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jeremybenn |
/*
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FreeRTOS V6.1.1 - Copyright (C) 2011 Real Time Engineers Ltd.
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***************************************************************************
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* *
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* If you are: *
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* *
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* + New to FreeRTOS, *
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* + Wanting to learn FreeRTOS or multitasking in general quickly *
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* + Looking for basic training, *
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* + Wanting to improve your FreeRTOS skills and productivity *
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* *
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* then take a look at the FreeRTOS books - available as PDF or paperback *
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* *
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* "Using the FreeRTOS Real Time Kernel - a Practical Guide" *
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* http://www.FreeRTOS.org/Documentation *
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* *
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* A pdf reference manual is also available. Both are usually delivered *
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* to your inbox within 20 minutes to two hours when purchased between 8am *
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* and 8pm GMT (although please allow up to 24 hours in case of *
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* exceptional circumstances). Thank you for your support! *
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* *
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***************************************************************************
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This file is part of the FreeRTOS distribution.
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FreeRTOS is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License (version 2) as published by the
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Free Software Foundation AND MODIFIED BY the FreeRTOS exception.
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***NOTE*** The exception to the GPL is included to allow you to distribute
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a combined work that includes FreeRTOS without being obliged to provide the
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source code for proprietary components outside of the FreeRTOS kernel.
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FreeRTOS is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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more details. You should have received a copy of the GNU General Public
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License and the FreeRTOS license exception along with FreeRTOS; if not it
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can be viewed here: http://www.freertos.org/a00114.html and also obtained
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by writing to Richard Barry, contact details for whom are available on the
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FreeRTOS WEB site.
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1 tab == 4 spaces!
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http://www.FreeRTOS.org - Documentation, latest information, license and
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contact details.
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http://www.SafeRTOS.com - A version that is certified for use in safety
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critical systems.
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http://www.OpenRTOS.com - Commercial support, development, porting,
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licensing and training services.
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*/
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/*
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* This demo application creates six co-routines and two tasks (three including
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* the idle task). The co-routines execute as part of the idle task hook.
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*
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* Five of the created co-routines are the standard 'co-routine flash'
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* co-routines contained within the Demo/Common/Minimal/crflash.c file and
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* documented on the FreeRTOS.org WEB site.
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*
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* The 'LCD Task' rotates a string on the LCD, delaying between each character
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* as necessitated by the slow interface, and delaying between each string just
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* long enough to enable the text to be read.
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*
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* The sixth co-routine and final task control the transmission and reception
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* of a string to UART 0. The co-routine periodically sends the first
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* character of the string to the UART, with the UART's TxEnd interrupt being
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* used to transmit the remaining characters. The UART's RxEnd interrupt
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* receives the characters and places them on a queue to be processed by the
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* 'COMs Rx' task. An error is latched should an unexpected character be
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* received, or any character be received out of sequence.
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*
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* A loopback connector is required to ensure that each character transmitted
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* on the UART is also received on the same UART. For test purposes the UART
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* FIFO's are not utalised in order to maximise the interrupt overhead. Also
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* a pseudo random interval is used between the start of each transmission in
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* order that the resultant interrupts are more randomly distributed and
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* therefore more likely to highlight any problems.
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*
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* The flash co-routines control LED's zero to four. LED five is toggled each
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* time the string is transmitted on the UART. LED six is toggled each time
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* the string is CORRECTLY received on the UART. LED seven is latched on should
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* an error be detected in any task or co-routine.
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*
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* In addition the idle task makes repetative calls to
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* prvSetAndCheckRegisters(). This simply loads the general purpose registers
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* with a known value, then checks each register to ensure the held value is
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* still correct. As a low priority task this checking routine is likely to
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* get repeatedly swapped in and out. A register being found to contain an
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* incorrect value is therefore indicative of an error in the task switching
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* mechansim.
