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159 lines
5.7 KiB
159 lines
5.7 KiB
3 years ago
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# Raspberry Pi Pico SDK
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The Raspberry Pi Pico SDK (henceforth the SDK) provides the headers, libraries and build system
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necessary to write programs for the RP2040-based devices such as the Raspberry Pi Pico
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in C, C++ or assembly language.
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The SDK is designed to provide an API and programming environment that is familiar both to non-embedded C developers and embedded C developers alike.
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A single program runs on the device at a time and starts with a conventional `main()` method. Standard C/C++ libraries are supported along with
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C level libraries/APIs for accessing all of the RP2040's hardware include PIO (Programmable IO).
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Additionally the SDK provides higher level libraries for dealing with timers, synchronization, USB (TinyUSB) and multi-core programming
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along with various utilities.
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The SDK can be used to build anything from simple applications, to fully fledged runtime environments such as MicroPython, to low level software
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such as RP2040's on-chip bootrom itself.
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Additional libraries/APIs that are not yet ready for inclusion in the SDK can be found in [pico-extras](https://github.com/raspberrypi/pico-extras).
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# Documentation
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See [Getting Started with the Raspberry Pi Pico](https://rptl.io/pico-get-started) for information on how to setup your
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hardware, IDE/environment and for how to build and debug software for the Raspberry Pi Pico
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and other RP2040-based devices.
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See [Raspberry Pi Pico C/C++ SDK](https://rptl.io/pico-c-sdk) to learn more about programming using the
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SDK, to explore more advanced features, and for complete PDF-based API documentation.
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See [Online Raspberry Pi Pico SDK API docs](https://rptl.io/pico-doxygen) for HTML-based API documentation.
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# Example code
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See [pico-examples](https://github.com/raspberrypi/pico-examples) for example code you can build.
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# Quick-start your own project
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These instructions are extremely terse, and Linux-based only. For detailed steps,
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instructions for other platforms, and just in general, we recommend you see [Raspberry Pi Pico C/C++ SDK](https://rptl.io/pico-c-sdk)
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1. Install CMake (at least version 3.13), and GCC cross compiler
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```
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sudo apt install cmake gcc-arm-none-eabi libnewlib-arm-none-eabi libstdc++-arm-none-eabi-newlib
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```
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1. Set up your project to point to use the Raspberry Pi Pico SDK
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* Either by cloning the SDK locally (most common) :
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1. `git clone` this Raspberry Pi Pico SDK repository
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1. Copy [pico_sdk_import.cmake](https://github.com/raspberrypi/pico-sdk/blob/master/external/pico_sdk_import.cmake)
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from the SDK into your project directory
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2. Set `PICO_SDK_PATH` to the SDK location in your environment, or pass it (`-DPICO_SDK_PATH=`) to cmake later.
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3. Setup a `CMakeLists.txt` like:
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```cmake
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cmake_minimum_required(VERSION 3.13)
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# initialize the SDK based on PICO_SDK_PATH
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# note: this must happen before project()
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include(pico_sdk_import.cmake)
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project(my_project)
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# initialize the Raspberry Pi Pico SDK
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pico_sdk_init()
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# rest of your project
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```
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* Or with the Raspberry Pi Pico SDK as a submodule :
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1. Clone the SDK as a submodule called `pico-sdk`
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1. Setup a `CMakeLists.txt` like:
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```cmake
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cmake_minimum_required(VERSION 3.13)
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# initialize pico-sdk from submodule
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# note: this must happen before project()
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include(pico-sdk/pico_sdk_init.cmake)
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project(my_project)
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# initialize the Raspberry Pi Pico SDK
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pico_sdk_init()
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# rest of your project
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```
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* Or with automatic download from GitHub :
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1. Copy [pico_sdk_import.cmake](https://github.com/raspberrypi/pico-sdk/blob/master/external/pico_sdk_import.cmake)
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from the SDK into your project directory
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1. Setup a `CMakeLists.txt` like:
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```cmake
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cmake_minimum_required(VERSION 3.13)
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# initialize pico-sdk from GIT
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# (note this can come from environment, CMake cache etc)
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set(PICO_SDK_FETCH_FROM_GIT on)
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# pico_sdk_import.cmake is a single file copied from this SDK
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# note: this must happen before project()
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include(pico_sdk_import.cmake)
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project(my_project)
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# initialize the Raspberry Pi Pico SDK
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pico_sdk_init()
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# rest of your project
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```
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1. Write your code (see [pico-examples](https://github.com/raspberrypi/pico-examples) or the [Raspberry Pi Pico C/C++ SDK](https://rptl.io/pico-c-sdk) documentation for more information)
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About the simplest you can do is a single source file (e.g. hello_world.c)
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```c
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#include <stdio.h>
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#include "pico/stdlib.h"
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int main() {
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setup_default_uart();
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printf("Hello, world!\n");
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return 0;
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}
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```
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And add the following to your `CMakeLists.txt`:
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```cmake
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add_executable(hello_world
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hello_world.c
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)
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# Add pico_stdlib library which aggregates commonly used features
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target_link_libraries(hello_world pico_stdlib)
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# create map/bin/hex/uf2 file in addition to ELF.
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pico_add_extra_outputs(hello_world)
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```
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Note this example uses the default UART for _stdout_;
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if you want to use the default USB see the [hello-usb](https://github.com/raspberrypi/pico-examples/tree/master/hello_world/usb) example.
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1. Setup a CMake build directory.
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For example, if not using an IDE:
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```
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$ mkdir build
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$ cd build
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$ cmake ..
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```
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1. Make your target from the build directory you created.
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```sh
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$ make hello_world
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```
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1. You now have `hello_world.elf` to load via a debugger, or `hello_world.uf2` that can be installed and run on your Raspberry Pi Pico via drag and drop.
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