7 Tasks
Tasks are units of execution for BitBake. Recipes (.bb
files) use
tasks to complete configuring, compiling, and packaging software. This
chapter provides a reference of the tasks defined in the OpenEmbedded
build system.
7.1 Normal Recipe Build Tasks
The following sections describe normal tasks associated with building a recipe. For more information on tasks and dependencies, see the “Tasks” and “Dependencies” sections in the BitBake User Manual.
7.1.1 do_build
The default task for all recipes. This task depends on all other normal tasks required to build a recipe.
7.1.2 do_compile
Compiles the source code. This task runs with the current working
directory set to ${
B}
.
The default behavior of this task is to run the oe_runmake
function
if a makefile (Makefile
, makefile
, or GNUmakefile
) is found.
If no such file is found, the do_compile
task does nothing.
7.1.3 do_compile_ptest_base
Compiles the runtime test suite included in the software being built.
7.1.4 do_configure
Configures the source by enabling and disabling any build-time and
configuration options for the software being built. The task runs with
the current working directory set to ${
B}
.
The default behavior of this task is to run oe_runmake clean
if a
makefile (Makefile
, makefile
, or GNUmakefile
) is found and
CLEANBROKEN is not set to “1”. If no such
file is found or the CLEANBROKEN
variable is set to “1”, the
do_configure
task does nothing.
7.1.5 do_configure_ptest_base
Configures the runtime test suite included in the software being built.
7.1.6 do_deploy
Writes output files that are to be deployed to
${
DEPLOY_DIR_IMAGE}
. The
task runs with the current working directory set to
${
B}
.
Recipes implementing this task should inherit the
deploy class and should write the output
to ${
DEPLOYDIR}
, which is not to be
confused with ${DEPLOY_DIR}
. The deploy
class sets up
do_deploy
as a shared state (sstate) task that can be accelerated
through sstate use. The sstate mechanism takes care of copying the
output from ${DEPLOYDIR}
to ${DEPLOY_DIR_IMAGE}
.
Note
Do not write the output directly to ${DEPLOY_DIR_IMAGE}
, as this causes
the sstate mechanism to malfunction.
The do_deploy
task is not added as a task by default and
consequently needs to be added manually. If you want the task to run
after do_compile, you can add it by doing
the following:
addtask deploy after do_compile
Adding do_deploy
after other tasks works the same way.
Note
You do not need to add before do_build
to the addtask
command
(though it is harmless), because the base
class contains the following:
do_build[recrdeptask] += "do_deploy"
See the “Dependencies” section in the BitBake User Manual for more information.
If the do_deploy
task re-executes, any previous output is removed
(i.e. “cleaned”).
7.1.7 do_fetch
Fetches the source code. This task uses the SRC_URI variable and the argument’s prefix to determine the correct fetcher module.
7.1.8 do_image
Starts the image generation process. The do_image
task runs after
the OpenEmbedded build system has run the
do_rootfs task during which packages are
identified for installation into the image and the root filesystem is
created, complete with post-processing.
The do_image
task performs pre-processing on the image through the
IMAGE_PREPROCESS_COMMAND and
dynamically generates supporting do_image_*
tasks as needed.
For more information on image creation, see the “Image Generation” section in the Yocto Project Overview and Concepts Manual.
7.1.9 do_image_complete
Completes the image generation process. The do_image_complete
task
runs after the OpenEmbedded build system has run the
do_image task during which image
pre-processing occurs and through dynamically generated do_image_*
tasks the image is constructed.
The do_image_complete
task performs post-processing on the image
through the
IMAGE_POSTPROCESS_COMMAND.
For more information on image creation, see the “Image Generation” section in the Yocto Project Overview and Concepts Manual.
7.1.10 do_install
Copies files that are to be packaged into the holding area
${
D}
. This task runs with the current
working directory set to ${
B}
, which is the
compilation directory. The do_install
task, as well as other tasks
that either directly or indirectly depend on the installed files (e.g.
do_package, do_package_write_*
, and
do_rootfs), run under
fakeroot.
Note
When installing files, be careful not to set the owner and group IDs
of the installed files to unintended values. Some methods of copying
files, notably when using the recursive cp
command, can preserve
the UID and/or GID of the original file, which is usually not what
you want. The host-user-contaminated
QA check checks for files
that probably have the wrong ownership.
Safe methods for installing files include the following:
The
install
utility. This utility is the preferred method.The
cp
command with the “–no-preserve=ownership” option.The
tar
command with the “–no-same-owner” option. See thebin_package.bbclass
file in themeta/classes
directory of the Source Directory for an example.
