Index: head/en_US.ISO8859-1/books/porters-handbook/testing/chapter.xml =================================================================== --- head/en_US.ISO8859-1/books/porters-handbook/testing/chapter.xml (revision 53597) +++ head/en_US.ISO8859-1/books/porters-handbook/testing/chapter.xml (revision 53598) @@ -1,937 +1,937 @@ Testing the Port Running <command>make describe</command> Several of the &os; port maintenance tools, such as &man.portupgrade.1;, rely on a database called /usr/ports/INDEX which keeps track of such items as port dependencies. INDEX is created by the top-level ports/Makefile via make index, which descends into each port subdirectory and executes make describe there. Thus, if make describe fails in any port, no one can generate INDEX, and many people will quickly become unhappy. It is important to be able to generate this file no matter what options are present in make.conf, so please avoid doing things such as using .error statements when (for instance) a dependency is not satisfied. (See .) If make describe produces a string rather than an error message, everything is probably safe. See bsd.port.mk for the meaning of the string produced. Also note that running a recent version of portlint (as specified in the next section) will cause make describe to be run automatically. Portlint Do check the port with portlint before submitting or committing it. portlint warns about many common errors, both functional and stylistic. For a new (or repocopied) port, portlint -A is the most thorough; for an existing port, portlint -C is sufficient. Since portlint uses heuristics to try to figure out errors, it can produce false positive warnings. In addition, occasionally something that is flagged as a problem really cannot be done in any other way due to limitations in the ports framework. When in doubt, the best thing to do is ask on &a.ports;. Port Tools The ports-mgmt/porttools program is part of the Ports Collection. port is the front-end script, which can help simplify the testing job. Whenever a new port or an update to an existing one needs testing, use port test to test the port, including the portlint checking. This command also detects and lists any files that are not listed in pkg-plist. For example: &prompt.root; port test /usr/ports/net/csup <varname>PREFIX</varname> and <varname>DESTDIR</varname> PREFIX determines where the port will be installed. It defaults to /usr/local, but can be set by the user to a custom path like /opt. The port must respect the value of this variable. DESTDIR, if set by the user, determines the complete alternative environment, usually a jail or an installed system mounted somewhere other than /. A port will actually install into DESTDIR/PREFIX, and register with the package database in DESTDIR/var/db/pkg. As DESTDIR is handled automatically by the ports infrastructure with &man.chroot.8;. There is no need for modifications or any extra care to write DESTDIR-compliant ports. The value of PREFIX will be set to LOCALBASE (defaulting to /usr/local). If USE_LINUX_PREFIX is set, PREFIX will be LINUXBASE (defaulting to /compat/linux). Avoiding hard-coded /usr/local paths in the source makes the port much more flexible and able to cater to the needs of other sites. Often, this can be accomplished by replacing occurrences of /usr/local in the port's various Makefiles with ${PREFIX}. This variable is automatically passed down to every stage of the build and install processes. Make sure the application is not installing things in /usr/local instead of PREFIX. A quick test for such hard-coded paths is: &prompt.user; make clean; make package PREFIX=/var/tmp/`make -V PORTNAME` If anything is installed outside of PREFIX, the package creation process will complain that it cannot find the files. In addition, it is worth checking the same with the stage directory support (see ): &prompt.user; make stage && make check-plist && make stage-qa && make package check-plist checks for files missing from the plist, and files in the plist that are not installed by the port. stage-qa checks for common problems like bad shebang, symlinks pointing outside the stage directory, setuid files, and non-stripped libraries... These tests will not find hard-coded paths inside the port's files, nor will it verify that LOCALBASE is being used to correctly refer to files from other ports. The temporarily-installed port in /var/tmp/`make -V PORTNAME` must be tested for proper operation to make sure there are no problems with paths. PREFIX must not be set explicitly in a port's Makefile. Users installing