Comment and spell check the STM32L152 demo project.

2025-04-20 05:21:59 -04:00 · 2010-12-23 17:04:34 +00:00 · 2010-12-23 17:04:34 +00:00 · ecc01bdbe8
parent 556fc15e99
commit ecc01bdbe8
6 changed files with 309 additions and 73 deletions
--- a/Demo/Cortex_STM32L152_IAR/ParTest.c
+++ b/Demo/Cortex_STM32L152_IAR/ParTest.c
@ -68,6 +68,8 @@
 void vParTestInitialise( void )
 {
 	/* Configure the output LEDs.   Note that JP18 and JP19 must be closed on
 	the Eval board for LED3 and LED4 to work. */
 	STM_EVAL_LEDInit( LED1 );
 	STM_EVAL_LEDInit( LED2 );
 	STM_EVAL_LEDInit( LED3 );
--- a/Demo/Cortex_STM32L152_IAR/main.c
+++ b/Demo/Cortex_STM32L152_IAR/main.c
@ -51,6 +51,71 @@
    licensing and training services.
 */
 /*
 * The documentation page for this demo available on http://www.FreeRTOS.org
 * documents the hardware configuration required to run this demo.  It also
 * provides more information on the expected demo application behaviour.
 *
 * main() creates all the demo application tasks, then starts the scheduler.
 * A lot of the created tasks are from the pool of "standard demo" tasks.  The
 * web documentation provides more details of the standard demo application
 * tasks, which provide no particular functionality but do provide a good
 * example of how to use the FreeRTOS API.
 *
 * In addition to the standard demo tasks, the following tasks, interrupts and
 * tests are defined and/or created within this file:
 *
 * "LCD" task - The LCD task is a 'gatekeeper' task.  It is the only task that
 * is permitted to access the LCD and therefore ensures access to the LCD is
 * always serialised and there are no mutual exclusion issues.  When a task or
 * an interrupt wants to write to the LCD, it does not access the LCD directly
 * but instead sends the message to the LCD task.  The LCD task then performs
 * the actual LCD output.  This mechanism also allows interrupts to, in effect,
 * write to the LCD by sending messages to the LCD task.
 *
 * The LCD task is also a demonstration of a controller task design pattern.
 * Some tasks do not actually send a string to the LCD task directly, but
 * instead send a command that is interpreted by the LCD task.  In a normal
 * application these commands can be control values or set points, in this
 * simple example the commands just result in messages being displayed on the
 * LCD.
 *
 * "Button Poll" task - This task polls the state of the 'up' key on the
 * joystick input device.  It uses the vTaskDelay() API function to control
 * the poll rate to ensure debouncing is not necessary and that the task does
 * not use all the available CPU processing time.
 *
 * Button Interrupt and run time stats display - The select button on the
 * joystick input device is configured to generate an external interrupt.  The
 * handler for this interrupt sends a message to LCD task, which interprets the
 * message to mean, firstly write a message to the LCD, and secondly, generate
 * a table of run time statistics.  The run time statistics are displayed as a
 * table that contains information on how much processing time each task has
 * been allocated since the application started to execute.  This information
 * is provided both as an absolute time, and as a percentage of the total run
 * time.  The information is displayed in the terminal IO window of the IAR
 * embedded workbench.  The online documentation for this demo shows a screen
 * shot demonstrating where the run time stats can be viewed.
 *
 * Idle Hook - The idle hook is a function that is called on each iteration of
 * the idle task.  In this case it is used to place the processor into a low
 * power mode.  Note however that this application is implemented using standard
 * components, and is therefore not optimised for low power operation.  Lower
 * power consumption would be achieved by converting polling tasks into event
 * driven tasks, and slowing the tick interrupt frequency.
 *
 * "Check" function called from the tick hook - The tick hook is called during
 * each tick interrupt.  It is called from an interrupt context so must execute
 * quickly, not attempt to block, and not call any FreeRTOS API functions that
 * do not end in "FromISR".  In this case the tick hook executes a 'check'
 * function.  This only executes every five seconds.  Its main function is to
 * check that all the standard demo tasks are still operational.  Each time it
 * executes it sends a status code to the LCD task.  The LCD task interprets the
 * code and displays an appropriate message - which will be PASS if no tasks
 * have reported any errors, or a message stating which task has reported an
 * error.
