | CLK_SCALER; /* TODO: kludge */
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} else { SPS1 = (CLK_SCALER << 4) | CLK_SCALER; /* TODO: kludge */
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}
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/* Select the CSI operation mode. */
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switch(bus) {
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case CSI00: SMR00 = 0x0020;
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break;
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case CSI01: SMR01 = 0x0020;
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break;
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case CSI10: SMR02 = 0x0020;
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break;
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case CSI11: SMR03 = 0x0020;
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break;
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case CSI20: SMR10 = 0x0020;
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break;
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case CSI21: SMR11 = 0x0020;
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break;
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case CSI30: SMR12 = 0x0020;
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break;
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case CSI31: SMR13 = 0x0020;
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break;
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}
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clockPol = 1 - clockPol;
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scr = (clockEdg << 13) |
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(clockPol << 12) |
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0xC000 | /* Operation mode: Transmission/reception. */
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0x0007; /* 8-bit data length. */
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switch(bus) {
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case CSI00: SCR00 = scr;
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break;
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case CSI01: SCR01 = scr;
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break;
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case CSI10: SCR02 = scr;
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break;
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case CSI11: SCR03 = scr;
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break;
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case CSI20: SCR10 = scr;
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break;
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case CSI21: SCR11 = scr;
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break;
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case CSI30: SCR12 = scr;
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break;
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case CSI31: SCR13 = scr;
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break;
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}
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/* clockFreq = mckFreq / (sdrValue * 2 + 2) */
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sdrValue = SCALED_CLK / (2 * clockFreq) - 1;
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sdrValue <<= 9;
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switch(bus) {
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case CSI00: SDR00 = sdrValue;
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break;
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case CSI01: SDR01 = sdrValue;
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break;
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case CSI10: SDR02 = sdrValue;
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break;
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case CSI11: SDR03 = sdrValue;
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break;
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case CSI20: SDR10 = sdrValue;
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break;
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case CSI21: SDR11 = sdrValue;
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break;
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case CSI30: SDR12 = sdrValue;
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break;
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case CSI31: SDR13 = sdrValue;
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break;
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}
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/* Set the clock and data initial level. */
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clockPol = 1 - clockPol;
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shift = bus & 0x3;
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if(bus <= CSI11) {
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SO0 &= ~(0x0101 << shift);
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SO0 |= ((clockPol << 8) | clockPol) << shift;
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} else {
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SO1 &= ~(0x0101 << shift);
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SO1 |= ((clockPol << 8) | clockPol) << shift;
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}
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/* Enable output for serial communication operation. */
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switch(bus) {
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case CSI00: SOE0 |= BIT(0);
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break;
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case CSI01: SOE0 |= BIT(1);
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break;
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case CSI10: SOE0 |= BIT(2);
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break;
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case CSI11: SOE0 |= BIT(3);
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break;
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case CSI20: SOE1 |= BIT(0);
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break;
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case CSI21: SOE1 |= BIT(1);
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break;
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case CSI30: SOE1 |= BIT(2);
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break;
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case CSI31: SOE1 |= BIT(3);
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break;
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}
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switch(bus) {
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case CSI00:
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/* SO00 output: */
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P1 |= BIT(2);
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PM1 &= ~BIT(2);
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/* SI00 input: */
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PM1 |= BIT(1);
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/* SCK00N output: */
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P1 |= BIT(0);
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PM1 &= ~BIT(0);
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break;
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case CSI01:
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/* SO01 output: */
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P7 |= BIT(3);
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PM7 &= ~BIT(3);
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/* SI01 input: */
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PM7 |= BIT(4);
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/* SCK01 output: */
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P7 |= BIT(5);
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PM7 &= ~BIT(5);
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break;
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case CSI10:
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PMC0 &= ~BIT(2); /* Disable analog input on SO10. */
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/* SO10 output: */
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P0 |= BIT(2);
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PM0 &= ~BIT(2);
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/* SI10 input: */
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PM0 |= BIT(3);
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/* SCK10N output: */
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P0 |= BIT(4);
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PM0 &= ~BIT(4);
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break;
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case CSI11:
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/* SO11 output: */
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P5 |= BIT(1);
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PM5 &= ~BIT(1);
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/* SI11 input: */
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PM5 |= BIT(0);
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/* SCK11 output: */
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P3 |= BIT(0);
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PM3 &= ~BIT(0);
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break;
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case CSI20:
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/* SO20 output: */
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P1 |= BIT(3);
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PM1 &= ~BIT(3);
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/* SI20 input: */
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PM1 |= BIT(4);
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/* SCK20 output: */
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P1 |= BIT(5);
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PM1 &= ~BIT(5);
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break;
