| .. SPDX-License-Identifier: CC-BY-2.5 |
| |
| ==================== |
| Syntax and Operators |
| ==================== |
| |
| | |
| |
| BitBake files have their own syntax. The syntax has similarities to |
| several other languages but also has some unique features. This section |
| describes the available syntax and operators as well as provides |
| examples. |
| |
| Basic Syntax |
| ============ |
| |
| This section provides some basic syntax examples. |
| |
| Basic Variable Setting |
| ---------------------- |
| |
| The following example sets ``VARIABLE`` to "value". This assignment |
| occurs immediately as the statement is parsed. It is a "hard" |
| assignment. :: |
| |
| VARIABLE = "value" |
| |
| As expected, if you include leading or |
| trailing spaces as part of an assignment, the spaces are retained:: |
| |
| VARIABLE = " value" |
| VARIABLE = "value " |
| |
| Setting ``VARIABLE`` to "" sets |
| it to an empty string, while setting the variable to " " sets it to a |
| blank space (i.e. these are not the same values). :: |
| |
| VARIABLE = "" |
| VARIABLE = " " |
| |
| You can use single quotes instead of double quotes when setting a |
| variable's value. Doing so allows you to use values that contain the |
| double quote character:: |
| |
| VARIABLE = 'I have a " in my value' |
| |
| .. note:: |
| |
| Unlike in Bourne shells, single quotes work identically to double |
| quotes in all other ways. They do not suppress variable expansions. |
| |
| Modifying Existing Variables |
| ---------------------------- |
| |
| Sometimes you need to modify existing variables. Following are some |
| cases where you might find you want to modify an existing variable: |
| |
| - Customize a recipe that uses the variable. |
| |
| - Change a variable's default value used in a ``*.bbclass`` file. |
| |
| - Change the variable in a ``*.bbappend`` file to override the variable |
| in the original recipe. |
| |
| - Change the variable in a configuration file so that the value |
| overrides an existing configuration. |
| |
| Changing a variable value can sometimes depend on how the value was |
| originally assigned and also on the desired intent of the change. In |
| particular, when you append a value to a variable that has a default |
| value, the resulting value might not be what you expect. In this case, |
| the value you provide might replace the value rather than append to the |
| default value. |
| |
| If after you have changed a variable's value and something unexplained |
| occurs, you can use BitBake to check the actual value of the suspect |
| variable. You can make these checks for both configuration and recipe |
| level changes: |
| |
| - For configuration changes, use the following:: |
| |
| $ bitbake -e |
| |
| This |
| command displays variable values after the configuration files (i.e. |
| ``local.conf``, ``bblayers.conf``, ``bitbake.conf`` and so forth) |
| have been parsed. |
| |
| .. note:: |
| |
| Variables that are exported to the environment are preceded by the |
| string "export" in the command's output. |
| |
| - To find changes to a given variable in a specific recipe, use the |
| following:: |
| |
| $ bitbake recipename -e | grep VARIABLENAME=\" |
| |
| This command checks to see if the variable actually makes |
| it into a specific recipe. |
| |
| Line Joining |
| ------------ |
| |
| Outside of :ref:`functions <bitbake-user-manual/bitbake-user-manual-metadata:functions>`, |
| BitBake joins any line ending in |
| a backslash character ("\\") with the following line before parsing |
| statements. The most common use for the "\\" character is to split |
| variable assignments over multiple lines, as in the following example:: |
| |
| FOO = "bar \ |
| baz \ |
| qaz" |
| |
| Both the "\\" character and the newline |
| character that follow it are removed when joining lines. Thus, no |
| newline characters end up in the value of ``FOO``. |
| |
| Consider this additional example where the two assignments both assign |
| "barbaz" to ``FOO``:: |
| |
| FOO = "barbaz" |
| FOO = "bar\ |
| baz" |
| |
| .. note:: |
| |
| BitBake does not interpret escape sequences like "\\n" in variable |
| values. For these to have an effect, the value must be passed to some |
| utility that interprets escape sequences, such as |
| ``printf`` or ``echo -n``. |
| |
| Variable Expansion |
| ------------------ |
| |
| Variables can reference the contents of other variables using a syntax |
| that is similar to variable expansion in Bourne shells. The following |
| assignments result in A containing "aval" and B evaluating to |
| "preavalpost". :: |
| |
| A = "aval" |
| B = "pre${A}post" |
| |
| .. note:: |
| |
| Unlike in Bourne shells, the curly braces are mandatory: Only ``${FOO}`` and not |
| ``$FOO`` is recognized as an expansion of ``FOO``. |
| |
| The "=" operator does not immediately expand variable references in the |
| right-hand side. Instead, expansion is deferred until the variable |
| assigned to is actually used. The result depends on the current values |
| of the referenced variables. The following example should clarify this |
| behavior:: |
| |
| A = "${B} baz" |
| B = "${C} bar" |
| C = "foo" |
| *At this point, ${A} equals "foo bar baz"* |
| C = "qux" |
| *At this point, ${A} equals "qux bar baz"* |
| B = "norf" |
| *At this point, ${A} equals "norf baz"* |
| |
| Contrast this behavior with the |
| :ref:`bitbake-user-manual/bitbake-user-manual-metadata:immediate variable |
| expansion (:=)` operator. |
| |
| If the variable expansion syntax is used on a variable that does not |
| exist, the string is kept as is. For example, given the following |
| assignment, ``BAR`` expands to the literal string "${FOO}" as long as |
| ``FOO`` does not exist. :: |
| |
| BAR = "${FOO}" |
| |
| Setting a default value (?=) |
| ---------------------------- |
| |
| You can use the "?=" operator to achieve a "softer" assignment for a |
| variable. This type of assignment allows you to define a variable if it |
| is undefined when the statement is parsed, but to leave the value alone |
| if the variable has a value. Here is an example:: |
| |
| A ?= "aval" |
| |
| If ``A`` is |
| set at the time this statement is parsed, the variable retains its |
| value. However, if ``A`` is not set, the variable is set to "aval". |
| |
| .. note:: |
| |
| This assignment is immediate. Consequently, if multiple "?=" |
| assignments to a single variable exist, the first of those ends up |
| getting used. |
| |
| Setting a weak default value (??=) |
| ---------------------------------- |
| |
| The weak default value of a variable is the value which that variable |
| will expand to if no value has been assigned to it via any of the other |
| assignment operators. The "??=" operator takes effect immediately, replacing |
| any previously defined weak default value. Here is an example:: |
| |
| W ??= "x" |
| A := "${W}" # Immediate variable expansion |
| W ??= "y" |
| B := "${W}" # Immediate variable expansion |
| W ??= "z" |
| C = "${W}" |
| W ?= "i" |
| |
| After parsing we will have:: |
| |
| A = "x" |
| B = "y" |
| C = "i" |
| W = "i" |
| |
| Appending and prepending non-override style will not substitute the weak |
| default value, which means that after parsing:: |
| |
| W ??= "x" |
| W += "y" |
| |
| we will have:: |
| |
| W = " y" |
| |
| On the other hand, override-style appends/prepends/removes are applied after |
| any active weak default value has been substituted:: |
| |
| W ??= "x" |
| W:append = "y" |
| |
| After parsing we will have:: |
| |
| W = "xy" |
| |
| Immediate variable expansion (:=) |
| --------------------------------- |
| |
| The ":=" operator results in a variable's contents being expanded |
| immediately, rather than when the variable is actually used:: |
| |
| T = "123" |
| A := "test ${T}" |
| T = "456" |
| B := "${T} ${C}" |
| C = "cval" |
| C := "${C}append" |
| |
| In this example, ``A`` contains "test 123", even though the final value |
| of :term:`T` is "456". The variable :term:`B` will end up containing "456 |
| cvalappend". This is because references to undefined variables are |
| preserved as is during (immediate)expansion. This is in contrast to GNU |
| Make, where undefined variables expand to nothing. The variable ``C`` |
| contains "cvalappend" since ``${C}`` immediately expands to "cval". |
| |
| .. _appending-and-prepending: |
| |
| Appending (+=) and prepending (=+) With Spaces |
| ---------------------------------------------- |
| |
| Appending and prepending values is common and can be accomplished using |
| the "+=" and "=+" operators. These operators insert a space between the |
| current value and prepended or appended value. |
| |
| These operators take immediate effect during parsing. Here are some |
| examples:: |
| |
| B = "bval" |
| B += "additionaldata" |
| C = "cval" |
| C =+ "test" |
| |
| The variable :term:`B` contains "bval additionaldata" and ``C`` contains "test |
| cval". |
| |
| .. _appending-and-prepending-without-spaces: |
| |
| Appending (.=) and Prepending (=.) Without Spaces |
| ------------------------------------------------- |
| |
| If you want to append or prepend values without an inserted space, use |
| the ".=" and "=." operators. |
| |
| These operators take immediate effect during parsing. Here are some |
| examples:: |
| |
| B = "bval" |
| B .= "additionaldata" |
| C = "cval" |
| C =. "test" |
| |
| The variable :term:`B` contains "bvaladditionaldata" and ``C`` contains |
| "testcval". |
| |
| Appending and Prepending (Override Style Syntax) |
| ------------------------------------------------ |
| |
| You can also append and prepend a variable's value using an override |
| style syntax. When you use this syntax, no spaces are inserted. |
| |
| These operators differ from the ":=", ".=", "=.", "+=", and "=+" |
| operators in that their effects are applied at variable expansion time |
| rather than being immediately applied. Here are some examples:: |