 */
 /* Standard includes. */
 #include <stdio.h>
@ -66,81 +131,131 @@
 #include "comtest2.h"
 #include "GenQTest.h"
 /* ST driver includes. */
 #include "stm32l1xx_usart.h"
 /* Eval board includes. */
 #include "stm32_eval.h"
 #include "stm32l152_eval_lcd.h"
 /* The priorities assigned to the tasks. */
 #define mainFLASH_TASK_PRIORITY			( tskIDLE_PRIORITY + 1 )
 #define mainLCD_TASK_PRIORITY			( tskIDLE_PRIORITY + 1 )
 #define mainCOM_TEST_PRIORITY			( tskIDLE_PRIORITY + 2 )
 #define mainGENERIC_QUEUE_TEST_PRIORITY	( tskIDLE_PRIORITY )
-#define mainLCD_TASK_STACK_SIZE			( configMINIMAL_STACK_SIZE * 2 )
+/* The length of the queue (the number of items the queue can hold) that is used
-
+to send messages from tasks and interrupts the the LCD task. */
 #define mainQUEUE_LENGTH				( 5 )
 /* Codes sent within message to the LCD task so the LCD task can interrupt
 exactly what the message it just received was.  These are sent in the
 cMessageID member of the message structure (defined below). */
 #define mainMESSAGE_BUTTON_UP			( 1 )
-#define mainMESSAGE_BUTTON_DOWN			( 2 )
+#define mainMESSAGE_BUTTON_SEL			( 2 )
-#define mainMESSAGE_BUTTON_LEFT			( 3 )
+#define mainMESSAGE_STATUS				( 3 )
 #define mainMESSAGE_BUTTON_RIGHT		( 4 )
 #define mainMESSAGE_BUTTON_SEL			( 5 )
 #define mainMESSAGE_STATUS				( 6 )
-#define mainERROR_DYNAMIC_TASKS			( 2 )
+/* When cMessageID member of the message sent to the LCD task is
-#define mainERROR_COM_TEST				( 3 )
+mainMESSAGE_STATUS then these definitions are sent in the lMessageValue member
-#define mainERROR_GEN_QUEUE_TEST		( 4 )
+of the same message to indicate what the status actually is.  The value 1 is not
 used as this is globally defined as pdPASS, and indicates that no errors have
 been reported (the system is running as expected). */
 #define mainERROR_DYNAMIC_TASKS			( pdPASS + 1 )
 #define mainERROR_COM_TEST				( pdPASS + 2 )
 #define mainERROR_GEN_QUEUE_TEST		( pdPASS + 3 )
 /* Baud rate used by the comtest tasks. */
-#define mainCOM_TEST_BAUD_RATE		( 9600 )
+#define mainCOM_TEST_BAUD_RATE		( 115200 )
 /* The LED used by the comtest tasks. See the comtest.c file for more
 information. */
 #define mainCOM_TEST_LED			( 3 )
 /*-----------------------------------------------------------*/
 /*
 * System configuration is performed prior to main() being called, this function
 * configures the peripherals used by the demo application.
 */
 static void prvSetupHardware( void );
 /*
 * Definition of the LCD/controller task described in the comments at the top
 * of this file.
 */
 static void prvLCDTask( void *pvParameters );
-static void vTempTask( void *pv );
+
 /*
 * Definition of the button poll task described in the comments at the top of
 * this file.
 */
 static void vButtonPollTask( void *pvParameters );
 /*
 * Converts a status message value into an appropriate string for display on
 * the LCD.  The string is written to pcBuffer.
 */
 static void prvGenerateStatusMessage( char *pcBuffer, long lStatusValue );
 /*-----------------------------------------------------------*/
 /* The time base for the run time stats is generated by the 16 bit timer 6.
