Long-Term Supported Versions

    Innovation Versions

      Building an RPM Package

      This section describes how to build an RPM software package on a local PC or using OBS. For details, see the openEuler Packaging Guide.

      Packaging Description

      Principles

      During RPM packaging, the source code needs to be compiled. The compiled configuration files and binary command files need to be placed in proper positions. The RPM packages need to be tested as required. A workspace is required for these operations. The rpmbuild command uses a set of standard workspaces.

      rpmdev-setuptree
      

      The rpmdev-setuptree command is provided by rpmdevtools. After the command is executed, the rpmbuild folder is generated in the /root directory (or the /home/username directory for non-root users). The directory structure is as follows:

      $ tree rpmbuild
      rpmbuild
      ├── BUILD
      ├── RPMS
      ├── SOURCES
      ├── SPECS
      └── SRPMS
      

      The content is described as follows:

      Content

      Macro Code

      Name

      Function

      ~/rpmbuild/BUILD

      %_builddir

      Build directory.

      The source code package is decompressed and compiled in a subdirectory of the directory.

      ~/rpmbuild/RPMS

      %_rpmdir

      Standard RPM package directory.

      The binary RPM package is generated and stored in this directory.

      ~/rpmbuild/SOURCES

      %_sourcedir

      Source code directory.

      The source code package (for example, .tar package) and all patches are stored in this directory.

      ~/rpmbuild/SPECS

      %_specdir

      Spec file directory.

      The RPM package configuration file (.spec) is stored in this directory.

      ~/rpmbuild/SRPMS

      %_srcrpmdir

      Source code RPM package directory.

      The source code RPM package (SRPM) is stored in this directory.

      The ~/rpmbuild/SPECS directory contains the configuration file of the RPM package, which tells the rpmbuild command how to build the RPM package. The Macro Code column contains the corresponding directories in the .spec file, which is similar to the macros in the programming languages or global variables.

      Packaging Process

      The packaging process is as follows:

      1. Place the source code in %_sourcedir.
      2. Compile the source code in %_builddir. Generally, the source code is compressed and needs to be decompressed first.
      3. Install the RPM package. The installation is similar to pre-assembling the software package. Copy the contents (such as binary files, configuration files, and man files) that should be contained in the software package to %_buildrootdir and assemble the contents based on the actual directory structure after installation. For example, if binary commands are stored in /usr/bin, copy the directory structure to %_buildrootdir.
      4. Perform necessary configurations, such as preparations before installation and cleanup after installation. These are configured in the SPEC file.
      5. Check whether the software runs properly.
      6. The generated RPM package is stored in %_rpmdir, and the source code package is stored in %_srcrpmdir.

      In the SPEC file, each phase is described as follows:

      Phase

      Directory to Be Read

      Directory to Which Data Is Written

      Action

      %prep

      %_sourcedir

      %_builddir

      Read the source code and patches in the %_sourcedir directory. Then, decompress the source code to the %_builddir subdirectory and apply all patches.

      %build

      %_builddir

      %_builddir

      Compile files in the %_builddir build directory. Run a command similar to ./configure && make.

      %install

      %_builddir

      %_buildrootdir

      Read files in the %_builddir build directory and install them to the %_buildrootdir directory. These files are generated after the RPM is installed.

      %check

      %_builddir

      %_builddir

      Check whether the software runs properly. Run a command similar to make test.

      bin

      %_buildrootdir

      %_rpmdir

      Read files in the %_buildrootdir final installation directory to create RPM packages in the %_rpmdir directory. In this directory, RPM packages of different architectures are stored in different subdirectories. The noarch directory stores RPM packages applicable to all architectures. These RPM files are the RPM packages that are finally installed by users.

      src

      %_sourcedir

      %_srcrpmdir

      Create the source code RPM package (SRPM for short, with the file name extension .src.rpm) and save it to the %_srcrpmdir directory. The SRPM package is usually used to review and upgrade software packages.

      Packaging Options

      Run the rpmbuild command to build the software package. The rpmbuild command can be used to build software packages by building .spec, .tar, and source files.