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*
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*/
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/* Scheduler include files. */
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#include "FreeRTOS.h"
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#include "task.h"
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#include "queue.h"
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#include "croutine.h"
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/* Demo application include files. */
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#include "partest.h"
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#include "crflash.h"
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/* Library include files. */
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#include "DriverLib.h"
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/* The time to delay between writing each character to the LCD. */
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#define mainCHAR_WRITE_DELAY ( 2 / portTICK_RATE_MS )
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/* The time to delay between writing each string to the LCD. */
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#define mainSTRING_WRITE_DELAY ( 400 / portTICK_RATE_MS )
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/* The number of flash co-routines to create. */
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#define mainNUM_FLASH_CO_ROUTINES ( 5 )
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/* The length of the queue used to pass received characters to the Comms Rx
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task. */
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#define mainRX_QUEUE_LEN ( 5 )
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/* The priority of the co-routine used to initiate the transmission of the
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string on UART 0. */
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#define mainTX_CO_ROUTINE_PRIORITY ( 1 )
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/* Only one co-routine is created so its index is not important. */
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#define mainTX_CO_ROUTINE_INDEX ( 0 )
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/* The time between transmissions of the string on UART 0. This is pseudo
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random in order to generate a bit or randomness to when the interrupts occur.*/
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#define mainMIN_TX_DELAY ( 40 / portTICK_RATE_MS )
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#define mainMAX_TX_DELAY ( ( portTickType ) 0x7f )
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#define mainOFFSET_TIME ( ( portTickType ) 3 )
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/* The time the Comms Rx task should wait to receive a character. This should
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be slightly longer than the time between transmissions. If we do not receive
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a character after this time then there must be an error in the transmission or
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the timing of the transmission. */
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#define mainCOMMS_RX_DELAY ( mainMAX_TX_DELAY + 20 )
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/* The task priorites. */
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#define mainLCD_TASK_PRIORITY ( tskIDLE_PRIORITY )
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#define mainCOMMS_RX_TASK_PRIORITY ( tskIDLE_PRIORITY + 1 )
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/* The LED's toggled by the various tasks. */
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#define mainCOMMS_FAIL_LED ( 7 )
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#define mainCOMMS_RX_LED ( 6 )
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#define mainCOMMS_TX_LED ( 5 )
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/* The baud rate used by the UART comms tasks/co-routine. */
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#define mainBAUD_RATE ( 57600 )
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/* FIFO setting for the UART. The FIFO is not used to create a better test. */
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#define mainFIFO_SET ( 0x10 )
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/* The string that is transmitted on the UART contains sequentially the
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characters from mainFIRST_TX_CHAR to mainLAST_TX_CHAR. */
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#define mainFIRST_TX_CHAR '0'
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#define mainLAST_TX_CHAR 'z'
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/* Just used to walk through the program memory in order that some random data
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can be generated. */
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#define mainTOTAL_PROGRAM_MEMORY ( ( unsigned long * ) ( 8 * 1024 ) )
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#define mainFIRST_PROGRAM_BYTES ( ( unsigned long * ) 4 )
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/* The error routine that is called if the driver library encounters an error. */
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#ifdef DEBUG
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void
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__error__(char *pcFilename, unsigned long ulLine)
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{
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}
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#endif
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/*-----------------------------------------------------------*/
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/*
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* The task that rotates text on the LCD.
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*/
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static void vLCDTask( void * pvParameters );
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/*
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* The task that receives the characters from UART 0.
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*/
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static void vCommsRxTask( void * pvParameters );
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/*
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* The co-routine that periodically initiates the transmission of the string on
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* the UART.
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*/
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static void vSerialTxCoRoutine( xCoRoutineHandle xHandle, unsigned portBASE_TYPE uxIndex );
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/*
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* Writes a string the the LCD.
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*/
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static void prvWriteString( const char *pcString );
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/*
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* Initialisation routine for the UART.
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*/
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static void vSerialInit( void );
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/*
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* Thread safe write to the PDC.
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*/
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static void prvPDCWrite( char cAddress, char cData );
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/*
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* Function to simply set a known value into the general purpose registers
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* then read them back to ensure they remain set correctly. An incorrect value
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* being indicative of an error in the task switching mechanism.
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*/
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void prvSetAndCheckRegisters( void );
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/*
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* Latch the LED that indicates that an error has occurred.
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*/
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void vSetErrorLED( void );
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/*
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* Sets up the PLL and ports used by the demo.
