97c0204ab9
Also add some explanation about configuring the project in the README Previously with the default build-esp32.sh script, the build directory was deleted and recreated so the project would always be built with default config. |
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.. | ||
stubs | ||
build-esp32.sh | ||
build.sh | ||
CMakeLists.txt | ||
main.c | ||
README.md | ||
run-esp32.sh | ||
run.sh |
Using ESP-IDF in Custom CMake Projects
This example illustrates using ESP-IDF components as libraries in custom CMake projects. The application in this example can run on either host or on an ESP32, and the appropriate libraries are linked to the executable depending on which target is specified. If the target is an ESP32, the libraries created from ESP-IDF components are linked. On the other hand, stub libraries are linked if example is meant to be run on the host to simulate the same application behavior.
The application in this example is equivalent to the hello_world
example under examples/get-started/hello_world
.
Example Flow
Users looking at this example should focus on the top-level CMakeLists.txt file. This builds an application that can run on the target without relying on the typical ESP-IDF application template.
Output
Hello world!
This is ESP32 chip with 2 CPU cores, WiFi/BT/BLE, silicon revision 0, 4MB external flash
Restarting in 10 seconds...
Restarting in 9 seconds...
Restarting in 8 seconds...
Restarting in 7 seconds...
Restarting in 6 seconds...
Restarting in 5 seconds...
Restarting in 4 seconds...
Restarting in 3 seconds...
Restarting in 2 seconds...
Restarting in 1 seconds...
Restarting in 0 seconds...
Building this Example
To build this example, the user can either run build-esp32.sh to build for the ESP32 or run build.sh to build for the host:
# Builds the example for ESP32
./build-esp32.sh
Note: To build for a different target SoC, copy the build-esp32.sh
file and change the -DTARGET=esp32
clause on the second line.
or
# Builds the example to run on host
./build.sh
Flashing and Running this Example
To flash and run the example, users can run either run-esp32.sh or run.sh depending
on what the example was built for. In the case of run-esp32.sh
, the port needs to be specified:
# Run the example on device connected to /dev/ttyUSB1
./run-esp32.sh /dev/ttyUSB1
or
# Run the example on the host
./run.sh
Configuring this Example
To modify the example ESP-IDF project configuration, first create the CMake build directory. This can be done by running build-esp32.sh
or by running only the first two lines in build-esp32.sh
(which won't build the actual project yet).
Then execute the menuconfig build target in the build directory:
cmake --build build -- menuconfig
If using ninja directly:
ninja -C build menuconfig
Note: ESP-IDF project configuration isn't used by the host CMake builds, the config is only read when the project is built using the ESP-IDF build system.
There is a discussion on using ESP-IDF in custom CMake projects in the programming guide under API Guides
-> Build System
-> Using ESP-IDF in Custom CMake Projects