      The format of the rpmbuild command is rpmbuild [option...]

      Table 1 describes the common rpmbuild packaging options.

      Table 1 rpmbuild Packaging Options

      Option Value

      Description

      -bp specfile

      Execute only the %prep section of the specfile (decompress the source package and install the patch).

      -bc specfile

      Execute %prep and %build sections of the specfile (prepare and compile).

      -bi specfile

      Execute %prep,%build and %install sections of the specfile (prepare,compile and install).

      -bl specfile

      Check the %files section of the specfile (Check whether the files are complete).

      -ba specfile

      Uses the specfile to build the source code package and binary package.

      -bb specfile

      Uses the specfile to build the binary package.

      -bs specfile

      Uses the specfile to build the source code package.

      -rp sourcefile

      Starts build from the %prep phase of the sourcefile (decompresses the source code package and installs the patches).

      -rc sourcefile

      Starts build from the %build phase of the sourcefile.

      -ri sourcefile

      Starts build from the %install phase of the sourcefile.

      -rl sourcefile

      Starts build from the %files phase of the sourcefile.

      -ra sourcefile

      Uses the sourcefile to build the source code package and binary package.

      -rb sourcefile

      Uses the sourcefile to build the binary package.

      -rs sourcefile

      Uses the sourcefile to build the source code package.

      -tp tarfile

      Starts build from the %prep phase of the tarfile (decompresses the source code package and installs the patches).

      -tc tarfile

      Starts build from the %build phase of the tarfile.

      -ti tarfile

      Starts build from the %install phase of the tarfile.

      -ta tarfile

      Uses the tarfile to build the source code package and binary package.

      -tb tarfile

      Uses the tarfile to build the binary package.

      -ts tarfile

      Uses the tarfile to build the source code package.

      --buildroot=DIRECTORY

      During the build, uses DIRECTORY instead of the default /root directory.

      --clean

      Deletes the files in the BUILD directory.

      --nobuild

      No actual build steps are performed. It can be used to test the .spec file.

      --noclean

      Skips the %clean phase of the .spec file (even if it does exist).

      --nocheck

      Skips the %check phase of the .spec file (even if it does exist).

      --dbpath DIRECTORY

      Uses the database in DIRECTORY instead of the default directory /var/lib/rpm.

      --root DIRECTORY

      Sets DIRECTORY to the highest level. The default value is /, indicating the highest level.

      --rebuild sourcefile

      Installs the specified source code package sourcefile, that is, start preparation, compilation, and installation of the source code package.

      --recompile sourcefile

      Builds a new binary package based on --recompile. When the build is complete, the build directory, source code, and .spec file are deleted.

      The deletion effect is the same as that of --clean.

      -?, --help

      Displays detailed help information.

      --version

      Displays detailed version information.

      Building an RPM Package Locally

      This section uses an example to describe how to build an RPM software package locally.

      Setting Up the Development Environment

      Prerequisites

      You have obtained the root permission, and have configured a repo source for openEuler.

      Procedure

      You can use the DNF tool to install rpmdevtools, including the rpm-build command and related dependencies (such as make and gdb). Run the following command:

      dnf install rpmdevtools*
      

      Creating a Hello World RPM Package

      The following uses the packaging process of the GNU Hello World project as an example. The package contains the most common peripheral components related to the typical Free and Open Source Software (FOSS) project, including the configuration, compilation, and installation environments, documents, and internationalization (i18n) information.

      Obtaining the Source Code

      Run the following command to download the source code of the official example:

      cd ~/rpmbuild/SOURCES
      wget http://ftp.gnu.org/gnu/hello/hello-2.10.tar.gz
      

      Editing the SPEC File

      Run the following command to create the .spec file in the ~/rpmbuild/SPECS directory:

      cd ~/rpmbuild/SPECS
      vi hello.spec 
      

      Write the corresponding content to the file and save the file. The following is an example of the file content. Modify the corresponding fields based on the actual requirements.