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*/
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static void prvSetupHardware( void );
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/*-----------------------------------------------------------*/
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/* Error flag set to pdFAIL if an error is encountered in the tasks/co-routines
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defined within this file. */
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unsigned portBASE_TYPE uxErrorStatus = pdPASS;
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/* The next character to transmit. */
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static char cNextChar;
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/* The queue used to transmit characters from the interrupt to the Comms Rx
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task. */
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static xQueueHandle xCommsQueue;
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/*-----------------------------------------------------------*/
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int main( void )
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{
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/* Create the queue used to communicate between the UART ISR and the Comms
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Rx task. */
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xCommsQueue = xQueueCreate( mainRX_QUEUE_LEN, sizeof( char ) );
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/* Setup the ports used by the demo and the clock. */
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prvSetupHardware();
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/* Create the co-routines that flash the LED's. */
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vStartFlashCoRoutines( mainNUM_FLASH_CO_ROUTINES );
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/* Create the co-routine that initiates the transmission of characters
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on the UART. */
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xCoRoutineCreate( vSerialTxCoRoutine, mainTX_CO_ROUTINE_PRIORITY, mainTX_CO_ROUTINE_INDEX );
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/* Create the LCD and Comms Rx tasks. */
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xTaskCreate( vLCDTask, "LCD", configMINIMAL_STACK_SIZE, NULL, mainLCD_TASK_PRIORITY, NULL );
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xTaskCreate( vCommsRxTask, "CMS", configMINIMAL_STACK_SIZE, NULL, mainCOMMS_RX_TASK_PRIORITY, NULL );
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/* Start the scheduler running the tasks and co-routines just created. */
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vTaskStartScheduler();
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/* Should not get here unless we did not have enough memory to start the
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scheduler. */
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for( ;; );
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return 0;
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}
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/*-----------------------------------------------------------*/
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static void prvSetupHardware( void )
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{
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/* Setup the PLL. */
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SysCtlClockSet( SYSCTL_SYSDIV_10 | SYSCTL_USE_PLL | SYSCTL_OSC_MAIN | SYSCTL_XTAL_6MHZ );
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/* Initialise the hardware used to talk to the LCD, LED's and UART. */
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PDCInit();