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case CSI21:
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/* SO21 output: */
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P7 |= BIT(2);
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PM7 &= ~BIT(2);
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/* SI21 input: */
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PM7 |= BIT(1);
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/* SCK21 output: */
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P7 |= BIT(0);
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PM7 &= ~BIT(0);
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break;
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case CSI30:
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/* TODO: not supported */
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break;
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case CSI31:
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/* TODO: not supported */
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break;
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}
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/* Wait for the changes to take place. */
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for(delay = 0; delay < 50; delay++) {
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NOP;
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}
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/* Set the SEmn bit to 1 and enter the communication wait status */
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switch(bus) {
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case CSI00: SS0 = BIT(0);
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break;
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case CSI01: SS0 = BIT(1);
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break;
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case CSI10: SS0 = BIT(2);
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break;
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case CSI11: SS0 = BIT(3);
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break;
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case CSI20: SS1 = BIT(0);
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break;
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case CSI21: SS1 = BIT(1);
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break;
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case CSI30: SS1 = BIT(2);
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break;
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case CSI31: SS1 = BIT(3);
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break;
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}
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/* Sanity check: */
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if(bus == CSI10) {
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/* MOSI: */
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PIOR5 = 0;
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PMC02 = 0;
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PM02 = 0;
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P02 = 1;
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/* MISO: */
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PIOR5 = 0;
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PMC03 = 0;
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PM03 = 1;
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/* SCLK: */
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PIOR5 = 0;
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PM04 = 0;
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P04 = 1;
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}
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#endif
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return 0;
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}
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/***************************************************************************//**
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* @brief Writes data to SPI.
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*
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* @param slaveDeviceId - The ID of the selected slave device.
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* @param data - Data represents the write buffer.
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* @param bytesNumber - Number of bytes to write.
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*
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* @return Number of written bytes.
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*******************************************************************************/
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#if 0
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char
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SPI_Write(enum CSI_Bus bus,
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char slaveDeviceId,
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unsigned char *data,
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char bytesNumber)
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{
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char byte = 0;
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unsigned char read = 0;
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unsigned short originalSCR = 0;
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unsigned short originalSO1 = 0;
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volatile uint8_t *sio;
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volatile uint16_t *ssr;
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switch(bus) {
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default:
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case CSI00: sio = &SIO00;
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ssr = &SSR00;
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break;
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case CSI01: sio = &SIO01;
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ssr = &SSR01;
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break;
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case CSI10: sio = &SIO10;
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ssr = &SSR02;
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break;
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case CSI11: sio = &SIO11;
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ssr = &SSR03;
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break;
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case CSI20: sio = &SIO20;
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ssr = &SSR10;
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break;
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case CSI21: sio = &SIO21;
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ssr = &SSR11;
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break;
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case CSI30: sio = &SIO30;
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ssr = &SSR12;
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break;
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case CSI31: sio = &SIO31;
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ssr = &SSR13;
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break;
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}
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for(byte = 0; byte < bytesNumber; byte++) {
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*sio = data[byte];
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NOP;
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while(*ssr & 0x0040) ;
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read = *sio;
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}
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return bytesNumber;
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}
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#endif
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#if BITBANG_SPI
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#define sclk_low() (P0 &= ~BIT(4))
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#define sclk_high() (P0 |= BIT(4))
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#define mosi_low() (P0 &= ~BIT(2))
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#define mosi_high() (P0 |= BIT(2))
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#define read_miso() (P0bits.bit3)
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static unsigned char
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spi_byte_exchange(unsigned char tx)
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{
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unsigned char rx = 0, n = 0;
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sclk_low();
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for(n = 0; n < 8; n++) {
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if(tx & 0x80) {
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mosi_high();
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} else { mosi_low();
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}
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/* The slave samples MOSI at the rising-edge of SCLK. */
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sclk_high();
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rx <<= 1;
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rx |= read_miso();
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tx <<= 1;
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/* The slave changes the value of MISO at the falling-edge of SCLK. */
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sclk_low();
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}
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return rx;
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}
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#endif
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/***************************************************************************//**
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* @brief Reads data from SPI.
