/* * SPDX-FileCopyrightText: 2019-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ /** * System level MSPI APIs (private) */ #pragma once #include #include #include "sdkconfig.h" #include "esp_rom_spiflash.h" #include "esp_err.h" #include "esp_flash.h" #include "hal/spi_flash_hal.h" #include "spi_flash_override.h" #include "soc/soc_caps.h" #include "soc/clk_tree_defs.h" #ifdef __cplusplus extern "C" { #endif // Type of MSPI IO typedef enum { ESP_MSPI_IO_CLK = 0, ESP_MSPI_IO_Q, ESP_MSPI_IO_D, ESP_MSPI_IO_CS0, /* cs for spi flash */ ESP_MSPI_IO_HD, ESP_MSPI_IO_WP, #if SOC_SPI_MEM_SUPPORT_OPI_MODE ESP_MSPI_IO_DQS, ESP_MSPI_IO_D4, ESP_MSPI_IO_D5, ESP_MSPI_IO_D6, ESP_MSPI_IO_D7, #endif // SOC_SPI_MEM_SUPPORT_OPI_MODE #if CONFIG_SPIRAM ESP_MSPI_IO_CS1, /* cs for spi ram */ #endif ESP_MSPI_IO_MAX, /* Maximum IO MSPI occupied */ } esp_mspi_io_t; /** * @brief To setup Flash chip */ esp_err_t spi_flash_init_chip_state(void); /** * @brief To initislize the MSPI pins */ void esp_mspi_pin_init(void); /** * @brief Get the number of the GPIO corresponding to the given MSPI io * * @param[in] io MSPI io * * @return MSPI IO number */ uint8_t esp_mspi_get_io(esp_mspi_io_t io); /** * @brief Set SPI1 registers to make ROM functions work * @note This function is used for setting SPI1 registers to the state that ROM SPI functions work */ void spi_flash_set_rom_required_regs(void); /** * @brief Initialize main flash * @param chip Pointer to main SPI flash(SPI1 CS0) chip to use.. */ esp_err_t esp_flash_init_main(esp_flash_t *chip); /** * @brief Should be only used by SPI1 Flash driver to know the necessary timing registers * @param out_timing_config Pointer to timing_tuning parameters. */ void spi_timing_get_flash_timing_param(spi_flash_hal_timing_config_t *out_timing_config); /** * @brief Get the knowledge if the MSPI timing is tuned or not */ bool spi_timing_is_tuned(void); /** * @brief Set Flash chip specifically required MSPI register settings here */ void spi_flash_set_vendor_required_regs(void); /** * @brief Judge whether need to reset flash when brownout. * Set` flash_brownout_needs_reset` inside the function if really need reset. */ void spi_flash_needs_reset_check(void); /** * @brief Set flag to reset flash. set when erase chip or program chip * * @param bool status. True if flash is eraing. False if flash is not erasing. * * @return None. */ void spi_flash_set_erasing_flag(bool status); /** * @brief Judge whether need to reset flash when brownout. * * @return true if need reset, otherwise false. */ bool spi_flash_brownout_need_reset(void); /** * @brief Enable SPI flash high performance mode. * * @return ESP_OK if success. */ esp_err_t spi_flash_enable_high_performance_mode(void); /** * @brief Get the flash dummy through this function * This can be used when one flash has several dummy configurations to enable the high performance mode. * @note Don't forget to subtract one when assign to the register of mspi e.g. if the value you get is 4, (4-1=3) should be assigned to the register. * * @return Pointer to spi_flash_hpm_dummy_conf_t. */ const spi_flash_hpm_dummy_conf_t *spi_flash_hpm_get_dummy(void); /** * @brief Used to judge whether flash works under HPM mode with dummy adjustment. * * @return true Yes, and work under HPM with adjusting dummy. Otherwise, false. */ bool spi_flash_hpm_dummy_adjust(void); #if SOC_SPI_MEM_SUPPORT_WRAP /** * @brief set wrap size of flash * * @param wrap_size: wrap mode support disable, 16 32, 64 byte * * @return esp_err_t : ESP_OK for successful. * */ esp_err_t spi_flash_wrap_enable(spi_flash_wrap_size_t wrap_size); /** * @brief Probe flash wrap method * * @return esp_err_t: ESP_OK for success */ esp_err_t spi_flash_wrap_probe(void); /** * @brief disable cache wrap */ esp_err_t spi_flash_wrap_disable(void); /** * @brief Check whether flash and esp chip supports wrap mode. * * @param wrap_size wrap size. * @return true: wrap support, otherwise, false. */ bool spi_flash_support_wrap_size(uint32_t wrap_size); #endif //SOC_SPI_MEM_SUPPORT_WRAP /** * @brief SPI flash critical section enter function. * */ typedef void (*spi_flash_guard_start_func_t)(void); /** * @brief SPI flash critical section exit function. */ typedef void (*spi_flash_guard_end_func_t)(void); /** * Structure holding SPI flash access critical sections management functions. * * Flash API uses two types of flash access management functions: * 1) Functions which prepare/restore flash cache and interrupts before calling * appropriate ROM functions (SPIWrite, SPIRead and SPIEraseBlock): * - 'start' function should disables flash cache and non-IRAM interrupts and * is invoked before the call to one of ROM function above. * - 'end' function should restore state of flash cache and non-IRAM interrupts and * is invoked after the call to one of ROM function above. * These two functions are not recursive. * * Different versions of the guarding functions should be used depending on the context of * execution (with or without functional OS). In normal conditions when flash API is called * from task the functions use OS primitives. When there is no OS at all or when * it is not guaranteed that OS is functional (accessing flash from exception handler) these * functions cannot use OS primitives or even does not need them (multithreaded access is not possible). * * @note Structure and corresponding guard functions should not reside in flash. * For example structure can be placed in DRAM and functions in IRAM sections. */ typedef struct { spi_flash_guard_start_func_t start; /**< critical section start function. */ spi_flash_guard_end_func_t end; /**< critical section end function. */ } spi_flash_guard_funcs_t; /** * @brief Sets guard functions to access flash. * * @note Pointed structure and corresponding guard functions should not reside in flash. * For example structure can be placed in DRAM and functions in IRAM sections. * * @param funcs pointer to structure holding flash access guard functions. */ void spi_flash_guard_set(const spi_flash_guard_funcs_t* funcs); /** * @brief Get the guard functions used for flash access * * @return The guard functions that were set via spi_flash_guard_set(). These functions * can be called if implementing custom low-level SPI flash operations. */ const spi_flash_guard_funcs_t *spi_flash_guard_get(void); /** * @brief Default OS-aware flash access guard functions */ extern const spi_flash_guard_funcs_t g_flash_guard_default_ops; /** * @brief Non-OS flash access guard functions * * @note This version of flash guard functions is to be used when no OS is present or from panic handler. * It does not use any OS primitives and IPC and implies that only calling CPU is active. */ extern const spi_flash_guard_funcs_t g_flash_guard_no_os_ops; /** * @brief This function is used to re-initialize the flash mmap when using ROM flash * implementations. * * @note Only called in startup. User should not call this function. */ void spi_flash_rom_impl_init(void); #ifdef __cplusplus } #endif