the port may have set PREFIX to a custom location, and the port must respect that setting. Refer to programs and files from other ports with the variables mentioned above, not explicit pathnames. For instance, if the port requires a macro PAGER to have the full pathname of less, do not use a literal path of /usr/local/bin/less. Instead, use ${LOCALBASE}: -DPAGER=\"${LOCALBASE}/bin/less\" The path with LOCALBASE is more likely to still work if the system administrator has moved the whole /usr/local tree somewhere else. All these tests are done automatically when running poudriere testport or poudriere bulk -t. It is highly recommended that every ports contributor install and test their ports with it. See for more information. <application>Poudriere</application> For a ports contributor, Poudriere is one of the most important and helpful testing and build tools. Its main features include: Bulk building of the entire ports tree, specific subsets of the ports tree, or a single port including its dependencies Automatic packaging of build results Generation of build log files per port Providing a signed &man.pkg.8; repository Testing of port builds before submitting a patch to the &os; bug tracker or committing to the ports tree Testing for successful ports builds using different options Because Poudriere performs its building in a clean &man.jail.8; environment and uses &man.zfs.8; features, it has several advantages over traditional testing on the host system: No pollution of the host environment: No leftover files, no accidental removals, no changes of existing configuration files. Verify pkg-plist for missing or superfluous entries Ports committers sometimes ask for a Poudriere log alongside a patch submission to assess whether the patch is ready for integration into the ports tree It is also quite straightforward to set up and use, has no dependencies, and will run on any supported &os; release. This section shows how to install, configure, and run Poudriere as part of the normal workflow of a ports contributor. The examples in this section show a default file layout, as standard in &os;. Substitute any local changes accordingly. The ports tree, represented by ${PORTSDIR}, is located in /usr/ports. Both ${LOCALBASE} and ${PREFIX} are /usr/local by default. Installing <application>Poudriere</application> Poudriere is available in the ports tree in ports-mgmt/poudriere. It can be installed using &man.pkg.8; or from ports: &prompt.root; pkg install poudriere or &prompt.root; make -C /usr/ports/ports-mgmt/poudriere install clean There is also a work-in-progress version of Poudriere which will eventually become the next release. It is available in ports-mgmt/poudriere-devel. This development version is used for the official &os; package builds, so it is well tested. It often has newer interesting features. A ports committer will want to use the development version because it is what is used in production, and has all the new features that will make sure everything is exactly right. A contributor will not necessarily need those as the most important fixes are backported to released version. The main reason for the use of the development version to build the official package is because it is faster, in a way that will shorten a full build from 18 hours to 17 hours when using a high end 32 CPU server with 128GB of RAM. Those optimizations will not matter a lot when building ports on a desktop machine. Setting Up <application>Poudriere</application> The port installs a default configuration file, /usr/local/etc/poudriere.conf. Each parameter is documented in the configuration file and in &man.poudriere.8;. Here is a minimal example config file: ZPOOL=tank ZROOTFS=/poudriere BASEFS=/poudriere DISTFILES_CACHE=/usr/ports/distfiles RESOLV_CONF=/etc/resolv.conf FREEBSD_HOST=ftp://ftp.freebsd.org SVN_HOST=svn.FreeBSD.org ZPOOL The name of the ZFS storage pool which Poudriere shall use. Must be listed in the output of zpool status. ZROOTFS The root of Poudriere-managed file systems. This entry will cause Poudriere to create &man.zfs.8; file systems under tank/poudriere. BASEFS The root mount point for Poudriere file systems. This entry will cause Poudriere to mount tank/poudriere to /poudriere. DISTFILES_CACHE Defines where distfiles are stored. In this example, Poudriere and the host share the distfiles storage directory. This avoids downloading tarballs which are already present on the system. RESOLV_CONF Use the host /etc/resolv.conf inside jails for DNS. This is needed so jails can resolve the URLs of distfiles when