| /* | |
| FreeRTOS V6.0.3 - Copyright (C) 2010 Real Time Engineers Ltd. | |
| *************************************************************************** | |
| * * | |
| * If you are: * | |
| * * | |
| * + New to FreeRTOS, * | |
| * + Wanting to learn FreeRTOS or multitasking in general quickly * | |
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| * then take a look at the FreeRTOS eBook * | |
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| * "Using the FreeRTOS Real Time Kernel - a Practical Guide" * | |
| * http://www.FreeRTOS.org/Documentation * | |
| * * | |
| * A pdf reference manual is also available. Both are usually delivered * | |
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| *************************************************************************** | |
| This file is part of the FreeRTOS distribution. | |
| FreeRTOS is free software; you can redistribute it and/or modify it under | |
| the terms of the GNU General Public License (version 2) as published by the | |
| Free Software Foundation AND MODIFIED BY the FreeRTOS exception. | |
| ***NOTE*** The exception to the GPL is included to allow you to distribute | |
| a combined work that includes FreeRTOS without being obliged to provide the | |
| source code for proprietary components outside of the FreeRTOS kernel. | |
| FreeRTOS is distributed in the hope that it will be useful, but WITHOUT | |
| ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
| FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for | |
| more details. You should have received a copy of the GNU General Public | |
| License and the FreeRTOS license exception along with FreeRTOS; if not it | |
| can be viewed here: http://www.freertos.org/a00114.html and also obtained | |
| by writing to Richard Barry, contact details for whom are available on the | |
| FreeRTOS WEB site. | |
| 1 tab == 4 spaces! | |
| http://www.FreeRTOS.org - Documentation, latest information, license and | |
| contact details. | |
| http://www.SafeRTOS.com - A version that is certified for use in safety | |
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| http://www.OpenRTOS.com - Commercial support, development, porting, | |
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| */ | |
| /* Scheduler includes. */ | |
| #include "FreeRTOS.h" | |
| #include "task.h" | |
| #include "queue.h" | |
| /* Demo app includes. */ | |
| #include "USBSample.h" | |
| #define usbINT_CLEAR_MASK (AT91C_UDP_TXCOMP | AT91C_UDP_STALLSENT | AT91C_UDP_RXSETUP | AT91C_UDP_RX_DATA_BK0 | AT91C_UDP_RX_DATA_BK1 ) | |
| #define usbCSR_CLEAR_BIT( pulValueNow, ulBit ) \ | |
| { \ | |
| /* Set TXCOMP, RX_DATA_BK0, RXSETUP, */ \ | |
| /* STALLSENT and RX_DATA_BK1 to 1 so the */ \ | |
| /* write has no effect. */ \ | |
| ( * ( ( unsigned long * ) pulValueNow ) ) |= ( unsigned long ) 0x4f; \ | |
| \ | |
| /* Clear the FORCE_STALL and TXPKTRDY bits */ \ | |
| /* so the write has no effect. */ \ | |
| ( * ( ( unsigned long * ) pulValueNow ) ) &= ( unsigned long ) 0xffffffcf; \ | |
| \ | |
| /* Clear whichever bit we want clear. */ \ | |
| ( * ( ( unsigned long * ) pulValueNow ) ) &= ( ~ulBit ); \ | |
| } | |
| /*-----------------------------------------------------------*/ | |
| /* | |
| * ISR entry point. | |
| */ | |
| void vUSB_ISR_Wrapper( void ) __attribute__((naked)); | |
| /* | |
| * Actual ISR handler. This must be separate from the entry point as the stack | |
| * is used. | |
| */ | |
| void vUSB_ISR_Handler( void ) __attribute__((noinline)); | |
| /*-----------------------------------------------------------*/ | |
| /* Array in which the USB interrupt status is passed between the ISR and task. */ | |
| static xISRStatus xISRMessages[ usbQUEUE_LENGTH + 1 ]; | |
| /* Queue used to pass messages between the ISR and the task. */ | |
| extern xQueueHandle xUSBInterruptQueue; | |
