FreeRTOS/Demo/CORTEX_A9_Cyclone_V_SoC_DK/Altera_Code/HardwareLibrary/include/alt_dma_common.h - nest-detect/1.3/freertos - Git at Google

 /******************************************************************************
  *
  * Copyright 2013 Altera Corporation. All Rights Reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are met:
  *
  * 1. Redistributions of source code must retain the above copyright notice,
  * this list of conditions and the following disclaimer.
  *
  * 2. Redistributions in binary form must reproduce the above copyright notice,
  * this list of conditions and the following disclaimer in the documentation
  * and/or other materials provided with the distribution.
  *
  * 3. The name of the author may not be used to endorse or promote products
  * derived from this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER "AS IS" AND ANY EXPRESS OR
  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO
  * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
  * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
  * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
  * OF SUCH DAMAGE.
  *
  ******************************************************************************/

 #ifndef __ALT_DMA_COMMON_H__
 #define __ALT_DMA_COMMON_H__

 #ifdef __cplusplus
 extern "C"
 {
 #endif  /* __cplusplus */

 /*!
  * \addtogroup ALT_DMA_COMMON DMA Controller Common API Definitions
  *
  * This module contains the common definitions for the DMA controller related
  * APIs.
  *
  * @{
  */

 /*!
  * This type definition enumerates the DMA controller channel threads.
  */
 typedef enum ALT_DMA_CHANNEL_e
 {
     ALT_DMA_CHANNEL_0 = 0, /*!< DMA Channel Thread 0 */
     ALT_DMA_CHANNEL_1 = 1, /*!< DMA Channel Thread 1 */
     ALT_DMA_CHANNEL_2 = 2, /*!< DMA Channel Thread 2 */
     ALT_DMA_CHANNEL_3 = 3, /*!< DMA Channel Thread 3 */
     ALT_DMA_CHANNEL_4 = 4, /*!< DMA Channel Thread 4 */
     ALT_DMA_CHANNEL_5 = 5, /*!< DMA Channel Thread 5 */
     ALT_DMA_CHANNEL_6 = 6, /*!< DMA Channel Thread 6 */
     ALT_DMA_CHANNEL_7 = 7  /*!< DMA Channel Thread 7 */
 }
 ALT_DMA_CHANNEL_t;

 /*!
  * This type definition enumerates the SoC system peripherals implementing the
  * required request interface that enables direct DMA transfers to/from the
  * device.
  *
  * FPGA soft IP interface to the DMA are required to comply with the Synopsys
  * protocol.
  *
  * Request interface numbers 4 through 7 are multiplexed between the CAN
  * controllers and soft logic implemented in the FPGA fabric. The selection
  * between the CAN controller and FPGA interfaces is determined at DMA
  * initialization.
  */
 typedef enum ALT_DMA_PERIPH_e
 {
     ALT_DMA_PERIPH_FPGA_0             = 0,  /*!< FPGA soft IP interface 0 */
     ALT_DMA_PERIPH_FPGA_1             = 1,  /*!< FPGA soft IP interface 1 */
     ALT_DMA_PERIPH_FPGA_2             = 2,  /*!< FPGA soft IP interface 2 */
     ALT_DMA_PERIPH_FPGA_3             = 3,  /*!< FPGA soft IP interface 3 */

     ALT_DMA_PERIPH_FPGA_4_OR_CAN0_IF1 = 4,  /*!< Selectively MUXed FPGA 4 or CAN 0 interface 1 */
     ALT_DMA_PERIPH_FPGA_5_OR_CAN0_IF2 = 5,  /*!< Selectively MUXed FPGA 5 or CAN 0 interface 2 */
     ALT_DMA_PERIPH_FPGA_6_OR_CAN1_IF1 = 6,  /*!< Selectively MUXed FPGA 6 or CAN 1 interface 1 */
     ALT_DMA_PERIPH_FPGA_7_OR_CAN1_IF2 = 7,  /*!< Selectively MUXed FPGA 7 or CAN 1 interface 2 */

     ALT_DMA_PERIPH_FPGA_4             = 4,  /*!< Alias for ALT_DMA_PERIPH_FPGA_4_OR_CAN0_IF1 */
     ALT_DMA_PERIPH_FPGA_5             = 5,  /*!< Alias for ALT_DMA_PERIPH_FPGA_5_OR_CAN0_IF2 */
     ALT_DMA_PERIPH_FPGA_6             = 6,  /*!< Alias for ALT_DMA_PERIPH_FPGA_6_OR_CAN1_IF1 */
     ALT_DMA_PERIPH_FPGA_7             = 7,  /*!< Alias for ALT_DMA_PERIPH_FPGA_7_OR_CAN1_IF2 */