| |
| B = "bval" |
| B:append = " additional data" |
| C = "cval" |
| C:prepend = "additional data " |
| D = "dval" |
| D:append = "additional data" |
| |
| The variable :term:`B` |
| becomes "bval additional data" and ``C`` becomes "additional data cval". |
| The variable ``D`` becomes "dvaladditional data". |
| |
| .. note:: |
| |
| You must control all spacing when you use the override syntax. |
| |
| .. note:: |
| |
| The overrides are applied in this order, ":append", ":prepend", ":remove". |
| |
| It is also possible to append and prepend to shell functions and |
| BitBake-style Python functions. See the ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:shell functions`" and ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:bitbake-style python functions`" |
| sections for examples. |
| |
| .. _removing-override-style-syntax: |
| |
| Removal (Override Style Syntax) |
| ------------------------------- |
| |
| You can remove values from lists using the removal override style |
| syntax. Specifying a value for removal causes all occurrences of that |
| value to be removed from the variable. Unlike ":append" and ":prepend", |
| there is no need to add a leading or trailing space to the value. |
| |
| When you use this syntax, BitBake expects one or more strings. |
| Surrounding spaces and spacing are preserved. Here is an example:: |
| |
| FOO = "123 456 789 123456 123 456 123 456" |
| FOO:remove = "123" |
| FOO:remove = "456" |
| FOO2 = " abc def ghi abcdef abc def abc def def" |
| FOO2:remove = "\ |
| def \ |
| abc \ |
| ghi \ |
| " |
| |
| The variable ``FOO`` becomes |
| " 789 123456 " and ``FOO2`` becomes " abcdef ". |
| |
| Like ":append" and ":prepend", ":remove" is applied at variable |
| expansion time. |
| |
| .. note:: |
| |
| The overrides are applied in this order, ":append", ":prepend", ":remove". |
| This implies it is not possible to re-append previously removed strings. |
| However, one can undo a ":remove" by using an intermediate variable whose |
| content is passed to the ":remove" so that modifying the intermediate |
| variable equals to keeping the string in:: |
| |
| FOOREMOVE = "123 456 789" |
| FOO:remove = "${FOOREMOVE}" |
| ... |
| FOOREMOVE = "123 789" |
| |
| This expands to ``FOO:remove = "123 789"``. |
| |
| .. note:: |
| |
| Override application order may not match variable parse history, i.e. |
| the output of ``bitbake -e`` may contain ":remove" before ":append", |
| but the result will be removed string, because ":remove" is handled |
| last. |
| |
| Override Style Operation Advantages |
| ----------------------------------- |
| |
| An advantage of the override style operations ":append", ":prepend", and |
| ":remove" as compared to the "+=" and "=+" operators is that the |
| override style operators provide guaranteed operations. For example, |
| consider a class ``foo.bbclass`` that needs to add the value "val" to |
| the variable ``FOO``, and a recipe that uses ``foo.bbclass`` as follows:: |
| |
| inherit foo |
| FOO = "initial" |
| |
| If ``foo.bbclass`` uses the "+=" operator, |
| as follows, then the final value of ``FOO`` will be "initial", which is |
| not what is desired:: |
| |
| FOO += "val" |
| |
| If, on the other hand, ``foo.bbclass`` |
| uses the ":append" operator, then the final value of ``FOO`` will be |
| "initial val", as intended:: |
| |
| FOO:append = " val" |
| |
| .. note:: |
| |
| It is never necessary to use "+=" together with ":append". The following |
| sequence of assignments appends "barbaz" to FOO:: |
| |
| FOO:append = "bar" |
| FOO:append = "baz" |
| |
| |
| The only effect of changing the second assignment in the previous |
| example to use "+=" would be to add a space before "baz" in the |
| appended value (due to how the "+=" operator works). |
| |
| Another advantage of the override style operations is that you can |
| combine them with other overrides as described in the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:conditional syntax (overrides)`" section. |
| |
| Variable Flag Syntax |
| -------------------- |
| |
| Variable flags are BitBake's implementation of variable properties or |
| attributes. It is a way of tagging extra information onto a variable. |
| You can find more out about variable flags in general in the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:variable flags`" section. |
| |
| You can define, append, and prepend values to variable flags. All the |
| standard syntax operations previously mentioned work for variable flags |
| except for override style syntax (i.e. ":prepend", ":append", and |
| ":remove"). |
| |
| Here are some examples showing how to set variable flags:: |
| |
| FOO[a] = "abc" |
| FOO[b] = "123" |
| FOO[a] += "456" |
| |
| The variable ``FOO`` has two flags: |
| ``[a]`` and ``[b]``. The flags are immediately set to "abc" and "123", |
| respectively. The ``[a]`` flag becomes "abc 456". |
| |
| No need exists to pre-define variable flags. You can simply start using |
| them. One extremely common application is to attach some brief |
| documentation to a BitBake variable as follows:: |
| |
| CACHE[doc] = "The directory holding the cache of the metadata." |
| |
| .. note:: |
| |
| Variable flag names starting with an underscore (``_``) character |
| are allowed but are ignored by ``d.getVarFlags("VAR")`` |
| in Python code. Such flag names are used internally by BitBake. |
| |
| Inline Python Variable Expansion |
| -------------------------------- |
| |
| You can use inline Python variable expansion to set variables. Here is |
| an example:: |
| |
| DATE = "${@time.strftime('%Y%m%d',time.gmtime())}" |
| |
| This example results in the ``DATE`` variable being set to the current date. |
| |
| Probably the most common use of this feature is to extract the value of |
| variables from BitBake's internal data dictionary, ``d``. The following |
| lines select the values of a package name and its version number, |
| respectively:: |
| |
| PN = "${@bb.parse.vars_from_file(d.getVar('FILE', False),d)[0] or 'defaultpkgname'}" |
| PV = "${@bb.parse.vars_from_file(d.getVar('FILE', False),d)[1] or '1.0'}" |
| |
| .. note:: |
| |
| Inline Python expressions work just like variable expansions insofar as the |
| "=" and ":=" operators are concerned. Given the following assignment, foo() |
| is called each time FOO is expanded:: |
| |
| FOO = "${@foo()}" |
| |
| Contrast this with the following immediate assignment, where foo() is only |
| called once, while the assignment is parsed:: |
| |
| FOO := "${@foo()}" |
| |
| For a different way to set variables with Python code during parsing, |
| see the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:anonymous python functions`" section. |
| |
| Unsetting variables |
| ------------------- |
| |
| It is possible to completely remove a variable or a variable flag from |
| BitBake's internal data dictionary by using the "unset" keyword. Here is |
| an example:: |
| |
| unset DATE |
| unset do_fetch[noexec] |
| |
| These two statements remove the ``DATE`` and the ``do_fetch[noexec]`` flag. |
| |
| Providing Pathnames |
| ------------------- |
| |
| When specifying pathnames for use with BitBake, do not use the tilde |
| ("~") character as a shortcut for your home directory. Doing so might |
| cause BitBake to not recognize the path since BitBake does not expand |
| this character in the same way a shell would. |
| |
| Instead, provide a fuller path as the following example illustrates:: |
| |
| BBLAYERS ?= " \ |
| /home/scott-lenovo/LayerA \ |
| " |
| |
| Exporting Variables to the Environment |
| ====================================== |
| |
| You can export variables to the environment of running tasks by using |
| the ``export`` keyword. For example, in the following example, the |
| ``do_foo`` task prints "value from the environment" when run:: |
| |
| export ENV_VARIABLE |
| ENV_VARIABLE = "value from the environment" |
| |
| do_foo() { |
| bbplain "$ENV_VARIABLE" |
| } |
| |
| .. note:: |
| |
| BitBake does not expand ``$ENV_VARIABLE`` in this case because it lacks the |
| obligatory ``{}`` . Rather, ``$ENV_VARIABLE`` is expanded by the shell. |
| |
| It does not matter whether ``export ENV_VARIABLE`` appears before or |
| after assignments to ``ENV_VARIABLE``. |
| |
| It is also possible to combine ``export`` with setting a value for the |
| variable. Here is an example:: |
| |
| export ENV_VARIABLE = "variable-value" |
| |
| In the output of ``bitbake -e``, variables that are exported to the |
| environment are preceded by "export". |
| |
| Among the variables commonly exported to the environment are ``CC`` and |
| ``CFLAGS``, which are picked up by many build systems. |
| |
| Conditional Syntax (Overrides) |
| ============================== |
| |
| BitBake uses :term:`OVERRIDES` to control what |
| variables are overridden after BitBake parses recipes and configuration |
| files. This section describes how you can use :term:`OVERRIDES` as |
| conditional metadata, talks about key expansion in relationship to |
| :term:`OVERRIDES`, and provides some examples to help with understanding. |
| |
| Conditional Metadata |
| -------------------- |
| |
| You can use :term:`OVERRIDES` to conditionally select a specific version of |
| a variable and to conditionally append or prepend the value of a |
| variable. |
| |
| .. note:: |
| |
| Overrides can only use lower-case characters, digits and dashes. |
| In particular, colons are not permitted in override names as they are used to |
| separate overrides from each other and from the variable name. |
| |
| - *Selecting a Variable:* The :term:`OVERRIDES` variable is a |
| colon-character-separated list that contains items for which you want |
| to satisfy conditions. Thus, if you have a variable that is |
| conditional on "arm", and "arm" is in :term:`OVERRIDES`, then the |
| "arm"-specific version of the variable is used rather than the |