| /*-----------------------------------------------------------*/ | |
| void vUSB_ISR_Handler( void ) | |
| { | |
| portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE; | |
| static volatile unsigned long ulNextMessage = 0; | |
| xISRStatus *pxMessage; | |
| unsigned long ulTemp, ulRxBytes; | |
| /* To reduce the amount of time spent in this interrupt it would be | |
| possible to defer the majority of this processing to an 'interrupt task', | |
| that is a task that runs at a higher priority than any of the application | |
| tasks. */ | |
| /* Take the next message from the queue. Note that usbQUEUE_LENGTH *must* | |
| be all 1's, as in 0x01, 0x03, 0x07, etc. */ | |
| pxMessage = &( xISRMessages[ ( ulNextMessage & usbQUEUE_LENGTH ) ] ); | |
| ulNextMessage++; | |
| /* Take a snapshot of the current USB state for processing at the task | |
| level. */ | |
| pxMessage->ulISR = AT91C_BASE_UDP->UDP_ISR; | |
| pxMessage->ulCSR0 = AT91C_BASE_UDP->UDP_CSR[ usbEND_POINT_0 ]; | |
| /* Clear the interrupts from the ICR register. The bus end interrupt is | |
| cleared separately as it does not appear in the mask register. */ | |
| AT91C_BASE_UDP->UDP_ICR = AT91C_BASE_UDP->UDP_IMR | AT91C_UDP_ENDBUSRES; | |
| /* If there are bytes in the FIFO then we have to retrieve them here. | |
| Ideally this would be done at the task level. However we need to clear the | |
| RXSETUP interrupt before leaving the ISR, and this may cause the data in | |
| the FIFO to be overwritten. Also the DIR bit has to be changed before the | |
| RXSETUP bit is cleared (as per the SAM7 manual). */ | |
| ulTemp = pxMessage->ulCSR0; | |
| /* Are there any bytes in the FIFO? */ | |
| ulRxBytes = ulTemp >> 16; | |
| ulRxBytes &= usbRX_COUNT_MASK; | |
| /* With this minimal implementation we are only interested in receiving | |
| setup bytes on the control end point. */ | |
| if( ( ulRxBytes > 0 ) && ( ulTemp & AT91C_UDP_RXSETUP ) ) | |
| { | |
| /* Take off 1 for a zero based index. */ | |
| while( ulRxBytes > 0 ) | |
| { | |
| ulRxBytes--; | |
| pxMessage->ucFifoData[ ulRxBytes ] = AT91C_BASE_UDP->UDP_FDR[ usbEND_POINT_0 ]; | |
| } | |
| /* The direction must be changed first. */ | |
| usbCSR_SET_BIT( &ulTemp, ( AT91C_UDP_DIR ) ); | |
| AT91C_BASE_UDP->UDP_CSR[ usbEND_POINT_0 ] = ulTemp; | |
| } | |
| /* Must write zero's to TXCOMP, STALLSENT, RXSETUP, and the RX DATA | |
| registers to clear the interrupts in the CSR register. */ | |
| usbCSR_CLEAR_BIT( &ulTemp, usbINT_CLEAR_MASK ); | |
| AT91C_BASE_UDP->UDP_CSR[ usbEND_POINT_0 ] = ulTemp; | |
| /* Also clear the interrupts in the CSR1 register. */ | |
| ulTemp = AT91C_BASE_UDP->UDP_CSR[ usbEND_POINT_1 ]; | |
| usbCSR_CLEAR_BIT( &ulTemp, usbINT_CLEAR_MASK ); | |
| AT91C_BASE_UDP->UDP_CSR[ usbEND_POINT_1 ] = ulTemp; | |
| /* The message now contains the entire state and optional data from | |
| the USB interrupt. This can now be posted on the Rx queue ready for | |
| processing at the task level. */ | |
| xQueueSendFromISR( xUSBInterruptQueue, &pxMessage, &xHigherPriorityTaskWoken ); | |
| /* We may want to switch to the USB task, if this message has made | |
| it the highest priority task that is ready to execute. */ | |
| if( xHigherPriorityTaskWoken ) | |
| { | |
| portYIELD_FROM_ISR(); | |
| } | |
| /* Clear the AIC ready for the next interrupt. */ | |
| AT91C_BASE_AIC->AIC_EOICR = 0; | |
| } | |
| /*-----------------------------------------------------------*/ | |
| void vUSB_ISR_Wrapper( void ) | |
| { | |
| /* Save the context of the interrupted task. */ | |
| portSAVE_CONTEXT(); | |
| /* Call the handler itself. This must be a separate function as it uses | |
| the stack. */ | |
| __asm volatile ("bl vUSB_ISR_Handler"); | |
| /* Restore the context of the task that is going to | |
| execute next. This might not be the same as the originally | |
| interrupted task.*/ | |
| portRESTORE_CONTEXT(); | |
| } |