     ALT_DMA_PERIPH_CAN0_IF1           = 4,  /*!< Alias for ALT_DMA_PERIPH_FPGA_4_OR_CAN0_IF1 */
     ALT_DMA_PERIPH_CAN0_IF2           = 5,  /*!< Alias for ALT_DMA_PERIPH_FPGA_5_OR_CAN0_IF2 */
     ALT_DMA_PERIPH_CAN1_IF1           = 6,  /*!< Alias for ALT_DMA_PERIPH_FPGA_6_OR_CAN1_IF1 */
     ALT_DMA_PERIPH_CAN1_IF2           = 7,  /*!< Alias for ALT_DMA_PERIPH_FPGA_7_OR_CAN1_IF2 */

     ALT_DMA_PERIPH_I2C0_TX            = 8,  /*!< I<sup>2</sup>C 0 TX */
     ALT_DMA_PERIPH_I2C0_RX            = 9,  /*!< I<sup>2</sup>C 0 RX */
     ALT_DMA_PERIPH_I2C1_TX            = 10, /*!< I<sup>2</sup>C 1 TX */
     ALT_DMA_PERIPH_I2C1_RX            = 11, /*!< I<sup>2</sup>C 1 RX */
     ALT_DMA_PERIPH_I2C2_TX            = 12, /*!< I<sup>2</sup>C 2 TX */
     ALT_DMA_PERIPH_I2C2_RX            = 13, /*!< I<sup>2</sup>C 2 RX */
     ALT_DMA_PERIPH_I2C3_TX            = 14, /*!< I<sup>2</sup>C 3 TX */
     ALT_DMA_PERIPH_I2C3_RX            = 15, /*!< I<sup>2</sup>C 3 RX */
     ALT_DMA_PERIPH_SPI0_MASTER_TX     = 16, /*!< SPI 0 Master TX */
     ALT_DMA_PERIPH_SPI0_MASTER_RX     = 17, /*!< SPI 0 Master RX */
     ALT_DMA_PERIPH_SPI0_SLAVE_TX      = 18, /*!< SPI 0 Slave TX */
     ALT_DMA_PERIPH_SPI0_SLAVE_RX      = 19, /*!< SPI 0 Slave RX */
     ALT_DMA_PERIPH_SPI1_MASTER_TX     = 20, /*!< SPI 1 Master TX */
     ALT_DMA_PERIPH_SPI1_MASTER_RX     = 21, /*!< SPI 1 Master RX */
     ALT_DMA_PERIPH_SPI1_SLAVE_TX      = 22, /*!< SPI 1 Slave TX */
     ALT_DMA_PERIPH_SPI1_SLAVE_RX      = 23, /*!< SPI 1 Slave RX */
     ALT_DMA_PERIPH_QSPI_FLASH_TX      = 24, /*!< QSPI Flash TX */
     ALT_DMA_PERIPH_QSPI_FLASH_RX      = 25, /*!< QSPI Flash RX */
     ALT_DMA_PERIPH_STM                = 26, /*!< System Trace Macrocell */
     ALT_DMA_PERIPH_RESERVED           = 27, /*!< Reserved */
     ALT_DMA_PERIPH_UART0_TX           = 28, /*!< UART 0 TX */
     ALT_DMA_PERIPH_UART0_RX           = 29, /*!< UART 0 RX */
     ALT_DMA_PERIPH_UART1_TX           = 30, /*!< UART 1 TX */
     ALT_DMA_PERIPH_UART1_RX           = 31  /*!< UART 1 RX */
 }
 ALT_DMA_PERIPH_t;

 /*!
  * This type enumerates the DMA security state options available.
  */
 typedef enum ALT_DMA_SECURITY_e
 {
     ALT_DMA_SECURITY_DEFAULT   = 0, /*!< Use the default security value (e.g. reset default) */
     ALT_DMA_SECURITY_SECURE    = 1, /*!< Secure */
     ALT_DMA_SECURITY_NONSECURE = 2  /*!< Non-secure */
 }
 ALT_DMA_SECURITY_t;

 /*!
  * This type definition enumerates the DMA event-interrupt resources.
  */
 typedef enum ALT_DMA_EVENT_e
 {
     ALT_DMA_EVENT_0     = 0, /*!< DMA Event 0 */
     ALT_DMA_EVENT_1     = 1, /*!< DMA Event 1 */
     ALT_DMA_EVENT_2     = 2, /*!< DMA Event 2 */
     ALT_DMA_EVENT_3     = 3, /*!< DMA Event 3 */
     ALT_DMA_EVENT_4     = 4, /*!< DMA Event 4 */
     ALT_DMA_EVENT_5     = 5, /*!< DMA Event 5 */
     ALT_DMA_EVENT_6     = 6, /*!< DMA Event 6 */
     ALT_DMA_EVENT_7     = 7, /*!< DMA Event 7 */
     ALT_DMA_EVENT_ABORT = 8  /*!< DMA Abort Event */
 }
 ALT_DMA_EVENT_t;

