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TARGET_CYW920829-VR/system_cat1b.h
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/***************************************************************************//** | |
* \file system_cat1b.h | |
* \version 1.2 | |
* | |
* \brief CAT1B Device system header file. | |
* | |
******************************************************************************** | |
* \copyright | |
* Copyright 2016-2021 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_CAT1B_H_ | |
#define _SYSTEM_CAT1B_H_ | |
/** | |
* \addtogroup group_system_config_cm33 | |
* \{ | |
* Provides device startup, system configuration, and linker script files. | |
* The system startup provides the followings features: | |
* - \ref group_system_config_device_memory_definition_cm33 | |
* - \ref group_system_config_device_initialization_cm33 | |
* - \ref group_system_config_heap_stack_config_cm33 | |
* - \ref group_system_config_default_handlers_cm33 | |
* - \ref group_system_config_device_vector_table_cm33 | |
* | |
* \section group_system_config_configuration_cm33 Configuration Considerations | |
* | |
* \subsection group_system_config_device_memory_definition_cm33 Device Memory Definition | |
* Allocation of different types of memory such as the ROM, flash and RAM etc. for the CPU is defined by the linker scripts. | |
* | |
* \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. | |
* | |
* <b>For CYW20829</b> | |
* | |
* <b>ARM GCC</b>\n | |
* The ROM, flash and RAM sections for the CPU are defined in the linker file: | |
* 'cyw20829_ns_flash_cbus.ld', where 'ns' indicates that the | |
* linker script file is for non-secure image. | |
* For devices without security extension, there will be only one linker file and it | |
* is always non-secure. | |
* | |
* Memory sections are for the GNU GCC ARM tool set is defined in the linker file | |
* cyw20829_ns_flash_cbus.ld. Following are the important memory sections for the User/Application image. | |
* | |
* Memory sections are for the GNU GCC ARM tool set is defined in the linker file | |
* \<device\>_ns.sct. Following are the important memory sections for the User/Application image. | |
* \code | |
* code (rx) : ORIGIN = CODE_VMA, LENGTH = CODE_BS_SIZE Starting address and the size of Non-secure bootstrap code | |
* bsData (rwx) : ORIGIN = DATA_BS_VMA, LENGTH = DATA_BS_SIZE Starting address and the size of Non-secure bootstrap data | |
* appCodeRam (rx) : ORIGIN = DATA_CBUS_VMA, LENGTH = DATA_SIZE Starting address and the size of Non-secure application ram functions | |
* data (rwx) : ORIGIN = DATA_VMA, LENGTH = DATA_SIZE Starting address and the size of Non-secure application data | |
* xip (rx) : ORIGIN = XIP_VMA, LENGTH = XIP_SIZE Starting address and the size of Non-secure application code | |
* \endcode | |
* | |
* \note In CYW20829, the Bootstrap memory is used to place the startup code along with SMIF driver in the ram area. The size requirement for Bootstrap may vary | |
* depending on the number of functions that are linked from SMIF driver. When more functions are linked, you may see linker error. | |
* In order to fix this you need to increase Bootstarp memory size in the ram by modifying the value of BOOTSTRAP_OFFSET_RAM.\n | |
* E.g. if linker error suggests to increase by 8192 bytes, then you need to move the starting address of the bootstrap memory up by 8192 bytes as shown below \n | |
* BOOTSTRAP_OFFSET_RAM = 0x0001E000; Old value\n | |
* BOOTSTRAP_OFFSET_RAM = 0x0001C000; New value\n | |
* Because of the change in the bootstrap size, you may also need to move the application start address in the flash. If you see a linker error after above change, | |
* then you need to modify the application code offset APPCODE_OFFSET_FLASH in the flash.\n | |
