/***************************************************************************//** * \file system_psoc6.h * \version 2.70.1 * * \brief Device system header file. * ******************************************************************************** * \copyright * Copyright 2016-2020 Cypress Semiconductor Corporation * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *******************************************************************************/ #ifndef _SYSTEM_PSOC6_H_ #define _SYSTEM_PSOC6_H_ /** * \addtogroup group_system_config * \{ * Provides device startup, system configuration, and linker script files. * The system startup provides the followings features: * - See \ref group_system_config_device_initialization for the: * * \ref group_system_config_dual_core_device_initialization * * \ref group_system_config_single_core_device_initialization * - \ref group_system_config_device_memory_definition * - \ref group_system_config_heap_stack_config * - \ref group_system_config_default_handlers * - \ref group_system_config_device_vector_table * - \ref group_system_config_cm4_functions * * \section group_system_config_configuration Configuration Considerations * * \subsection group_system_config_device_memory_definition Device Memory Definition * The flash and RAM allocation for each CPU is defined by the linker scripts. * For dual-core devices, the physical flash and RAM memory is shared between the CPU cores. * 2 KB of RAM (allocated at the end of RAM) are reserved for system use. * For Single-Core devices the system reserves additional 80 bytes of RAM. * Using the reserved memory area for other purposes will lead to unexpected behavior. * * \note The linker files provided with the PDL are generic and handle all common * use cases. Your project may not use every section defined in the linker files. * In that case you may see warnings during the build process. To eliminate build * warnings in your project, you can simply comment out or remove the relevant * code in the linker file. * * \note For the PSoC 64 Secure MCUs devices, refer to the following page: * https://www.cypress.com/documentation/software-and-drivers/psoc-64-secure-mcu-secure-boot-sdk-user-guide * * * ARM GCC\n * The flash and RAM sections for the CPU are defined in the linker files: * 'xx_yy.ld', where 'xx' is the device group, and 'yy' is the target CPU; for example, * 'cy8c6xx7_cm0plus.ld' and 'cy8c6xx7_cm4_dual.ld'. * \note If the start of the Cortex-M4 application image is changed, the value * of the \ref CY_CORTEX_M4_APPL_ADDR should also be changed. The * \ref CY_CORTEX_M4_APPL_ADDR macro should be used as the parameter for the * Cy_SysEnableCM4() function call. * By default, the COMPONENT_CM0P_SLEEP prebuilt image is used for the CM0p core. * More about CM0+ prebuilt images, see here: * https://github.com/cypresssemiconductorco/psoc6cm0p * * Change the flash and RAM sizes by editing the macros value in the * linker files for both CPUs: * - 'xx_cm0plus.ld', where 'xx' is the device group: * \code * flash (rx) : ORIGIN = 0x10000000, LENGTH = 0x2000 * ram (rwx) : ORIGIN = 0x08000000, LENGTH = 0x2000 * \endcode * - 'xx_cm4_dual.ld', where 'xx' is the device group: * \code * flash (rx) : ORIGIN = 0x10000000, LENGTH = 0x100000 * ram (rwx) : ORIGIN = 0x08002000, LENGTH = 0x45800 * \endcode * * Change the value of the \ref CY_CORTEX_M4_APPL_ADDR macro to the ROM ORIGIN's * value (0x10000000) + FLASH_CM0P_SIZE value (0x2000, the size of a flash image * of the Cortex-M0+ application should be the same value as the flash LENGTH in * 'xx_cm0plus.ld') in the 'xx_cm4_dual.ld' file, where 'xx' is the device group. * Do this by either: * - Passing the following commands to the compiler:\n * \code -D CY_CORTEX_M4_APPL_ADDR=0x10002000 \endcode * or * - Editing the \ref CY_CORTEX_M4_APPL_ADDR value in the 'system_xx.h', where * 'xx' is the device family:\n * \code #define CY_CORTEX_M4_APPL_ADDR (0x10002000u) \endcode * * ARM Compiler\n * The flash and RAM sections for the CPU are defined in the linker files: * 'xx_yy.sct', where 'xx' is the device group, and 'yy' is the target CPU; for * example 'cy8c6xx7_cm0plus.sct' and 'cy8c6xx7_cm4_dual.sct'. * \note If the start of the Cortex-M4 application image is changed, the value * of the of the \ref CY_CORTEX_M4_APPL_ADDR should also be changed. The * \ref CY_CORTEX_M4_APPL_ADDR macro should be used as the parameter for the \ref * Cy_SysEnableCM4() function call. * By default, the COMPONENT_CM0P_SLEEP prebuilt image is used for the CM0p core. * More about CM0+ prebuilt images, see here: * https://github.com/cypresssemiconductorco/psoc6cm0p * * \note The linker files provided with the PDL are generic and handle all common * use cases. Your project may not use every section defined in the linker files. * In that case you may see the warnings during the build process: * L6314W (no section matches pattern) and/or L6329W * (pattern only matches removed unused sections). In your project, you can * suppress the warning by passing the "--diag_suppress=L6314W,L6329W" option to * the linker. You can also comment out or remove the relevant code in the linker * file. * * Change the flash and RAM sizes by editing the macros value in the * linker files for both CPUs: * - 'xx_cm0plus.sct', where 'xx' is the device group: * \code * #define FLASH_START 0x10000000 * #define FLASH_SIZE 0x00002000 * #define RAM_START 0x08000000 * #define RAM_SIZE 0x00002000 * \endcode * - 'xx_cm4_dual.sct', where 'xx' is the device group: * \code * #define FLASH_START 0x10000000 * #define FLASH_SIZE 0x00100000 * #define RAM_START 0x08002000 * #define RAM_SIZE 0x00045800 * \endcode * * Change the value of the \ref CY_CORTEX_M4_APPL_ADDR macro to the FLASH_START * value (0x10000000) + FLASH_CM0P_SIZE value (0x2000, the size of a flash image * of the Cortex-M0+ application should be the same value as the FLASH_SIZE in the * 'xx_cm0plus.sct') in the 'xx_cm4_dual.sct' file, where 'xx' is the device group. * Do this by either: * - Passing the following commands to the compiler:\n * \code -D CY_CORTEX_M4_APPL_ADDR=0x10002000 \endcode * or * - Editing the \ref CY_CORTEX_M4_APPL_ADDR value in the 'system_xx.h', where * 'xx' is the device family:\n * \code #define CY_CORTEX_M4_APPL_ADDR (0x10002000u) \endcode * * IAR\n * The flash and RAM sections for the CPU are defined in the linker files: * 'xx_yy.icf', where 'xx' is the device group, and 'yy' is the target CPU; for example, * 'cy8c6xx7_cm0plus.icf' and 'cy8c6xx7_cm4_dual.icf'. * \note If the start of the Cortex-M4 application image is changed, the value * of the of the \ref CY_CORTEX_M4_APPL_ADDR should also be changed. The * \ref CY_CORTEX_M4_APPL_ADDR macro should be used as the parameter for the \ref * Cy_SysEnableCM4() function call. * By default, the COMPONENT_CM0P_SLEEP prebuilt image is used for the CM0p core. * More about CM0+ prebuilt images, see here: * https://github.com/cypresssemiconductorco/psoc6cm0p * * Change the flash and RAM sizes by editing the macros value in the * linker files for both CPUs: * - 'xx_cm0plus.icf', where 'xx' is the device group: * \code * define symbol __ICFEDIT_region_IROM1_start__ = 0x10000000; * define symbol __ICFEDIT_region_IROM1_end__ = 0x10001FFF; * define symbol __ICFEDIT_region_IRAM1_start__ = 0x08000000; * define symbol __ICFEDIT_region_IRAM1_end__ = 0x08001FFF; * \endcode * - 'xx_cm4_dual.icf', where 'xx' is the device group: * \code * define symbol __ICFEDIT_region_IROM1_start__ = 0x10000000; * define symbol __ICFEDIT_region_IROM1_end__ = 0x100FFFFF; * define symbol __ICFEDIT_region_IRAM1_start__ = 0x08002000; * define symbol __ICFEDIT_region_IRAM1_end__ = 0x080477FF; * \endcode * * Change the value of the \ref CY_CORTEX_M4_APPL_ADDR macro to the * __ICFEDIT_region_IROM1_start__ value (0x10000000) + FLASH_CM0P_SIZE value * (0x2000, the size of a flash image of the Cortex-M0+ application) in the * 'xx_cm4_dual.icf' file, where 'xx' is the device group. The sum result * should be the same as (__ICFEDIT_region_IROM1_end__ + 1) value in the * 'xx_cm0plus.icf'. Do this by either: * - Passing the following commands to the compiler:\n * \code -D CY_CORTEX_M4_APPL_ADDR=0x10002000 \endcode * or * - Editing the \ref CY_CORTEX_M4_APPL_ADDR value in the 'system_xx.h', where * 'xx' is the device family:\n * \code #define CY_CORTEX_M4_APPL_ADDR (0x10002000u) \endcode * * \subsection group_system_config_device_initialization Device Initialization * After a power-on-reset (POR), the boot process is handled by the boot code * from the on-chip ROM that is always executed by the Cortex-M0+ core. The boot * code passes the control to the Cortex-M0+ startup code located in flash. * * \subsubsection group_system_config_dual_core_device_initialization Dual-Core Devices * The Cortex-M0+ startup code performs the device initialization by a call to * SystemInit() and then calls the main() function. The Cortex-M4 core is disabled * by default. Enable the core using the \ref Cy_SysEnableCM4() function. * See \ref group_system_config_cm4_functions for more details. * \note Startup code executes SystemInit() function for the both Cortex-M0+ and Cortex-M4 cores. * The function has a separate implementation on each core. * Both function implementations unlock and disable the WDT. * Therefore enable the WDT after both cores have been initialized. * * \subsubsection group_system_config_single_core_device_initialization Single-Core Devices * The Cortex-M0+ core is not user-accessible on these devices. In this case the * Flash Boot handles setup of the CM0+ core and starts the Cortex-M4 core. * * \subsection group_system_config_heap_stack_config Heap and Stack Configuration * There are two ways to adjust heap and stack configurations: * -# Editing source code files * -# Specifying via command line * * By default, the stack size is set to 0x00001000 and the heap size is allocated * dynamically to the whole available free memory up to stack memory and it * is set to the 0x00000400 (for ARM GCC and IAR compilers) as minimal value. * * \subsubsection group_system_config_heap_stack_config_gcc ARM GCC * - Editing source code files\n * The heap and stack sizes are defined in the assembler startup files * (e.g. startup_psoc6_01_cm0plus.S and startup_psoc6_01_cm4.S). * Change the heap and stack sizes by modifying the following lines:\n * \code .equ Stack_Size, 0x00001000 \endcode * \code .equ Heap_Size, 0x00000400 \endcode * Also, the stack size is defined in the linker script files: 'xx_yy.ld', * where 'xx' is the device family, and 'yy' is the target CPU; for example, * cy8c6xx7_cm0plus.ld and cy8c6xx7_cm4_dual.ld. * Change the stack size by modifying the following line:\n * \code STACK_SIZE = 0x1000; \endcode * * \subsubsection group_system_config_heap_stack_config_mdk ARM Compiler * - Editing source code files\n * The stack size is defined in the linker script files: 'xx_yy.sct', * where 'xx' is the device family, and 'yy' is the target CPU; for example, * cy8c6xx7_cm0plus.sct and cy8c6xx7_cm4_dual.sct. * Change the stack size by modifying the following line:\n * \code STACK_SIZE = 0x1000; \endcode * * \subsubsection group_system_config_heap_stack_config_iar IAR * - Editing source code files\n * The heap and stack sizes are defined