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*
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* @param slaveDeviceId - The ID of the selected slave device.
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* @param data - Data represents the write buffer as an input parameter
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* and the read buffer as an output parameter.
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* @param bytesNumber - Number of bytes to read.
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*
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* @return Number of read bytes.
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*******************************************************************************/
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char
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SPI_Read(enum CSI_Bus bus,
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char slaveDeviceId,
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unsigned char *data,
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char bytesNumber)
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{
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#if BITBANG_SPI
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unsigned char n = 0;
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for(n = 0; n < bytesNumber; n++) {
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data[n] = spi_byte_exchange(data[n]);
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}
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#else
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char byte = 0;
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unsigned short originalSCR = 0;
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unsigned short originalSO1 = 0;
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volatile uint8_t *sio;
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volatile uint16_t *ssr;
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char dummy;
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switch(bus) {
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default:
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case CSI00: sio = &SIO00;
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ssr = &SSR00;
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break;
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case CSI01: sio = &SIO01;
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ssr = &SSR01;
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break;
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case CSI10: sio = &SIO10;
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ssr = &SSR02;
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break;
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case CSI11: sio = &SIO11;
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ssr = &SSR03;
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break;
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case CSI20: sio = &SIO20;
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ssr = &SSR10;
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break;
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case CSI21: sio = &SIO21;
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ssr = &SSR11;
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break;
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case CSI30: sio = &SIO30;
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ssr = &SSR12;
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break;
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case CSI31: sio = &SIO31;
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ssr = &SSR13;
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break;
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}
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/* Flush the receive buffer: */
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while(*ssr & 0x0020) dummy = *sio;
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(void)dummy;
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for(byte = 0; byte < bytesNumber; byte++) {
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*sio = data[byte];
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NOP;
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while(*ssr & 0x0040) ;
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data[byte] = *sio;
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}
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#endif
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return bytesNumber;
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}
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/***************************************************************************//**
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* @brief Initializes the I2C communication peripheral.
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*
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* @param clockFreq - I2C clock frequency (Hz).
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* Example: 100000 - SPI clock frequency is 100 kHz.
|
||
* @return status - Result of the initialization procedure.
|
||
* Example: 0 - if initialization was successful;
|
||
* -1 - if initialization was unsuccessful.
|
||
*******************************************************************************/
|
||
char
|
||
I2C_Init(long clockFreq)
|
||
{
|
||
long fckFreq = 32000000;
|
||
unsigned char wlValue = 0;
|
||
unsigned char whValue = 0;
|
||
|
||
(void)IICA0_Interrupt; /* Prevent an unused-function warning. */
|
||
|
||
/* Enable interrupts */
|
||
EI;
|
||
|
||
/* Enable input clock supply. */
|
||
IICA0EN = 1;
|
||
|
||
/* Set the fast mode plus operation. */
|
||
SMC0 = 1;
|
||
|
||
/* Set transfer rate. */
|
||
wlValue = (unsigned char)((0.5 * fckFreq) / clockFreq);
|
||
whValue = (unsigned char)(wlValue - (fckFreq / (10 * clockFreq)));
|
||
IICWL0 = wlValue;
|
||
IICWH0 = whValue;
|
||
|
||
STCEN0 = 1; /* After operation is enabled, enable generation of a start */
|
||
/* condition without detecting a stop condition. */
|
||
WTIM0 = 1; /* Interrupt request is generated at the ninth clock’s */
|
||
/* falling edge. */
|
||
|
||
/* Enable I2C operation. */
|
||
IICE0 = 1;
|
||
|
||
/* Configure SCLA0 and SDAA0 pins as digital output. */
|
||
P6 &= ~0x03;
|
||
PM6 &= ~0x03;
|
||
|
||
return 0;
|
||
}
|
||
/***************************************************************************//**
|
||
* @brief Writes data to a slave device.