 Each time the timer overflows ulTIM6_OverflowCount is incremented.  Therefore,
 when converting the total run time to a 32 bit number, the most significant two
 bytes are given by ulTIM6_OverflowCount and the least significant two bytes are
 given by the current TIM6 counter value.  Care must be taken with data
 consistency when combining the two in case a timer overflow occurs as the
 value is being read. */
 unsigned long ulTIM6_OverflowCount = 0UL;
 /* The handle of the queue used to send messages from tasks and interrupts to
 the LCD task. */
 static xQueueHandle xLCDQueue = NULL;
 /* The definition of each message sent from tasks and interrupts to the LCD
 task. */
 typedef struct
 {
-	char cMessageID;
+	char cMessageID;	/* << States what the message is. */
-	long lMessageValue;
+	long lMessageValue; /* << States the message value (can be an integer, string pointer, etc. depending on the value of cMessageID. */
 } xQueueMessage;
 /*-----------------------------------------------------------*/
 void main( void )
 {
 	/* Configure the peripherals used by this demo application.  This includes
 	configuring the joystick input select button to generate interrupts. */
 	prvSetupHardware();
 	/* Create the queue used by tasks and interrupts to send strings to the LCD
 	task. */
 	xLCDQueue = xQueueCreate( mainQUEUE_LENGTH, sizeof( xQueueMessage ) );
 	/* If the queue could not be created then don't create any tasks that might
 	attempt to use the queue. */
 	if( xLCDQueue != NULL )
 	{
 		/* Add the created queue to the queue registry so it can be viewed in
 		the IAR FreeRTOS state viewer plug-in. */
 		vQueueAddToRegistry( xLCDQueue, "LCDQueue" );
-		xTaskCreate( prvLCDTask, ( signed char * ) "LCD", mainLCD_TASK_STACK_SIZE, NULL, mainLCD_TASK_PRIORITY, NULL );
+		
-		xTaskCreate( vTempTask, ( signed char * ) "Temp", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL );
+		/* Create the LCD and button poll tasks, as described at the top of this
 		file. */
 		xTaskCreate( prvLCDTask, ( signed char * ) "LCD", configMINIMAL_STACK_SIZE, NULL, mainLCD_TASK_PRIORITY, NULL );
 		xTaskCreate( vButtonPollTask, ( signed char * ) "Temp", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL );
 		/* Create a subset of the standard demo tasks. */
 		vStartDynamicPriorityTasks();
 		vStartLEDFlashTasks( mainFLASH_TASK_PRIORITY );
 		vAltStartComTestTasks( mainCOM_TEST_PRIORITY, mainCOM_TEST_BAUD_RATE, mainCOM_TEST_LED );
 		vStartGenericQueueTasks( mainGENERIC_QUEUE_TEST_PRIORITY );
 		/* Start the scheduler. */
 		vTaskStartScheduler();
 	}
 	/* If all is well then this line will never be reached.  If it is reached
 	then it is likely that there was insufficient (FreeRTOS) heap memory space
 	to create the idle task.  This may have been trapped by the malloc() failed
 	hook function, if one is configured. */
 	for( ;; );
 }
 /*-----------------------------------------------------------*/
@ -150,49 +265,88 @@ static void prvLCDTask( void *pvParameters )
 xQueueMessage xReceivedMessage;
 long lLine = Line1;
 const long lFontHeight = (((sFONT *)LCD_GetFont())->Height);
 /* Buffer into which strings are formatted and placed ready for display on the
 LCD.  Note this is a static variable to prevent it being allocated on the task
 stack, which is too small to hold such a variable.  The stack size is configured
 when the task is created. */
 static char cBuffer[ 512 ];
 	/* This function is the only function that uses printf().  If printf() is
 	used from any other function then some sort of mutual exclusion on stdout
-	will be necessary. */
+	will be necessary.
 	This is also the only function that is permitted to access the LCD.