      Name:     hello
      Version:  2.10
      Release:  1%{?dist}
      Summary:  The "Hello World" program from GNU
      Summary(zh_CN): GNU Hello World program
      License:  GPLv3+
      URL:      http://ftp.gnu.org/gnu/hello
      Source0:  http://ftp.gnu.org/gnu/hello/%{name}-%{version}.tar.gz
      
      BuildRequires:  gettext
      Requires(post): info
      Requires(preun): info
      
      %description
      The "Hello World" program, done with all bells and whistles of a proper FOSS
      project, including configuration, build, internationalization, help files, etc.
      
      %description -l zh_CN
      The Hello World program contains all parts required by the FOSS project, including configuration, build, i18n, and help files.
      
      %prep
      %setup -q
      
      %build
      %configure
      make %{?_smp_mflags}
      
      %install
      make install DESTDIR=%{buildroot}
      %find_lang %{name}
      rm -f %{buildroot}/%{_infodir}/dir
      
      %post
      /sbin/install-info %{_infodir}/%{name}.info %{_infodir}/dir || :
      
      %preun
      if [ $1 = 0 ] ; then
      /sbin/install-info --delete %{_infodir}/%{name}.info %{_infodir}/dir || :
      fi
      
      %files -f %{name}.lang
      %doc AUTHORS ChangeLog NEWS README THANKS TODO
      %license COPYING
      %{_mandir}/man1/hello.1.*
      %{_infodir}/hello.info.*
      %{_bindir}/hello
      
      %changelog
      * Thu Dec 26 2019 Your Name <youremail@xxx.xxx> - 2.10-1
      - Update to 2.10
      * Sat Dec 3 2016 Your Name <youremail@xxx.xxx> - 2.9-1
      - Update to 2.9
      
      • The Name tag indicates the software name, the Version tag indicates the version number, and the Release tag indicates the release number.
      • The Summary tag is a brief description. The first letter of the tag must be capitalized to prevent the rpmlint tool (packaging check tool) from generating alarms.
      • The License tag describes the protocol version of the software package. The packager is responsible for checking the license status of the software, which can be implemented by checking the source code or license file or communicating with the author.
      • The Group tag is used to classify software packages by /usr/share/doc/rpm/GROUPS. Currently, this tag has been discarded. However, the VIM template still has this tag. You can delete it. However, adding this tag does not affect the system. The %changelog tag should contain the log of changes made for each release, especially the description of the upstream security/vulnerability patches. The %changelog tag should contain the version string to avoid the rpmlint tool from generating alarms.
      • If multiple lines are involved, such as %changelog or %description, start from the next line of the instruction and end with a blank line.
      • Some unnecessary lines (such as BuildRequires and Requires) can be commented out with a number sign (#) at the beginning of the lines.
      • The default values of %prep, %build, %install, and %files are retained.

      Building an RPM Package

      Run the following command in the directory where the .spec file is located to build the source code, binary files, and software packages that contain debugging information:

      rpmbuild -ba hello.spec 
      

      Run the following command to view the execution result:

      $ tree ~/rpmbuild/*RPMS
      
      /home/testUser/rpmbuild/RPMS
      └── aarch64
          ├── hello-2.10-1.aarch64.rpm
          ├── hello-debuginfo-2.10-1.aarch64.rpm
          └── hello-debugsource-2.10-1.aarch64.rpm
      /home/testUser/rpmbuild/SRPMS
      └── hello-2.10-1.src.rpm
      

      Building an RPM Package Using the OBS

      This section describes how to build RPM software packages using the OBS on the web page or with OSC. There are two methods:

      • Modifying an existing software package: Modify the source code of an existing software package and build the modified source code into an RPM software package.
      • Creating a software package: Developing a new software source file from scratch, and then build the newly developed source file into an RPM software package.

      OBS Overview

      OBS is a generic compilation framework based on the openSUSE distribution. It is used to build source code packages into RPM software packages or Linux images. OBS uses the automatic distributed compilation mode and supports the compilation of images and installation packages of multiple Linux OS distributions (such as openEuler, SUSE, and Debian) on multiple architecture platforms (such as x86 and ARM64).