downloading. It is not needed when using a proxy. Refer to the default configuration file for proxy configuration. FREEBSD_HOST The FTP/HTTP server to use when the jails are installed from &os; releases and updated with &man.freebsd-update.8;. Choose a server location which is close, for example if the machine is located in Australia, use ftp.au.freebsd.org. SVN_HOST The server from where jails are installed and updated when using Subversion. Also used for ports tree when not using &man.portsnap.8;. Again, choose a nearby location. A list of official Subversion mirrors can be found in the &os; Handbook Subversion section. Creating <application>Poudriere</application> Jails Create the base jails which Poudriere will use for building: &prompt.root; poudriere jail -c -j 111Ramd64 -v 11.1-RELEASE -a amd64 Fetch a 11.1-RELEASE for amd64 from the FTP server given by FREEBSD_HOST in poudriere.conf, create the zfs file system tank/poudriere/jails/111Ramd64, mount it on /poudriere/jails/111Ramd64 and extract the 11.1-RELEASE tarballs into this file system. &prompt.root; poudriere jail -c -j 11i386 -v stable/11 -a i386 -m svn+https Create tank/poudriere/jails/11i386, mount it on /poudriere/jails/11i386, then check out the tip of the Subversion branch of &os;-11-STABLE from SVN_HOST in poudriere.conf into /poudriere/jails/11i386/usr/src, then complete a buildworld and install it into /poudriere/jails/11i386. If a specific Subversion revision is needed, append it to the version string. For example: &prompt.root; poudriere jail -c -j 11i386 -v stable/11@123456 -a i386 -m svn+https While it is possible to build a newer version of &os; on an older version, most of the time it will not run. For example, if a stable/11 jail is needed, the host will have to run stable/11 too. Running 11.0-RELEASE is not enough. To create a Poudriere jail - for 12.0-CURRENT: + for 13.0-CURRENT: &prompt.root; poudriere jail -c -j 12amd64 -v head -a amd64 -m svn+https - In order to run a 12.0-CURRENT + In order to run a 13.0-CURRENT Poudriere jail you must be - running 12.0-CURRENT. In general, newer + running 13.0-CURRENT. In general, newer kernels can build and run older jails. For instance, a - 12.0-CURRENT kernel can build and run a + 13.0-CURRENT kernel can build and run a 11.1-STABLE Poudriere jails if the COMPAT_FREEBSD11 kernel option was compiled in (on by default in - 12.0-CURRENT + 13.0-CURRENT GENERIC kernel config). The default svn protocol works but is not very secure. Using svn+https along with verifying the remote server's SSL fingerprint is advised. It will ensure that the files used for building the jail are from a trusted source. A list of jails currently known to Poudriere can be shown with poudriere jail -l: &prompt.root; poudriere jail -l JAILNAME VERSION ARCH METHOD 111Ramd64 11.1-RELEASE amd64 ftp 11i386 11.0-STABLE i386 svn+https Keeping <application>Poudriere</application> Jails Updated Managing updates is very straightforward. The command: &prompt.root; poudriere jail -u -j JAILNAME updates the specified jail to the latest version available. For &os; releases, update to the latest patchlevel with &man.freebsd-update.8;. For &os; versions built from source, update to the latest Subversion revision in the branch. For jails employing a svn+* method, it is helpful to add -J NumberOfParallelBuildJobs to speed up the build by increasing the number of parallel compile jobs used. For example, if the building machine has 6 CPUs, use: &prompt.root; poudriere jail -u -J 6 -j JAILNAME Setting Up Ports Trees for Use with <application>Poudriere</application> There are multiple ways to use ports trees in Poudriere. The most straightforward way is to have Poudriere create a default ports tree for itself: &prompt.root; poudriere ports -c This command creates tank/poudriere/ports/default, mount it on /poudriere/ports/default, and populate it using &man.portsnap.8;. Afterward it is included in the list of known ports trees: &prompt.root; poudriere ports -l PORTSTREE METHOD PATH default portsnap /poudriere/ports/default Note that the default ports tree is special. Each of the build commands explained later will implicitly use this ports tree unless specifically specified otherwise. To use another tree, add -p treename to the commands. While useful for regular bulk builds, having this default ports tree with the &man.portsnap.8; method may not be the best way to deal with local modifications for a ports contributor. As with the creation of jails, it is possible to use a different method for creating the ports tree. To add an additional ports tree