 /*!
  * @}
  */

 #ifdef __cplusplus
 }
 #endif /* __cplusplus */

 #endif /* __ALT_DMA_COMMON_H__ */
	/******************************************************************************
	*
	* Copyright 2013 Altera Corporation. All Rights Reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the following disclaimer.
	*
	* 2. Redistributions in binary form must reproduce the above copyright notice,
	* this list of conditions and the following disclaimer in the documentation
	* and/or other materials provided with the distribution.
	*
	* 3. The name of the author may not be used to endorse or promote products
	* derived from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER "AS IS" AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
	* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO
	* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
	* OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
	* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
	* OF SUCH DAMAGE.
	*
	******************************************************************************/

	#ifndef __ALT_DMA_COMMON_H__
	#define __ALT_DMA_COMMON_H__

	#ifdef __cplusplus
	extern "C"
	{
	#endif /* __cplusplus */

	/*!
	* \addtogroup ALT_DMA_COMMON DMA Controller Common API Definitions
	*
	* This module contains the common definitions for the DMA controller related
	* APIs.
	*
	* @{
	*/

	/*!
	* This type definition enumerates the DMA controller channel threads.
	*/
	typedef enum ALT_DMA_CHANNEL_e
	{
	ALT_DMA_CHANNEL_0 = 0, /!< DMA Channel Thread 0 /
	ALT_DMA_CHANNEL_1 = 1, /!< DMA Channel Thread 1 /
	ALT_DMA_CHANNEL_2 = 2, /!< DMA Channel Thread 2 /
	ALT_DMA_CHANNEL_3 = 3, /!< DMA Channel Thread 3 /
	ALT_DMA_CHANNEL_4 = 4, /!< DMA Channel Thread 4 /
	ALT_DMA_CHANNEL_5 = 5, /!< DMA Channel Thread 5 /
	ALT_DMA_CHANNEL_6 = 6, /!< DMA Channel Thread 6 /
	ALT_DMA_CHANNEL_7 = 7 /!< DMA Channel Thread 7 /
	}
	ALT_DMA_CHANNEL_t;

	/*!
	* This type definition enumerates the SoC system peripherals implementing the
	* required request interface that enables direct DMA transfers to/from the
	* device.
	*
	* FPGA soft IP interface to the DMA are required to comply with the Synopsys
	* protocol.
	*
	* Request interface numbers 4 through 7 are multiplexed between the CAN
	* controllers and soft logic implemented in the FPGA fabric. The selection
	* between the CAN controller and FPGA interfaces is determined at DMA
	* initialization.
	*/
	typedef enum ALT_DMA_PERIPH_e
	{
	ALT_DMA_PERIPH_FPGA_0 = 0, /!< FPGA soft IP interface 0 /
	ALT_DMA_PERIPH_FPGA_1 = 1, /!< FPGA soft IP interface 1 /
	ALT_DMA_PERIPH_FPGA_2 = 2, /!< FPGA soft IP interface 2 /
	ALT_DMA_PERIPH_FPGA_3 = 3, /!< FPGA soft IP interface 3 /

	ALT_DMA_PERIPH_FPGA_4_OR_CAN0_IF1 = 4, /!< Selectively MUXed FPGA 4 or CAN 0 interface 1 /
	ALT_DMA_PERIPH_FPGA_5_OR_CAN0_IF2 = 5, /!< Selectively MUXed FPGA 5 or CAN 0 interface 2 /
	ALT_DMA_PERIPH_FPGA_6_OR_CAN1_IF1 = 6, /!< Selectively MUXed FPGA 6 or CAN 1 interface 1 /
	ALT_DMA_PERIPH_FPGA_7_OR_CAN1_IF2 = 7, /!< Selectively MUXed FPGA 7 or CAN 1 interface 2 /

	ALT_DMA_PERIPH_FPGA_4 = 4, /!< Alias for ALT_DMA_PERIPH_FPGA_4_OR_CAN0_IF1 /
	ALT_DMA_PERIPH_FPGA_5 = 5, /!< Alias for ALT_DMA_PERIPH_FPGA_5_OR_CAN0_IF2 /
	ALT_DMA_PERIPH_FPGA_6 = 6, /!< Alias for ALT_DMA_PERIPH_FPGA_6_OR_CAN1_IF1 /
	ALT_DMA_PERIPH_FPGA_7 = 7, /!< Alias for ALT_DMA_PERIPH_FPGA_7_OR_CAN1_IF2 /