      OBS consists of the backend and frontend. The backend implements core functions. The frontend provides web applications and APIs for interaction with the backend. In addition, OBS provides an API command line client OSC, which is developed in an independent repository.

      OBS organizes the software packages as projects. Basic permission control, related repositories, and build targets (OS and architecture) can be defined in the project. A project can contain multiple subprojects. Each subproject can be configured independently to complete a task.

      Building an RPM Software Package Online

      This section describes how to build an RPM software package online using the OBS web client.

      Building an Existing Software Package

      NOTE:

      • If you use OBS for the first time, register an individual account on the OBS web page.
      • This method requires the modified code. You must submit the code to a correct code path before performing the following operations. The code path is specified in the _service file.

      To modify the source code of the existing software and build the modified source file into an RPM software package on the OBS web client, perform the following steps:

      1. Log in to OBS at https://build.openeuler.org/.

      2. Click All Projects. The All Projects page is displayed.

      3. Click the project to be modified. The project details page is displayed. For example, click openEuler:Mainline.

      4. On the project details page, search for the software package to be modified and click the software package name. The software package details page is displayed.

      5. Click Branch package. In the displayed dialog box, click Accept, as shown in Figure 1.

        Figure 1 Branch Confirmation page

      6. Click the _service file to go to the editing page, modify the file content, and then click Save. An example of the _service file content is as follows. userCodeURL and userCommitID indicate the user code path and commit version or branch, respectively.

        <services>
            <service name="tar_scm_kernel">
                <param name="scm">git</param>
                <param name="url">userCodeURL</param>
         <param name="revision">userCommitID</param>
            </service>
            <service name="recompress">
         <param name="compression">bz2</param>
         <param name="file">*.tar</param>
             </service>
        </services>
        

        NOTE: Click Save to save the _service file. OBS downloads the source code from the specified URL to the software directory of the corresponding OBS project based on the _service file description and replaces the original file. For example, the kernel directory of the openEuler:Mainline project in the preceding example.

      7. After the files are copied and replaced, OBS automatically starts to build the RPM software package. Wait until the build is complete and view the build status in the status bar on the right.

        • succeeded: The build is successful. You can click succeeded to view the build logs, as shown in Figure 2.

          Figure 2 Succeeded page

        • failed: The build failed. Click failed to view error logs, locate the fault, and rebuild again.

        • unresolvable: The build is not performed. A possible cause is missing dependencies.

        • disabled: The build is manually closed or is queuing for build.

        • excluded: The build is prohibited. The possible cause is that the .spec file is missing or the compilation of the target architecture is prohibited in the .spec file.

      Creating a Software Package

      To create a new software package on the OBS web page, perform the following steps:

      1. Log in to the OBS console.

      2. Select a project based on the dependency of the new software package. That is, click All Projects and select the corresponding project, for example, openEuler:Mainline.

      3. Click a software package in the project. The software package details page is displayed.

      4. Click Branch package. On the confirmation page that is displayed, click Accept.

      5. Click Delete package to delete the software package in the new subproject, as shown in Figure 3.

        Figure 3 Deleting a software package from a subproject

        NOTE: The purpose of creating a project by using existing software is to inherit the dependencies, such as the environment. Therefore, you need to delete these files.

      6. Click Create Package. On the page that is displayed, enter the software package name, title, and description, and click Create to create a software package, as shown in Figure 4 and Figure 5.

        Figure 4 Create Package page

        Figure 5 Creating a software package

      7. Click Add file to upload the .spec file and the file to be compiled (specified in the .spec file), as shown in Figure 6.

        Figure 6 Add file page

      8. After the file is uploaded, OBS automatically starts to build the RPM software package. Wait until the build is complete and view the build status in the status bar on the right.

        • succeeded: The build is successful. You can click succeeded to view the build logs.
        • failed: The build failed. Click failed to view error logs, locate the fault, and rebuild again.
        • unresolvable: The build is not performed. A possible cause is missing dependencies.
        • disabled: The build is manually closed or is queuing for build.
        • excluded: The build is prohibited. The possible cause is that the .spec file is missing or the compilation of the target architecture is prohibited in the .spec file.

