/** * @file xmc_pau.h * @date 2015-06-20 * * @cond ********************************************************************************************************************* * XMClib v2.1.16 - XMC Peripheral Driver Library * * Copyright (c) 2015-2017, Infineon Technologies AG * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification,are permitted provided that the * following conditions are met: * * Redistributions of source code must retain the above copyright notice, this list of conditions and the following * disclaimer. * * 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. * * Neither the name of the copyright holders nor the names of its contributors may be used to endorse or promote * products derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 COPYRIGHT HOLDER OR CONTRIBUTORS 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. * * To improve the quality of the software, users are encouraged to share modifications, enhancements or bug fixes with * Infineon Technologies AG dave@infineon.com). ********************************************************************************************************************* * * Change History * -------------- * * 2015-02-20: * - Initial version * * 2015-05-20: * - Documentation updated * * 2015-06-20: * - Removed version macros and declaration of GetDriverVersion API * @endcond * */ #ifndef XMC_PAU_H #define XMC_PAU_H /********************************************************************************************************************* * HEADER FILES *********************************************************************************************************************/ #include "xmc_common.h" #if defined(PAU) /** * @addtogroup XMClib XMC Peripheral Library * @{ */ /** * @addtogroup PAU * @brief Peripheral Access Unit (PAU) driver for the XMC1000 microcontroller family * * The Peripheral Access Unit (PAU) supports access control of memories and peripherals. * It allows user application to enable/disable the access to the registers of a peripheral. * It generates a HardFault exception when there is an access to a disabled or unassigned * address location. It also provides information on the availability of peripherals and * sizes of memories. * * The PAU low level driver provides functions to check the availability of peripherals * and to enable/disable peripheral access. * @{ */ /********************************************************************************************************************* * MACROS *********************************************************************************************************************/ /** * A convenient symbol for the PAU peripheral base address */ #define XMC_PAU ((XMC_PAU_t *) PAU_BASE) /* * This macro is used in the LLD for assertion checks (XMC_ASSERT) */ #define XMC_PAU_CHECK_MODULE_PTR(p) ((p) == XMC_PAU) /********************************************************************************************************************* * ENUMS *********************************************************************************************************************/ /** * Status return values for PAU low level driver */ typedef enum XMC_PAU_STATUS { XMC_PAU_STATUS_OK = 0U, /**< Operation successful */ XMC_PAU_STATUS_BUSY = 1U, /**< Busy with a previous request */ XMC_PAU_STATUS_ERROR = 2U /**< Operation unsuccessful */ } XMC_PAU_STATUS_t; /** * PAU peripheral select */ typedef enum XMC_PAU_PERIPHERAL { XMC_PAU_PERIPHERAL_FLASH = PAU_PRIVDIS0_PDIS2_Msk, /**< Flash SFRs Privilege Disable Flag */ XMC_PAU_PERIPHERAL_RAM_BLOCK1 = PAU_PRIVDIS0_PDIS5_Msk, /**< RAM Block 1 Privilege Disable Flag */ XMC_PAU_PERIPHERAL_RAM_BLOCK2 = PAU_PRIVDIS0_PDIS6_Msk, /**< RAM Block 2 Privilege Disable Flag */ XMC_PAU_PERIPHERAL_RAM_BLOCK3 = PAU_PRIVDIS0_PDIS7_Msk, /**< RAM Block 3 Privilege Disable Flag */ #if defined(WDT) XMC_PAU_PERIPHERAL_WDT = PAU_PRIVDIS0_PDIS19_Msk, /**< WDT Privilege Disable Flag */ #endif #if defined(MATH) XMC_PAU_PERIPHERAL_MATH_GLOBAL_AND_DIV = PAU_PRIVDIS0_PDIS20_Msk, /**< MATH Global SFRs and Divider Privilege Disable Flag */ #endif #if defined(MATH) XMC_PAU_PERIPHERAL_MATH_CORDIC = PAU_PRIVDIS0_PDIS21_Msk, /**< MATH CORDIC Privilege Disable Flag */ #endif #if defined(PORT0) XMC_PAU_PERIPHERAL_PORT0 = PAU_PRIVDIS0_PDIS22_Msk, /**< Port 0 Privilege Disable Flag */ #endif #if defined(PORT1) XMC_PAU_PERIPHERAL_PORT1 = PAU_PRIVDIS0_PDIS23_Msk, /**< Port 1 Privilege Disable Flag */ #endif #if defined(PORT2) XMC_PAU_PERIPHERAL_PORT2 = PAU_PRIVDIS0_PDIS24_Msk, /**< Port 2 Privilege Disable Flag */ #endif #if defined(PORT3) XMC_PAU_PERIPHERAL_PORT3 = PAU_PRIVDIS0_PDIS25_Msk, /**< Port 3 Privilege Disable Flag */ #endif #if defined(PORT4) XMC_PAU_PERIPHERAL_PORT4 = PAU_PRIVDIS0_PDIS26_Msk, /**< Port 4 Privilege Disable Flag */ #endif #if defined(USIC0) XMC_PAU_PERIPHERAL_USIC0_CH0 = PAU_PRIVDIS1_PDIS0_Msk | 0x10000000U, /**< USIC0 Channel 0 Privilege Disable Flag */ XMC_PAU_PERIPHERAL_USIC0_CH1 = PAU_PRIVDIS1_PDIS1_Msk | 0x10000000U, /**< USIC0 Channel 1 Privilege Disable Flag */ #endif #if defined(USIC1) XMC_PAU_PERIPHERAL_USIC1_CH0 = PAU_PRIVDIS1_PDIS16_Msk | 0x10000000U, /**< USIC1 Channel 0 Privilege Disable Flag */ XMC_PAU_PERIPHERAL_USIC1_CH1 = PAU_PRIVDIS1_PDIS17_Msk | 0x10000000U, /**< USIC1 Channel 1 Privilege Disable Flag */ #endif #if defined(PRNG) XMC_PAU_PERIPHERAL_PRNG = PAU_AVAIL1_AVAIL4_Msk | 0x10000000U, /**< PRNG Availability Flag*/ #endif #if defined(VADC) XMC_PAU_PERIPHERAL_VADC_GLOBAL = PAU_PRIVDIS1_PDIS5_Msk | 0x10000000U, /**< VADC0 Basic SFRs Privilege Disable Flag */ #if defined(VADC_G0) XMC_PAU_PERIPHERAL_VADC_GROUP0 = PAU_PRIVDIS1_PDIS6_Msk | 0x10000000U, /**< VADC0 Group 0 SFRs Privilege Disable Flag */ #endif #if defined(VADC_G1) XMC_PAU_PERIPHERAL_VADC_GROUP1 = PAU_PRIVDIS1_PDIS7_Msk | 0x10000000U, /**< VADC0 Group 1 SFRs Privilege Disable Flag */ #endif #endif #if defined(SHS0) XMC_PAU_PERIPHERAL_VADC_SHS0 = PAU_PRIVDIS1_PDIS8_Msk | 0x10000000U, /**< SHS0 Privilege Disable Flag */ #endif #if defined(CCU40) XMC_PAU_PERIPHERAL_CCU40_CC40_AND_GLOBAL = PAU_PRIVDIS1_PDIS9_Msk | 0x10000000U, /**< CCU40_CC40 and CCU40 Kernel SFRs Privilege Disable Flag */ #if defined(CCU40_CC41) XMC_PAU_PERIPHERAL_CCU40_CC41 = PAU_PRIVDIS1_PDIS10_Msk | 0x10000000U, /**< CCU40_CC41 Privilege Disable Flag */ #endif #if defined(CCU40_CC42) XMC_PAU_PERIPHERAL_CCU40_CC42 = PAU_PRIVDIS1_PDIS11_Msk | 0x10000000U, /**< CCU40_CC42 Privilege Disable Flag */ #endif #if defined(CCU40_CC43) XMC_PAU_PERIPHERAL_CCU40_CC43 = PAU_PRIVDIS1_PDIS12_Msk | 0x10000000U, /**< CCU40_CC43 Privilege Disable Flag */ #endif #endif #if defined(CCU41) XMC_PAU_PERIPHERAL_CCU41_CC40_AND_GLOBAL = PAU_PRIVDIS1_PDIS25_Msk | 0x10000000U, /**< CCU41_CC40 and CCU41 Kernel SFRs Privilege Disable Flag */ #if defined(CCU41_CC41) XMC_PAU_PERIPHERAL_CCU41_CC41 = PAU_PRIVDIS1_PDIS26_Msk | 0x10000000U, /**< CCU41_CC41 Privilege Disable Flag */ #endif #if defined(CCU41_CC42) XMC_PAU_PERIPHERAL_CCU41_CC42 = PAU_PRIVDIS1_PDIS27_Msk | 0x10000000U, /**< CCU41_CC42 Privilege Disable Flag */ #endif #if defined(CCU41_CC43) XMC_PAU_PERIPHERAL_CCU41_CC43 = PAU_PRIVDIS1_PDIS28_Msk | 0x10000000U, /**< CCU41_CC43 Privilege Disable Flag */ #endif #endif #if defined(CCU80) XMC_PAU_PERIPHERAL_CCU80_CC80_AND_GLOBAL = PAU_PRIVDIS2_PDIS0_Msk | 0x20000000U, /**< CCU80_CC80 and CCU80 Kernel SFRs Privilege Disable Flag */ #if defined(CCU80_CC81) XMC_PAU_PERIPHERAL_CCU80_CC81 = PAU_PRIVDIS2_PDIS1_Msk | 0x20000000U, /**< CCU80_CC81 Privilege Disable Flag */ #endif #if defined(CCU80_CC82) XMC_PAU_PERIPHERAL_CCU80_CC82 = PAU_PRIVDIS2_PDIS2_Msk | 0x20000000U, /**< CCU80_CC82 Privilege Disable Flag */ #endif #if defined(CCU80_CC83) XMC_PAU_PERIPHERAL_CCU80_CC83 = PAU_PRIVDIS2_PDIS3_Msk | 0x20000000U, /**< CCU80_CC83 Privilege Disable Flag */ #endif #endif #if defined(CCU81) XMC_PAU_PERIPHERAL_CCU81_CC80_AND_GLOBAL = PAU_PRIVDIS2_PDIS16_Msk | 0x20000000U, /**< CCU81_CC80 and CCU81 Kernel SFRs Privilege Disable Flag */ #if defined(CCU81_CC81) XMC_PAU_PERIPHERAL_CCU81_CC81 = PAU_PRIVDIS2_PDIS17_Msk | 0x20000000U, /**< CCU81_CC81 Privilege Disable Flag */ #endif #if defined(CCU81_CC82) XMC_PAU_PERIPHERAL_CCU81_CC82 = PAU_PRIVDIS2_PDIS18_Msk | 0x20000000U, /**< CCU81_CC82 Privilege Disable Flag */ #endif #if defined(CCU81_CC83) XMC_PAU_PERIPHERAL_CCU81_CC83 = PAU_PRIVDIS2_PDIS19_Msk | 0x20000000U, /**< CCU81_CC83 Privilege Disable Flag */ #endif #endif #if defined(POSIF0) XMC_PAU_PERIPHERAL_POSIF0 = PAU_PRIVDIS2_PDIS12_Msk | 0x20000000U, /**< POSIF0 Privilege Disable Flag */ #endif #if defined(POSIF1) XMC_PAU_PERIPHERAL_POSIF1 = PAU_PRIVDIS2_PDIS28_Msk | 0x20000000U, /**< POSIF1 Privilege Disable Flag */ #endif #if defined(LEDTS0) XMC_PAU_PERIPHERAL_LEDTS0 = PAU_PRIVDIS2_PDIS13_Msk | 0x20000000U, /**< LEDTS0 Privilege Disable Flag */ #endif #if defined(LEDTS1) XMC_PAU_PERIPHERAL_LEDTS1 = PAU_PRIVDIS2_PDIS14_Msk | 0x20000000U, /**< LEDTS1 Privilege Disable Flag */ #endif #if defined(LEDTS2) XMC_PAU_PERIPHERAL_LEDTS2 = PAU_PRIVDIS2_PDIS29_Msk | 0x20000000U, /**< LEDTS2 Privilege Disable Flag */ #endif #if defined(BCCU0) XMC_PAU_PERIPHERAL_BCCU0 = PAU_PRIVDIS2_PDIS15_Msk | 0x20000000U, /**< BCCU0 Privilege Disable Flag */ #endif #if defined(CAN) #if defined(CAN_NODE0) XMC_PAU_PERIPHERAL_MCAN_NODE0_AND_GLOBAL = PAU_PRIVDIS2_PDIS21_Msk | 0x20000000U, /**< MCAN NODE0 and Global SFRs Privilege */ #endif #if defined(CAN_NODE1) XMC_PAU_PERIPHERAL_MCAN_NODE1_AND_GLOBAL = PAU_PRIVDIS2_PDIS23_Msk | 0x20000000U, /**< MCAN NODE1 Privilege Disable Flag */ #endif XMC_PAU_PERIPHERAL_MCAN_OBJECTS = PAU_PRIVDIS2_PDIS28_Msk | 0x20000000U, /**< MCAN Message Objects Privilege Disable Flag */ #endif } XMC_PAU_PERIPHERAL_t; /********************************************************************************************************************* * DATA STRUCTURES *********************************************************************************************************************/ /** * External Peripheral Access Unit (PAU) device structure
