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- /* Copyright 2020-2023 Espressif Systems (Shanghai) CO LTD
- *
- * Licensed under the Apache License, Version 2.0 (the "License");
- * you may not use this file except in compliance with the License.
- * You may obtain a copy of the License at
- *
- * http://www.apache.org/licenses/LICENSE-2.0
- *
- * Unless required by applicable law or agreed to in writing, software
- * distributed under the License is distributed on an "AS IS" BASIS,
- * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
- */
- #include <stdio.h>
- #include <stdlib.h>
- #include <string.h>
- #include <inttypes.h>
- #include <sys/param.h>
- #include "esp_loader_io.h"
- #include "esp_loader.h"
- #include "example_common.h"
- #ifndef SINGLE_TARGET_SUPPORT
- // For esp8266, esp32, esp32s2
- #define BOOTLOADER_ADDRESS_V0 0x1000
- // For esp32s3 and later chips
- #define BOOTLOADER_ADDRESS_V1 0x0
- #define PARTITION_ADDRESS 0x8000
- #define APPLICATION_ADDRESS 0x10000
- extern const uint8_t ESP32_bootloader_bin[];
- extern const uint32_t ESP32_bootloader_bin_size;
- extern const uint8_t ESP32_hello_world_bin[];
- extern const uint32_t ESP32_hello_world_bin_size;
- extern const uint8_t ESP32_partition_table_bin[];
- extern const uint32_t ESP32_partition_table_bin_size;
- extern const uint8_t ESP32_S2_bootloader_bin[];
- extern const uint32_t ESP32_S2_bootloader_bin_size;
- extern const uint8_t ESP32_S2_hello_world_bin[];
- extern const uint32_t ESP32_S2_hello_world_bin_size;
- extern const uint8_t ESP32_S2_partition_table_bin[];
- extern const uint32_t ESP32_S2_partition_table_bin_size;
- extern const uint8_t ESP32_S3_bootloader_bin[];
- extern const uint32_t ESP32_S3_bootloader_bin_size;
- extern const uint8_t ESP32_S3_hello_world_bin[];
- extern const uint32_t ESP32_S3_hello_world_bin_size;
- extern const uint8_t ESP32_S3_partition_table_bin[];
- extern const uint32_t ESP32_S3_partition_table_bin_size;
- extern const uint8_t ESP8266_bootloader_bin[];
- extern const uint32_t ESP8266_bootloader_bin_size;
- extern const uint8_t ESP8266_hello_world_bin[];
- extern const uint32_t ESP8266_hello_world_bin_size;
- extern const uint8_t ESP8266_partition_table_bin[];
- extern const uint32_t ESP8266_partition_table_bin_size;
- extern const uint8_t ESP32_H4_bootloader_bin[];
- extern const uint32_t ESP32_H4_bootloader_bin_size;
- extern const uint8_t ESP32_H4_hello_world_bin[];
- extern const uint32_t ESP32_H4_hello_world_bin_size;
- extern const uint8_t ESP32_H4_partition_table_bin[];
- extern const uint32_t ESP32_H4_partition_table_bin_size;
- extern const uint8_t ESP32_H2_bootloader_bin[];
- extern const uint32_t ESP32_H2_bootloader_bin_size;
- extern const uint8_t ESP32_H2_hello_world_bin[];
- extern const uint32_t ESP32_H2_hello_world_bin_size;
- extern const uint8_t ESP32_H2_partition_table_bin[];
- extern const uint32_t ESP32_H2_partition_table_bin_size;
- extern const uint8_t ESP32_C6_bootloader_bin[];
- extern const uint32_t ESP32_C6_bootloader_bin_size;
- extern const uint8_t ESP32_C6_hello_world_bin[];