      Obtaining the Software Package

      After the RPM software package is built, perform the following operations to obtain the RPM software package on the web page:

      1. Log in to the OBS console.

      2. Click All Projects and find the project corresponding to the required software package, for example, openEuler:Mainline.

      3. Click the name of the required software package in the project. The software package details page is displayed, for example, the kernel page in the preceding example.

      4. Click the Repositories tab. On the software repository management page that is displayed, click Enable in Publish Flag to enable the RPM software package download function (the status changes from to ), as shown in Figure 7.

        Figure 7 Repositories page

      5. Click the project name in the Repository column. On the RPM software package download page that is displayed, click Download on the right of the RPM software package to download the RPM software package, as shown in Figure 8.

        Figure 8 RPM software package download page

      Building a Software Package Using OSC

      This section describes how to use the OBS command line tool OSC to create a project and build an RPM software package.

      Installing and Configuring the OSC

      Prerequisites

      You have obtained the root permissions, and have configured an openEuler repo source.

      Procedure
      1. Install the OSC command line tool and its dependency as the root user.

        dnf install osc build
        

        NOTE: The compilation of RPM software packages depends on build.

      2. Configure the OSC.

        1. Run the following command to open the ~/.oscrc file:

          vi ~/.oscrc
          
        2. Add the user and pass fields to ~/.oscrc. The values of userName and passWord are the account and password registered on the OBS website (https://build.openeuler.org/).

          [general]
          apiurl = https://build.openeuler.org/
          [https://build.openeuler.org/]
          user=userName
          pass=passWord
          

      Building an Existing Software Package

      Creating a Project
      1. You can copy an existing project to create a subproject of your own. For example, to copy the zlib software package in the openEuler:Mainline project to the new branch, run the following command:

        osc branch openEuler:Mainline zlib
        

        If the following information is displayed, a new branch project home:testUser:branches:openEuler:Mainline is created for user testUser.

        A working copy of the branched package can be checked out with:
        osc co home:testUser:branches:openEuler:Mainline/zlib
        
      2. Download the configuration file (for example, _service) of the software package to be modified to the local directory. In the preceding command, testUser indicates the account name configured in the ~/.oscrc configuration file. Change it based on the actual requirements.

        osc co home:testUser:branches:openEuler:Mainline/zlib
        

        Information similar to the following is displayed:

        A    home:testUser:branches:openEuler:Mainline
        A    home:testUser:branches:openEuler:Mainline/zlib
        A    home:testUser:branches:openEuler:Mainline/zlib/_service
        
      3. Go to the local subproject directory and synchronize the remote code of the software package to the local host.

        cd home:testUser:branches:openEuler:Mainline/zlib
        osc up -S
        

        Information similar to the following is displayed:

        A    _service:tar_scm_kernel_repo:0001-Neon-Optimized-hash-chain-rebase.patch
        A    _service:tar_scm_kernel_repo:0002-Porting-optimized-longest_match.patch
        A    _service:tar_scm_kernel_repo:0003-arm64-specific-build-patch.patch
        A    _service:tar_scm_kernel_repo:zlib-1.2.11-optimized-s390.patch
        A    _service:tar_scm_kernel_repo:zlib-1.2.11.tar.xz
        A    _service:tar_scm_kernel_repo:zlib-1.2.5-minizip-fixuncrypt.patch
        A    _service:tar_scm_kernel_repo:zlib.spec
        
      Building an RPM Package
      1. Rename the source file and add the renamed source file to the temporary storage of OBS.

        rm -f _service;for file in `ls | grep -v .osc`;do new_file=${file##*:};mv $file $new_file;done
        osc addremove *
        
      2. Modify the source code and .spec file, and run the following command to update the file.

        osc up
        
      3. Synchronize all modifications of the corresponding software package to the OBS server. The following is an example command. The information after the -m parameter is the commit log.

        osc ci -m "commit log"
        
      4. Run the following command to obtain the repository name and architecture of the current project:

        osc repos home:testUser:branches:openEuler:Mainline
        
      5. After the modification is committed, OBS automatically compiles the software package. You can run the following command to view the compilation logs of the corresponding repository. In the command, standard\_aarch64 and aarch64 are the repository name and architecture obtained in the command output.

        osc buildlog standard_aarch64  aarch64
        

        NOTE: You can also open the created project on the web client to view the build logs.