7.1.11 do_install_ptest_base
Copies the runtime test suite files from the compilation directory to a holding area.
7.1.12 do_package
Analyzes the content of the holding area
${
D}
and splits the content into subsets
based on available packages and files. This task makes use of the
PACKAGES and FILES
variables.
The do_package
task, in conjunction with the
do_packagedata task, also saves some
important package metadata. For additional information, see the
PKGDESTWORK variable and the
“Automatically Added Runtime Dependencies”
section in the Yocto Project Overview and Concepts Manual.
7.1.13 do_package_qa
Runs QA checks on packaged files. For more information on these checks, see the insane class.
7.1.14 do_package_write_deb
Creates Debian packages (i.e. *.deb
files) and places them in the
${
DEPLOY_DIR_DEB}
directory in
the package feeds area. For more information, see the
“Package Feeds” section in
the Yocto Project Overview and Concepts Manual.
7.1.15 do_package_write_ipk
Creates IPK packages (i.e. *.ipk
files) and places them in the
${
DEPLOY_DIR_IPK}
directory in
the package feeds area. For more information, see the
“Package Feeds” section in
the Yocto Project Overview and Concepts Manual.
7.1.16 do_package_write_rpm
Creates RPM packages (i.e. *.rpm
files) and places them in the
${
DEPLOY_DIR_RPM}
directory in
the package feeds area. For more information, see the
“Package Feeds” section in
the Yocto Project Overview and Concepts Manual.
7.1.17 do_package_write_tar
Creates tarballs and places them in the
${
DEPLOY_DIR_TAR}
directory in
the package feeds area. For more information, see the
“Package Feeds” section in
the Yocto Project Overview and Concepts Manual.
7.1.18 do_packagedata
Saves package metadata generated by the do_package task in PKGDATA_DIR to make it available globally.
7.1.19 do_patch
Locates patch files and applies them to the source code.
After fetching and unpacking source files, the build system uses the recipe’s SRC_URI statements to locate and apply patch files to the source code.
Note
The build system uses the FILESPATH variable to determine the default set of directories when searching for patches.
Patch files, by default, are *.patch
and *.diff
files created
and kept in a subdirectory of the directory holding the recipe file. For
example, consider the
bluez5
recipe from the OE-Core layer (i.e. poky/meta
):
poky/meta/recipes-connectivity/bluez5
This recipe has two patch files located here:
poky/meta/recipes-connectivity/bluez5/bluez5
In the bluez5
recipe, the SRC_URI
statements point to the source
and patch files needed to build the package.
Note
In the case for the bluez5_5.48.bb
recipe, the SRC_URI
statements
are from an include file bluez5.inc
.
As mentioned earlier, the build system treats files whose file types are
.patch
and .diff
as patch files. However, you can use the
“apply=yes” parameter with the SRC_URI
statement to indicate any
file as a patch file:
SRC_URI = " \
git://path_to_repo/some_package \
file://file;apply=yes \
"
Conversely, if you have a directory full of patch files and you want to
exclude some so that the do_patch
task does not apply them during
the patch phase, you can use the “apply=no” parameter with the
SRC_URI
statement:
SRC_URI = " \
git://path_to_repo/some_package \
file://path_to_lots_of_patch_files \
file://path_to_lots_of_patch_files/patch_file5;apply=no \
"
In the
previous example, assuming all the files in the directory holding the
patch files end with either .patch
or .diff
, every file would be
applied as a patch by default except for the patch_file5
patch.
You can find out more about the patching process in the “Patching” section in the Yocto Project Overview and Concepts Manual and the “Patching Code” section in the Yocto Project Development Tasks Manual.
7.1.20 do_populate_lic
Writes license information for the recipe that is collected later when the image is constructed.
7.1.21 do_populate_sdk
Creates the file and directory structure for an installable SDK. See the “SDK Generation” section in the Yocto Project Overview and Concepts Manual for more information.
7.1.22 do_populate_sdk_ext
Creates the file and directory structure for an installable extensible SDK (eSDK). See the “SDK Generation” section in the Yocto Project Overview and Concepts Manual for more information.
7.1.23 do_populate_sysroot
Stages (copies) a subset of the files installed by the
do_install task into the appropriate
sysroot. For information on how to access these files from other
recipes, see the STAGING_DIR* variables.
Directories that would typically not be needed by other recipes at build
time (e.g. /etc
) are not copied by default.