 	First print out the number of bytes that remain in the FreeRTOS heap.  This
 	can be viewed in the terminal IO window within the IAR Embedded Workbench. */
 	printf( "%d bytes of heap space remain unallocated\n", xPortGetFreeHeapSize() );
 	for( ;; )
 	{
 		/* Wait for a message to be received.  This will wait indefinitely if
 		INCLUDE_vTaskSuspend is set to 1 in FreeRTOSConfig.h, therefore there
 		is no need to check the function return value. */
 		xQueueReceive( xLCDQueue, &xReceivedMessage, portMAX_DELAY );
 		/* Clear the LCD if the last LCD message was output to the last
 		available line on the LCD. */
 		if( lLine > Line9 )
 		{
 			LCD_Clear( Blue );
 			lLine = 0;
 		}
 		/* What is this message?  What does it contain? */
 		switch( xReceivedMessage.cMessageID )
 		{
-			case mainMESSAGE_BUTTON_UP		:	sprintf( cBuffer, "Button up = %d", xReceivedMessage.lMessageValue );
+			case mainMESSAGE_BUTTON_UP		:	/* The button poll task has just
 												informed this task that the up
 												button on the joystick input has
 												been pressed or released. */
 												sprintf( cBuffer, "Button up = %d", xReceivedMessage.lMessageValue );
 												break;
-			case mainMESSAGE_BUTTON_DOWN	:	sprintf( cBuffer, "Button down = %d", xReceivedMessage.lMessageValue );
+
-												break;
+			case mainMESSAGE_BUTTON_SEL		:	/* The select button interrupt
-			case mainMESSAGE_BUTTON_LEFT	:	sprintf( cBuffer, "Button left = %d", xReceivedMessage.lMessageValue );
+												just informed this task that the
-												break;
+												select button was pressed.
-			case mainMESSAGE_BUTTON_RIGHT	:	sprintf( cBuffer, "Button right = %d", xReceivedMessage.lMessageValue );
+												Generate a table of task run time
-												break;
+												statistics and output this to
-			case mainMESSAGE_BUTTON_SEL		:	printf( "\nTask\t     Abs Time\t     %%Time\n*****************************************" );
+												the terminal IO window in the IAR
 												embedded workbench. */
 												printf( "\nTask\t     Abs Time\t     %%Time\n*****************************************" );
 												vTaskGetRunTimeStats( ( signed char * ) cBuffer );
 												printf( cBuffer );
-												/* The select button passes its
+												/* Also print out a message to
-												own string to print out. */
+												the LCD - in this case the
 												pointer to the string to print
 												is sent directly in the
 												lMessageValue member of the
 												message.  This just demonstrates
 												a different communication
 												technique. */
 												sprintf( cBuffer, "%s", ( char * ) xReceivedMessage.lMessageValue );
 												break;
-			case mainMESSAGE_STATUS			:	prvGenerateStatusMessage( cBuffer, xReceivedMessage.lMessageValue );
+												
 			case mainMESSAGE_STATUS			:	/* The tick interrupt hook
 												function has just informed this
 												task of the system status.
 												Generate a string in accordance
 												with the status value. */
 												prvGenerateStatusMessage( cBuffer, xReceivedMessage.lMessageValue );
 												break;
 			default							:	sprintf( cBuffer, "Unknown message" );
 												break;
 		}
 		/* Output the message that was placed into the cBuffer array within the
 		switch statement above. */
 		LCD_DisplayStringLine( lLine, ( uint8_t * ) cBuffer );
 		/* Move onto the next LCD line, ready for the next iteration of this
 		loop. */
 		lLine += lFontHeight;
 	}
 }
@ -200,13 +354,15 @@ static char cBuffer[ 512 ];
 static void prvGenerateStatusMessage( char *pcBuffer, long lStatusValue )
 {
 	/* Just a utility function to convert a status value into a meaningful
 	string for output onto the LCD. */
 	switch( lStatusValue )
 	{
 		case pdPASS						:	sprintf( pcBuffer, "Task status = PASS" );
 											break;
 		case mainERROR_DYNAMIC_TASKS	:	sprintf( pcBuffer, "Error: Dynamic tasks" );
 											break;
-		case mainERROR_COM_TEST			:	sprintf( pcBuffer, "Error: COM test" );
+		case mainERROR_COM_TEST			:	sprintf( pcBuffer, "Err: loop connected?" ); /* Error in COM test - is the Loopback connector connected? */														
 											break;
 		case mainERROR_GEN_QUEUE_TEST 	:	sprintf( pcBuffer, "Error: Gen Q test" );
 											break;
@ -218,11 +374,21 @@ static void prvGenerateStatusMessage( char *pcBuffer, long lStatusValue )
 void EXTI9_5_IRQHandler( void )
 {
 /* Define the message sent to the LCD task from this interrupt. */
 const xQueueMessage xMessage = { mainMESSAGE_BUTTON_SEL, ( unsigned long ) "Select Interrupt!" };
 long lHigherPriorityTaskWoken = pdFALSE;
 	/* This is the interrupt handler for the joystick select button input.