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vParTestInitialise();
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vSerialInit();
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}
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/*-----------------------------------------------------------*/
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void vApplicationIdleHook( void )
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{
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/* The co-routines are executed in the idle task using the idle task
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hook. */
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for( ;; )
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{
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/* Schedule the co-routines. */
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vCoRoutineSchedule();
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/* Run the register check function between each co-routine. */
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prvSetAndCheckRegisters();
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}
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}
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/*-----------------------------------------------------------*/
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static void prvWriteString( const char *pcString )
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{
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/* Write pcString to the LED, pausing between each character. */
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prvPDCWrite(PDC_LCD_CSR, LCD_CLEAR);
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while( *pcString )
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{
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vTaskDelay( mainCHAR_WRITE_DELAY );
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prvPDCWrite( PDC_LCD_RAM, *pcString );
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pcString++;
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}
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}
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/*-----------------------------------------------------------*/
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void vLCDTask( void * pvParameters )
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{
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unsigned portBASE_TYPE uxIndex;
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const unsigned char ucCFGData[] = {
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0x30, /* Set data bus to 8-bits. */
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0x30,
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0x30,
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0x3C, /* Number of lines/font. */
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0x08, /* Display off. */
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0x01, /* Display clear. */
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0x06, /* Entry mode [cursor dir][shift]. */
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0x0C /* Display on [display on][curson on][blinking on]. */
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};
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/* The strings that are written to the LCD. */
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const char *pcStringsToDisplay[] = {
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"Stellaris",
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"Demo",
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"One",
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"www.FreeRTOS.org",
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""
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};
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/* Configure the LCD. */