|
||
*
|
||
* @param slaveAddress - Adress of the slave device.
|
||
* @param dataBuffer - Pointer to a buffer storing the transmission data.
|
||
* @param bytesNumber - Number of bytes to write.
|
||
* @param stopBit - Stop condition control.
|
||
* Example: 0 - A stop condition will not be sent;
|
||
* 1 - A stop condition will be sent.
|
||
*
|
||
* @return status - Number of read bytes or 0xFF if the slave address was
|
||
* not acknowledged by the device.
|
||
*******************************************************************************/
|
||
char
|
||
I2C_Write(char slaveAddress,
|
||
unsigned char *dataBuffer,
|
||
char bytesNumber,
|
||
char stopBit)
|
||
{
|
||
char byte = 0;
|
||
char status = 0;
|
||
|
||
IICAMK0 = 1; /* Interrupt servicing disabled. */
|
||
STT0 = 1; /* Generate a start condition. */
|
||
IICAMK0 = 0; /* Interrupt servicing enabled. */
|
||
|
||
/* Send the first byte. */
|
||
IICA0_Flag = 0;
|
||
IICA0 = (slaveAddress << 1);
|
||
while(IICA0_Flag == 0) ;
|
||
|
||
if(ACKD0) { /* Acknowledge was detected. */
|
||
for(byte = 0; byte < bytesNumber; byte++) {
|
||
IICA0_Flag = 0;
|
||
IICA0 = *dataBuffer;
|
||
while(IICA0_Flag == 0) ;
|
||
dataBuffer++;
|
||
}
|
||
status = bytesNumber;
|
||
} else { /* Acknowledge was not detected. */
|
||
status = 0xFF;
|
||
}
|
||
if(stopBit) {
|
||
SPT0 = 1; /* Generate a stop condition. */
|
||
while(IICBSY0) ; /* Wait until the I2C bus status flag is cleared. */
|
||
}
|
||
|
||
return status;
|
||
}
|
||
/***************************************************************************//**
|
||
* @brief Reads data from a slave device.
|
||
*
|
||
* @param slaveAddress - Adress of the slave device.
|
||
* @param dataBuffer - Pointer to a buffer that will store the received data.
|
||
* @param bytesNumber - Number of bytes to read.
|
||
* @param stopBit - Stop condition control.
|
||
* Example: 0 - A stop condition will not be sent;
|
||
* 1 - A stop condition will be sent.
|
||
*
|
||
* @return status - Number of read bytes or 0xFF if the slave address was
|
||
* not acknowledged by the device.
|
||
*******************************************************************************/
|
||
char
|
||
I2C_Read(char slaveAddress,
|
||
unsigned char *dataBuffer,
|
||
char bytesNumber,
|
||
char stopBit)
|
||
{
|
||
char byte = 0;
|
||
char status = 0;
|
||
|
||
IICAMK0 = 1; /* Interrupt servicing disabled. */
|
||
STT0 = 1; /* Generate a start condition. */
|
||
IICAMK0 = 0; /* Interrupt servicing enabled. */
|
||
|
||
/* Send the first byte. */
|
||
IICA0_Flag = 0;
|
||
IICA0 = (slaveAddress << 1) + 1;
|
||
while(IICA0_Flag == 0) ;
|
||
|
||
if(ACKD0) { /* Acknowledge was detected. */
|
||
ACKE0 = 1; /* Enable acknowledgment. */
|
||
for(byte = 0; byte < bytesNumber; byte++) {
|
||
if(byte == (bytesNumber - 1)) {
|
||
ACKE0 = 0U; /* Disable acknowledgment. */
|
||
}
|
||
WREL0 = 1U; /* Cancel wait. */
|
||
IICA0_Flag = 0;
|
||
while(IICA0_Flag == 0) ;
|
||
*dataBuffer = IICA0;
|
||
dataBuffer++;
|
||
}
|
||
status = bytesNumber;
|
||
} else { /* Acknowledge was not detected. */
|
||
status = 0xFF;
|
||
}
|
||
if(stopBit) {
|
||
SPT0 = 1; /* Generate a stop condition. */
|
||
while(IICBSY0) ; /* Wait until the I2C bus status flag is cleared. */
|
||
}
|
||
|
||
return status;
|
||
}
|