Managing the code base
To obtain and manage the nRF Connect SDK code base, you must use a combination of Git and west.
As described in nRF Connect SDK code base, the nRF Connect SDK contains the following repositories:
The manifest repository, sdk-nrf. This repository is managed by the user using Git exclusively, since west will not modify or update it in any way. The exception to this is the
west init
command, which can clone the manifest repository automatically at an arbitrary revision.The west projects. Those are listed in the manifest repository’s
west.yml
manifest file. They are entirely managed by west, which will clone them or check out a specific revision of them every time you runwest update
.
Obtaining a copy of the nRF Connect SDK
To obtain a fresh copy of the nRF Connect SDK at revision {revision}
and place it in a folder named ncs
, use the following commands:
west init -m https://github.com/nrfconnect/sdk-nrf --mr {revision} ncs
cd ncs
west update
Replace {revision}
with any revision you wish to obtain.
This can be main
if you want the latest state, or any released version (for example, v1.9.2
).
If you omit the --mr
parameter, west defaults to main
.
This is the procedure used for getting the nRF Connect SDK code when Installing manually.
Updating a copy of the nRF Connect SDK
If you already have a copy of the nRF Connect SDK and wish to update it or switch to a new revision, then you only need to do the following:
cd ncs/nrf
git fetch {remote}
# Check out the latest main branch
git checkout {remote}/main
# or check out a release
git checkout {revision}
west update
Where {remote}
is the Git remote that points to the official Nordic repository.
This is called origin
by default for the sdk-nrf repository and ncs
for most others, but may have another name.
You can use git remote -v
to list all your remotes.
This is the procedure used for Updating the repositories after Installing manually.
However, using git checkout
is one of multiple ways of achieving this.
Git offers several commands and mechanisms to set the current working copy of a repository to a particular revision.
Depending on how you manage the branches of your local clone of the sdk-nrf repository, you can also replace the use of git checkout
with, among many others:
# If you have no changes of your own
git reset --hard {remote}/main
git reset --hard {revision}
# If you have changes of your own
git rebase {remote}/main
git rebase {revision}
Describing the exact differences between the commands above is outside the scope of this section. Refer to the publicly available Git documentation.
Forking a repository of the nRF Connect SDK
In some cases, you might want to keep a Soft fork of one or more repositories that are part of the nRF Connect SDK. The procedure to achieve that is the same regardless of whether you fork the manifest repository and/or one or more project repositories.
There are two similar but slightly different meanings to the term “fork”, as described in the Glossary:
A fork in general terms is a server-hosted copy of an upstream repository with a few downstream changes on top of it. It can be hosted on GitHub or elsewhere.
A GitHub fork is GitHub’s mechanism to copy an existing repository and then send Pull Requests from it to the upstream repository.
A GitHub fork can be used to send Pull Requests and to act as a regular long-lived fork in general terms. You can also create standard forks with GitHub by just creating an empty repository first and then initializing it with the contents of the upstream repository you wish to fork.
Note
About Git remotes: The default name for a remote is origin
but you can pick any arbitrary name for a remote.
By convention, the following remote names are typically used:
origin
usually points to the user’s personal copy of the repository.ncs
is used to point to the nRF Connect SDK repository.upstream
typically points to the upstream repository, when applicable.
The west init
command creates a remote named origin
that points to the original location of the cloned manifest repository.
The west update
command, on the other hand, uses the remote:
property in the west.yml
file to name the remote pointing to the original location.
If you want to create a GitHub fork follow the steps below:
Create a GitHub fork using the Fork button in the GitHub user interface.
Add the newly created remote repository as a Git remote:
cd ncs/{folder_path} # Rename the default remote from 'origin' to 'ncs', if required git remote rename origin ncs git remote add origin https://github.com/{username}/{repo}.git
For example, to create a fork of the sdk-nrf repository for GitHub user
foo
:cd ncs/nrf # The manifest repository defaults to a remote named 'origin' git remote rename origin ncs git remote add origin https://github.com/foo/sdk-nrf.git
If you were to fork an OSS repository instead, which itself is already a fork of the original upstream project:
cd ncs/zephyr # No need to rename the remote, since it will already be named 'ncs' git remote add origin https://github.com/foo/sdk-zephyr.git git remote add upstream https://github.com/zephyrproject-rtos/zephyr.git
That way you would actually have three remotes, each pointing to the relevant copy of the Zephyr codebase:
origin
pointing to your own fork ofsdk-zephyr
.
ncs
pointing to the nRF Connect SDK sdk-zephyr.
upstream
pointing to the upstream official Zephyr repository.
To create a regular fork, follow the exact same steps as above, but the actual repository must be created by you beforehand, instead of clicking Fork in GitHub. Also, since a GitHub fork automatically initializes the forked repository with the exact same contents as the original one, you must push the contents yourself:
cd ncs/{folder_path}
# Rename the default remote from 'origin' to 'ncs'
git remote rename origin ncs
git remote add origin https://github.com/{username}/{repo}.git
git push origin main