/* * SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #include #include #include #include "esp_err.h" #ifdef __cplusplus extern "C" { #endif /** * @file partition_linux.h * * @brief Private API functions used for Linux-target emulation of the Partition APIs (host-side testing) */ /** @brief emulated sector size for the partition API on Linux */ #define ESP_PARTITION_EMULATED_SECTOR_SIZE 0x1000 /** @brief emulated whole flash size for the partition API on Linux */ #define ESP_PARTITION_DEFAULT_EMULATED_FLASH_SIZE 0x400000 //4MB fixed /** @brief mode of fail after */ #define ESP_PARTITION_FAIL_AFTER_MODE_ERASE 0x01 #define ESP_PARTITION_FAIL_AFTER_MODE_WRITE 0x02 #define ESP_PARTITION_FAIL_AFTER_MODE_BOTH 0x03 /** * @brief Partition type to string conversion routine * * @param type Partition type, see esp_partition_type_t * * @return string equivalent of given partition type or "unknown" on mismatch */ const char *esp_partition_type_to_str(const uint32_t type); /** * @brief Partition subtype to string conversion routine * * @param type Partition type, see esp_partition_type_t * @param subtype Partition subtype, see esp_partition_subtype_t * * @return string equivalent of given partition subtype or "unknown" on mismatch */ const char *esp_partition_subtype_to_str(const uint32_t type, const uint32_t subtype); /** * @brief Creates memory emulation of SPI FLASH device (Linux host) * * The function creates a memory buffer to emulate SPI FLASH device and provides a pointer to its beginning, in order * to allow relevant Partition APIs run in host-emulated environment without any code change. * * The emulation buffer is actually a disk file mapped to the host memory, current version implements the following: * 1. create temporary file /tmp/idf-partition-XXXXXX (fixed size 4MB) * 2. mmap() whole file to the memory and set its contents to all 1s (SPI NOR flash default) * 3. upload build/partition_table/partition-table.bin (hard-wired path for now) to ESP_PARTITION_TABLE_OFFSET * (from the beginning of the memory buffer, ie to the same offset as in real SPI FLASH) * 4. [optional: iterate through the partitions uploaded and print esp_partition_info_t details for each] * 5. set part_desc_addr_start[out] parameter to the memory buffer starting address * * The pointer returned in part_desc_addr_start is then used as it was regular SPI FLASH address. * * NOTES: * 1. the temporary file generated is not deleted automatically - the cleanup happens during the next host system reset * 2. the mmapped() section remains active until esp_partition_file_unmmap() is called * 3. mmap() is called with MAP_SHARED so the emulated SPI FLASH can be shared among processes * * @param[out] part_desc_addr_start output pointer to receive memory SPI FLASH buffer address * * @return * - ESP_OK: Operation successful * - ESP_ERR_NOT_FINISHED: Failed to generate temporary file * - ESP_ERR_INVALID_SIZE (one of the following): * - Failed to resize temporary file to required value * - Failed to set filepointer in partition-table.bin * - ESP_ERR_NO_MEM: Failed to mmap() the temporary file into the memory * - ESP_ERR_NOT_FOUND: Couldn't open the partition_table.bin file * - ESP_ERR_INVALID_STATE: Failed to upload partition_table into the memory */ esp_err_t esp_partition_file_mmap(const uint8_t **part_desc_addr_start); /** * @brief Releases the memory of emulated SPI FLASH device (Linux host) * * The function releases the memory block previously allocated by esp_partition_file_mmap(). * The buffer is freed by calling munmap() with emulated_buffer, buffer_size * * @return * - ESP_OK: Operation successful * - ESP_ERR_NO_MEM: The memory buffer was not allocated * - ESP_ERR_INVALID_SIZE: The buffer size was 0 * - ESP_ERR_INVALID_RESPONSE: Failed to munmap() the emulation file from memory */ esp_err_t esp_partition_file_munmap(void); /** * Functions for host tests */ /** * @brief Clears statistics gathered by emulated partition read/write/erase operations * */ void esp_partition_clear_stats(void); /** * @brief Returns number of read operations called * * Function returns number of calls to the function esp_partition_read * * @return * - number of calls to esp_partition_read since recent esp_partition_clear_stats */ size_t esp_partition_get_read_ops(void); /** * @brief Returns number of write operations called * * Function returns number of calls to the function esp_partition_write * * @return * - number