1c9d75b3cSYann Gautier /* 2*9cd784dbSYann Gautier * Copyright (C) 2018-2024, STMicroelectronics - All Rights Reserved 3c9d75b3cSYann Gautier * 4c9d75b3cSYann Gautier * SPDX-License-Identifier: BSD-3-Clause 5c9d75b3cSYann Gautier */ 6c9d75b3cSYann Gautier 7c9d75b3cSYann Gautier #ifndef STM32MP_COMMON_H 8c9d75b3cSYann Gautier #define STM32MP_COMMON_H 9c9d75b3cSYann Gautier 103f9c9784SYann Gautier #include <stdbool.h> 113f9c9784SYann Gautier 121e919529SYann Gautier #include <platform_def.h> 131e919529SYann Gautier 143d201787SYann Gautier #define JEDEC_ST_BKID U(0x0) 153d201787SYann Gautier #define JEDEC_ST_MFID U(0x20) 163d201787SYann Gautier 17*9cd784dbSYann Gautier #define STM32MP_CHIP_SEC_CLOSED U(0x34D9CCC5) 18*9cd784dbSYann Gautier #define STM32MP_CHIP_SEC_OPEN U(0xA764D182) 19*9cd784dbSYann Gautier 20b4939befSYann Gautier /* FWU configuration (max supported value is 15) */ 21b4939befSYann Gautier #define FWU_MAX_TRIAL_REBOOT U(3) 22b4939befSYann Gautier 23c9d75b3cSYann Gautier /* Functions to save and get boot context address given by ROM code */ 243f9c9784SYann Gautier void stm32mp_save_boot_ctx_address(uintptr_t address); 253f9c9784SYann Gautier uintptr_t stm32mp_get_boot_ctx_address(void); 267e87ba25SYann Gautier uint16_t stm32mp_get_boot_itf_selected(void); 27c9d75b3cSYann Gautier 28b2182cdeSYann Gautier bool stm32mp_is_single_core(void); 2949abdfd8SLionel Debieve bool stm32mp_is_auth_supported(void); 30*9cd784dbSYann Gautier uint32_t stm32mp_check_closed_device(void); 31b2182cdeSYann Gautier 327ae58c6bSYann Gautier /* Return the base address of the DDR controller */ 337ae58c6bSYann Gautier uintptr_t stm32mp_ddrctrl_base(void); 347ae58c6bSYann Gautier 357ae58c6bSYann Gautier /* Return the base address of the DDR PHY */ 367ae58c6bSYann Gautier uintptr_t stm32mp_ddrphyc_base(void); 377ae58c6bSYann Gautier 387ae58c6bSYann Gautier /* Return the base address of the PWR peripheral */ 397ae58c6bSYann Gautier uintptr_t stm32mp_pwr_base(void); 407ae58c6bSYann Gautier 417ae58c6bSYann Gautier /* Return the base address of the RCC peripheral */ 427ae58c6bSYann Gautier uintptr_t stm32mp_rcc_base(void); 437ae58c6bSYann Gautier 44c27d8c00SYann Gautier void stm32mp_gic_pcpu_init(void); 45c27d8c00SYann Gautier void stm32mp_gic_init(void); 46c27d8c00SYann Gautier 47e463d3f4SYann Gautier /* Check MMU status to allow spinlock use */ 48e463d3f4SYann Gautier bool stm32mp_lock_available(void); 49e463d3f4SYann Gautier 50ae3ce8b2SLionel Debieve int stm32_get_otp_index(const char *otp_name, uint32_t *otp_idx, 51ae3ce8b2SLionel Debieve uint32_t *otp_len); 52ae3ce8b2SLionel Debieve int stm32_get_otp_value(const char *otp_name, uint32_t *otp_val); 53ae3ce8b2SLionel Debieve int stm32_get_otp_value_from_idx(const uint32_t otp_idx, uint32_t *otp_val); 54ae3ce8b2SLionel Debieve 5573680c23SYann Gautier /* Get IWDG platform instance ID from peripheral IO memory base address */ 5673680c23SYann Gautier uint32_t stm32_iwdg_get_instance(uintptr_t base); 5773680c23SYann Gautier 5873680c23SYann Gautier /* Return bitflag mask for expected IWDG configuration from OTP content */ 5973680c23SYann Gautier uint32_t stm32_iwdg_get_otp_config(uint32_t iwdg_inst); 6073680c23SYann Gautier 6173680c23SYann Gautier #if defined(IMAGE_BL2) 6273680c23SYann Gautier /* Update OTP shadow registers with IWDG configuration from device tree */ 6373680c23SYann Gautier uint32_t stm32_iwdg_shadow_update(uint32_t iwdg_inst, uint32_t flags); 6473680c23SYann Gautier #endif 6573680c23SYann Gautier 66acf28c26SYann Gautier #if STM32MP_UART_PROGRAMMER || !defined(IMAGE_BL2) 679083fa11SPatrick Delaunay /* Get the UART address from its instance number */ 689083fa11SPatrick Delaunay uintptr_t get_uart_address(uint32_t instance_nb); 699083fa11SPatrick Delaunay #endif 709083fa11SPatrick Delaunay 7153612f72SYann Gautier /* Setup the UART console */ 7253612f72SYann Gautier int stm32mp_uart_console_setup(void); 7353612f72SYann Gautier 