 	The button has been pushed, write a message to the LCD via the LCD task. */
 	xQueueSendFromISR( xLCDQueue, &xMessage, &lHigherPriorityTaskWoken );
 	EXTI_ClearITPendingBit( SEL_BUTTON_EXTI_LINE );
 	/* If writing to xLCDQueue caused a task to unblock, and the unblocked task
 	has a priority equal to or above the task that this interrupt interrupted,
 	then lHigherPriorityTaskWoken will have been set to pdTRUE internally within
 	xQueuesendFromISR(), and portEND_SWITCHING_ISR() will ensure that this
 	interrupt returns directly to the higher priority unblocked task. */
 	portEND_SWITCHING_ISR( lHigherPriorityTaskWoken );
 }
 /*-----------------------------------------------------------*/
@ -231,12 +397,22 @@ void vApplicationTickHook( void )
 {
 static unsigned long ulCounter = 0;
 static const unsigned long ulCheckFrequency = 5000UL / portTICK_RATE_MS;
-static xQueueMessage xStatusMessage = { mainMESSAGE_STATUS, pdPASS };
+long lHigherPriorityTaskWoken = pdFALSE;
 long lHigherPriorityTaskWoken = pdFALSE; /* Not used in this case as this is the tick hook. */
 /* Define the status message that is sent to the LCD task.  By default the
 status is PASS. */
 static xQueueMessage xStatusMessage = { mainMESSAGE_STATUS, pdPASS };
 	/* This is called from within the tick interrupt and performs the 'check'
 	functionality as described in the comments at the top of this file.
 	Is it time to perform the 'check' functionality again? */
 	ulCounter++;
 	if( ulCounter >= ulCheckFrequency )
 	{
 		/* See if the standard demo tasks are executing as expected, changing
 		the message that is sent to the LCD task from PASS to an error code if
 		any tasks set reports an error. */
 		if( xAreDynamicPriorityTasksStillRunning() != pdPASS )
 		{
 			xStatusMessage.lMessageValue = mainERROR_DYNAMIC_TASKS;
@ -252,35 +428,47 @@ long lHigherPriorityTaskWoken = pdFALSE; /* Not used in this case as this is the
 			xStatusMessage.lMessageValue = mainERROR_GEN_QUEUE_TEST;
 		}
 		/* As this is the tick hook the lHigherPriorityTaskWoken parameter is not
 		needed (a context switch is going to be performed anyway), but it must
 		still be provided. */
 		xQueueSendFromISR( xLCDQueue, &xStatusMessage, &lHigherPriorityTaskWoken );
 		ulCounter = 0;
 	}
 }
 /*-----------------------------------------------------------*/
-static void vTempTask( void *pv )
+static void vButtonPollTask( void *pvParameters )
 {
 long lLastState = pdTRUE;
 long lState;
 xQueueMessage xMessage;
 	/* This tasks performs the button polling functionality as described at the
 	top of this file. */
 	for( ;; )
 	{
 		/* Check the button state. */
 		lState = STM_EVAL_PBGetState( BUTTON_UP );
 		if( lState != lLastState )
 		{
 			/* The state has changed, send a message to the LCD task. */
 			xMessage.cMessageID = mainMESSAGE_BUTTON_UP;
 			xMessage.lMessageValue = lState;
 			lLastState = lState;
 			xQueueSend( xLCDQueue, &xMessage, portMAX_DELAY );
 			vTaskDelay( 10 );
 		}
 		/* Block for 10 milliseconds so this task does not utilise all the CPU
 		time and debouncing of the button is not necessary. */
 		vTaskDelay( 10 / portTICK_RATE_MS );
 	}
 }