- extern const uint32_t ESP32_C6_hello_world_bin_size;
- extern const uint8_t ESP32_C6_partition_table_bin[];
- extern const uint32_t ESP32_C6_partition_table_bin_size;
- void get_example_binaries(target_chip_t target, example_binaries_t *bins)
- {
- if (target == ESP8266_CHIP) {
- bins->boot.data = ESP8266_bootloader_bin;
- bins->boot.size = ESP8266_bootloader_bin_size;
- bins->boot.addr = BOOTLOADER_ADDRESS_V0;
- bins->part.data = ESP8266_partition_table_bin;
- bins->part.size = ESP8266_partition_table_bin_size;
- bins->part.addr = PARTITION_ADDRESS;
- bins->app.data = ESP8266_hello_world_bin;
- bins->app.size = ESP8266_hello_world_bin_size;
- bins->app.addr = APPLICATION_ADDRESS;
- } else if (target == ESP32_CHIP) {
- bins->boot.data = ESP32_bootloader_bin;
- bins->boot.size = ESP32_bootloader_bin_size;
- bins->boot.addr = BOOTLOADER_ADDRESS_V0;
- bins->part.data = ESP32_partition_table_bin;
- bins->part.size = ESP32_partition_table_bin_size;
- bins->part.addr = PARTITION_ADDRESS;
- bins->app.data = ESP32_hello_world_bin;
- bins->app.size = ESP32_hello_world_bin_size;
- bins->app.addr = APPLICATION_ADDRESS;
- } else if (target == ESP32S2_CHIP) {
- bins->boot.data = ESP32_S2_bootloader_bin;
- bins->boot.size = ESP32_S2_bootloader_bin_size;
- bins->boot.addr = BOOTLOADER_ADDRESS_V0;
- bins->part.data = ESP32_S2_partition_table_bin;
- bins->part.size = ESP32_S2_partition_table_bin_size;
- bins->part.addr = PARTITION_ADDRESS;
- bins->app.data = ESP32_S2_hello_world_bin;
- bins->app.size = ESP32_S2_hello_world_bin_size;
- bins->app.addr = APPLICATION_ADDRESS;
- } else if (target == ESP32H4_CHIP){
- bins->boot.data = ESP32_H4_bootloader_bin;
- bins->boot.size = ESP32_H4_bootloader_bin_size;
- bins->boot.addr = BOOTLOADER_ADDRESS_V1;
- bins->part.data = ESP32_H4_partition_table_bin;
- bins->part.size = ESP32_H4_partition_table_bin_size;
- bins->part.addr = PARTITION_ADDRESS;
- bins->app.data = ESP32_H4_hello_world_bin;
- bins->app.size = ESP32_H4_hello_world_bin_size;
- bins->app.addr = APPLICATION_ADDRESS;
- } else if (target == ESP32H2_CHIP){
- bins->boot.data = ESP32_H2_bootloader_bin;
- bins->boot.size = ESP32_H2_bootloader_bin_size;
- bins->boot.addr = BOOTLOADER_ADDRESS_V1;
- bins->part.data = ESP32_H2_partition_table_bin;
- bins->part.size = ESP32_H2_partition_table_bin_size;
- bins->part.addr = PARTITION_ADDRESS;
- bins->app.data = ESP32_H2_hello_world_bin;
- bins->app.size = ESP32_H2_hello_world_bin_size;
- bins->app.addr = APPLICATION_ADDRESS;
- } else if (target == ESP32C6_CHIP){
- bins->boot.data = ESP32_C6_bootloader_bin;
- bins->boot.size = ESP32_C6_bootloader_bin_size;
- bins->boot.addr = BOOTLOADER_ADDRESS_V1;
- bins->part.data = ESP32_C6_partition_table_bin;
- bins->part.size = ESP32_C6_partition_table_bin_size;
- bins->part.addr = PARTITION_ADDRESS;
- bins->app.data = ESP32_C6_hello_world_bin;
- bins->app.size = ESP32_C6_hello_world_bin_size;
- bins->app.addr = APPLICATION_ADDRESS;
- } else if (target == ESP32S3_CHIP){
- bins->boot.data = ESP32_S3_bootloader_bin;
- bins->boot.size = ESP32_S3_bootloader_bin_size;
