/* * SPDX-FileCopyrightText: 2016-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once /* This file contains definitions that are common between esp32/ulp.h, esp32s2/ulp.h and esp32s3/ulp.h */ #ifdef __cplusplus extern "C" { #endif /**@{*/ #define ESP_ERR_ULP_BASE 0x1200 /*!< Offset for ULP-related error codes */ #define ESP_ERR_ULP_SIZE_TOO_BIG (ESP_ERR_ULP_BASE + 1) /*!< Program doesn't fit into RTC memory reserved for the ULP */ #define ESP_ERR_ULP_INVALID_LOAD_ADDR (ESP_ERR_ULP_BASE + 2) /*!< Load address is outside of RTC memory reserved for the ULP */ #define ESP_ERR_ULP_DUPLICATE_LABEL (ESP_ERR_ULP_BASE + 3) /*!< More than one label with the same number was defined */ #define ESP_ERR_ULP_UNDEFINED_LABEL (ESP_ERR_ULP_BASE + 4) /*!< Branch instructions references an undefined label */ #define ESP_ERR_ULP_BRANCH_OUT_OF_RANGE (ESP_ERR_ULP_BASE + 5) /*!< Branch target is out of range of B instruction (try replacing with BX) */ /**@}*/ union ulp_insn; // Declared in the chip-specific ulp.h header typedef union ulp_insn ulp_insn_t; /** * @brief Resolve all macro references in a program and load it into RTC memory * @param load_addr address where the program should be loaded, expressed in 32-bit words * @param program ulp_insn_t array with the program * @param psize size of the program, expressed in 32-bit words * @return * - ESP_OK on success * - ESP_ERR_NO_MEM if auxiliary temporary structure can not be allocated * - one of ESP_ERR_ULP_xxx if program is not valid or can not be loaded */ esp_err_t ulp_process_macros_and_load(uint32_t load_addr, const ulp_insn_t* program, size_t* psize); /** * @brief Load ULP program binary into RTC memory * * ULP program binary should have the following format (all values little-endian): * * 1. MAGIC, (value 0x00706c75, 4 bytes) * 2. TEXT_OFFSET, offset of .text section from binary start (2 bytes) * 3. TEXT_SIZE, size of .text section (2 bytes) * 4. DATA_SIZE, size of .data section (2 bytes) * 5. BSS_SIZE, size of .bss section (2 bytes) * 6. (TEXT_OFFSET - 12) bytes of arbitrary data (will not be loaded into RTC memory) * 7. .text section * 8. .data section * * Linker script in components/ulp/ld/esp32.ulp.ld produces ELF files which * correspond to this format. This linker script produces binaries with load_addr == 0. * * @param load_addr address where the program should be loaded, expressed in 32-bit words * @param program_binary pointer to program binary * @param program_size size of the program binary * @return * - ESP_OK on success * - ESP_ERR_INVALID_ARG if load_addr is out of range * - ESP_ERR_INVALID_SIZE if program_size doesn't match (TEXT_OFFSET + TEXT_SIZE + DATA_SIZE) * - ESP_ERR_NOT_SUPPORTED if the magic number is incorrect */ esp_err_t ulp_load_binary(uint32_t load_addr, const uint8_t* program_binary, size_t program_size); /** * @brief Run the program loaded into RTC memory * @param entry_point entry point, expressed in 32-bit words * @return ESP_OK on success */ esp_err_t ulp_run(uint32_t entry_point); /** * @brief Set one of ULP wakeup period values * * ULP coprocessor starts running the program when the wakeup timer counts up * to a given value (called period). There are 5 period values which can be * programmed into SENS_ULP_CP_SLEEP_CYCx_REG registers, x = 0..4 for ESP32, and * one period value which can be programmed into RTC_CNTL_ULP_CP_TIMER_1_REG register for ESP32-S2. * By default, for ESP32, wakeup timer will use the period set into SENS_ULP_CP_SLEEP_CYC0_REG, * i.e. period number 0. ULP program code can use SLEEP instruction to select * which of the SENS_ULP_CP_SLEEP_CYCx_REG should be used for subsequent wakeups. * * However, please note that SLEEP instruction issued (from ULP program) while the system * is in deep sleep mode does not have effect, and sleep cycle count 0 is used. * * For ESP32-s2 the SLEEP instruction not exist. Instead a WAKE instruction will be used. * * @param period_index wakeup period setting number (0 - 4) * @param period_us wakeup period, us * @note The ULP FSM requires two clock cycles to wakeup before being able to run the program. * Then additional 16 cycles are reserved after wakeup waiting until the 8M clock is stable. * The FSM also requires two more clock cycles to go to sleep after the program execution is halted. * The minimum wakeup period that may be set up for the ULP * is equal to the total number of cycles spent on the above internal tasks. * For a default configuration of the ULP running at 150kHz it makes about 133us. * @return * - ESP_OK on success * - ESP_ERR_INVALID_ARG if period_index is out of range */ esp_err_t ulp_set_wakeup_period(size_t period_index, uint32_t period_us); #ifdef __cplusplus } #endif