	ALT_DMA_PERIPH_CAN0_IF1 = 4, /!< Alias for ALT_DMA_PERIPH_FPGA_4_OR_CAN0_IF1 /
	ALT_DMA_PERIPH_CAN0_IF2 = 5, /!< Alias for ALT_DMA_PERIPH_FPGA_5_OR_CAN0_IF2 /
	ALT_DMA_PERIPH_CAN1_IF1 = 6, /!< Alias for ALT_DMA_PERIPH_FPGA_6_OR_CAN1_IF1 /
	ALT_DMA_PERIPH_CAN1_IF2 = 7, /!< Alias for ALT_DMA_PERIPH_FPGA_7_OR_CAN1_IF2 /

	ALT_DMA_PERIPH_I2C0_TX = 8, /!< I<sup>2</sup>C 0 TX /
	ALT_DMA_PERIPH_I2C0_RX = 9, /!< I<sup>2</sup>C 0 RX /
	ALT_DMA_PERIPH_I2C1_TX = 10, /!< I<sup>2</sup>C 1 TX /
	ALT_DMA_PERIPH_I2C1_RX = 11, /!< I<sup>2</sup>C 1 RX /
	ALT_DMA_PERIPH_I2C2_TX = 12, /!< I<sup>2</sup>C 2 TX /
	ALT_DMA_PERIPH_I2C2_RX = 13, /!< I<sup>2</sup>C 2 RX /
	ALT_DMA_PERIPH_I2C3_TX = 14, /!< I<sup>2</sup>C 3 TX /
	ALT_DMA_PERIPH_I2C3_RX = 15, /!< I<sup>2</sup>C 3 RX /
	ALT_DMA_PERIPH_SPI0_MASTER_TX = 16, /!< SPI 0 Master TX /
	ALT_DMA_PERIPH_SPI0_MASTER_RX = 17, /!< SPI 0 Master RX /
	ALT_DMA_PERIPH_SPI0_SLAVE_TX = 18, /!< SPI 0 Slave TX /
	ALT_DMA_PERIPH_SPI0_SLAVE_RX = 19, /!< SPI 0 Slave RX /
	ALT_DMA_PERIPH_SPI1_MASTER_TX = 20, /!< SPI 1 Master TX /
	ALT_DMA_PERIPH_SPI1_MASTER_RX = 21, /!< SPI 1 Master RX /
	ALT_DMA_PERIPH_SPI1_SLAVE_TX = 22, /!< SPI 1 Slave TX /
	ALT_DMA_PERIPH_SPI1_SLAVE_RX = 23, /!< SPI 1 Slave RX /
	ALT_DMA_PERIPH_QSPI_FLASH_TX = 24, /!< QSPI Flash TX /
	ALT_DMA_PERIPH_QSPI_FLASH_RX = 25, /!< QSPI Flash RX /
	ALT_DMA_PERIPH_STM = 26, /!< System Trace Macrocell /
	ALT_DMA_PERIPH_RESERVED = 27, /!< Reserved /
	ALT_DMA_PERIPH_UART0_TX = 28, /!< UART 0 TX /
	ALT_DMA_PERIPH_UART0_RX = 29, /!< UART 0 RX /
	ALT_DMA_PERIPH_UART1_TX = 30, /!< UART 1 TX /
	ALT_DMA_PERIPH_UART1_RX = 31 /!< UART 1 RX /
	}
	ALT_DMA_PERIPH_t;

	/*!
	* This type enumerates the DMA security state options available.
	*/
	typedef enum ALT_DMA_SECURITY_e
	{
	ALT_DMA_SECURITY_DEFAULT = 0, /!< Use the default security value (e.g. reset default) /
	ALT_DMA_SECURITY_SECURE = 1, /!< Secure /
	ALT_DMA_SECURITY_NONSECURE = 2 /!< Non-secure /
	}
	ALT_DMA_SECURITY_t;

	/*!
	* This type definition enumerates the DMA event-interrupt resources.
	*/
	typedef enum ALT_DMA_EVENT_e
	{
	ALT_DMA_EVENT_0 = 0, /!< DMA Event 0 /
	ALT_DMA_EVENT_1 = 1, /!< DMA Event 1 /
	ALT_DMA_EVENT_2 = 2, /!< DMA Event 2 /
	ALT_DMA_EVENT_3 = 3, /!< DMA Event 3 /
	ALT_DMA_EVENT_4 = 4, /!< DMA Event 4 /
	ALT_DMA_EVENT_5 = 5, /!< DMA Event 5 /
	ALT_DMA_EVENT_6 = 6, /!< DMA Event 6 /
	ALT_DMA_EVENT_7 = 7, /!< DMA Event 7 /
	ALT_DMA_EVENT_ABORT = 8 /!< DMA Abort Event /
	}
	ALT_DMA_EVENT_t;

	/*!
	* @}
	*/

	#ifdef __cplusplus
	}
	#endif /* __cplusplus */

	#endif /* __ALT_DMA_COMMON_H__ */