- bins->boot.addr = BOOTLOADER_ADDRESS_V1;
- bins->part.data = ESP32_S3_partition_table_bin;
- bins->part.size = ESP32_S3_partition_table_bin_size;
- bins->part.addr = PARTITION_ADDRESS;
- bins->app.data = ESP32_S3_hello_world_bin;
- bins->app.size = ESP32_S3_hello_world_bin_size;
- bins->app.addr = APPLICATION_ADDRESS;
- }
- else {
- abort();
- }
- }
- extern const uint8_t ESP32_app_bin[];
- extern const uint32_t ESP32_app_bin_size;
- extern const uint8_t ESP32_C2_app_bin[];
- extern const uint32_t ESP32_C2_app_bin_size;
- extern const uint8_t ESP32_C3_app_bin[];
- extern const uint32_t ESP32_C3_app_bin_size;
- extern const uint8_t ESP32_H2_app_bin[];
- extern const uint32_t ESP32_H2_app_bin_size;
- extern const uint8_t ESP32_H4_app_bin[];
- extern const uint32_t ESP32_H4_app_bin_size;
- extern const uint8_t ESP32_S3_app_bin[];
- extern const uint32_t ESP32_S3_app_bin_size;
- extern const uint8_t ESP32_C6_app_bin[];
- extern const uint32_t ESP32_C6_app_bin_size;
- void get_example_ram_app_binary(target_chip_t target, example_ram_app_binary_t *bin)
- {
- switch (target) {
- case ESP32_CHIP: {
- bin->ram_app.data = ESP32_app_bin;
- bin->ram_app.size = ESP32_app_bin_size;
- break;
- }
- case ESP32C2_CHIP: {
- bin->ram_app.data = ESP32_C2_app_bin;
- bin->ram_app.size = ESP32_C2_app_bin_size;
- break;
- }
- case ESP32C3_CHIP: {
- bin->ram_app.data = ESP32_C3_app_bin;
- bin->ram_app.size = ESP32_C3_app_bin_size;
- break;
- }
- case ESP32H2_CHIP: {
- bin->ram_app.data = ESP32_H2_app_bin;
- bin->ram_app.size = ESP32_H2_app_bin_size;
- break;
- }
- case ESP32H4_CHIP: {
- bin->ram_app.data = ESP32_H4_app_bin;
- bin->ram_app.size = ESP32_H4_app_bin_size;
- break;
- }
- case ESP32S3_CHIP: {
- bin->ram_app.data = ESP32_S3_app_bin;
- bin->ram_app.size = ESP32_S3_app_bin_size;
- break;
- }
- case ESP32C6_CHIP: {
- bin->ram_app.data = ESP32_C6_app_bin;
- bin->ram_app.size = ESP32_C6_app_bin_size;
- break;
- }
- default: {
- abort();
- }
- }
- }
- #endif
- esp_loader_error_t connect_to_target(uint32_t higher_transmission_rate)
- {
- esp_loader_connect_args_t connect_config = ESP_LOADER_CONNECT_DEFAULT();
- esp_loader_error_t err = esp_loader_connect(&connect_config);
- if (err != ESP_LOADER_SUCCESS) {
- printf("Cannot connect to target. Error: %u\n", err);
- return err;
- }
- printf("Connected to target\n");
- #ifdef SERIAL_FLASHER_INTERFACE_UART
- if (higher_transmission_rate && esp_loader_get_target() != ESP8266_CHIP) {
- err = esp_loader_change_transmission_rate(higher_transmission_rate);
- if (err == ESP_LOADER_ERROR_UNSUPPORTED_FUNC) {
- printf("ESP8266 does not support change transmission rate command.");
- return err;
- } else if (err != ESP_LOADER_SUCCESS) {
- printf("Unable to change transmission rate on target.");
- return err;
- } else {
- err = loader_port_change_transmission_rate(higher_transmission_rate);
- if (err != ESP_LOADER_SUCCESS) {
- printf("Unable to change transmission rate.");
- return err;
- }
- printf("Transmission rate changed changed\n");
- }
- }
- #endif /* SERIAL_FLASHER_INTERFACE_UART */
