/* * SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #include #include #include "esp_err.h" #include "esp_bit_defs.h" #include "hal/mmu_types.h" #ifdef __cplusplus extern "C" { #endif /** * MMU Memory Mapping Driver APIs for MMU supported memory * * * Driver Backgrounds: * * -------------------------------------------------------------------------------------------------------- * Memory Pool | * -------------------------------------------------------------------------------------------------------- * | Memory Region 0 | Memory Region 1 | ... | * -------------------------------------------------------------------------------------------------------- * | Block 0 | Slot 0 | Block 1 | Block 2 | ... | Slot 1 (final slot) | ... | * -------------------------------------------------------------------------------------------------------- * * - A memory pool stands for the whole virtual address range that can be mapped to physical memory * - A memory region is a range of virtual address with same attributes * - A block is a piece of vaddr range that is dynamically mapped. * - A Slot is the vaddr range between 2 blocks. */ /** * MMAP flags */ /** * @brief Share this mapping * * - If this flag is set, a paddr block can be mapped to multiple vaddr blocks. * 1. This happens when: * - the to-be-mapped paddr block is overlapped with an already mapped paddr block. * - the to-be-mapped paddr block encloses an already mapped paddr block. * 2. If the to-be-mapped paddr block is enclosed by an already mapped paddr block, no new mapping will happen, return ESP_ERR_INVALID_STATE. The out pointer will be the already mapped paddr corresponding vaddr. * 3. If the to-be-mapped paddr block is identical with an already mapped paddr block, no new mapping will happen, return ESP_ERR_INVALID_STATE. The out pointer will be the corresponding vaddr. * * - If this flag isn't set, overlapped, enclosed or same to-be-mapped paddr block will lead to ESP_ERR_INVALID_ARG. */ #define ESP_MMU_MMAP_FLAG_PADDR_SHARED BIT(0) /** * @brief Physical memory type */ typedef uint32_t esp_paddr_t; /** * @brief Map a physical memory block to external virtual address block, with given capabilities. * * @note This API does not guarantee thread safety * * @param[in] paddr_start Start address of the physical memory block * @param[in] size Size to be mapped. Size will be rounded up by to the nearest multiple of MMU page size * @param[in] target Physical memory target you're going to map to, see `mmu_target_t` * @param[in] caps Memory capabilities, see `mmu_mem_caps_t` * @param[in] flags Mmap flags * @param[out] out_ptr Start address of the mapped virtual memory * * @return * - ESP_OK * - ESP_ERR_INVALID_ARG: Invalid argument, see printed logs * - ESP_ERR_NOT_SUPPORTED: Only on ESP32, PSRAM is not a supported physical memory target * - ESP_ERR_NOT_FOUND: No enough size free block to use * - ESP_ERR_NO_MEM: Out of memory, this API will allocate some heap memory for internal usage * - ESP_ERR_INVALID_STATE: Paddr is mapped already, this API will return corresponding vaddr_start of the previously mapped block. * Only to-be-mapped paddr block is totally enclosed by a previously mapped block will lead to this error. (Identical scenario will behave similarly) * new_block_start new_block_end * |-------- New Block --------| * |--------------- Block ---------------| * block_start block_end * */ esp_err_t esp_mmu_map(esp_paddr_t paddr_start, size_t size, mmu_target_t target, mmu_mem_caps_t caps, int flags, void **out_ptr); /** * @brief Unmap a previously mapped virtual memory block * * @note This API does not guarantee thread safety * * @param[in] ptr Start address of the virtual memory * * @return * - ESP_OK * - ESP_ERR_INVALID_ARG: Null pointer * - ESP_ERR_NOT_FOUND: Vaddr is not in external memory, or it's not mapped yet */ esp_err_t esp_mmu_unmap(void *ptr); /** * @brief Get largest consecutive free external virtual memory block size, with given capabilities and given physical target * * @param[in] caps Bitwise OR of MMU_MEM_CAP_* flags indicating the memory block * @param[in] target Physical memory target you're going to map to, see `mmu_target_t`. * @param[out] out_len Largest free block length, in bytes. * * @return * - ESP_OK * - ESP_ERR_INVALID_ARG: Invalid arguments, could be null pointer */ esp_err_t esp_mmu_map_get_max_consecutive_free_block_size(mmu_mem_caps_t caps, mmu_target_t target, size_t *out_len); /** * Dump all the previously mapped blocks * * @note This API shall not be called from an ISR. * @note This API does not guarantee thread safety * * @param stream stream to print information to; use stdout or stderr to print * to the console; use fmemopen/open_memstream to print to a * string buffer. * @return * - ESP_OK */ esp_err_t esp_mmu_map_dump_mapped_blocks(FILE* stream); /** * @brief Convert virtual address to physical address * * @param[in] vaddr Virtual address * @param[out] out_paddr Physical address * @param[out] out_target Physical memory target, see `mmu_target_t` * * @return * - ESP_OK * - ESP_ERR_INVALID_ARG: Null pointer, or vaddr is not within external memory * - ESP_ERR_NOT_FOUND: Vaddr is not mapped yet */ esp_err_t esp_mmu_vaddr_to_paddr(void *vaddr, esp_paddr_t *out_paddr, mmu_target_t *out_target); /** * @brief Convert physical address to virtual address * * @param[in] paddr Physical address * @param[in] target Physical memory target, see `mmu_target_t` * @param[in] type Virtual address type, could be either instruction or data * @param[out] out_vaddr Virtual address * * @return * - ESP_OK * - ESP_ERR_INVALID_ARG: Null pointer * - ESP_ERR_NOT_FOUND: Paddr is not mapped yet */ esp_err_t esp_mmu_paddr_to_vaddr(esp_paddr_t paddr, mmu_target_t target, mmu_vaddr_t type, void **out_vaddr); #ifdef __cplusplus } #endif