 /*-----------------------------------------------------------*/
 static void prvSetupHardware( void )
 {
 	/* Ensure that all 4 interrupt priority bits are used as the pre-emption
 	priority. */
 	NVIC_PriorityGroupConfig( NVIC_PriorityGroup_4 );
 	/* Initialise the LEDs. */
@ -294,15 +482,14 @@ static void prvSetupHardware( void )
 	/* The select button in the middle of the joystick is configured to generate
 	an interrupt.  The Eval board library will configure the interrupt
-	priority to be the lowest priority available - this is important as the
+	priority to be the lowest priority available so the priority need not be
-	interrupt service routine makes use of a FreeRTOS API function so must
+	set here explicitly.  It is important that the priority is equal to or
-	therefore use a priority equal to or below that set by the
+	below that set by the configMAX_SYSCALL_INTERRUPT_PRIORITY value set in
-	configMAX_SYSCALL_INTERRUPT_PRIORITY() value set in FreeRTOSConfig.h. */
+	FreeRTOSConfig.h. */
 	STM_EVAL_PBInit( BUTTON_SEL, BUTTON_MODE_EXTI );
 	/* Initialize the LCD */
 	STM32L152_LCD_Init();	
 	LCD_Clear( Blue );
 	LCD_SetBackColor( Blue );
 	LCD_SetTextColor( White );
@ -315,6 +502,18 @@ void vConfigureTimerForRunTimeStats( void )
 TIM_TimeBaseInitTypeDef  TIM_TimeBaseStructure;
 NVIC_InitTypeDef NVIC_InitStructure;
 	/* The time base for the run time stats is generated by the 16 bit timer 6.
 	Each time the timer overflows ulTIM6_OverflowCount is incremented.
 	Therefore, when converting the total run time to a 32 bit number, the most
 	significant two bytes are given by ulTIM6_OverflowCount and the least
 	significant two bytes are given by the current TIM6 counter value.  Care
 	must be taken with data	consistency when combining the two in case a timer
 	overflow occurs as the value is being read.
 	The portCONFIGURE_TIMER_FOR_RUN_TIME_STATS() macro (in FreeRTOSConfig.h) is
 	defined to call this function, so the kernel will call this function
 	automatically at the appropriate time. */
 	/* TIM6 clock enable */
 	RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM6, ENABLE);
@ -330,22 +529,32 @@ NVIC_InitTypeDef NVIC_InitStructure;
 	/* Only interrupt on overflow events. */
 	TIM6->CR1 |= TIM_CR1_URS;
 	/* Enable the interrupt. */
 	TIM_ITConfig( TIM6, TIM_IT_Update, ENABLE );
-	/* Enable the TIM6 gloabal Interrupt */
+	/* Enable the TIM6 global Interrupt */
 	NVIC_InitStructure.NVIC_IRQChannel = TIM6_IRQn;
 	NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = configLIBRARY_LOWEST_INTERRUPT_PRIORITY;
 	NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0x00; /* Not used as 4 bits are used for the pre-emption priority. */
 	NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
 	NVIC_Init(&NVIC_InitStructure);
 	TIM_ClearITPendingBit( TIM6, TIM_IT_Update );
 	NVIC_Init(&NVIC_InitStructure);
 	TIM_Cmd( TIM6, ENABLE );
 }
 /*-----------------------------------------------------------*/
 void TIM6_IRQHandler( void )
 {
 	/* Interrupt handler for TIM 6
 	The time base for the run time stats is generated by the 16 bit timer 6.
 	Each time the timer overflows ulTIM6_OverflowCount is incremented.