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uxIndex = 0;
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while( uxIndex < sizeof( ucCFGData ) )
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{
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prvPDCWrite( PDC_LCD_CSR, ucCFGData[ uxIndex ] );
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uxIndex++;
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vTaskDelay( mainCHAR_WRITE_DELAY );
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}
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/* Turn the LCD Backlight on. */
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prvPDCWrite( PDC_CSR, 0x01 );
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/* Clear display. */
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vTaskDelay( mainCHAR_WRITE_DELAY );
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prvPDCWrite( PDC_LCD_CSR, LCD_CLEAR );
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uxIndex = 0;
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for( ;; )
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{
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/* Display the string on the LCD. */
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|
prvWriteString( pcStringsToDisplay[ uxIndex ] );
|
353 |
|
|
|
354 |
|
|
/* Move on to the next string - wrapping if necessary. */
|
355 |
|
|
uxIndex++;
|
356 |
|
|
if( *( pcStringsToDisplay[ uxIndex ] ) == 0x00 )
|
357 |
|
|
{
|
358 |
|
|
uxIndex = 0;
|
359 |
|
|
/* Longer pause on the last string to be sent. */
|
360 |
|
|
vTaskDelay( mainSTRING_WRITE_DELAY * 2 );
|
361 |
|
|
}
|
362 |
|
|
|
363 |
|
|
/* Wait until it is time to move onto the next string. */
|
364 |
|
|
vTaskDelay( mainSTRING_WRITE_DELAY );
|
365 |
|
|
}
|
366 |
|
|
}
|
367 |
|
|
/*-----------------------------------------------------------*/
|
368 |
|
|
|
369 |
|
|
static void vCommsRxTask( void * pvParameters )
|
370 |
|
|
{
|
371 |
|
|
static char cRxedChar, cExpectedChar;
|
372 |
|
|
|
373 |
|
|
/* Set the char we expect to receive to the start of the string. */
|
374 |
|
|
cExpectedChar = mainFIRST_TX_CHAR;
|
375 |
|
|
|
376 |
|
|
for( ;; )
|
377 |
|
|
{
|
378 |
|
|
/* Wait for a character to be received. */
|
379 |
|
|
xQueueReceive( xCommsQueue, ( void * ) &cRxedChar, mainCOMMS_RX_DELAY );
|
380 |
|
|
|
381 |
|
|
/* Was the character recived (if any) the expected character. */
|
382 |
|
|
if( cRxedChar != cExpectedChar )
|
383 |
|
|
{
|
384 |
|
|
/* Got an unexpected character. This can sometimes occur when
|
385 |
|
|
reseting the system using the debugger leaving characters already
|
386 |
|
|
in the UART regsters. */
|
387 |
|
|
uxErrorStatus = pdFAIL;
|
388 |
|
|
|
389 |
|
|
/* Resync by waiting for the end of the current string. */
|
390 |
|
|
while( cRxedChar != mainLAST_TX_CHAR )
|
391 |
|
|
{
|
392 |
|
|
while( !xQueueReceive( xCommsQueue, ( void * ) &cRxedChar, portMAX_DELAY ) );
|
393 |
|
|
}
|
394 |
|
|
|
395 |
|
|
/* The next expected character is the start of the string again. */
|
396 |
|
|
cExpectedChar = mainFIRST_TX_CHAR;
|
397 |
|
|
}
|
398 |
|
|
else
|
399 |
|
|
{
|
400 |
|
|
if( cExpectedChar == mainLAST_TX_CHAR )
|
401 |
|
|
{
|
402 |
|
|
/* We have reached the end of the string - we now expect to
|
403 |
|
|
receive the first character in the string again. The LED is
|
404 |
|
|
toggled to indicate that the entire string was received without
|
405 |
|
|
error. */
|
406 |
|
|
vParTestToggleLED( mainCOMMS_RX_LED );
|
407 |
|
|
cExpectedChar = mainFIRST_TX_CHAR;
|
408 |
|
|
}
|
409 |
|
|
else
|
410 |
|
|
{
|
411 |
|
|
/* We got the expected character, we now expect to receive the
|
412 |
|
|
next character in the string. */
|
413 |
|
|
cExpectedChar++;
|
414 |
|
|
}
|
415 |
|
|
}
|
416 |
|
|
}
|
417 |
|
|
}
|
418 |
|
|
/*-----------------------------------------------------------*/
|
419 |
|
|
|
420 |
|
|
static void vSerialTxCoRoutine( xCoRoutineHandle xHandle, unsigned portBASE_TYPE uxIndex )