For information on what directories are copied by default, see the SYSROOT_DIRS* variables. You can change these variables inside your recipe if you need to make additional (or fewer) directories available to other recipes at build time.
The do_populate_sysroot
task is a shared state (sstate) task, which
means that the task can be accelerated through sstate use. Realize also
that if the task is re-executed, any previous output is removed (i.e.
“cleaned”).
7.1.24 do_prepare_recipe_sysroot
Installs the files into the individual recipe specific sysroots (i.e.
recipe-sysroot
and recipe-sysroot-native
under
${
WORKDIR}
based upon the
dependencies specified by DEPENDS). See the
“staging” class for more information.
7.1.25 do_rm_work
Removes work files after the OpenEmbedded build system has finished with them. You can learn more by looking at the “rm_work.bbclass” section.
7.1.26 do_unpack
Unpacks the source code into a working directory pointed to by
${
WORKDIR}
. The S
variable also plays a role in where unpacked source files ultimately
reside. For more information on how source files are unpacked, see the
“Source Fetching”
section in the Yocto Project Overview and Concepts Manual and also see
the WORKDIR
and S
variable descriptions.
7.2 Manually Called Tasks
These tasks are typically manually triggered (e.g. by using the
bitbake -c
command-line option):
7.2.1 do_checkpkg
Provides information about the recipe including its upstream version and status. The upstream version and status reveals whether or not a version of the recipe exists upstream and a status of not updated, updated, or unknown.
To check the upstream version and status of a recipe, use the following devtool commands:
$ devtool latest-version
$ devtool check-upgrade-status
See the “devtool Quick Reference”
chapter for more information on
devtool
. See the “Checking on the Upgrade Status of a Recipe”
section for information on checking the upgrade status of a recipe.
To build the checkpkg
task, use the bitbake
command with the
“-c” option and task name:
$ bitbake core-image-minimal -c checkpkg
By default, the results are stored in $LOG_DIR (e.g.
$BUILD_DIR/tmp/log
).
7.2.2 do_checkuri
Validates the SRC_URI value.
7.2.3 do_clean
Removes all output files for a target from the
do_unpack task forward (i.e. do_unpack
,
do_configure,
do_compile,
do_install, and
do_package).
You can run this task using BitBake as follows:
$ bitbake -c clean recipe
Running this task does not remove the
sstate cache files.
Consequently, if no changes have been made and the recipe is rebuilt
after cleaning, output files are simply restored from the sstate cache.
If you want to remove the sstate cache files for the recipe, you need to
use the do_cleansstate task instead
(i.e. bitbake -c cleansstate
recipe).
7.2.4 do_cleanall
Removes all output files, shared state
(sstate) cache, and
downloaded source files for a target (i.e. the contents of
DL_DIR). Essentially, the do_cleanall
task is
identical to the do_cleansstate task
with the added removal of downloaded source files.
You can run this task using BitBake as follows:
$ bitbake -c cleanall recipe
Typically, you would not normally use the cleanall
task. Do so only
if you want to start fresh with the do_fetch
task.
7.2.5 do_cleansstate
Removes all output files and shared state
(sstate) cache for a
target. Essentially, the do_cleansstate
task is identical to the
do_clean task with the added removal of
shared state (sstate)
cache.
You can run this task using BitBake as follows:
$ bitbake -c cleansstate recipe
When you run the do_cleansstate
task, the OpenEmbedded build system
no longer uses any sstate. Consequently, building the recipe from
scratch is guaranteed.
Note
The do_cleansstate
task cannot remove sstate from a remote sstate
mirror. If you need to build a target from scratch using remote mirrors, use
the “-f” option as follows:
$ bitbake -f -c do_cleansstate target
7.2.6 do_devpyshell
Starts a shell in which an interactive Python interpreter allows you to
interact with the BitBake build environment. From within this shell, you
can directly examine and set bits from the data store and execute
functions as if within the BitBake environment. See the “Using a Development Python Shell” section in
the Yocto Project Development Tasks Manual for more information about
using devpyshell
.
7.2.7 do_devshell
Starts a shell whose environment is set up for development, debugging,
or both. See the “Using a Development Shell” section in the
Yocto Project Development Tasks Manual for more information about using
devshell
.
7.2.8 do_listtasks
Lists all defined tasks for a target.
7.2.9 do_package_index
Creates or updates the index in the Package Feeds area.
Note
This task is not triggered with the bitbake -c
command-line option as
are the other tasks in this section. Because this task is specifically for
the package-index
recipe, you run it using bitbake package-index
.