* E.g. if linker error suggests 256 bytes overlap of .appText LMA with .bootstrapText LMA, you need to move the application start offset in the flash | |
* down by 256 bytes as shown below\n | |
* APPCODE_OFFSET_FLASH = 0x00002200; Old value\n | |
* APPCODE_OFFSET_FLASH = 0x00002300; New value | |
* | |
* <b>ARM Compiler</b>\n | |
* The ROM, flash and RAM sections for the CPU are defined in the linker file: | |
* 'cyw20829_ns_flash_cbus.sct', where 'ns' indicates that the | |
* linker script file is for non-secure image. | |
* For devices without security extension, there will be only one linker file and it | |
* is always non-secure. | |
* | |
* Memory sections are for the GNU GCC ARM tool set is defined in the linker file | |
* cyw20829_ns_flash_cbus.sct. Following are the important memory sections for the User/Application image. | |
* \code | |
* bootstrapText_vma Starting address of bootstrap code | |
* bootstrapText_size Size of memory reserved for Bootstrap code | |
* bootstrapData_vma Starting address of Bootstrap data | |
* appText_vma Stating address of application code | |
* appData_vma Stating address of application data | |
* \endcode | |
* | |
* <b>IAR</b>\n | |
* The ROM, flash and RAM sections for the CPU are defined in the linker file: | |
* 'cyw20829_ns_flash_cbus.icf', where 'ns' indicates that the | |
* linker script file is for non-secure image. | |
* For devices without security extension, there will be only one linker file and it | |
* is always non-secure. | |
* | |
* Memory sections are for the GNU GCC ARM tool set is defined in the linker file | |
* cyw20829_ns_flash_cbus.icf. Following are the important memory sections for the User/Application image. | |
* \code | |
* define region CODE_region = mem:[from CODE_VMA size CODE_BS_SIZE]; Bootstrap code region and size | |
* define region DATA_BS_region = mem:[from DATA_BS_VMA size DATA_BS_SIZE]; Bootstrap data region and size | |
* define region DATA_region = mem:[from DATA_VMA size DATA_SIZE]; Application data region and size | |
* define region XIP_region = mem:[from XIP_VMA size XIP_SIZE]; Application code (xip) region and size | |
* \endcode | |
* | |
* \subsection group_system_config_device_initialization_cm33 Device Initialization | |
* <b>CM33 Without ARM TrustZone Support:</b><br/> | |
* Below MSC describes the simplified startup sequence starting from reset release of the core. As soon as the reset | |
* is released, the execution starts form the ROM interrupt vector table reset vector. The ROM code initializes the basic | |
* clock needed to access and configure MMIO registers and then sets up debug port so that the debugger can be attached. | |
* After it finishes all the necessary initialization, it reads the bootstrap (part of non secure application image) | |
* location, size from TOC2 header and loads the bootstrap code into SRAM. | |
* | |
* Before switching execution to the non-secure application code, the ROM code needs to initialize the stack pointer | |
* MSP_NS for the non-secure code. This value is picked form the first entry in the non-secure bootstrap's vector | |
* table __ns_vector_table. Once the non-secure stack is initialized, the ROM code will call the non-secure code entry | |
* point which is nothing but the Reset_Handler. Address of this function is picked form the second entry in the non-secure | |
* vector table __ns_vector_table and type casting it to function pointer. | |
* | |
* In the non-secure Reset_Handler, the vector table is copied to RAM area and then the address of the vector table is set | |
* to VTOR register. This calls SystemInit function which internally calls Cy_PDL_Init, Cy_SystemInit and SystemCoreClockUpdate | |
