\section{Gitlab workflow} \label{sec:glw} \begin{figure} \begin{center} \input{img_gitlab.tex} \caption{Gitlab workflow} \label{fig:gitlab_workflow} \end{center} \end{figure} Figure \ref{fig:gitlab_workflow} gives an overview of the gitlab workflow. The workflow is splitted in different phases:\\ \begin{itemize} \item Implementation phase \item Code freeze \item Release phase \end{itemize} For these different phases The continuous integration/delivery system triggers different build stages. For further details please refer to section \ref{sec:ci}. \subsection{Implementation phase} While in implementation phase every implementation for the next release is done. Every implementation has to be done on a seperate branch. After finishing an implementation the branch it was made on has to be merged back to the master branch. As defined an implementation could be one of:\\ \begin{itemize} \item Feature \item Fix \end{itemize} \subsubsection{Feature implementation} A feature is a a new piece of code that implements new functionality into the system. \subsubsection{Fix implementation} If in any testing phase an issue is detected these issue can be fixed with a fix implementation. \subsubsection{Further kinds of implementation} Beside these defined implementations any other kind of implementation is possible but has to be made also on a seperate branch. \subsection{Code freeze} The transition between implementation phase and release phase is called code freeze. Code freeze means each for the upcoming release planned feature is implemented and merged to the main branch (normally master) of the project's git repository (see figure \ref{fig:gitlab_workflow}). For the upcoming release a "\texttt{release/...}" named branch is created. For a proper release configuration it is necessary to configure the ci build job before creating the release branch (see section \ref{sec:ci_conf}) . \subsection{Release phase} Any release relevant issue that is detected while release phase has to be fixed at the release branch. The release phase is splitted into different stages: \begin{itemize} \item Internal release(s) \item External release \end{itemize} \subsubsection{Internal release(s)} Each push to a release branch triggers the creation of an internal release. Only internal releases must be used to system test the release branch. For details please refer to section \ref{sec:ci_int}. \subsubsection{External release} If no further release relevant issues could be found (or are accepted as known issues) an external release is created by tagging the commit which should be delivered to the customer. For details please refer to section \ref{sec:ci_ext}. \section{Continuous integration/delivery} \label{sec:ci} As continuous integration system the gitlab built in ci-system \textit{gitlab-ci} is used. Beside the most important task of ci, ensure constant high code quality, the ci system is used for various tasks: \begin{itemize} \item Automated static code analysis \item Automated build \item Automated test (not implemented yet) \item Internal release deployment \item External release deployment \item Automated release note generation (not implemented yet) \end{itemize} \subsection{Internal release deployment} \label{sec:ci_int} \FloatBarrier \begin{figure} \begin{center} \input{img_deploy.tex} \caption{Deployment of release candidats and releases} \label{fig:deployment} \end{center} \end{figure} For a branch named \texttt{release/...} the creation of a release candidate is triggered automatically. Figure \ref{fig:deployment} illustrates the deployment process. The internal release is processing the following steps: \\ \begin{enumerate} \item Build project variant specific configuration \item Static code analysis of project variant specific configuration \item Name the release depending on the release naming convention \item Build release notes for the release candidate \item Deploy the release to the project's release candidate deploy location \end{enumerate} \subsection{External release deployment} \label{sec:ci_ext} To create an external release the commit to be released must be tagged using the following naming convention:\\ \texttt{release/}.\\ The project specific naming convention for Agricola ruby is:\\ \texttt{release/174\_AG*}.\\ \begin{enumerate} \item Build project variant specific configuration \item Static code analysis of project variant specific configuration \item Name the release depending on the release naming convention \item Build release notes for the release \item Deploy the release to the project's release deploy location \end{enumerate} \subsection{Configuring the build jobs} \label{sec:ci_conf} The configuration of gitlab-ci is made in the \texttt{.gitlab-ci.yml} file in the root directory of the project's repository. The certain build stages are using variables to customize the build. These variables are defined in the \texttt{variables} section of the config file. Table \ref{tab:conf_var} and listing \ref{lst:ag_cfg} gives an overview about customizing a release phase. \captionof{table}{Variables to customize a release phase} \label{tab:conf_var} \begin{tabular}{l l l} \cellcolor{black}\color{white}variable & \cellcolor{black}\color{white}meaning & \cellcolor{black}\color{white}example\\ PRODUCT\_NAME & Short of the product name & AG\\ PRODUCT\_VARIANT & Short of the product variant & NA\\ PROJECT\_VERSION & ?? & 10\\ SW\_MAJOR & Software major number & 1\\ SW\_MINOR & Software minor number & 2\\\\ \end{tabular} \newline \lstsetbash \begin{lstlisting}[caption=variables configuration, label=lst:ag_cfg] variables: PRODUCT_NAME: "AG" PRODUCT_VARIANT: "NA" PROJECT_VERSION: "10" SW_MAJOR: "1" SW_MINOR: "2" \end{lstlisting} \textbf{Remember}, it is a good idea to change these values before creating the release branch, creating (and pushing) the branch triggers the build of a release candidate. \begin{figure} \begin{center} \input{img_history.tex} \caption{Git commit history} \label{fig:git_commit_history} \end{center} \end{figure}