in the linker script files: 'xx_yy.icf', * where 'xx' is the device family, and 'yy' is the target CPU; for example, * cy8c6xx7_cm0plus.icf and cy8c6xx7_cm4_dual.icf. * Change the heap and stack sizes by modifying the following lines:\n * \code Stack_Size EQU 0x00001000 \endcode * \code Heap_Size EQU 0x00000400 \endcode * * - Specifying via command line\n * Change the heap and stack sizes passing the following commands to the * linker (including quotation marks):\n * \code --define_symbol __STACK_SIZE=0x000000400 \endcode * \code --define_symbol __HEAP_SIZE=0x000000100 \endcode * * \subsection group_system_config_default_handlers Default Interrupt Handlers Definition * The default interrupt handler functions are defined as weak functions to a dummy * handler in the startup file. The naming convention for the interrupt handler names * is \_IRQHandler. A default interrupt handler can be overwritten in * user code by defining the handler function using the same name. For example: * \code * void scb_0_interrupt_IRQHandler(void) *{ * ... *} * \endcode * * \subsection group_system_config_device_vector_table Vectors Table Copy from Flash to RAM * This process uses memory sections defined in the linker script. The startup * code actually defines the contents of the vector table and performs the copy. * \subsubsection group_system_config_device_vector_table_gcc ARM GCC * The linker script file is 'xx_yy.ld', where 'xx' is the device family, and * 'yy' is the target CPU; for example, cy8c6xx7_cm0plus.ld and cy8c6xx7_cm4_dual.ld. * It defines sections and locations in memory.\n * Copy interrupt vectors from flash to RAM: \n * From: \code LONG (__Vectors) \endcode * To: \code LONG (__ram_vectors_start__) \endcode * Size: \code LONG (__Vectors_End - __Vectors) \endcode * The vector table address (and the vector table itself) are defined in the * assembler startup files (e.g. startup_psoc6_01_cm0plus.S and startup_psoc6_01_cm4.S). * The code in these files copies the vector table from Flash to RAM. * \subsubsection group_system_config_device_vector_table_mdk ARM Compiler * The linker script file is 'xx_yy.sct', where 'xx' is the device family, * and 'yy' is the target CPU; for example, cy8c6xx7_cm0plus.sct and * cy8c6xx7_cm4_dual.sct. The linker script specifies that the vector table * (RESET_RAM) shall be first in the RAM section.\n * RESET_RAM represents the vector table. It is defined in the assembler startup * files (e.g. startup_psoc6_01_cm0plus.s and startup_psoc6_01_cm4.s). * The code in these files copies the vector table from Flash to RAM. * * \subsubsection group_system_config_device_vector_table_iar IAR * The linker script file is 'xx_yy.icf', where 'xx' is the device family, and * 'yy' is the target CPU; for example, cy8c6xx7_cm0plus.icf and cy8c6xx7_cm4_dual.icf. * This file defines the .intvec_ram section and its location. * \code place at start of IRAM1_region { readwrite section .intvec_ram}; \endcode * The vector table address (and the vector table itself) are defined in the * assembler startup files (e.g. startup_psoc6_01_cm0plus.s and startup_psoc6_01_cm4.s). * The code in these files copies the vector table from Flash to RAM. * * \section group_system_config_MISRA MISRA Compliance * * * * * * * * * * * * * * *
MISRA RuleRule Class (Required/Advisory)Rule DescriptionDescription of Deviation(s)
2.3RThe character sequence // shall not be used within a comment.The comments provide a useful WEB link to the documentation.
* * \section group_system_config_changelog Changelog * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
VersionChangesReason for Change
2.70.1Updated documentation for the better description of the existing startup implementation.User experience enhancement.