|
421 |
|
|
{
|
422 |
|
|
portTickType xDelayPeriod;
|
423 |
|
|
static unsigned long *pulRandomBytes = mainFIRST_PROGRAM_BYTES;
|
424 |
|
|
|
425 |
|
|
/* Co-routine MUST start with a call to crSTART. */
|
426 |
|
|
crSTART( xHandle );
|
427 |
|
|
|
428 |
|
|
for(;;)
|
429 |
|
|
{
|
430 |
|
|
/* Was the previously transmitted string received correctly? */
|
431 |
|
|
if( uxErrorStatus != pdPASS )
|
432 |
|
|
{
|
433 |
|
|
/* An error was encountered so set the error LED. */
|
434 |
|
|
vSetErrorLED();
|
435 |
|
|
}
|
436 |
|
|
|
437 |
|
|
/* The next character to Tx is the first in the string. */
|
438 |
|
|
cNextChar = mainFIRST_TX_CHAR;
|
439 |
|
|
|
440 |
|
|
UARTIntDisable( UART0_BASE, UART_INT_TX );
|
441 |
|
|
{
|
442 |
|
|
/* Send the first character. */
|
443 |
|
|
if( !( HWREG( UART0_BASE + UART_O_FR ) & UART_FR_TXFF ) )
|
444 |
|
|
{
|
445 |
|
|
HWREG( UART0_BASE + UART_O_DR ) = cNextChar;
|
446 |
|
|
}
|
447 |
|
|
|
448 |
|
|
/* Move the variable to the char to Tx on so the ISR transmits
|
449 |
|
|
the next character in the string once this one has completed. */
|
450 |
|
|
cNextChar++;
|
451 |
|
|
}
|
452 |
|
|
UARTIntEnable(UART0_BASE, UART_INT_TX);
|
453 |
|
|
|
454 |
|
|
/* Toggle the LED to show a new string is being transmitted. */
|
455 |
|
|
vParTestToggleLED( mainCOMMS_TX_LED );
|
456 |
|
|
|
457 |
|
|
/* Delay before we start the string off again. A pseudo-random delay
|
458 |
|
|
is used as this will provide a better test. */
|
459 |
|
|
xDelayPeriod = xTaskGetTickCount() + ( *pulRandomBytes );
|
460 |
|
|
|
461 |
|
|
pulRandomBytes++;
|
462 |
|
|
if( pulRandomBytes > mainTOTAL_PROGRAM_MEMORY )
|
463 |
|
|
{
|
464 |
|
|
pulRandomBytes = mainFIRST_PROGRAM_BYTES;
|
465 |
|
|
}
|
466 |
|
|
|
467 |
|
|
/* Make sure we don't wait too long... */
|
468 |
|
|
xDelayPeriod &= mainMAX_TX_DELAY;
|
469 |
|
|
|
470 |
|
|
/* ...but we do want to wait. */
|
471 |
|
|
if( xDelayPeriod < mainMIN_TX_DELAY )
|
472 |
|
|
{
|
473 |
|
|
xDelayPeriod = mainMIN_TX_DELAY;
|
474 |
|
|
}
|
475 |
|
|
|
476 |
|
|
/* Block for the random(ish) time. */
|
477 |
|
|
crDELAY( xHandle, xDelayPeriod );
|
478 |
|
|
}
|
479 |
|
|
|
480 |
|
|
/* Co-routine MUST end with a call to crEND. */
|
481 |
|
|
crEND();
|
482 |
|
|
}
|
483 |
|
|
/*-----------------------------------------------------------*/
|
484 |
|
|
|
485 |
|
|
static void vSerialInit( void )
|
486 |
|
|
{
|
487 |
|
|
/* Enable the UART. GPIOA has already been initialised. */
|
488 |
|
|
SysCtlPeripheralEnable(SYSCTL_PERIPH_UART0);
|
489 |
|
|
|
490 |
|
|
/* Set GPIO A0 and A1 as peripheral function. They are used to output the
|
491 |
|
|
UART signals. */
|
492 |
|
|
GPIODirModeSet( GPIO_PORTA_BASE, GPIO_PIN_0 | GPIO_PIN_1, GPIO_DIR_MODE_HW );
|
493 |
|
|
|
494 |
|
|
/* Configure the UART for 8-N-1 operation. */
|
495 |
|
|
UARTConfigSet( UART0_BASE, mainBAUD_RATE, UART_CONFIG_WLEN_8 | UART_CONFIG_PAR_NONE | UART_CONFIG_STOP_ONE );
|
496 |
|
|
|
497 |
|
|
/* We dont want to use the fifo. This is for test purposes to generate
|
498 |
|
|
as many interrupts as possible. */
|
499 |
|
|
HWREG( UART0_BASE + UART_O_LCR_H ) &= ~mainFIFO_SET;
|
500 |
|
|
|
501 |
|
|
/* Enable both Rx and Tx interrupts. */
|
502 |
|
|
HWREG( UART0_BASE + UART_O_IM ) |= ( UART_INT_TX | UART_INT_RX );
|
503 |
|
|
IntEnable( INT_UART0 );
|
504 |
|
|
}
|
505 |
|
|
/*-----------------------------------------------------------*/
|
506 |
|
|
|
507 |
|
|
void vUART_ISR(void)
|
508 |
|
|
{
|
509 |
|
|
unsigned long ulStatus;
|
510 |
|
|
char cRxedChar;
|
511 |
|
|
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;
|
512 |
|
|
|
513 |
|
|
/* What caused the interrupt. */
|
514 |
|
|
ulStatus = UARTIntStatus( UART0_BASE, pdTRUE );
|
515 |
|
|
|
516 |
|
|
/* Clear the interrupt. */
|
517 |
|
|
UARTIntClear( UART0_BASE, ulStatus );
|
518 |
|
|
|
519 |
|
|
/* Was an Rx interrpt pending? */
|
520 |
|
|
if( ulStatus & UART_INT_RX )
|
521 |
|
|
{
|
522 |