for testing local modifications and ports development, checking out the tree via Subversion is possible: &prompt.root; poudriere ports -c -m svn+https -p subversive The http and https methods need devel/subversion built with the SERF option enabled. It is enabled by default. Creates tank/poudriere/ports/subversive and mounts it on /poudriere/ports/subversive. It is then populated using Subversion. Finally, it is added to the list of known ports trees: &prompt.root; poudriere ports -l PORTSTREE METHOD PATH default portsnap /poudriere/ports/default subversive svn+https /poudriere/ports/subversive The svn method allows extra qualifiers to tell Subversion exactly how to fetch data. This is explained in &man.poudriere.8;. For instance, poudriere ports -c -m svn+ssh -p subversive uses SSH for the checkout. Using Manually Managed Ports Trees with Poudriere Depending on the workflow, it can be extremely helpful to use ports trees which are maintained manually. For instance, if there is a local copy of the ports tree in /work/ports, point Poudriere to the location: &prompt.root; poudriere ports -c -F -f none -M /work/ports -p development This will be listed in the table of known trees: &prompt.root; poudriere ports -l PORTSTREE METHOD PATH development - /work/ports The dash in the METHOD column means that Poudriere will not update or change this ports tree, ever. It is completely up to the user to maintain this tree, including all local modifications that may be used for testing new ports and submitting patches. Keeping Poudriere Ports Trees Updated As straightforward as with jails described earlier: &prompt.root; poudriere ports -u -p PORTSTREE Will update the given PORTSTREE, one tree given by the output of poudriere -l, to the latest revision available on the official servers. Ports trees without a method, see , cannot be updated like this. They must be updated manually by the porter. Testing Ports After jails and ports trees have been set up, the result of a contributor's modifications to the ports tree can be tested. For example, local modifications to the www/firefox port located in /work/ports/www/firefox can be tested in the previously created 11.1-RELEASE jail: &prompt.root; poudriere testport -j 111Ramd64 -p development -o www/firefox This will build all dependencies of Firefox. If a dependency has been built previously and is still up-to-date, the pre-built package is installed. If a dependency has no up-to-date package, one will be built with default options in a jail. Then Firefox itself is built. The complete build of every port is logged to /poudriere/data/logs/bulk/111Ri386-development/build-time/logs. The directory name 111Ri386-development is derived from the arguments to -j and -p, respectively. For convenience, a symbolic link /poudriere/data/logs/bulk/111Ri386-development/latest is also maintained. The link points to the latest build-time directory. Also in this directory is an index.html for observing the build process with a web browser. By default, Poudriere cleans up the jails and leaves log files in the directories mentioned above. To ease investigation, jails can be kept running after the build by adding to testport: &prompt.root; poudriere testport -j 111Ramd64 -p development -i -o www/firefox After the build completes, and regardless of whether it was successful, a shell is provided within the jail. The shell is used to investigate further. Poudriere can be told to leave the jail running after the build finishes with . Poudriere will show the command to run when the jail is no longer needed. It is then possible to &man.jexec.8; into it: &prompt.root; poudriere testport -j 111Ramd64 -p development -I -o www/firefox [...] ====>> Installing local Pkg repository to /usr/local/etc/pkg/repos ====>> Leaving jail 111Ramd64-development-n running, mounted at /poudriere/data/.m/111Ramd64-development/ref for interactive run testing ====>> To enter jail: jexec 111Ramd64-development-n env -i TERM=$TERM /usr/bin/login -fp root ====>> To stop jail: poudriere jail -k -j 111Ramd64 -p development &prompt.root; jexec 111Ramd64-development-n env -i TERM=$TERM /usr/bin/login -fp root &prompt.root; [do some stuff in the jail] &prompt.root; exit &prompt.root; poudriere jail -k -j 111Ramd64 -p development ====>> Umounting file systems An integral part of the &os; ports build infrastructure is the ability to tweak ports to personal preferences with options. These can be tested with Poudriere as well. Adding the : &prompt.root; poudriere testport -c -o www/firefox Presents the port configuration dialog before the