* * The structure represents a collection of all hardware registers * used to configure the PAU peripheral on the XMC microcontroller. * The registers can be accessed with ::XMC_PAU. */ typedef struct { __I uint32_t RESERVED0[16]; __I uint32_t AVAIL[3]; __I uint32_t RESERVED1[13]; __IO uint32_t PRIVDIS[3]; __I uint32_t RESERVED2[221]; __I uint32_t ROMSIZE; __I uint32_t FLSIZE; __I uint32_t RESERVED3[2]; __I uint32_t RAM0SIZE; } XMC_PAU_t; /********************************************************************************************************************* * API PROTOTYPES *********************************************************************************************************************/ #ifdef __cplusplus extern "C" { #endif /** * @param peripheral Peripheral of type ::XMC_PAU_PERIPHERAL_t for which access needs to be enabled * @return None * * \parDescription:
* Enable the peripheral access
* * \par * The function resets the PRIVDISx.PDISy bit to enable the access to the registers of a peripheral * during run time. * * \parRelated APIs:
* XMC_PAU_DisablePeripheralAccess() */ void XMC_PAU_EnablePeripheralAccess(XMC_PAU_PERIPHERAL_t peripheral); /** * @param peripheral Peripheral of type ::XMC_PAU_PERIPHERAL_t for which access needs to be disabled * @return None * * \parDescription:
* Disable the peripheral access
* * \par * The function sets the PRIVDISx.PDISy bit to disable the access to the registers of a peripheral * during run time. An access to a disabled or unassigned address location generates a hardfault * exception. * * \parRelated APIs:
* XMC_PAU_EnablePeripheralAccess() */ void XMC_PAU_DisablePeripheralAccess(XMC_PAU_PERIPHERAL_t peripheral); /** * @param peripheral Peripheral of type ::XMC_PAU_PERIPHERAL_t for which access enabled status to be checked * @return bool "false" if peripheral access is enabled, "true" otherwise * * \parDescription:
* Checks if the peripheral access is enabled or not
* * \par * The function checks the PRIVDISx.PDISy bit to know whether the access to the registers of a peripheral * during run time is enabled or not. * * \parRelated APIs:
* XMC_PAU_DisablePeripheralAccess(), XMC_PAU_EnablePeripheralAccess() */ bool XMC_PAU_IsPeripheralAccessEnabled(XMC_PAU_PERIPHERAL_t peripheral); /** * @param peripheral Peripheral of type ::XMC_PAU_PERIPHERAL_t for which access needs to be disabled * @return bool Returns "true" if peripheral is available, "false" otherwise * * \parDescription:
* Checks if a peripheral is available or not
* * \par * The function checks the AVAILx.AVAILy bit to know whether the peripheral * is available or not for the particular device variant. */ bool XMC_PAU_IsPeripheralAvailable(XMC_PAU_PERIPHERAL_t peripheral); /** * @return uint32_t Returns ROM size * * \parDescription:
* Gets the ROM size
* * \par * The function checks the ROMSIZE.ADDR bitfield to indicate the available size of ROM in the device in bytes. */ __STATIC_INLINE uint32_t XMC_PAU_GetROMSize(void) { return (uint32_t)(((XMC_PAU->ROMSIZE & PAU_ROMSIZE_ADDR_Msk) >> PAU_ROMSIZE_ADDR_Pos) * 256U); } /** * @return uint32_t Returns flash size * * \parDescription:
* Gets the flash size
* * \par * The function checks the FLSIZE.ADDR bitfield to indicate the available size of FLASH in the device in Kbytes. */ __STATIC_INLINE uint32_t XMC_PAU_GetFlashSize(void) { return (uint32_t)((((XMC_PAU->FLSIZE & PAU_FLSIZE_ADDR_Msk) >> PAU_FLSIZE_ADDR_Pos) - 1U) * 4U); } /** * @return uint32_t Returns RAM size * * \parDescription:
* Gets RAM size
* * \par * The function checks the RAM0SIZE.ADDR bitfield to indicate the available size of RAM in the device in bytes. */ __STATIC_INLINE uint32_t XMC_PAU_GetRAMSize(void) { return (uint32_t)(((XMC_PAU->RAM0SIZE & PAU_RAM0SIZE_ADDR_Msk) >> PAU_RAM0SIZE_ADDR_Pos) * 256U); } #ifdef __cplusplus } #endif /** * @} */ /** * @} */ #endif /* defined(PAU) */ #endif /* XMC_PAU_H */