| non-conditional version. Here is an example:: |
| |
| OVERRIDES = "architecture:os:machine" |
| TEST = "default" |
| TEST:os = "osspecific" |
| TEST:nooverride = "othercondvalue" |
| |
| In this example, the :term:`OVERRIDES` |
| variable lists three overrides: "architecture", "os", and "machine". |
| The variable ``TEST`` by itself has a default value of "default". You |
| select the os-specific version of the ``TEST`` variable by appending |
| the "os" override to the variable (i.e. ``TEST:os``). |
| |
| To better understand this, consider a practical example that assumes |
| an OpenEmbedded metadata-based Linux kernel recipe file. The |
| following lines from the recipe file first set the kernel branch |
| variable ``KBRANCH`` to a default value, then conditionally override |
| that value based on the architecture of the build:: |
| |
| KBRANCH = "standard/base" |
| KBRANCH:qemuarm = "standard/arm-versatile-926ejs" |
| KBRANCH:qemumips = "standard/mti-malta32" |
| KBRANCH:qemuppc = "standard/qemuppc" |
| KBRANCH:qemux86 = "standard/common-pc/base" |
| KBRANCH:qemux86-64 = "standard/common-pc-64/base" |
| KBRANCH:qemumips64 = "standard/mti-malta64" |
| |
| - *Appending and Prepending:* BitBake also supports append and prepend |
| operations to variable values based on whether a specific item is |
| listed in :term:`OVERRIDES`. Here is an example:: |
| |
| DEPENDS = "glibc ncurses" |
| OVERRIDES = "machine:local" |
| DEPENDS:append:machine = "libmad" |
| |
| In this example, :term:`DEPENDS` becomes "glibc ncurses libmad". |
| |
| Again, using an OpenEmbedded metadata-based kernel recipe file as an |
| example, the following lines will conditionally append to the |
| ``KERNEL_FEATURES`` variable based on the architecture:: |
| |
| KERNEL_FEATURES:append = " ${KERNEL_EXTRA_FEATURES}" |
| KERNEL_FEATURES:append:qemux86=" cfg/sound.scc cfg/paravirt_kvm.scc" |
| KERNEL_FEATURES:append:qemux86-64=" cfg/sound.scc cfg/paravirt_kvm.scc" |
| |
| - *Setting a Variable for a Single Task:* BitBake supports setting a |
| variable just for the duration of a single task. Here is an example:: |
| |
| FOO:task-configure = "val 1" |
| FOO:task-compile = "val 2" |
| |
| In the |
| previous example, ``FOO`` has the value "val 1" while the |
| ``do_configure`` task is executed, and the value "val 2" while the |
| ``do_compile`` task is executed. |
| |
| Internally, this is implemented by prepending the task (e.g. |
| "task-compile:") to the value of |
| :term:`OVERRIDES` for the local datastore of the |
| ``do_compile`` task. |
| |
| You can also use this syntax with other combinations (e.g. |
| "``:prepend``") as shown in the following example:: |
| |
| EXTRA_OEMAKE:prepend:task-compile = "${PARALLEL_MAKE} " |
| |
| .. note:: |
| |
| Before BitBake 1.52 (Honister 3.4), the syntax for :term:`OVERRIDES` |
| used ``_`` instead of ``:``, so you will still find a lot of documentation |
| using ``_append``, ``_prepend``, and ``_remove``, for example. |
| |
| For details, see the |
| :yocto_docs:`Overrides Syntax Changes </migration-guides/migration-3.4.html#override-syntax-changes>` |
| section in the Yocto Project manual migration notes. |
| |
| Key Expansion |
| ------------- |
| |
| Key expansion happens when the BitBake datastore is finalized. To better |
| understand this, consider the following example:: |
| |
| A${B} = "X" |
| B = "2" |
| A2 = "Y" |
| |
| In this case, after all the parsing is complete, BitBake expands |
| ``${B}`` into "2". This expansion causes ``A2``, which was set to "Y" |
| before the expansion, to become "X". |
| |
| .. _variable-interaction-worked-examples: |
| |
| Examples |
| -------- |
| |
| Despite the previous explanations that show the different forms of |
| variable definitions, it can be hard to work out exactly what happens |
| when variable operators, conditional overrides, and unconditional |
| overrides are combined. This section presents some common scenarios |
| along with explanations for variable interactions that typically confuse |
| users. |
| |
| There is often confusion concerning the order in which overrides and |
| various "append" operators take effect. Recall that an append or prepend |
| operation using ":append" and ":prepend" does not result in an immediate |
| assignment as would "+=", ".=", "=+", or "=.". Consider the following |
| example:: |
| |
| OVERRIDES = "foo" |
| A = "Z" |
| A:foo:append = "X" |
| |
| For this case, |
| ``A`` is unconditionally set to "Z" and "X" is unconditionally and |
| immediately appended to the variable ``A:foo``. Because overrides have |
| not been applied yet, ``A:foo`` is set to "X" due to the append and |
| ``A`` simply equals "Z". |
| |
| Applying overrides, however, changes things. Since "foo" is listed in |
| :term:`OVERRIDES`, the conditional variable ``A`` is replaced with the "foo" |
| version, which is equal to "X". So effectively, ``A:foo`` replaces |
| ``A``. |
| |
| This next example changes the order of the override and the append:: |
| |
| OVERRIDES = "foo" |
| A = "Z" |
| A:append:foo = "X" |
| |
| For this case, before |
| overrides are handled, ``A`` is set to "Z" and ``A:append:foo`` is set |
| to "X". Once the override for "foo" is applied, however, ``A`` gets |
| appended with "X". Consequently, ``A`` becomes "ZX". Notice that spaces |
| are not appended. |
| |
| This next example has the order of the appends and overrides reversed |
| back as in the first example:: |
| |
| OVERRIDES = "foo" |
| A = "Y" |
| A:foo:append = "Z" |
| A:foo:append = "X" |
| |
| For this case, before any overrides are resolved, |
| ``A`` is set to "Y" using an immediate assignment. After this immediate |
| assignment, ``A:foo`` is set to "Z", and then further appended with "X" |
| leaving the variable set to "ZX". Finally, applying the override for |
| "foo" results in the conditional variable ``A`` becoming "ZX" (i.e. |
| ``A`` is replaced with ``A:foo``). |
| |
| This final example mixes in some varying operators:: |
| |
| A = "1" |
| A:append = "2" |
| A:append = "3" |
| A += "4" |
| A .= "5" |
| |
| For this case, the type of append |
| operators are affecting the order of assignments as BitBake passes |
| through the code multiple times. Initially, ``A`` is set to "1 45" |
| because of the three statements that use immediate operators. After |
| these assignments are made, BitBake applies the ":append" operations. |
| Those operations result in ``A`` becoming "1 4523". |
| |
| Sharing Functionality |
| ===================== |
| |
| BitBake allows for metadata sharing through include files (``.inc``) and |
| class files (``.bbclass``). For example, suppose you have a piece of |
| common functionality such as a task definition that you want to share |
| between more than one recipe. In this case, creating a ``.bbclass`` file |
| that contains the common functionality and then using the ``inherit`` |
| directive in your recipes to inherit the class would be a common way to |
| share the task. |
| |
| This section presents the mechanisms BitBake provides to allow you to |
| share functionality between recipes. Specifically, the mechanisms |
| include ``include``, ``inherit``, :term:`INHERIT`, and ``require`` |
| directives. |
| |
| Locating Include and Class Files |
| -------------------------------- |
| |
| BitBake uses the :term:`BBPATH` variable to locate |
| needed include and class files. Additionally, BitBake searches the |
| current directory for ``include`` and ``require`` directives. |
| |
| .. note:: |
| |
| The BBPATH variable is analogous to the environment variable PATH . |
| |
| In order for include and class files to be found by BitBake, they need |
| to be located in a "classes" subdirectory that can be found in |
| :term:`BBPATH`. |
| |
| ``inherit`` Directive |
| --------------------- |
| |
| When writing a recipe or class file, you can use the ``inherit`` |
| directive to inherit the functionality of a class (``.bbclass``). |
| BitBake only supports this directive when used within recipe and class |
| files (i.e. ``.bb`` and ``.bbclass``). |
| |
| The ``inherit`` directive is a rudimentary means of specifying |
| functionality contained in class files that your recipes require. For |
| example, you can easily abstract out the tasks involved in building a |
| package that uses Autoconf and Automake and put those tasks into a class |
| file and then have your recipe inherit that class file. |
| |
| As an example, your recipes could use the following directive to inherit |
| an ``autotools.bbclass`` file. The class file would contain common |
| functionality for using Autotools that could be shared across recipes:: |
| |
| inherit autotools |
| |
| In this case, BitBake would search for the directory |
| ``classes/autotools.bbclass`` in :term:`BBPATH`. |
| |
| .. note:: |
| |
| You can override any values and functions of the inherited class |
| within your recipe by doing so after the "inherit" statement. |
| |
| If you want to use the directive to inherit multiple classes, separate |
| them with spaces. The following example shows how to inherit both the |
| ``buildhistory`` and ``rm_work`` classes:: |
| |
| inherit buildhistory rm_work |
| |
| An advantage with the inherit directive as compared to both the |
| :ref:`include <bitbake-user-manual/bitbake-user-manual-metadata:\`\`include\`\` directive>` and :ref:`require <bitbake-user-manual/bitbake-user-manual-metadata:\`\`require\`\` directive>` |
| directives is that you can inherit class files conditionally. You can |
| accomplish this by using a variable expression after the ``inherit`` |
| statement. Here is an example:: |
| |
| inherit ${VARNAME} |
| |
| If ``VARNAME`` is |
| going to be set, it needs to be set before the ``inherit`` statement is |
| parsed. One way to achieve a conditional inherit in this case is to use |
| overrides:: |
| |
| VARIABLE = "" |
| VARIABLE:someoverride = "myclass" |
| |
| Another method is by using anonymous Python. Here is an example:: |