port is built. The ports given after in the format category/portname will use the specified options, all dependencies will use the default options. Testing dependent ports with non-default options can be accomplished using sets, see . When testing ports where pkg-plist is altered during build depending on the selected options, it is recommended to perform a test run with all options selected and one with all options deselected. Using Sets For all actions involving builds, a so-called set can be specified using -z setname. A set refers to a fully independent build. This allows, for instance, usage of testport with non-standard options for the dependent ports. To use sets, Poudriere expects an existing directory structure similar to PORT_DBDIR, defaults to /var/db/ports in its configuration directory. This directory is then &man.nullfs.5;-mounted into the jails where the ports and their dependencies are built. Usually a suitable starting point can be obtained by recursively copying the existing PORT_DBDIR to /usr/local/etc/poudriere.d/jailname-portname-setname-options. This is described in detail in &man.poudriere.8;. For instance, testing www/firefox in a specific set named devset, add the -z devset parameter to the testport command: &prompt.root; poudriere testport -j 111Ramd64 -p development -z devset -o www/firefox This will look for the existence of these directories in this order: /usr/local/etc/poudriere.d/111Ramd64-development-devset-options /usr/local/etc/poudriere.d/111Ramd64-devset-options /usr/local/etc/poudriere.d/111Ramd64-development-options /usr/local/etc/poudriere.d/devset-options /usr/local/etc/poudriere.d/development-options /usr/local/etc/poudriere.d/111Ramd64-options /usr/local/etc/poudriere.d/options From this list, Poudriere &man.nullfs.5;-mounts the first existing directory tree into the /var/db/ports directory of the build jails. Hence, all custom options are used for all the ports during this run of testport. After the directory structure for a set is provided, the options for a particular port can be altered. For example: &prompt.root; poudriere options -c www/firefox -z devset The configuration dialog for www/firefox is shown, and options can be edited. The selected options are saved to the devset set. Poudriere is very flexible in the option configuration. They can be set for particular jails, ports trees, and for multiple ports by one command. Refer to &man.poudriere.8; for details. Providing a Custom <filename>make.conf</filename> File Similar to using sets, Poudriere will also use a custom make.conf if it is provided. No special command line argument is necessary. Instead, Poudriere looks for existing files matching a name scheme derived from the command line. For instance: &prompt.root; poudriere testport -j 111Ramd64 -p development -z devset -o www/firefox causes Poudriere to check for the existence of these files in this order: /usr/local/etc/poudriere.d/make.conf /usr/local/etc/poudriere.d/devset-make.conf /usr/local/etc/poudriere.d/development-make.conf /usr/local/etc/poudriere.d/111Ramd64-make.conf /usr/local/etc/poudriere.d/111Ramd64-development-make.conf /usr/local/etc/poudriere.d/111Ramd64-devset-make.conf /usr/local/etc/poudriere.d/111Ramd64-development-devset-make.conf Unlike with sets, all of the found files will be appended, in that order, into one make.conf inside the build jails. It is hence possible to have general make variables, intended to affect all builds in /usr/local/etc/poudriere.d/make.conf. Special variables, intended to affect only certain jails or sets can be set in specialised make.conf files, such as /usr/local/etc/poudriere.d/111Ramd64-development-devset-make.conf. Using <filename>make.conf</filename> to Change Default <application>Perl</application> To build a set with a non default Perl version, for example, 5.20, using a set named perl5-20, create a perl5-20-make.conf with this line: DEFAULT_VERSIONS+= perl=5.20 Note the use of += so that if the variable is already set in the default make.conf its content will not be overwritten. Pruning no Longer Needed Distfiles Poudriere comes with a built-in mechanism to remove outdated distfiles that are no longer used by any port of a given tree. The command &prompt.root; poudriere distclean -p portstree will scan the distfiles folder, DISTFILES_CACHE in poudriere.conf, versus the ports tree given by the -p portstree argument and prompt for removal of those distfiles. To skip the prompt and remove all unused files unconditionally, the -y argument can be added: &prompt.root; poudriere distclean -p portstree -y