A new branching model is applied to this repository, which consists of a master branch and release branches.
The master branch is an integration branch where bug fixes/features are gathered for compiling and functional testing.
The release branch is where releases are maintained and hot fixes (with names like release/v2.x.x) are added. Please ensure that all your production-related work are tracked with the release branches.
With this new model, we can push out bug fixes more quickly and achieve simpler maintenance.
ESP8266_RTOS_SDK's framework is quite outdated and different from the current esp-idf and we are planning to migrate ESP8266_RTOS_SDK to esp-idf eventually after v2.0.0.
However, we will firstly provide a new version of ESP8266 SDK (ESP8266_RTOS_SDK v3.0), which shares the same framework with esp-idf (esp-idf style), as a work-around, because the multi-CPU architecture is not supported by esp-idf for the time being.
Actions to be taken for ESP8266_RTOS_SDK v3.0 include the following items:
- Modify the framework to esp-idf style
- Restructure some core libraries including Wi-Fi libraries and libmain
- Update some third-party libraries including FreeRTOS, lwIP, mbedTLS, noPoll, libcoap, SPIFFS, cJSON, wolfSSL, etc.
- Update some drivers
- Others
v8.4.0
If you are still using old version SDK(< 3.0), please use toolchain v4.8.5, as following:
Besides the toolchain (that contains programs to compile and build the application), you also need ESP8266 specific API / libraries. They are provided by Espressif in ESP8266_RTOS_SDK repository. To get it, open terminal, navigate to the directory you want to put ESP8266_RTOS_SDK, and clone it using git clone
command:
cd ~/esp
git clone https://github.com/espressif/ESP8266_RTOS_SDK.git
ESP8266_RTOS_SDK will be downloaded into ~/esp/ESP8266_RTOS_SDK
.
The toolchain programs access ESP8266_RTOS_SDK using IDF_PATH
environment variable. This variable should be set up on your PC, otherwise projects will not build. Setting may be done manually, each time PC is restarted. Another option is to set up it permanently by defining IDF_PATH
in user profile.
For manually, the command:
export IDF_PATH=~/esp/ESP8266_RTOS_SDK
Now you are ready to prepare your application for ESP8266. To start off quickly, we can use examples/get-started/hello_world
project from examples
directory in SDK.
Once you've found the project you want to work with, change to its directory and you can configure and build it.
You are almost there. To be able to proceed further, connect ESP8266 board to PC, check under what serial port the board is visible and verify if serial communication works. Note the port number, as it will be required in the next step.
Being in terminal window, go to directory of hello_world
application by typing cd ~/esp/ESP8266_RTOS_SDK/examples/get-started/hello_world
. Then start project configuration utility menuconfig
:
cd ~/esp/ESP8266_RTOS_SDK/examples/get-started/hello_world
make menuconfig
In the menu, navigate to Serial flasher config
> Default serial port
to configure the serial port, where project will be loaded to. Confirm selection by pressing enter, save configuration by selecting < Save >
and then exit application by selecting < Exit >
.
Note: On Windows, serial ports have names like COM1. On MacOS, they start with
/dev/cu.
. On Linux, they start with/dev/tty
.
Here are couple of tips on navigation and use of menuconfig
:
- Use up & down arrow keys to navigate the menu.
- Use Enter key to go into a submenu, Escape key to go out or to exit.
- Type
?
to see a help screen. Enter key exits the help screen. - Use Space key, or
Y
andN
keys to enable (Yes) and disable (No) configuration items with checkboxes "[*]
" - Pressing
?
while highlighting a configuration item displays help about that item. - Type
/
to search the configuration items.
Once done configuring, press Escape multiple times to exit and say "Yes" to save the new configuration when prompted.
make all
... will compile app based on the config.
When make all
finishes, it will print a command line to use esptool.py to flash the chip. However you can also do this from make by running:
make flash
This will flash the entire project (app, bootloader and init data bin) to a new chip. The settings for serial port flashing can be configured with make menuconfig
.
You don't need to run make all
before running make flash
, make flash
will automatically rebuild anything which needs it.
The make monitor
target uses the idf_monitor tool to display serial output from the ESP32. idf_monitor also has a range of features to decode crash output and interact with the device. Check the documentation page for details.
Exit the monitor by typing Ctrl-].
To flash and monitor output in one pass, you can run:
make flash monitor
After the initial flash, you may just want to build and flash just your app, not the bootloader and init data bin:
make app
- build just the app.make app-flash
- flash just the app.
make app-flash
will automatically rebuild the app if it needs it.
(In normal development there's no downside to reflashing the bootloader and init data bin each time, if they haven't changed.)
Note: Recommend to use these 2 commands if you have flashed bootloader and init data bin.
ESP8266_RTOS_SDK supports compiling multiple files in parallel, so all of the above commands can be run as make -jN
where N
is the number of parallel make processes to run (generally N should be equal to or one more than the number of CPU cores in your system.)
Multiple make functions can be combined into one. For example: to build the app & bootloader using 5 jobs in parallel, then flash everything, and then display serial output from the ESP32 run:
make -j5 app-flash monitor
The make flash
target does not erase the entire flash contents. However it is sometimes useful to set the device back to a totally erased state. To erase the entire flash, run make erase_flash
.
This can be combined with other targets, ie make erase_flash flash
will erase everything and then re-flash the new app, bootloader and init data bin.
After some time of using ESP8266_RTOS_SDK-IDF, you may want to update it to take advantage of new features or bug fixes. The simplest way to do so is by deleting existing ESP8266_RTOS_SDK
folder and cloning it again.
Another solution is to update only what has changed. This method is useful if you have a slow connection to GitHub. To do the update run the following commands::
cd ~/esp/ESP8266_RTOS_SDK
git pull
The git pull
command is fetching and merging changes from ESP8266_RTOS_SDK repository on GitHub.