 	Therefore, when converting the total run time to a 32 bit number, the most
 	significant two bytes are given by ulTIM6_OverflowCount and the least
 	significant two bytes are given by the current TIM6 counter value.  Care
 	must be taken with data	consistency when combining the two in case a timer
 	overflow occurs as the value is being read. */
 	if( TIM_GetITStatus( TIM6, TIM_IT_Update) != RESET)
 	{
 		ulTIM6_OverflowCount++;
@ -359,18 +568,27 @@ void vApplicationStackOverflowHook( xTaskHandle *pxTask, signed char *pcTaskName
 	( void ) pcTaskName;
 	( void ) pxTask;
 	/* Run time stack overflow checking is performed if
 	configconfigCHECK_FOR_STACK_OVERFLOW is defined to 1 or 2.  This hook
 	function is called if a stack overflow is detected. */
 	for( ;; );
 }
 /*-----------------------------------------------------------*/
 void vApplicationMallocFailedHook( void )
 {
 	/* Called if a call to pvPortMalloc() fails because there is insufficient
 	free memory available in the FreeRTOS heap.  pvPortMalloc() is called
 	internally by FreeRTOS API functions that create tasks, queues or
 	semaphores. */
 	for( ;; );
 }
 /*-----------------------------------------------------------*/
 void vApplicationIdleHook( void )
 {
 	/* Called on each itteration of the idle task.  In this case the idle task
 	just enters a low(ish) power mode. */
 	PWR_EnterSleepMode( PWR_Regulator_ON, PWR_SLEEPEntry_WFI );
 }
--- a/Demo/Cortex_STM32L152_IAR/serial.c
+++ b/Demo/Cortex_STM32L152_IAR/serial.c
@ -53,6 +53,15 @@
 /*
 	BASIC INTERRUPT DRIVEN SERIAL PORT DRIVER FOR UART0.
 	***Note*** This example uses queues to send each character into an interrupt
 	service routine and out of an interrupt service routine individually.  This
 	is done to demonstrate queues being used in an interrupt, and to deliberately
 	load the system to test the FreeRTOS port.  It is *NOT* meant to be an 
 	example of an efficient implementation.  An efficient implementation should
 	use FIFO's or DMA if available, and only use FreeRTOS API functions when 
 	enough has been received to warrant a task being unblocked to process the
 	data.
 */
 /* Scheduler includes. */
@ -71,7 +80,6 @@
 /* Misc defines. */
 #define serINVALID_QUEUE				( ( xQueueHandle ) 0 )
 #define serNO_BLOCK						( ( portTickType ) 0 )
 #define serTX_BLOCK_TIME				( 40 / portTICK_RATE_MS )
 /*-----------------------------------------------------------*/
@ -94,7 +102,7 @@ NVIC_InitTypeDef NVIC_InitStructure;
 	xRxedChars = xQueueCreate( uxQueueLength, ( unsigned portBASE_TYPE ) sizeof( signed portCHAR ) );
 	xCharsForTx = xQueueCreate( uxQueueLength + 1, ( unsigned portBASE_TYPE ) sizeof( signed portCHAR ) );
-	/* If the queue/semaphore was created correctly then setup the serial port
+	/* If the queues were created correctly then setup the serial port
 	hardware. */
 	if( ( xRxedChars != serINVALID_QUEUE ) && ( xCharsForTx != serINVALID_QUEUE ) )
 	{
@ -200,12 +208,12 @@ portCHAR cChar;
 	if( USART_GetITStatus( USART3, USART_IT_TXE ) == SET )
 	{
-		/* The interrupt was caused by the THR becoming empty.  Are there any
+		/* The interrupt was caused by the TX register becoming empty.  Are 
-		more characters to transmit? */
+		there any more characters to transmit? */
 		if( xQueueReceiveFromISR( xCharsForTx, &cChar, &xHigherPriorityTaskWoken ) == pdTRUE )
 		{
 			/* A character was retrieved from the queue so can be sent to the
-			THR now. */
+			USART now. */
 			USART_SendData( USART3, cChar );
 		}
 		else
@ -216,10 +224,18 @@ portCHAR cChar;