| |
| python () { |
| if condition == value: |
| d.setVar('VARIABLE', 'myclass') |
| else: |
| d.setVar('VARIABLE', '') |
| } |
| |
| Alternatively, you could use an in-line Python expression in the |
| following form:: |
| |
| inherit ${@'classname' if condition else ''} |
| inherit ${@functionname(params)} |
| |
| In all cases, if the expression evaluates to an |
| empty string, the statement does not trigger a syntax error because it |
| becomes a no-op. |
| |
| ``include`` Directive |
| --------------------- |
| |
| BitBake understands the ``include`` directive. This directive causes |
| BitBake to parse whatever file you specify, and to insert that file at |
| that location. The directive is much like its equivalent in Make except |
| that if the path specified on the include line is a relative path, |
| BitBake locates the first file it can find within :term:`BBPATH`. |
| |
| The include directive is a more generic method of including |
| functionality as compared to the :ref:`inherit <bitbake-user-manual/bitbake-user-manual-metadata:\`\`inherit\`\` directive>` |
| directive, which is restricted to class (i.e. ``.bbclass``) files. The |
| include directive is applicable for any other kind of shared or |
| encapsulated functionality or configuration that does not suit a |
| ``.bbclass`` file. |
| |
| As an example, suppose you needed a recipe to include some self-test |
| definitions:: |
| |
| include test_defs.inc |
| |
| .. note:: |
| |
| The include directive does not produce an error when the file cannot be |
| found. Consequently, it is recommended that if the file you are including is |
| expected to exist, you should use :ref:`require <require-inclusion>` instead |
| of include . Doing so makes sure that an error is produced if the file cannot |
| be found. |
| |
| .. _require-inclusion: |
| |
| ``require`` Directive |
| --------------------- |
| |
| BitBake understands the ``require`` directive. This directive behaves |
| just like the ``include`` directive with the exception that BitBake |
| raises a parsing error if the file to be included cannot be found. Thus, |
| any file you require is inserted into the file that is being parsed at |
| the location of the directive. |
| |
| The require directive, like the include directive previously described, |
| is a more generic method of including functionality as compared to the |
| :ref:`inherit <bitbake-user-manual/bitbake-user-manual-metadata:\`\`inherit\`\` directive>` directive, which is restricted to class |
| (i.e. ``.bbclass``) files. The require directive is applicable for any |
| other kind of shared or encapsulated functionality or configuration that |
| does not suit a ``.bbclass`` file. |
| |
| Similar to how BitBake handles :ref:`include <bitbake-user-manual/bitbake-user-manual-metadata:\`\`include\`\` directive>`, if |
| the path specified on the require line is a relative path, BitBake |
| locates the first file it can find within :term:`BBPATH`. |
| |
| As an example, suppose you have two versions of a recipe (e.g. |
| ``foo_1.2.2.bb`` and ``foo_2.0.0.bb``) where each version contains some |
| identical functionality that could be shared. You could create an |
| include file named ``foo.inc`` that contains the common definitions |
| needed to build "foo". You need to be sure ``foo.inc`` is located in the |
| same directory as your two recipe files as well. Once these conditions |
| are set up, you can share the functionality using a ``require`` |
| directive from within each recipe:: |
| |
| require foo.inc |
| |
| ``INHERIT`` Configuration Directive |
| ----------------------------------- |
| |
| When creating a configuration file (``.conf``), you can use the |
| :term:`INHERIT` configuration directive to inherit a |
| class. BitBake only supports this directive when used within a |
| configuration file. |
| |
| As an example, suppose you needed to inherit a class file called |
| ``abc.bbclass`` from a configuration file as follows:: |
| |
| INHERIT += "abc" |
| |
| This configuration directive causes the named class to be inherited at |
| the point of the directive during parsing. As with the ``inherit`` |
| directive, the ``.bbclass`` file must be located in a "classes" |
| subdirectory in one of the directories specified in :term:`BBPATH`. |
| |
| .. note:: |
| |
| Because .conf files are parsed first during BitBake's execution, using |
| INHERIT to inherit a class effectively inherits the class globally (i.e. for |
| all recipes). |
| |
| If you want to use the directive to inherit multiple classes, you can |
| provide them on the same line in the ``local.conf`` file. Use spaces to |
| separate the classes. The following example shows how to inherit both |
| the ``autotools`` and ``pkgconfig`` classes:: |
| |
| INHERIT += "autotools pkgconfig" |
| |
| Functions |
| ========= |
| |
| As with most languages, functions are the building blocks that are used |
| to build up operations into tasks. BitBake supports these types of |
| functions: |
| |
| - *Shell Functions:* Functions written in shell script and executed |
| either directly as functions, tasks, or both. They can also be called |
| by other shell functions. |
| |
| - *BitBake-Style Python Functions:* Functions written in Python and |
| executed by BitBake or other Python functions using |
| ``bb.build.exec_func()``. |
| |
| - *Python Functions:* Functions written in Python and executed by |
| Python. |
| |
| - *Anonymous Python Functions:* Python functions executed automatically |
| during parsing. |
| |
| Regardless of the type of function, you can only define them in class |
| (``.bbclass``) and recipe (``.bb`` or ``.inc``) files. |
| |
| Shell Functions |
| --------------- |
| |
| Functions written in shell script are executed either directly as |
| functions, tasks, or both. They can also be called by other shell |
| functions. Here is an example shell function definition:: |
| |
| some_function () { |
| echo "Hello World" |
| } |
| |
| When you create these types of functions in |
| your recipe or class files, you need to follow the shell programming |
| rules. The scripts are executed by ``/bin/sh``, which may not be a bash |
| shell but might be something such as ``dash``. You should not use |
| Bash-specific script (bashisms). |
| |
| Overrides and override-style operators like ``:append`` and ``:prepend`` |
| can also be applied to shell functions. Most commonly, this application |
| would be used in a ``.bbappend`` file to modify functions in the main |
| recipe. It can also be used to modify functions inherited from classes. |
| |
| As an example, consider the following:: |
| |
| do_foo() { |
| bbplain first |
| fn |
| } |
| |
| fn:prepend() { |
| bbplain second |
| } |
| |
| fn() { |
| bbplain third |
| } |
| |
| do_foo:append() { |
| bbplain fourth |
| } |
| |
| Running ``do_foo`` prints the following:: |
| |
| recipename do_foo: first |
| recipename do_foo: second |
| recipename do_foo: third |
| recipename do_foo: fourth |
| |
| .. note:: |
| |
| Overrides and override-style operators can be applied to any shell |
| function, not just :ref:`tasks <bitbake-user-manual/bitbake-user-manual-metadata:tasks>`. |
| |
| You can use the ``bitbake -e recipename`` command to view the final |
| assembled function after all overrides have been applied. |
| |
| BitBake-Style Python Functions |
| ------------------------------ |
| |
| These functions are written in Python and executed by BitBake or other |
| Python functions using ``bb.build.exec_func()``. |
| |
| An example BitBake function is:: |
| |
| python some_python_function () { |
| d.setVar("TEXT", "Hello World") |
| print d.getVar("TEXT") |
| } |
| |
| Because the |
| Python "bb" and "os" modules are already imported, you do not need to |
| import these modules. Also in these types of functions, the datastore |
| ("d") is a global variable and is always automatically available. |
| |
| .. note:: |
| |
| Variable expressions (e.g. ``${X}`` ) are no longer expanded within Python |
| functions. This behavior is intentional in order to allow you to freely set |
| variable values to expandable expressions without having them expanded |
| prematurely. If you do wish to expand a variable within a Python function, |
| use ``d.getVar("X")`` . Or, for more complicated expressions, use ``d.expand()``. |
| |
| Similar to shell functions, you can also apply overrides and |
| override-style operators to BitBake-style Python functions. |
| |
| As an example, consider the following:: |
| |
| python do_foo:prepend() { |
| bb.plain("first") |
| } |
| |
| python do_foo() { |
| bb.plain("second") |
| } |
| |
| python do_foo:append() { |
| bb.plain("third") |
| } |
| |
| Running ``do_foo`` prints the following:: |
| |
| recipename do_foo: first |
| recipename do_foo: second |
| recipename do_foo: third |
| |
| You can use the ``bitbake -e recipename`` command to view |
| the final assembled function after all overrides have been applied. |
| |
| Python Functions |
| ---------------- |
| |
| These functions are written in Python and are executed by other Python |
| code. Examples of Python functions are utility functions that you intend |
| to call from in-line Python or from within other Python functions. Here |
| is an example:: |
| |
| def get_depends(d): |
| if d.getVar('SOMECONDITION'): |
| return "dependencywithcond" |
| else: |
| return "dependency" |
| |
| SOMECONDITION = "1" |
| DEPENDS = "${@get_depends(d)}" |
| |
| This would result in :term:`DEPENDS` containing ``dependencywithcond``. |
| |
| Here are some things to know about Python functions: |
| |
| - Python functions can take parameters. |
| |
| - The BitBake datastore is not automatically available. Consequently, |
| you must pass it in as a parameter to the function. |
| |
| - The "bb" and "os" Python modules are automatically available. You do |
| not need to import them. |
| |
| BitBake-Style Python Functions Versus Python Functions |