74c768b2b2SYann Gautier #if STM32MP_EARLY_CONSOLE 75c768b2b2SYann Gautier void stm32mp_setup_early_console(void); 76c768b2b2SYann Gautier #else 77c768b2b2SYann Gautier static inline void stm32mp_setup_early_console(void) 78c768b2b2SYann Gautier { 79c768b2b2SYann Gautier } 80c768b2b2SYann Gautier #endif 81c768b2b2SYann Gautier 82c9d75b3cSYann Gautier /* 83c9d75b3cSYann Gautier * Platform util functions for the GPIO driver 84c9d75b3cSYann Gautier * @bank: Target GPIO bank ID as per DT bindings 85c9d75b3cSYann Gautier * 86c9d75b3cSYann Gautier * Platform shall implement these functions to provide to stm32_gpio 87c9d75b3cSYann Gautier * driver the resource reference for a target GPIO bank. That are 88c9d75b3cSYann Gautier * memory mapped interface base address, interface offset (see below) 89c9d75b3cSYann Gautier * and clock identifier. 90c9d75b3cSYann Gautier * 91c9d75b3cSYann Gautier * stm32_get_gpio_bank_offset() returns a bank offset that is used to 92c9d75b3cSYann Gautier * check DT configuration matches platform implementation of the banks 93c9d75b3cSYann Gautier * description. 94c9d75b3cSYann Gautier */ 95c9d75b3cSYann Gautier uintptr_t stm32_get_gpio_bank_base(unsigned int bank); 96c9d75b3cSYann Gautier unsigned long stm32_get_gpio_bank_clock(unsigned int bank); 97c9d75b3cSYann Gautier uint32_t stm32_get_gpio_bank_offset(unsigned int bank); 98737ad29bSYann Gautier bool stm32_gpio_is_secure_at_reset(unsigned int bank); 99c9d75b3cSYann Gautier 100ccc199edSEtienne Carriere /* Return node offset for target GPIO bank ID @bank or a FDT error code */ 101ccc199edSEtienne Carriere int stm32_get_gpio_bank_pinctrl_node(void *fdt, unsigned int bank); 102ccc199edSEtienne Carriere 10392661e01SYann Gautier /* Get the chip revision */ 10492661e01SYann Gautier uint32_t stm32mp_get_chip_version(void); 10592661e01SYann Gautier /* Get the chip device ID */ 10692661e01SYann Gautier uint32_t stm32mp_get_chip_dev_id(void); 10792661e01SYann Gautier 10892661e01SYann Gautier /* Get SOC name */ 10992661e01SYann Gautier #define STM32_SOC_NAME_SIZE 20 11092661e01SYann Gautier void stm32mp_get_soc_name(char name[STM32_SOC_NAME_SIZE]); 11192661e01SYann Gautier 112dec286ddSYann Gautier /* Print CPU information */ 113dec286ddSYann Gautier void stm32mp_print_cpuinfo(void); 114dec286ddSYann Gautier 11510e7a9e9SYann Gautier /* Print board information */ 11610e7a9e9SYann Gautier void stm32mp_print_boardinfo(void); 11710e7a9e9SYann Gautier 118c9d75b3cSYann Gautier /* Initialise the IO layer and register platform IO devices */ 1193f9c9784SYann Gautier void stm32mp_io_setup(void); 120c9d75b3cSYann Gautier 12184686ba3SYann Gautier /* Functions to map DDR in MMU with non-cacheable attribute, and unmap it */ 12284686ba3SYann Gautier int stm32mp_map_ddr_non_cacheable(void); 12384686ba3SYann Gautier int stm32mp_unmap_ddr(void); 12484686ba3SYann Gautier 125d8da13e5SYann Gautier /* Function to save boot info */ 126d8da13e5SYann Gautier void stm32_save_boot_info(boot_api_context_t *boot_context); 127d8da13e5SYann Gautier /* Function to get boot peripheral info */ 128a6bfa75cSYann Gautier void stm32_get_boot_interface(uint32_t *interface, uint32_t *instance); 129d8da13e5SYann Gautier /* Function to get BOOT_MODE backup register address */ 130d8da13e5SYann Gautier uintptr_t stm32_get_bkpr_boot_mode_addr(void); 131ab2b325cSIgor Opaniuk 132992dba08SYann Gautier /* Display board information from the value found in OTP fuse */ 133992dba08SYann Gautier void stm32_display_board_info(uint32_t board_id); 134992dba08SYann Gautier 135981b9dcbSYann Gautier #if PSA_FWU_SUPPORT 136ba02add9SSughosh Ganu void stm32mp1_fwu_set_boot_idx(void); 137f87de907SNicolas Toromanoff uint32_t stm32_get_and_dec_fwu_trial_boot_cnt(void); 138f87de907SNicolas Toromanoff void stm32_set_max_fwu_trial_boot_cnt(void); 139981b9dcbSYann Gautier #endif /* PSA_FWU_SUPPORT */ 140ba02add9SSughosh Ganu 141c9d75b3cSYann Gautier #endif /* STM32MP_COMMON_H */ 142