      Creating a Software Package

      To use the OSC tool of OBS to create a new software package, perform the following steps:

      Creating a Project
      1. Create a project based on the dependency of the new software package and a proper project. For example, to create a project based on zlib of the openEuler:Mainline project, run the following command (zlib is any software package in the project):

        osc branch openEuler:Mainline zlib
        
      2. Delete unwanted software packages added during project creation. For example, to delete the zlib software package, run the following command:

        cd home:testUser:branches:openEuler:Mainline
        osc rm zlib
        osc commit -m "commit log"
        
      3. Create a software package in your own project. For example, to create a my-first-obs-package software package, run the following command:

        mkdir my-first-obs-package 
        cd my-first-obs-package
        
      Building an RPM Package
      1. Add the prepared source file and .spec file to the software package directory.

      2. Modify the source code and .spec file, and upload all files of the corresponding software package to the OBS server. The following is a command example. The information after the -m parameter is the commit log.

        cd home:testUser:branches:openEuler:Mainline
        osc add my-first-obs-package
        osc ci -m "commit log"
        
      3. Run the following command to obtain the repository name and architecture of the current project:

        osc repos home:testUser:branches:openEuler:Mainline
        
      4. After the modification is committed, OBS automatically compiles the software package. You can run the following command to view the compilation logs of the corresponding repository. In the command, standard\_aarch64 and aarch64 are the repository name and architecture obtained in the command output.

        cd home:testUser:branches:openEuler:Mainline/my-first-obs-package
        osc buildlog standard_aarch64  aarch64
        

        NOTE: You can also open the created project on the web client to view the build logs.

      Obtaining the Software Package

      After the RPM software package is built, run the following command to obtain the RPM software package using OSC:

      osc getbinaries home:testUser:branches:openEuler:Mainline my-first-obs-package standard_aarch64 aarch64
      

      The parameters in the command are described as follows. You can modify the parameters according to the actual situation.

      • home:testUser:branches:openEuler:Mainline: name of the project to which the software package belongs.
      • my-first-obs-package: name of the software package.
      • standard\_aarch64: repository name.
      • aarch64: repository architecture name.

      NOTE: You can also obtain the software package built using OSC from the web page. For details, see Obtaining the Software Package.

      Bug Catching

      Buggy Content

      Bug Description

      Submit As Issue

      It's a little complicated....

      I'd like to ask someone.

      PR

      Just a small problem.

      I can fix it online!

      Bug Type
      Specifications and Common Mistakes

      ● Misspellings or punctuation mistakes;

      ● Incorrect links, empty cells, or wrong formats;

      ● Chinese characters in English context;

      ● Minor inconsistencies between the UI and descriptions;

      ● Low writing fluency that does not affect understanding;

      ● Incorrect version numbers, including software package names and version numbers on the UI.

      Usability

      ● Incorrect or missing key steps;

      ● Missing prerequisites or precautions;

      ● Ambiguous figures, tables, or texts;

      ● Unclear logic, such as missing classifications, items, and steps.

      Correctness

      ● Technical principles, function descriptions, or specifications inconsistent with those of the software;

      ● Incorrect schematic or architecture diagrams;

      ● Incorrect commands or command parameters;

      ● Incorrect code;

      ● Commands inconsistent with the functions;

      ● Wrong screenshots.

      Risk Warnings

      ● Lack of risk warnings for operations that may damage the system or important data.

      Content Compliance

      ● Contents that may violate applicable laws and regulations or geo-cultural context-sensitive words and expressions;

      ● Copyright infringement.

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