of calls to esp_partition_write since recent esp_partition_clear_stats */ size_t esp_partition_get_write_ops(void); /** * @brief Returns number of erase operations performed on behalf of calls to esp_partition_erase_range * * Function returns accumulated number of sectors erased on behalf of esp_partition_erase_range * * @return * - total number of emulated sector erase operations on behalf of esp_partition_erase_range since recent esp_partition_clear_stats */ size_t esp_partition_get_erase_ops(void); /** * @brief Returns total number of bytes read on behalf of esp_partition_read * * Function returns number of bytes read by esp_partition_read * * @return * - total number of bytes read on behalf of esp_partition_read since recent esp_partition_clear_stats */ size_t esp_partition_get_read_bytes(void); /** * @brief Returns total number of bytes written on behalf of esp_partition_write * * Function returns number of bytes written by esp_partition_write * * @return * - total number of bytes written on behalf of esp_partition_write since recent esp_partition_clear_stats */ size_t esp_partition_get_write_bytes(void); /** * @brief Returns estimated total time spent on partition operations. * * Function returns estimated total time spent in esp_partition_read, * esp_partition_write and esp_partition_erase_range operations. * * @return * - estimated total time spent in read/write/erase operations in milliseconds */ size_t esp_partition_get_total_time(void); /** * @brief Initializes emulation of lost power failure in write/erase operations * * Function initializes down counter emulating power off failure during write / erase operations. * Once this counter reaches 0, actual as well as all subsequent write / erase operations fail * Initial state of down counter is disabled. * * @param[in] count Number of remaining write / erase cycles before emulated failure. Call with SIZE_MAX to disable failure emulation. * @param[in] mode Controls whether remaining cycles are applied to erase, write or both operations * */ void esp_partition_fail_after(size_t count, uint8_t mode); /** * @brief Returns count of erase operations performed on virtual emulated sector * * Function returns number of erase operations performed on virtual sector specified by the parameter sector. * The esp_parttion mapped address space is virtually split into sectors of the size ESP_PARTITION_EMULATED_SECTOR_SIZE. * Calls to the esp_partition_erase_range are impacting one or multiple virtual sectors, for each of them, the respective * count is incremented. * * @param[in] sector Virtual sector number to return erase count for * * @return * - count of erase operations performed on virtual emulated sector * */ size_t esp_partition_get_sector_erase_count(size_t sector); typedef struct { char flash_file_name[PATH_MAX]; /*!< name of flash dump file, zero-terminated ASCII string */ size_t flash_file_size; /*!< size of flash dump file in bytes */ char partition_file_name[PATH_MAX]; /*!< name of file containing binary representation of partition table, zero-terminated ASCII string */ bool remove_dump; /*!< flag is set to true if dump file has to be removed after esp_partition_file_munmap */ } esp_partition_file_mmap_ctrl_t; /** * @brief Returns pointer to the structure controlling mapping of flash file * * Function returns pointer to structure used by esp_partition_file_mmap and esp_partition_file_munmap * Caller can change this structure members prior calls involving the above functions to * Specify existing flash file which will represent the content of flash memory after mapping * Specify size and partition file name used to create empty flash memory * Control whether the actual flash file will be deleted of kept after call to esp_partition_file_munmap * * @return * - pointer to flash file mapping control structure * */ esp_partition_file_mmap_ctrl_t* esp_partition_get_file_mmap_ctrl_input(void); /** * @brief Returns pointer to the structure reflecting actual settings of flash file emulation * * Function returns pointer to structure containing: * flash file name representing emulated flash memory * size of file representing emulated flash memory * file name holding binary used to initialize partition table (if it was used) * * @return * - pointer to flash file mapping actual values in control structure * */ esp_partition_file_mmap_ctrl_t* esp_partition_get_file_mmap_ctrl_act(void); #ifdef __cplusplus } #endif