* functions. Then it calls C runtime initialization function which calls main function of the application code. | |
* | |
* Below sequence diagram captures the initialization process in the startup code. | |
* ![](cm33_ns_startup.png) | |
* | |
* \subsection group_system_config_heap_stack_config_cm33 Heap and Stack Configuration | |
* By default, the stack size is set to 0x00001000 and the entire remaining ram is used for the heap | |
* | |
* \subsubsection group_system_config_heap_stack_config_gcc_cm33 ARM GCC | |
* - <b>Editing source code files for non-secure image</b>\n | |
* The stack and heap sizes are defined in the linker script file: 'cyw20829_ns_flash_cbus.ld'. | |
* Change the stack size by modifying the following line:\n | |
* \code STACK_SIZE = 0x00001000; \endcode | |
* Remaining free RAM is used as heap. | |
* | |
* \note Correct operation of malloc and related functions depends on the working | |
* implementation of the 'sbrk' function. Newlib-nano (default C runtime library | |
* used by the GNU Arm Embedded toolchain) provides weak 'sbrk' implementation that | |
* doesn't check for heap and stack collisions during excessive memory allocations. | |
* To ensure the heap always remains within the range defined by __HeapBase and | |
* __HeapLimit linker symbols, provide a strong override for the 'sbrk' function: | |
* \snippet startup/snippet/main.c snippet_sbrk_cm33 | |
* For FreeRTOS-enabled multi-threaded applications, it is sufficient to include | |
* clib-support library that provides newlib-compatible implementations of | |
* 'sbrk', '__malloc_lock' and '__malloc_unlock': | |
* <br> | |
* https://github.com/Infineon/clib-support. | |
* | |
* \subsubsection group_system_config_heap_stack_config_arm_cm33 ARM Compiler | |
* - <b>Editing source code files for non-secure image</b>\n | |
* The stack sizes are defined in the linker script file: 'cyw20829_ns_flash_cbus.sct'. | |
* Change the stack by modifying the following lines:\n | |
* \code #define STACK_SIZE 0x00001000 \endcode | |
* Remaining free RAM is used as heap. | |
* | |
* \subsubsection group_system_config_heap_stack_config_iar_cm33 IAR | |
* - <b>Editing source code files for non-secure image</b>\n | |
* The stack and heap sizes are defined in the linker script file: 'cyw20829_ns_flash_cbus.icf'. | |
* Change the stack size by modifying the following line:\n | |
* \code define symbol STACK_SIZE = 0x00001000; \endcode | |
* Remaining free RAM is used as heap. | |
* | |
* \subsection group_system_config_default_handlers_cm33 Default Interrupt Handlers Definition | |
* The default interrupt handler functions are dummy handler in the startup file.\n | |
* Below is the default handler for the non-secure interrupts:\n | |
* \code interrupt_type void InterruptHandler(void) { | |
* while(1); | |
* } \endcode | |
* | |
* \subsection group_system_config_device_vector_table_cm33 Vectors Table Copy from ROM/Flash to RAM | |
* This process uses memory sections defined in the linker script. The startup code copies the | |
* default vector table contents to the non-secure SRAM region specified by the linker script. | |
* APIs are provided in the sysint driver to hook user implemented handler replacing the default | |
* handler for the corresponding interrupt. | |
* | |
* Following tables provide the address of the default and non-secure SRAM interrupt vector | |
* table for different supported compilers. | |
* \subsubsection group_system_config_device_vector_table_gcc_cm33 ARM GCC | |
* The linker script file is 'cyw20829_ns_flash_cbus.ld'. | |
* For non-secure world, it uses the following variable.\n | |
* Copy interrupt vectors from ROM/flash to RAM: \n | |
* From: \code __ns_vector_table \endcode | |
* To: \code __ns_vector_table_rw \endcode | |