|
|
if( ( HWREG(UART0_BASE + UART_O_FR ) & UART_FR_RXFF ) )
|
523 |
|
|
{
|
524 |
|
|
/* Get the char from the buffer and post it onto the queue of
|
525 |
|
|
Rxed chars. Posting the character should wake the task that is
|
526 |
|
|
blocked on the queue waiting for characters. */
|
527 |
|
|
cRxedChar = ( char ) HWREG( UART0_BASE + UART_O_DR );
|
528 |
|
|
xQueueSendFromISR( xCommsQueue, &cRxedChar, &xHigherPriorityTaskWoken );
|
529 |
|
|
}
|
530 |
|
|
}
|
531 |
|
|
|
532 |
|
|
/* Was a Tx interrupt pending? */
|
533 |
|
|
if( ulStatus & UART_INT_TX )
|
534 |
|
|
{
|
535 |
|
|
/* Send the next character in the string. We are not using the FIFO. */
|
536 |
|
|
if( cNextChar <= mainLAST_TX_CHAR )
|
537 |
|
|
{
|
538 |
|
|
if( !( HWREG( UART0_BASE + UART_O_FR ) & UART_FR_TXFF ) )
|
539 |
|
|
{
|
540 |
|
|
HWREG( UART0_BASE + UART_O_DR ) = cNextChar;
|
541 |
|
|
}
|
542 |
|
|
cNextChar++;
|
543 |
|
|
}
|
544 |
|
|
}
|
545 |
|
|
|
546 |
|
|
/* If a task was woken by the character being received then we force
|
547 |
|
|
a context switch to occur in case the task is of higher priority than
|
548 |
|
|
the currently executing task (i.e. the task that this interrupt
|
549 |
|
|
interrupted.) */
|
550 |
|
|
portEND_SWITCHING_ISR( xHigherPriorityTaskWoken );
|
551 |
|
|
}
|
552 |
|
|
/*-----------------------------------------------------------*/
|
553 |
|
|
|
554 |
|
|
static void prvPDCWrite( char cAddress, char cData )
|
555 |
|
|
{
|
556 |
|
|
vTaskSuspendAll();
|
557 |
|
|
{
|
558 |
|
|
PDCWrite( cAddress, cData );
|
559 |
|
|
}
|
560 |
|
|
xTaskResumeAll();
|
561 |
|
|
}
|
562 |
|
|
/*-----------------------------------------------------------*/
|
563 |
|
|
|
564 |
|
|
void vSetErrorLED( void )
|
565 |
|
|
{
|
566 |
|
|
vParTestSetLED( mainCOMMS_FAIL_LED, pdTRUE );
|
567 |
|
|
}
|
568 |
|
|
/*-----------------------------------------------------------*/
|
569 |
|
|
|
570 |
|
|
void prvSetAndCheckRegisters( void )
|
571 |
|
|
{
|
572 |
|
|
/* Fill the general purpose registers with known values. */
|
573 |
|
|
__asm volatile
|
574 |
|
|
(
|
575 |
|
|
" mov r11, #10 \n"
|
576 |
|
|
" add r0, r11, #1 \n"
|
577 |
|
|
" add r1, r11, #2 \n"
|
578 |
|
|
" add r2, r11, #3 \n"
|
579 |
|
|
" add r3, r11, #4 \n"
|
580 |
|
|
" add r4, r11, #5 \n"
|
581 |
|
|
" add r5, r11, #6 \n"
|
582 |
|
|
" add r6, r11, #7 \n"
|
583 |
|
|
" add r7, r11, #8 \n"
|
584 |
|
|
" add r8, r11, #9 \n"
|
585 |
|
|
" add r9, r11, #10 \n"
|
586 |
|
|
" add r10, r11, #11 \n"
|
587 |
|
|
" add r12, r11, #12"
|
588 |
|
|
);
|
589 |
|
|
|
590 |
|
|
/* Check the values are as expected. */
|
591 |
|
|
__asm volatile
|
592 |
|
|
(
|
593 |
|
|
" cmp r11, #10 \n"
|
594 |
|
|
" bne set_error_led \n"
|
595 |
|
|
" cmp r0, #11 \n"
|
596 |
|
|
" bne set_error_led \n"
|
597 |
|
|
" cmp r1, #12 \n"
|
598 |
|
|
" bne set_error_led \n"
|
599 |
|
|
" cmp r2, #13 \n"
|
600 |
|
|
" bne set_error_led \n"
|
601 |
|
|
" cmp r3, #14 \n"
|
602 |
|
|
" bne set_error_led \n"
|
603 |
|
|
" cmp r4, #15 \n"
|
604 |
|
|
" bne set_error_led \n"
|
605 |
|
|
" cmp r5, #16 \n"
|
606 |
|
|
" bne set_error_led \n"
|
607 |
|
|
" cmp r6, #17 \n"
|
608 |
|
|
" bne set_error_led \n"
|
609 |
|
|
" cmp r7, #18 \n"
|
610 |
|
|
" bne set_error_led \n"
|
611 |
|
|
" cmp r8, #19 \n"
|
612 |
|
|
" bne set_error_led \n"
|
613 |
|
|
" cmp r9, #20 \n"
|
614 |
|
|
" bne set_error_led \n"
|
615 |
|
|
" cmp r10, #21 \n"
|
616 |
|
|
" bne set_error_led \n"
|
617 |
|
|
" cmp r12, #22 \n"
|
618 |
|
|
" bne set_error_led \n"
|
619 |
|
|
" bx lr"
|
620 |
|
|
);
|
621 |
|
|
|
622 |
|
|
__asm volatile
|
623 |
|
|
(
|
624 |
|
|
"set_error_led: \n"
|
625 |
|
|
" push {r14} \n"
|
626 |
|
|
" ldr r1, vSetErrorLEDConst\n"
|
627 |
|
|
" blx r1 \n"
|
628 |
|
|
" pop {r14} \n"
|
629 |
|
|
" bx lr \n"
|
630 |
|
|
" \n"
|
631 |
|
|
" .align 2 \n"
|
632 |
|
|
"vSetErrorLEDConst: .word vSetErrorLED"
|
633 |
|
|
);
|
634 |
|
|
}
|
635 |
|
|
/*-----------------------------------------------------------*/
|