2.70Updated \ref SystemCoreClockUpdate() implementation - The SysClk API is reused.Code optimization.
Updated \ref SystemInit() implementation - The IPC7 structure is initialized for both cores.Provided support for SysPM driver updates.
Updated the linker scripts.Reserved FLASH area for the MCU boot headers.
Added System Pipe initialization for all devices. Improved PDL usability according to user experience.
Removed redundant legacy macros: CY_CLK_EXT_FREQ_HZ, CY_CLK_ECO_FREQ_HZ and CY_CLK_ALTHF_FREQ_HZ. * Use \ref Cy_SysClk_ExtClkSetFrequency, \ref Cy_SysClk_EcoConfigure and \ref Cy_BLE_EcoConfigure functions instead them. Defect fixing.
2.60Updated linker scripts.Provided support for new devices, updated usage of CM0p prebuilt image.
2.50Updated assembler files, C files, linker scripts.Dynamic allocated HEAP size for Arm Compiler 6, IAR 8.
2.40Updated assembler files, C files, linker scripts.Added Arm Compiler 6 support.
2.30Added assembler files, linker scripts for Mbed OS.Added Arm Mbed OS embedded operating system support.
Updated linker scripts to extend the Flash and Ram memories size available for the CM4 core.Enhanced PDL usability.
2.20Moved the Cy_IPC_SystemSemaInit(), Cy_IPC_SystemPipeInit() functions implementation from IPC to Startup.Changed the IPC driver configuration method from compile time to run time.
2.10Added constructor attribute to SystemInit() function declaration for ARM MDK compiler. \n * Removed $Sub$$main symbol for ARM MDK compiler. * uVision Debugger support.
Updated description of the Startup behavior for Single-Core Devices. \n * Added note about WDT disabling by SystemInit() function. * Documentation improvement.
2.0Added restoring of FLL registers to the default state in SystemInit() API for single core devices. * Single core device support. *
Added Normal Access Restrictions, Public Key, TOC part2 and TOC part2 copy to Supervisory flash linker memory regions. \n * Renamed 'wflash' memory region to 'em_eeprom'. * Linker scripts usability improvement.
Added Cy_IPC_SystemSemaInit(), Cy_IPC_SystemPipeInit(), Cy_Flash_Init() functions call to SystemInit() API.Reserved system resources for internal operations.
Added clearing and releasing of IPC structure #7 (reserved for the Deep-Sleep operations) to SystemInit() API.To avoid deadlocks in case of SW or WDT reset during Deep-Sleep entering.
1.0Initial version
* * * \defgroup group_system_config_macro Macro * \{ * \defgroup group_system_config_system_macro System * \defgroup group_system_config_cm4_status_macro Cortex-M4 Status * \defgroup group_system_config_user_settings_macro User Settings * \} * \defgroup group_system_config_functions Functions * \{ * \defgroup group_system_config_system_functions System * \defgroup group_system_config_cm4_functions Cortex-M4 Control * \} * \defgroup group_system_config_globals Global Variables * * \} */ /** * \addtogroup group_system_config_system_functions * \{ * \details * The following system functions implement CMSIS Core functions. * Refer to the [CMSIS documentation] * (http://www.keil.com/pack/doc/CMSIS/Core/html/group__system__init__gr.html "System and Clock Configuration") * for more details. * \} */ #ifdef __cplusplus extern "C" { #endif /******************************************************************************* * Include files *******************************************************************************/ #include /******************************************************************************* * Global preprocessor symbols/macros ('define') *******************************************************************************/ #if ((defined(__GNUC__) && (__ARM_ARCH == 6) && (__ARM_ARCH_6M__ == 1)) || \ (defined (__ICCARM__) && (__CORE__ == __ARM6M__)) || \ (defined(__ARMCC_VERSION) && (__TARGET_ARCH_THUMB == 3))) #define CY_SYSTEM_CPU_CM0P 1UL #else #define CY_SYSTEM_CPU_CM0P 0UL #endif /******************************************************************************* * * START OF USER SETTINGS HERE * =========================== * * All lines with '<<<' can be set by user. * *******************************************************************************/ /** * \addtogroup group_system_config_user_settings_macro * \{ */ /***************************************************************************//** * \brief Start address of the Cortex-M4 application ([address]UL) * (USER SETTING) *******************************************************************************/ #if !defined (CY_CORTEX_M4_APPL_ADDR) #define CY_CORTEX_M4_APPL_ADDR (CY_FLASH_BASE + 0x2000U) /* <<< 8 kB of flash is reserved for the Cortex-M0+ application */ #endif /* (CY_CORTEX_M4_APPL_ADDR) */ /***************************************************************************//** * \brief IPC Semaphores allocation ([value]UL). * (USER SETTING) *******************************************************************************/ #define CY_IPC_SEMA_COUNT (128UL) /* <<< This will allow 128 (4*32) semaphores */ /***************************************************************************//** * \brief IPC Pipe definitions ([value]UL). * (USER SETTING) *******************************************************************************/ #define CY_IPC_MAX_ENDPOINTS (8UL) /* <<< 8 endpoints */ /******************************************************************************* * * END OF USER SETTINGS HERE * ========================= * *******************************************************************************/ /** \} group_system_config_user_settings_macro */ /** * \addtogroup group_system_config_system_macro * \{ */ #if (CY_SYSTEM_CPU_CM0P == 1UL) || defined(CY_DOXYGEN) /** The Cortex-M0+ startup driver identifier */ #define CY_STARTUP_M0P_ID ((uint32_t)((uint32_t)((0x0EU) & 0x3FFFU) << 18U)) #endif /* (CY_SYSTEM_CPU_CM0P == 1UL) */ #if (CY_SYSTEM_CPU_CM0P != 1UL) || defined(CY_DOXYGEN) /** The Cortex-M4 startup driver identifier */ #define CY_STARTUP_M4_ID ((uint32_t)((uint32_t)((0x0FU) & 0x3FFFU) << 18U)) #endif /* (CY_SYSTEM_CPU_CM0P != 1UL) */ /** \} group_system_config_system_macro */ /** * \addtogroup group_system_config_system_functions * \{ */ #if defined(__ARMCC_VERSION) extern void SystemInit(void) __attribute__((constructor)); #else extern void SystemInit(void); #endif /* (__ARMCC_VERSION) */ extern void SystemCoreClockUpdate(void); /** \} group_system_config_system_functions */ /** * \addtogroup group_system_config_cm4_functions * \{ */ extern uint32_t Cy_SysGetCM4Status(void); extern void Cy_SysEnableCM4(uint32_t vectorTableOffset); extern void Cy_SysDisableCM4(void); extern void Cy_SysRetainCM4(void); extern void Cy_SysResetCM4(void); /** \} group_system_config_cm4_functions */ /** \cond */ extern void Default_Handler (void); void Cy_SysIpcPipeIsrCm0(void); void Cy_SysIpcPipeIsrCm4(void); extern