| ------------------------------------------------------ |
| |
| Following are some important differences between BitBake-style Python |
| functions and regular Python functions defined with "def": |
| |
| - Only BitBake-style Python functions can be :ref:`tasks <bitbake-user-manual/bitbake-user-manual-metadata:tasks>`. |
| |
| - Overrides and override-style operators can only be applied to |
| BitBake-style Python functions. |
| |
| - Only regular Python functions can take arguments and return values. |
| |
| - :ref:`Variable flags <bitbake-user-manual/bitbake-user-manual-metadata:variable flags>` such as |
| ``[dirs]``, ``[cleandirs]``, and ``[lockfiles]`` can be used on BitBake-style |
| Python functions, but not on regular Python functions. |
| |
| - BitBake-style Python functions generate a separate |
| ``${``\ :term:`T`\ ``}/run.``\ function-name\ ``.``\ pid |
| script that is executed to run the function, and also generate a log |
| file in ``${T}/log.``\ function-name\ ``.``\ pid if they are executed |
| as tasks. |
| |
| Regular Python functions execute "inline" and do not generate any |
| files in ``${T}``. |
| |
| - Regular Python functions are called with the usual Python syntax. |
| BitBake-style Python functions are usually tasks and are called |
| directly by BitBake, but can also be called manually from Python code |
| by using the ``bb.build.exec_func()`` function. Here is an example:: |
| |
| bb.build.exec_func("my_bitbake_style_function", d) |
| |
| .. note:: |
| |
| ``bb.build.exec_func()`` can also be used to run shell functions from Python |
| code. If you want to run a shell function before a Python function within |
| the same task, then you can use a parent helper Python function that |
| starts by running the shell function with ``bb.build.exec_func()`` and then |
| runs the Python code. |
| |
| To detect errors from functions executed with |
| ``bb.build.exec_func()``, you can catch the ``bb.build.FuncFailed`` |
| exception. |
| |
| .. note:: |
| |
| Functions in metadata (recipes and classes) should not themselves raise |
| ``bb.build.FuncFailed``. Rather, ``bb.build.FuncFailed`` should be viewed as a |
| general indicator that the called function failed by raising an |
| exception. For example, an exception raised by ``bb.fatal()`` will be caught |
| inside ``bb.build.exec_func()``, and a ``bb.build.FuncFailed`` will be raised in |
| response. |
| |
| Due to their simplicity, you should prefer regular Python functions over |
| BitBake-style Python functions unless you need a feature specific to |
| BitBake-style Python functions. Regular Python functions in metadata are |
| a more recent invention than BitBake-style Python functions, and older |
| code tends to use ``bb.build.exec_func()`` more often. |
| |
| Anonymous Python Functions |
| -------------------------- |
| |
| Sometimes it is useful to set variables or perform other operations |
| programmatically during parsing. To do this, you can define special |
| Python functions, called anonymous Python functions, that run at the end |
| of parsing. For example, the following conditionally sets a variable |
| based on the value of another variable:: |
| |
| python () { |
| if d.getVar('SOMEVAR') == 'value': |
| d.setVar('ANOTHERVAR', 'value2') |
| } |
| |
| An equivalent way to mark a function as an anonymous function is to give it |
| the name "__anonymous", rather than no name. |
| |
| Anonymous Python functions always run at the end of parsing, regardless |
| of where they are defined. If a recipe contains many anonymous |
| functions, they run in the same order as they are defined within the |
| recipe. As an example, consider the following snippet:: |
| |
| python () { |
| d.setVar('FOO', 'foo 2') |
| } |
| |
| FOO = "foo 1" |
| |
| python () { |
| d.appendVar('BAR',' bar 2') |
| } |
| |
| BAR = "bar 1" |
| |
| The previous example is conceptually |
| equivalent to the following snippet:: |
| |
| FOO = "foo 1" |
| BAR = "bar 1" |
| FOO = "foo 2" |
| BAR += "bar 2" |
| |
| ``FOO`` ends up with the value "foo 2", and |
| ``BAR`` with the value "bar 1 bar 2". Just as in the second snippet, the |
| values set for the variables within the anonymous functions become |
| available to tasks, which always run after parsing. |
| |
| Overrides and override-style operators such as "``:append``" are applied |
| before anonymous functions run. In the following example, ``FOO`` ends |
| up with the value "foo from anonymous":: |
| |
| FOO = "foo" |
| FOO:append = " from outside" |
| |
| python () { |
| d.setVar("FOO", "foo from anonymous") |
| } |
| |
| For methods |
| you can use with anonymous Python functions, see the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:functions you can call from within python`" |
| section. For a different method to run Python code during parsing, see |
| the ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:inline python variable expansion`" section. |
| |
| Flexible Inheritance for Class Functions |
| ---------------------------------------- |
| |
| Through coding techniques and the use of ``EXPORT_FUNCTIONS``, BitBake |
| supports exporting a function from a class such that the class function |
| appears as the default implementation of the function, but can still be |
| called if a recipe inheriting the class needs to define its own version |
| of the function. |
| |
| To understand the benefits of this feature, consider the basic scenario |
| where a class defines a task function and your recipe inherits the |
| class. In this basic scenario, your recipe inherits the task function as |
| defined in the class. If desired, your recipe can add to the start and |
| end of the function by using the ":prepend" or ":append" operations |
| respectively, or it can redefine the function completely. However, if it |
| redefines the function, there is no means for it to call the class |
| version of the function. ``EXPORT_FUNCTIONS`` provides a mechanism that |
| enables the recipe's version of the function to call the original |
| version of the function. |
| |
| To make use of this technique, you need the following things in place: |
| |
| - The class needs to define the function as follows:: |
| |
| classname_functionname |
| |
| For example, if you have a class file |
| ``bar.bbclass`` and a function named ``do_foo``, the class must |
| define the function as follows:: |
| |
| bar_do_foo |
| |
| - The class needs to contain the ``EXPORT_FUNCTIONS`` statement as |
| follows:: |
| |
| EXPORT_FUNCTIONS functionname |
| |
| For example, continuing with |
| the same example, the statement in the ``bar.bbclass`` would be as |
| follows:: |
| |
| EXPORT_FUNCTIONS do_foo |
| |
| - You need to call the function appropriately from within your recipe. |
| Continuing with the same example, if your recipe needs to call the |
| class version of the function, it should call ``bar_do_foo``. |
| Assuming ``do_foo`` was a shell function and ``EXPORT_FUNCTIONS`` was |
| used as above, the recipe's function could conditionally call the |
| class version of the function as follows:: |
| |
| do_foo() { |
| if [ somecondition ] ; then |
| bar_do_foo |
| else |
| # Do something else |
| fi |
| } |
| |
| To call your modified version of the function as defined in your recipe, |
| call it as ``do_foo``. |
| |
| With these conditions met, your single recipe can freely choose between |
| the original function as defined in the class file and the modified |
| function in your recipe. If you do not set up these conditions, you are |
| limited to using one function or the other. |
| |
| Tasks |
| ===== |
| |
| Tasks are BitBake execution units that make up the steps that BitBake |
| can run for a given recipe. Tasks are only supported in recipes and |
| classes (i.e. in ``.bb`` files and files included or inherited from |
| ``.bb`` files). By convention, tasks have names that start with "do\_". |
| |
| Promoting a Function to a Task |
| ------------------------------ |
| |
| Tasks are either :ref:`shell functions <bitbake-user-manual/bitbake-user-manual-metadata:shell functions>` or |
| :ref:`BitBake-style Python functions <bitbake-user-manual/bitbake-user-manual-metadata:bitbake-style python functions>` |
| that have been promoted to tasks by using the ``addtask`` command. The |
| ``addtask`` command can also optionally describe dependencies between |
| the task and other tasks. Here is an example that shows how to define a |
| task and declare some dependencies:: |
| |
| python do_printdate () { |
| import time |
| print time.strftime('%Y%m%d', time.gmtime()) |
| } |
| addtask printdate after do_fetch before do_build |
| |
| The first argument to ``addtask`` is the name |
| of the function to promote to a task. If the name does not start with |
| "do\_", "do\_" is implicitly added, which enforces the convention that all |
| task names start with "do\_". |
| |
| In the previous example, the ``do_printdate`` task becomes a dependency |
| of the ``do_build`` task, which is the default task (i.e. the task run |
| by the ``bitbake`` command unless another task is specified explicitly). |
| Additionally, the ``do_printdate`` task becomes dependent upon the |
| ``do_fetch`` task. Running the ``do_build`` task results in the |
| ``do_printdate`` task running first. |
| |
| .. note:: |
| |
| If you try out the previous example, you might see that the |
| ``do_printdate`` |
| task is only run the first time you build the recipe with the |
| ``bitbake`` |
| command. This is because BitBake considers the task "up-to-date" |
| after that initial run. If you want to force the task to always be |
| rerun for experimentation purposes, you can make BitBake always |
| consider the task "out-of-date" by using the |
| :ref:`[nostamp] <bitbake-user-manual/bitbake-user-manual-metadata:Variable Flags>` |
| variable flag, as follows:: |
| |
| do_printdate[nostamp] = "1" |
| |