* The vector table address (and the vector table itself) are defined in the | |
* ns_start_<device>.c startup file corresponding to non-secure world. | |
* The code in these files copies the vector table from ROM/Flash to RAM. | |
* | |
* \subsubsection group_system_config_device_vector_table_mdk_cm33 ARM Compiler | |
* The linker script file is 'cyw20829_ns_flash_cbus.sct'. | |
* For non-secure world, it uses the following variable.\n | |
* Copy interrupt vectors from ROM/flash to RAM: \n | |
* From: \code __ns_vector_table \endcode | |
* To: \code __ns_vector_table_rw \endcode | |
* The vector table address (and the vector table itself) are defined in the | |
* ns_start_<device>.c startup file corresponding to non-secure world. | |
* The code in these files copies the vector table from ROM/Flash to RAM. | |
* | |
* \subsubsection group_system_config_device_vector_table_iar_cm33 IAR | |
* The linker script file is 'cyw20829_ns_flash_cbus.icf'. | |
* For non-secure world, it uses the following variable.\n | |
* Copy interrupt vectors from ROM/flash to RAM: \n | |
* From: \code __ns_vector_table \endcode | |
* To: \code __ns_vector_table_rw \endcode | |
* The vector table address (and the vector table itself) are defined in the | |
* ns_start_<device>.c startup file corresponding to non-secure worlds. | |
* The code in these files copies the vector table from ROM/Flash to RAM. | |
* | |
* \section group_system_config_changelog_cm33 Changelog | |
* <table class="doxtable"> | |
* <tr> | |
* <th>Version</th> | |
* <th>Changes</th> | |
* <th>Reason for Change</th> | |
* </tr> | |
* <tr> | |
* <td>1.2</td> | |
* <td>Added new internal functions.</td> | |
* <td>Added support for DSRAM Setup for CAT1B devices.</td> | |
* </tr> | |
* <tr> | |
* <td>1.1</td> | |
* <td>Restructured documentation and internal function behaviour.</td> | |
* <td>User experience enhancement.</td> | |
* </tr> | |
* <tr> | |
* <td>1.0</td> | |
* <td>Initial version</td> | |
* <td></td> | |
* </tr> | |
* </table> | |
* | |
* | |
* \defgroup group_system_config_macro_cm33 Macros | |
* \{ | |
* \defgroup group_system_config_system_macro_cm33 System Macros | |
* \} | |
* | |
* \} | |
*/ | |
#ifdef __cplusplus | |
extern "C" { | |
#endif | |
/******************************************************************************* | |
* Include files | |
*******************************************************************************/ | |
#include <stdint.h> | |
#include <stdbool.h> | |
#define CY_SYSTEM_CPU_CM33 1UL | |
/******************************************************************************* | |
* Global preprocessor symbols/macros ('define') | |
*******************************************************************************/ | |
/** | |
* \addtogroup group_system_config_system_macro_cm33 | |
* \{ | |
*/ | |
#if (CY_SYSTEM_CPU_CM33 == 1UL) || defined(CY_DOXYGEN) | |
/** The Cortex-M33 startup driver identifier */ | |
#define CY_STARTUP_M33_ID ((uint32_t)((uint32_t)((0x0EU) & 0x3FFFU) << 18U)) | |
#endif /* (CY_SYSTEM_CPU_CM33 == 1UL) */ | |
/** \} group_system_config_system_macro_cm33 */ | |
/** \cond */ | |
void SystemInit(void); | |
void SystemInit_Warmboot_CAT1B_CM33(void); | |
void System_Store_NVIC_Reg(void); | |
void System_Restore_NVIC_Reg(void); | |
extern void SystemCoreClockUpdate(void); | |
extern void Cy_SystemInit(void); | |
extern void bootstrapInit(void); | |
extern uint32_t cy_delayFreqHz; | |
extern uint32_t cy_delayFreqKhz; | |
extern uint8_t cy_delayFreqMhz; | |
extern uint32_t SystemCoreClock; | |
extern uint32_t cy_Hfclk0FreqHz; | |
extern uint32_t cy_PeriClkFreqHz; | |
extern uint32_t cy_AhbFreqHz; | |
extern bool cy_WakeupFromWarmBootStatus; | |
/** \endcond */ | |
#ifdef __cplusplus | |
} | |
#endif | |
#endif /* _SYSTEM_CAT1B_H_ */ | |
/* [] END OF FILE */ | |