- return ESP_LOADER_SUCCESS;
- }
- #ifdef SERIAL_FLASHER_INTERFACE_UART
- esp_loader_error_t flash_binary(const uint8_t *bin, size_t size, size_t address)
- {
- esp_loader_error_t err;
- static uint8_t payload[1024];
- const uint8_t *bin_addr = bin;
- printf("Erasing flash (this may take a while)...\n");
- err = esp_loader_flash_start(address, size, sizeof(payload));
- if (err != ESP_LOADER_SUCCESS) {
- printf("Erasing flash failed with error %d.\n", err);
- return err;
- }
- printf("Start programming\n");
- size_t binary_size = size;
- size_t written = 0;
- while (size > 0) {
- size_t to_read = MIN(size, sizeof(payload));
- memcpy(payload, bin_addr, to_read);
- err = esp_loader_flash_write(payload, to_read);
- if (err != ESP_LOADER_SUCCESS) {
- printf("\nPacket could not be written! Error %d.\n", err);
- return err;
- }
- size -= to_read;
- bin_addr += to_read;
- written += to_read;
- int progress = (int)(((float)written / binary_size) * 100);
- printf("\rProgress: %d %%", progress);
- fflush(stdout);
- };
- printf("\nFinished programming\n");
- #if MD5_ENABLED
- err = esp_loader_flash_verify();
- if (err == ESP_LOADER_ERROR_UNSUPPORTED_FUNC) {
- printf("ESP8266 does not support flash verify command.");
- return err;
- } else if (err != ESP_LOADER_SUCCESS) {
- printf("MD5 does not match. err: %d\n", err);
- return err;
- }
- printf("Flash verified\n");
- #endif
- return ESP_LOADER_SUCCESS;
- }
- #endif /* SERIAL_FLASHER_INTERFACE_UART */
- esp_loader_error_t load_ram_binary(const uint8_t *bin)
- {
- printf("Start loading\n");
- esp_loader_error_t err;
- const esp_loader_bin_header_t *header = (const esp_loader_bin_header_t *)bin;
- esp_loader_bin_segment_t segments[header->segments];
- // Parse segments
- uint32_t seg;
- uint32_t *cur_seg_pos;
- for (seg=0, cur_seg_pos = (uint32_t *)(&bin[BIN_FIRST_SEGMENT_OFFSET]);
- seg < header->segments;
- seg++) {
- segments[seg].addr = *cur_seg_pos++;
- segments[seg].size = *cur_seg_pos++;
- segments[seg].data = (uint8_t *)cur_seg_pos;
- cur_seg_pos += (segments[seg].size) / 4;
- }
- // Download segments
- for (seg=0; seg < header->segments; seg++) {
- printf("Downloading %"PRIu32" bytes at 0x%08"PRIx32"...\n", segments[seg].size, segments[seg].addr);
- err = esp_loader_mem_start(segments[seg].addr, segments[seg].size, ESP_RAM_BLOCK);
- if (err != ESP_LOADER_SUCCESS) {
- printf("Loading ram start with error %d.\n", err);
- return err;
- }
- size_t remain_size = segments[seg].size;
- uint8_t *data_pos = segments[seg].data;
- while(remain_size > 0) {
- size_t data_size = MIN(ESP_RAM_BLOCK, remain_size);
- err = esp_loader_mem_write(data_pos, data_size);
- if (err != ESP_LOADER_SUCCESS) {
- printf("\nPacket could not be written! Error %d.\n", err);
- return err;
- }
- data_pos += data_size;
- remain_size -= data_size;
- }
- }
- err = esp_loader_mem_finish(header->entrypoint);
- if (err != ESP_LOADER_SUCCESS) {
- printf("\nLoad ram finish with Error %d.\n", err);
- return err;
- }
- printf("\nFinished loading\n");
- return ESP_LOADER_SUCCESS;
- }
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