 	if( USART_GetITStatus( USART3, USART_IT_RXNE ) == SET )
 	{
 		/* A character has been received on the USART, send it to the Rx
 		handler task. */
 		cChar = USART_ReceiveData( USART3 );
 		xQueueSendFromISR( xRxedChars, &cChar, &xHigherPriorityTaskWoken );
 	}	
 	/* If sending or receiving from a queue has caused a task to unblock, and
 	the unblocked task has a priority equal to or higher than the currently 
 	running task (the task this ISR interrupted), then xHigherPriorityTaskWoken 
 	will have automatically been set to pdTRUE within the queue send or receive 
 	function.  portEND_SWITCHING_ISR() will then ensure that this ISR returns 
 	directly to the higher priority unblocked task. */
 	portEND_SWITCHING_ISR( xHigherPriorityTaskWoken );
 }
--- a/Demo/Cortex_STM32L152_IAR/settings/RTOSDemo.dbgdt
+++ b/Demo/Cortex_STM32L152_IAR/settings/RTOSDemo.dbgdt
@ -19,7 +19,7 @@
-        <Column0>279</Column0><Column1>27</Column1><Column2>27</Column2><Column3>27</Column3></ColumnWidths>
+        <Column0>295</Column0><Column1>27</Column1><Column2>27</Column2><Column3>27</Column3></ColumnWidths>
      </Workspace>
      <Disassembly>
        <PreferedWindows>
@ -36,7 +36,7 @@
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+    <Wnd0>
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          <Tab>
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@ -44,24 +44,24 @@
            <Factory>Workspace</Factory>
            <Session>
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+            <NodeDict><ExpandedNode>RTOSDemo</ExpandedNode><ExpandedNode>RTOSDemo/FreeRTOS_Source</ExpandedNode><ExpandedNode>RTOSDemo/FreeRTOS_Source/Portable</ExpandedNode></NodeDict></Session>
          </Tab>
        </Tabs>
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 </Project>
--- a/Demo/Cortex_STM32L152_IAR/settings/RTOSDemo.dni
+++ b/Demo/Cortex_STM32L152_IAR/settings/RTOSDemo.dni
@ -1,5 +1,5 @@
 [DebugChecksum]
-Checksum=818382432
+Checksum=2056793833
 [DisAssemblyWindow]
 NumStates=_ 1
 State 1=_ 1
@ -70,10 +70,6 @@ ShowTimeLog=1
 ShowTimeSum=0
 Title0=Power [mA]
 Setup0=0 1 0 500 2 0 4 1 0
 [Disassemble mode]
 mode=0
 [Breakpoints]
 Count=0
 [Log file]
 LoggingEnabled=_ 0
 LogFile=_ ""
@ -81,9 +77,6 @@ Category=_ 0
 [TermIOLog]
 LoggingEnabled=_ 0
 LogFile=_ ""
 [Aliases]
 Count=0
 SuppressDialog=0
 [SWOTraceWindow]
 PcSampling=0
 InterruptLogs=0
@ -103,3 +96,10 @@ Enabled=0
 Mode=3
 Graph=0
 Symbiont=0
 [Disassemble mode]
 mode=0
 [Breakpoints]
 Count=0
 [Aliases]
 Count=0
 SuppressDialog=0
--- a/Demo/Cortex_STM32L152_IAR/settings/RTOSDemo.wsdt
+++ b/Demo/Cortex_STM32L152_IAR/settings/RTOSDemo.wsdt
@ -17,7 +17,7 @@
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-    <Wnd0>
+    <Wnd2>
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@ -25,24 +25,24 @@
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            <Session>
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+            <NodeDict><ExpandedNode>RTOSDemo</ExpandedNode><ExpandedNode>RTOSDemo/FreeRTOS_Source</ExpandedNode><ExpandedNode>RTOSDemo/FreeRTOS_Source/Portable</ExpandedNode><ExpandedNode>RTOSDemo/Standard_Demo_Code</ExpandedNode><ExpandedNode>RTOSDemo/System_and_ST_Code</ExpandedNode><ExpandedNode>RTOSDemo/System_and_ST_Code/Peripheral_Library</ExpandedNode><ExpandedNode>RTOSDemo/System_and_ST_Code/Peripheral_Library/stm32l1xx_pwr.c</ExpandedNode><ExpandedNode>RTOSDemo/main.c</ExpandedNode></NodeDict></Session>
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