void Cy_SystemInit(void); extern void Cy_SystemInitFpuEnable(void); extern uint32_t cy_delayFreqKhz; extern uint8_t cy_delayFreqMhz; extern uint32_t cy_delay32kMs; /** \endcond */ #if (CY_SYSTEM_CPU_CM0P == 1UL) || defined(CY_DOXYGEN) /** * \addtogroup group_system_config_cm4_status_macro * \{ */ #define CY_SYS_CM4_STATUS_ENABLED (3U) /**< The Cortex-M4 core is enabled: power on, clock on, no isolate, no reset and no retain. */ #define CY_SYS_CM4_STATUS_DISABLED (0U) /**< The Cortex-M4 core is disabled: power off, clock off, isolate, reset and no retain. */ #define CY_SYS_CM4_STATUS_RETAINED (2U) /**< The Cortex-M4 core is retained. power off, clock off, isolate, no reset and retain. */ #define CY_SYS_CM4_STATUS_RESET (1U) /**< The Cortex-M4 core is in the Reset mode: clock off, no isolated, no retain and reset. */ /** \} group_system_config_cm4_status_macro */ #endif /* (CY_SYSTEM_CPU_CM0P == 1UL) */ /******************************************************************************* * IPC Configuration * ========================= *******************************************************************************/ /* IPC CY_PIPE default configuration */ #define CY_SYS_CYPIPE_CLIENT_CNT (8UL) #define CY_SYS_INTR_CYPIPE_MUX_EP0 (1UL) /* IPC CYPRESS PIPE */ #define CY_SYS_INTR_CYPIPE_PRIOR_EP0 (1UL) /* Notifier Priority */ #define CY_SYS_INTR_CYPIPE_PRIOR_EP1 (1UL) /* Notifier Priority */ #define CY_SYS_CYPIPE_CHAN_MASK_EP0 (0x0001UL << CY_IPC_CHAN_CYPIPE_EP0) #define CY_SYS_CYPIPE_CHAN_MASK_EP1 (0x0001UL << CY_IPC_CHAN_CYPIPE_EP1) /******************************************************************************/ /* * The System pipe configuration defines the IPC channel number, interrupt * number, and the pipe interrupt mask for the endpoint. * * The format of the endPoint configuration * Bits[31:16] Interrupt Mask * Bits[15:8 ] IPC interrupt * Bits[ 7:0 ] IPC channel */ /* System Pipe addresses */ /* CyPipe defines */ #define CY_SYS_CYPIPE_INTR_MASK ( CY_SYS_CYPIPE_CHAN_MASK_EP0 | CY_SYS_CYPIPE_CHAN_MASK_EP1 ) #define CY_SYS_CYPIPE_CONFIG_EP0 ( (CY_SYS_CYPIPE_INTR_MASK << CY_IPC_PIPE_CFG_IMASK_Pos) \ | (CY_IPC_INTR_CYPIPE_EP0 << CY_IPC_PIPE_CFG_INTR_Pos) \ | CY_IPC_CHAN_CYPIPE_EP0) #define CY_SYS_CYPIPE_CONFIG_EP1 ( (CY_SYS_CYPIPE_INTR_MASK << CY_IPC_PIPE_CFG_IMASK_Pos) \ | (CY_IPC_INTR_CYPIPE_EP1 << CY_IPC_PIPE_CFG_INTR_Pos) \ | CY_IPC_CHAN_CYPIPE_EP1) /******************************************************************************/ /** \addtogroup group_system_config_globals * \{ */ extern uint32_t SystemCoreClock; extern uint32_t cy_BleEcoClockFreqHz; extern uint32_t cy_Hfclk0FreqHz; extern uint32_t cy_PeriClkFreqHz; /** \} group_system_config_globals */ /** \cond INTERNAL */ /******************************************************************************* * Backward compatibility macros. The following code is DEPRECATED and must * not be used in new projects *******************************************************************************/ /* BWC defines for functions related to enter/exit critical section */ #define Cy_SaveIRQ Cy_SysLib_EnterCriticalSection #define Cy_RestoreIRQ Cy_SysLib_ExitCriticalSection #define CY_SYS_INTR_CYPIPE_EP0 (CY_IPC_INTR_CYPIPE_EP0) #define CY_SYS_INTR_CYPIPE_EP1 (CY_IPC_INTR_CYPIPE_EP1) #define cy_delayFreqHz (SystemCoreClock) /** \endcond */ #ifdef __cplusplus } #endif #endif /* _SYSTEM_PSOC6_H_ */ /* [] END OF FILE */