| You can also explicitly run the task and provide the |
| -f option as follows:: |
| |
| $ bitbake recipe -c printdate -f |
| |
| When manually selecting a task to run with the bitbake ``recipe |
| -c task`` command, you can omit the "do\_" prefix as part of the task |
| name. |
| |
| You might wonder about the practical effects of using ``addtask`` |
| without specifying any dependencies as is done in the following example:: |
| |
| addtask printdate |
| |
| In this example, assuming dependencies have not been |
| added through some other means, the only way to run the task is by |
| explicitly selecting it with ``bitbake`` recipe ``-c printdate``. You |
| can use the ``do_listtasks`` task to list all tasks defined in a recipe |
| as shown in the following example:: |
| |
| $ bitbake recipe -c listtasks |
| |
| For more information on task dependencies, see the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-execution:dependencies`" section. |
| |
| See the ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:variable flags`" section for information |
| on variable flags you can use with tasks. |
| |
| .. note:: |
| |
| While it's infrequent, it's possible to define multiple tasks as |
| dependencies when calling ``addtask``. For example, here's a snippet |
| from the OpenEmbedded class file ``package_tar.bbclass``:: |
| |
| addtask package_write_tar before do_build after do_packagedata do_package |
| |
| Note how the ``package_write_tar`` task has to wait until both of |
| ``do_packagedata`` and ``do_package`` complete. |
| |
| Deleting a Task |
| --------------- |
| |
| As well as being able to add tasks, you can delete them. Simply use the |
| ``deltask`` command to delete a task. For example, to delete the example |
| task used in the previous sections, you would use:: |
| |
| deltask printdate |
| |
| If you delete a task using the ``deltask`` command and the task has |
| dependencies, the dependencies are not reconnected. For example, suppose |
| you have three tasks named ``do_a``, ``do_b``, and ``do_c``. |
| Furthermore, ``do_c`` is dependent on ``do_b``, which in turn is |
| dependent on ``do_a``. Given this scenario, if you use ``deltask`` to |
| delete ``do_b``, the implicit dependency relationship between ``do_c`` |
| and ``do_a`` through ``do_b`` no longer exists, and ``do_c`` |
| dependencies are not updated to include ``do_a``. Thus, ``do_c`` is free |
| to run before ``do_a``. |
| |
| If you want dependencies such as these to remain intact, use the |
| ``[noexec]`` varflag to disable the task instead of using the |
| ``deltask`` command to delete it:: |
| |
| do_b[noexec] = "1" |
| |
| Passing Information Into the Build Task Environment |
| --------------------------------------------------- |
| |
| When running a task, BitBake tightly controls the shell execution |
| environment of the build tasks to make sure unwanted contamination from |
| the build machine cannot influence the build. |
| |
| .. note:: |
| |
| By default, BitBake cleans the environment to include only those |
| things exported or listed in its passthrough list to ensure that the |
| build environment is reproducible and consistent. You can prevent this |
| "cleaning" by setting the :term:`BB_PRESERVE_ENV` variable. |
| |
| Consequently, if you do want something to get passed into the build task |
| environment, you must take these two steps: |
| |
| #. Tell BitBake to load what you want from the environment into the |
| datastore. You can do so through the |
| :term:`BB_ENV_PASSTHROUGH` and |
| :term:`BB_ENV_PASSTHROUGH_ADDITIONS` variables. For |
| example, assume you want to prevent the build system from accessing |
| your ``$HOME/.ccache`` directory. The following command adds the |
| the environment variable ``CCACHE_DIR`` to BitBake's passthrough |
| list to allow that variable into the datastore:: |
| |
| export BB_ENV_PASSTHROUGH_ADDITIONS="$BB_ENV_PASSTHROUGH_ADDITIONS CCACHE_DIR" |
| |
| #. Tell BitBake to export what you have loaded into the datastore to the |
| task environment of every running task. Loading something from the |
| environment into the datastore (previous step) only makes it |
| available in the datastore. To export it to the task environment of |
| every running task, use a command similar to the following in your |
| local configuration file ``local.conf`` or your distribution |
| configuration file:: |
| |
| export CCACHE_DIR |
| |
| .. note:: |
| |
| A side effect of the previous steps is that BitBake records the |
| variable as a dependency of the build process in things like the |
| setscene checksums. If doing so results in unnecessary rebuilds of |
| tasks, you can also flag the variable so that the setscene code |
| ignores the dependency when it creates checksums. |
| |
| Sometimes, it is useful to be able to obtain information from the |
| original execution environment. BitBake saves a copy of the original |
| environment into a special variable named :term:`BB_ORIGENV`. |
| |
| The :term:`BB_ORIGENV` variable returns a datastore object that can be |
| queried using the standard datastore operators such as |
| ``getVar(, False)``. The datastore object is useful, for example, to |
| find the original ``DISPLAY`` variable. Here is an example:: |
| |
| origenv = d.getVar("BB_ORIGENV", False) |
| bar = origenv.getVar("BAR", False) |
| |
| The previous example returns ``BAR`` from the original execution |
| environment. |
| |
| Variable Flags |
| ============== |
| |
| Variable flags (varflags) help control a task's functionality and |
| dependencies. BitBake reads and writes varflags to the datastore using |
| the following command forms:: |
| |
| variable = d.getVarFlags("variable") |
| self.d.setVarFlags("FOO", {"func": True}) |
| |
| When working with varflags, the same syntax, with the exception of |
| overrides, applies. In other words, you can set, append, and prepend |
| varflags just like variables. See the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:variable flag syntax`" section for details. |
| |
| BitBake has a defined set of varflags available for recipes and classes. |
| Tasks support a number of these flags which control various |
| functionality of the task: |
| |
| - ``[cleandirs]``: Empty directories that should be created before |
| the task runs. Directories that already exist are removed and |
| recreated to empty them. |
| |
| - ``[depends]``: Controls inter-task dependencies. See the |
| :term:`DEPENDS` variable and the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:inter-task |
| dependencies`" section for more information. |
| |
| - ``[deptask]``: Controls task build-time dependencies. See the |
| :term:`DEPENDS` variable and the ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:build dependencies`" section for more information. |
| |
| - ``[dirs]``: Directories that should be created before the task |
| runs. Directories that already exist are left as is. The last |
| directory listed is used as the current working directory for the |
| task. |
| |
| - ``[file-checksums]``: Controls the file dependencies for a task. The |
| baseline file list is the set of files associated with |
| :term:`SRC_URI`. May be used to set additional dependencies on |
| files not associated with :term:`SRC_URI`. |
| |
| The value set to the list is a file-boolean pair where the first |
| value is the file name and the second is whether or not it |
| physically exists on the filesystem. :: |
| |
| do_configure[file-checksums] += "${MY_DIRPATH}/my-file.txt:True" |
| |
| It is important to record any paths which the task looked at and |
| which didn't exist. This means that if these do exist at a later |
| time, the task can be rerun with the new additional files. The |
| "exists" True or False value after the path allows this to be |
| handled. |
| |
| - ``[lockfiles]``: Specifies one or more lockfiles to lock while the |
| task executes. Only one task may hold a lockfile, and any task that |
| attempts to lock an already locked file will block until the lock is |
| released. You can use this variable flag to accomplish mutual |
| exclusion. |
| |
| - ``[noexec]``: When set to "1", marks the task as being empty, with |
| no execution required. You can use the ``[noexec]`` flag to set up |
| tasks as dependency placeholders, or to disable tasks defined |
| elsewhere that are not needed in a particular recipe. |
| |
| - ``[nostamp]``: When set to "1", tells BitBake to not generate a |
| stamp file for a task, which implies the task should always be |
| executed. |
| |
| .. caution:: |
| |
| Any task that depends (possibly indirectly) on a ``[nostamp]`` task will |
| always be executed as well. This can cause unnecessary rebuilding if you |
| are not careful. |
| |
| - ``[number_threads]``: Limits tasks to a specific number of |
| simultaneous threads during execution. This varflag is useful when |
| your build host has a large number of cores but certain tasks need to |
| be rate-limited due to various kinds of resource constraints (e.g. to |
| avoid network throttling). ``number_threads`` works similarly to the |
| :term:`BB_NUMBER_THREADS` variable but is task-specific. |
| |
| Set the value globally. For example, the following makes sure the |
| ``do_fetch`` task uses no more than two simultaneous execution |
| threads: do_fetch[number_threads] = "2" |
| |
| .. warning:: |
| |
| - Setting the varflag in individual recipes rather than globally |
| can result in unpredictable behavior. |
| |
| - Setting the varflag to a value greater than the value used in |
| the :term:`BB_NUMBER_THREADS` variable causes ``number_threads`` to |
| have no effect. |
| |
| - ``[postfuncs]``: List of functions to call after the completion of |
| the task. |
| |
| - ``[prefuncs]``: List of functions to call before the task executes. |
| |
| - ``[rdepends]``: Controls inter-task runtime dependencies. See the |
| :term:`RDEPENDS` variable, the |
