# Flash multiple partitions example ## Overview This example demonstrates how to flash an Espressif SoC (target) from another MCU (host) using `esp_serial_flasher`. Two ESP32 chips are used in this case. Binaries to be flashed from the host MCU to the Espressif SoC can be found in [binaries](../binaries/) folder and are converted into C-array during build process. The following steps are performed in order to re-program targets memory: 1. UART1 through which the the new binary will be transferred is initialized. 2. The host puts the target device into the boot mode and tries to connect by calling `esp_loader_connect()`. 3. The binary file is opened and its size is acquired, as it has to be known before flashing. 4. Then `esp_loader_flash_start()` is called to enter the flashing mode and erase the amount of memory to be flashed. 5. `esp_loader_flash_write()` function is called repeatedly until the whole binary image is transfered. Note: In addition to the steps mentioned above, `esp_loader_change_transmission_rate()` is called after the connection is established in order to increase the flashing speed. This does not apply for the ESP8266, as its bootloader does not support this command. However, the ESP8266 is capable of detecting the baud rate during connection phase and can be changed before calling `esp_loader_connect()`, if necessary. ## Connection configuration In the majority of cases `ESP_LOADER_CONNECT_DEFAULT` helper macro is used in order to initialize `loader_connect_args_t` data structure passed to `esp_loader_connect()`. Helper macro sets the maximum time to wait for a response and the number of retrials. For more detailed information refer to [serial protocol](https://docs.espressif.com/projects/esptool/en/latest/esp32s3/advanced-topics/serial-protocol.html). ## Hardware Required * Two development boards with the ESP32 SoC (e.g., ESP32-DevKitC, ESP-WROVER-KIT, etc.). * One or two USB cables for power supply and programming. * Cables to connect host to target according to table below. ## Hardware connection Table below shows connection between the two ESP32 devices. | ESP32 (host) | ESP32 (target) | |:------------:|:-------------:| | IO26 | IO0 | | IO25 | RESET | | IO4 | RX0 | | IO5 | TX0 | Note: interconnection is the same for ESP32, ESP32-S2 and ESP8266 targets. ## Build and flash To run the example, type the following command: ```CMake idf.py -p PORT flash monitor ``` (To exit the serial monitor, type ``Ctrl-]``.) See the [Getting Started Guide](https://docs.espressif.com/projects/esp-idf/en/stable/esp32/index.html) for full steps to configure and use ESP-IDF to build projects. ## Configuration For details about available configuration options, please refer to the top level [README.md](../../README.md). Compile definitions can be specified in the command line when running `idf.py`, for example: ``` idf.py build -DMD5_ENABLED=1 ``` Binaries to be flashed are placed in a separate folder (binaries.c) for each possible target and converted to C-array. Without explicitly enabling MD5 check, flash integrity verification is disabled by default. ## Example output Here is the example's console output: ``` ... Connected to target Transmission rate changed changed I (2484) serial_flasher: Loading bootloader... Erasing flash (this may take a while)... Start programming Progress: 100 % Finished programming I (4074) serial_flasher: Loading partition table... Erasing flash (this may take a while)... Start programming Progress: 100 % Finished programming I (4284) serial_flasher: Loading app... Erasing flash (this may take a while)... Start programming Progress: 100 % Finished programming I (11934) serial_flasher: Done! I (11273) serial_flasher: ******************************************** I (11273) serial_flasher: *** Logs below are print from slave .... *** I (11273) serial_flasher: ******************************************** Hello world! ```
To create a project from this example, run:
idf.py create-project-from-example "espressif/esp-serial-flasher^1.6.2:esp32_example"