| :term:`RRECOMMENDS` variable, and the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:inter-task dependencies`" section for |
| more information. |
| |
| - ``[rdeptask]``: Controls task runtime dependencies. See the |
| :term:`RDEPENDS` variable, the |
| :term:`RRECOMMENDS` variable, and the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:runtime dependencies`" section for more |
| information. |
| |
| - ``[recideptask]``: When set in conjunction with ``recrdeptask``, |
| specifies a task that should be inspected for additional |
| dependencies. |
| |
| - ``[recrdeptask]``: Controls task recursive runtime dependencies. |
| See the :term:`RDEPENDS` variable, the |
| :term:`RRECOMMENDS` variable, and the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-metadata:recursive dependencies`" section for |
| more information. |
| |
| - ``[stamp-extra-info]``: Extra stamp information to append to the |
| task's stamp. As an example, OpenEmbedded uses this flag to allow |
| machine-specific tasks. |
| |
| - ``[umask]``: The umask to run the task under. |
| |
| Several varflags are useful for controlling how signatures are |
| calculated for variables. For more information on this process, see the |
| ":ref:`bitbake-user-manual/bitbake-user-manual-execution:checksums (signatures)`" section. |
| |
| - ``[vardeps]``: Specifies a space-separated list of additional |
| variables to add to a variable's dependencies for the purposes of |
| calculating its signature. Adding variables to this list is useful, |
| for example, when a function refers to a variable in a manner that |
| does not allow BitBake to automatically determine that the variable |
| is referred to. |
| |
| - ``[vardepsexclude]``: Specifies a space-separated list of variables |
| that should be excluded from a variable's dependencies for the |
| purposes of calculating its signature. |
| |
| - ``[vardepvalue]``: If set, instructs BitBake to ignore the actual |
| value of the variable and instead use the specified value when |
| calculating the variable's signature. |
| |
| - ``[vardepvalueexclude]``: Specifies a pipe-separated list of |
| strings to exclude from the variable's value when calculating the |
| variable's signature. |
| |
| Events |
| ====== |
| |
| BitBake allows installation of event handlers within recipe and class |
| files. Events are triggered at certain points during operation, such as |
| the beginning of operation against a given recipe (i.e. ``*.bb``), the |
| start of a given task, a task failure, a task success, and so forth. The |
| intent is to make it easy to do things like email notification on build |
| failures. |
| |
| Following is an example event handler that prints the name of the event |
| and the content of the :term:`FILE` variable:: |
| |
| addhandler myclass_eventhandler |
| python myclass_eventhandler() { |
| from bb.event import getName |
| print("The name of the Event is %s" % getName(e)) |
| print("The file we run for is %s" % d.getVar('FILE')) |
| } |
| myclass_eventhandler[eventmask] = "bb.event.BuildStarted |
| bb.event.BuildCompleted" |
| |
| In the previous example, an eventmask has been |
| set so that the handler only sees the "BuildStarted" and |
| "BuildCompleted" events. This event handler gets called every time an |
| event matching the eventmask is triggered. A global variable "e" is |
| defined, which represents the current event. With the ``getName(e)`` |
| method, you can get the name of the triggered event. The global |
| datastore is available as "d". In legacy code, you might see "e.data" |
| used to get the datastore. However, realize that "e.data" is deprecated |
| and you should use "d" going forward. |
| |
| The context of the datastore is appropriate to the event in question. |
| For example, "BuildStarted" and "BuildCompleted" events run before any |
| tasks are executed so would be in the global configuration datastore |
| namespace. No recipe-specific metadata exists in that namespace. The |
| "BuildStarted" and "BuildCompleted" events also run in the main |
| cooker/server process rather than any worker context. Thus, any changes |
| made to the datastore would be seen by other cooker/server events within |
| the current build but not seen outside of that build or in any worker |
| context. Task events run in the actual tasks in question consequently |
| have recipe-specific and task-specific contents. These events run in the |
| worker context and are discarded at the end of task execution. |
| |
| During a standard build, the following common events might occur. The |
| following events are the most common kinds of events that most metadata |
| might have an interest in viewing: |
| |
| - ``bb.event.ConfigParsed()``: Fired when the base configuration; which |
| consists of ``bitbake.conf``, ``base.bbclass`` and any global |
| :term:`INHERIT` statements; has been parsed. You can see multiple such |
| events when each of the workers parse the base configuration or if |
| the server changes configuration and reparses. Any given datastore |
| only has one such event executed against it, however. If |
| :term:`BB_INVALIDCONF` is set in the datastore by the event |
| handler, the configuration is reparsed and a new event triggered, |
| allowing the metadata to update configuration. |
| |
| - ``bb.event.HeartbeatEvent()``: Fires at regular time intervals of one |
| second. You can configure the interval time using the |
| ``BB_HEARTBEAT_EVENT`` variable. The event's "time" attribute is the |
| ``time.time()`` value when the event is triggered. This event is |
| useful for activities such as system state monitoring. |
| |
| - ``bb.event.ParseStarted()``: Fired when BitBake is about to start |
| parsing recipes. This event's "total" attribute represents the number |
| of recipes BitBake plans to parse. |
| |
| - ``bb.event.ParseProgress()``: Fired as parsing progresses. This |
| event's "current" attribute is the number of recipes parsed as well |
| as the "total" attribute. |
| |
| - ``bb.event.ParseCompleted()``: Fired when parsing is complete. This |
| event's "cached", "parsed", "skipped", "virtuals", "masked", and |
| "errors" attributes provide statistics for the parsing results. |
| |
| - ``bb.event.BuildStarted()``: Fired when a new build starts. BitBake |
| fires multiple "BuildStarted" events (one per configuration) when |
| multiple configuration (multiconfig) is enabled. |
| |
| - ``bb.build.TaskStarted()``: Fired when a task starts. This event's |
| "taskfile" attribute points to the recipe from which the task |
| originates. The "taskname" attribute, which is the task's name, |
| includes the ``do_`` prefix, and the "logfile" attribute point to |
| where the task's output is stored. Finally, the "time" attribute is |
| the task's execution start time. |
| |
| - ``bb.build.TaskInvalid()``: Fired if BitBake tries to execute a task |
| that does not exist. |
| |
| - ``bb.build.TaskFailedSilent()``: Fired for setscene tasks that fail |
| and should not be presented to the user verbosely. |
| |
| - ``bb.build.TaskFailed()``: Fired for normal tasks that fail. |
| |
| - ``bb.build.TaskSucceeded()``: Fired when a task successfully |
| completes. |
| |
| - ``bb.event.BuildCompleted()``: Fired when a build finishes. |
| |
| - ``bb.cooker.CookerExit()``: Fired when the BitBake server/cooker |
| shuts down. This event is usually only seen by the UIs as a sign they |
| should also shutdown. |
| |
| This next list of example events occur based on specific requests to the |
| server. These events are often used to communicate larger pieces of |
| information from the BitBake server to other parts of BitBake such as |
| user interfaces: |
| |
| - ``bb.event.TreeDataPreparationStarted()`` |
| - ``bb.event.TreeDataPreparationProgress()`` |
| - ``bb.event.TreeDataPreparationCompleted()`` |
| - ``bb.event.DepTreeGenerated()`` |
| - ``bb.event.CoreBaseFilesFound()`` |
| - ``bb.event.ConfigFilePathFound()`` |
| - ``bb.event.FilesMatchingFound()`` |
| - ``bb.event.ConfigFilesFound()`` |
| - ``bb.event.TargetsTreeGenerated()`` |
| |
| .. _variants-class-extension-mechanism: |
| |
| Variants --- Class Extension Mechanism |
| ====================================== |
| |
| BitBake supports multiple incarnations of a recipe file via the |
| :term:`BBCLASSEXTEND` variable. |
| |
| The :term:`BBCLASSEXTEND` variable is a space separated list of classes used |
| to "extend" the recipe for each variant. Here is an example that results in a |
| second incarnation of the current recipe being available. This second |
| incarnation will have the "native" class inherited. :: |
| |
| BBCLASSEXTEND = "native" |
| |
| .. note:: |
| |
| The mechanism for this class extension is extremely specific to the |
| implementation. Usually, the recipe's :term:`PROVIDES` , :term:`PN` , and |
| :term:`DEPENDS` variables would need to be modified by the extension |
| class. For specific examples, see the OE-Core native , nativesdk , and |
| multilib classes. |
| |
| Dependencies |
| ============ |
| |
| To allow for efficient parallel processing, BitBake handles dependencies |
| at the task level. Dependencies can exist both between tasks within a |
| single recipe and between tasks in different recipes. Following are |
| examples of each: |
| |
| - For tasks within a single recipe, a recipe's ``do_configure`` task |
| might need to complete before its ``do_compile`` task can run. |
| |
| - For tasks in different recipes, one recipe's ``do_configure`` task |
| might require another recipe's ``do_populate_sysroot`` task to finish |
| first such that the libraries and headers provided by the other |
| recipe are available. |
| |
| This section describes several ways to declare dependencies. Remember, |
| even though dependencies are declared in different ways, they are all |
| simply dependencies between tasks. |
| |
| .. _dependencies-internal-to-the-bb-file: |
| |
| Dependencies Internal to the ``.bb`` File |
| ----------------------------------------- |
| |
| BitBake uses the ``addtask`` directive to manage dependencies that are |
| internal to a given recipe file. You can use the ``addtask`` directive |
| to indicate when a task is dependent on other tasks or when other tasks |
| depend on that recipe. Here is an example:: |
| |
| addtask printdate after do_fetch before do_build |
| |
| In this example, the ``do_printdate`` task |
| depends on the completion of the ``do_fetch`` task, and the ``do_build`` |
| task depends on the completion of the ``do_printdate`` task. |
| |
| .. note:: |
| |
| For a task to run, it must be a direct or indirect dependency of some |
| other task that is scheduled to run. |
| |
| For illustration, here are some examples: |
| |
| - The directive ``addtask mytask before do_configure`` causes |
| ``do_mytask`` to run before ``do_configure`` runs. Be aware that |
| ``do_mytask`` still only runs if its :ref:`input |
| checksum <bitbake-user-manual/bitbake-user-manual-execution:checksums (signatures)>` has changed since the last time it was |
| run. Changes to the input checksum of ``do_mytask`` also |
| indirectly cause ``do_configure`` to run. |
| |
| - The directive ``addtask mytask after do_configure`` by itself |
| never causes ``do_mytask`` to run. ``do_mytask`` can still be run |
| manually as follows:: |
| |
| $ bitbake recipe -c mytask |
| |
| Declaring ``do_mytask`` as a dependency of some other task that is |
| scheduled to run also causes it to run. Regardless, the task runs after |
| ``do_configure``. |
| |
| Build Dependencies |
| ------------------ |
| |
| BitBake uses the :term:`DEPENDS` variable to manage |
| build time dependencies. The ``[deptask]`` varflag for tasks signifies |
| the task of each item listed in :term:`DEPENDS` that must complete before |
| that task can be executed. Here is an example:: |
| |
| do_configure[deptask] = "do_populate_sysroot" |
| |
| In this example, the ``do_populate_sysroot`` task |
| of each item in :term:`DEPENDS` must complete before ``do_configure`` can |
| execute. |
| |
| Runtime Dependencies |
| -------------------- |
| |
| BitBake uses the :term:`PACKAGES`, :term:`RDEPENDS`, and :term:`RRECOMMENDS` |
| variables to manage runtime dependencies. |
| |
| The :term:`PACKAGES` variable lists runtime packages. Each of those packages |
| can have :term:`RDEPENDS` and :term:`RRECOMMENDS` runtime dependencies. The |
| ``[rdeptask]`` flag for tasks is used to signify the task of each item |
| runtime dependency which must have completed before that task can be |
| executed. :: |
| |
| do_package_qa[rdeptask] = "do_packagedata" |
| |
| In the previous |
| example, the ``do_packagedata`` task of each item in :term:`RDEPENDS` must |
| have completed before ``do_package_qa`` can execute. |
| Although :term:`RDEPENDS` contains entries from the |
| runtime dependency namespace, BitBake knows how to map them back |
| to the build-time dependency namespace, in which the tasks are defined. |
| |
| Recursive Dependencies |
| ---------------------- |
| |
| BitBake uses the ``[recrdeptask]`` flag to manage recursive task |
| dependencies. BitBake looks through the build-time and runtime |
| dependencies of the current recipe, looks through the task's inter-task |
| dependencies, and then adds dependencies for the listed task. Once |
| BitBake has accomplished this, it recursively works through the |
| dependencies of those tasks. Iterative passes continue until all |
| dependencies are discovered and added. |
| |
| The ``[recrdeptask]`` flag is most commonly used in high-level recipes |
| that need to wait for some task to finish "globally". For example, |
| ``image.bbclass`` has the following:: |
| |
| do_rootfs[recrdeptask] += "do_packagedata" |
| |
| This statement says that the ``do_packagedata`` task of |
| the current recipe and all recipes reachable (by way of dependencies) |
| from the image recipe must run before the ``do_rootfs`` task can run. |
| |
| BitBake allows a task to recursively depend on itself by |
| referencing itself in the task list:: |
| |
| do_a[recrdeptask] = "do_a do_b" |
| |
| In the same way as before, this means that the ``do_a`` |
| and ``do_b`` tasks of the current recipe and all |
| recipes reachable (by way of dependencies) from the recipe |
| must run before the ``do_a`` task can run. In this |
| case BitBake will ignore the current recipe's ``do_a`` |
| task circular dependency on itself. |
| |
| Inter-Task Dependencies |
| ----------------------- |
| |
| BitBake uses the ``[depends]`` flag in a more generic form to manage |
| inter-task dependencies. This more generic form allows for |
| inter-dependency checks for specific tasks rather than checks for the |
| data in :term:`DEPENDS`. Here is an example:: |
| |
| do_patch[depends] = "quilt-native:do_populate_sysroot" |
| |
| In this example, the ``do_populate_sysroot`` task of the target ``quilt-native`` |
| must have completed before the ``do_patch`` task can execute. |
| |
| The ``[rdepends]`` flag works in a similar way but takes targets in the |
| runtime namespace instead of the build-time dependency namespace. |
| |
| Functions You Can Call From Within Python |
| ========================================= |
| |
| BitBake provides many functions you can call from within Python |
| functions. This section lists the most commonly used functions, and |
| mentions where to find others. |
| |
| Functions for Accessing Datastore Variables |
| ------------------------------------------- |
| |
| It is often necessary to access variables in the BitBake datastore using |
| Python functions. The BitBake datastore has an API that allows you this |
| access. Here is a list of available operations: |
| |
| .. list-table:: |
| :widths: auto |
| :header-rows: 1 |
| |
| * - *Operation* |
| - *Description* |
| * - ``d.getVar("X", expand)`` |
| - Returns the value of variable "X". Using "expand=True" expands the |
| value. Returns "None" if the variable "X" does not exist. |
| * - ``d.setVar("X", "value")`` |
| - Sets the variable "X" to "value" |
| * - ``d.appendVar("X", "value")`` |
| - Adds "value" to the end of the variable "X". Acts like ``d.setVar("X", |
| "value")`` if the variable "X" does not exist. |
| * - ``d.prependVar("X", "value")`` |
| - Adds "value" to the start of the variable "X". Acts like |
| ``d.setVar("X","value")`` if the variable "X" does not exist. |
| * - ``d.delVar("X")`` |
| - Deletes the variable "X" from the datastore. Does nothing if the variable |
| "X" does not exist. |
| * - ``d.renameVar("X", "Y")`` |
| - Renames the variable "X" to "Y". Does nothing if the variable "X" does |
| not exist. |
| * - ``d.getVarFlag("X", flag, expand)`` |
| - Returns the value of variable "X". Using "expand=True" expands the |
| value. Returns "None" if either the variable "X" or the named flag does |
| not exist. |
| * - ``d.setVarFlag("X", flag, "value")`` |
| - Sets the named flag for variable "X" to "value". |
| * - ``d.appendVarFlag("X", flag, "value")`` |
| - Appends "value" to the named flag on the variable "X". Acts like |
| ``d.setVarFlag("X", flag, "value")`` if the named flag does not exist. |
| * - ``d.prependVarFlag("X", flag, "value")`` |
| - Prepends "value" to the named flag on the variable "X". Acts like |
| ``d.setVarFlag("X", flag, "value")`` if the named flag does not exist. |
| * - ``d.delVarFlag("X", flag)`` |
| - Deletes the named flag on the variable "X" from the datastore. |
| * - ``d.setVarFlags("X", flagsdict)`` |
| - Sets the flags specified in the ``flagsdict()`` |
| parameter. ``setVarFlags`` does not clear previous flags. Think of this |
| operation as ``addVarFlags``. |
| * - ``d.getVarFlags("X")`` |
| - Returns a ``flagsdict`` of the flags for the variable "X". Returns "None" |
| if the variable "X" does not exist. |
| * - ``d.delVarFlags("X")`` |
| - Deletes all the flags for the variable "X". Does nothing if the variable |
| "X" does not exist. |
| * - ``d.expand(expression)`` |
| - Expands variable references in the specified string |
| expression. References to variables that do not exist are left as is. For |
| example, ``d.expand("foo ${X}")`` expands to the literal string "foo |
| ${X}" if the variable "X" does not exist. |
| |
| Other Functions |
| --------------- |
| |
| You can find many other functions that can be called from Python by |
| looking at the source code of the ``bb`` module, which is in |
| ``bitbake/lib/bb``. For example, ``bitbake/lib/bb/utils.py`` includes |
| the commonly used functions ``bb.utils.contains()`` and |
| ``bb.utils.mkdirhier()``, which come with docstrings. |
| |
| Testing and Debugging BitBake Python code |
| ----------------------------------------- |
| |
| The OpenEmbedded build system implements a convenient ``pydevshell`` target which |
| you can use to access the BitBake datastore and experiment with your own Python |
| code. See :yocto_docs:`Using a Python Development Shell |
| </dev-manual/python-development-shell.html#using-a-python-development-shell>` in the Yocto |
| Project manual for details. |
| |
| Task Checksums and Setscene |
| =========================== |
| |
| BitBake uses checksums (or signatures) along with the setscene to |
| determine if a task needs to be run. This section describes the process. |
| To help understand how BitBake does this, the section assumes an |
| OpenEmbedded metadata-based example. |
| |
| These checksums are stored in :term:`STAMP`. You can |
| examine the checksums using the following BitBake command:: |
| |
| $ bitbake-dumpsigs |
| |
| This command returns the signature data in a readable |
| format that allows you to examine the inputs used when the OpenEmbedded |
| build system generates signatures. For example, using |
| ``bitbake-dumpsigs`` allows you to examine the ``do_compile`` task's |
| "sigdata" for a C application (e.g. ``bash``). Running the command also |
| reveals that the "CC" variable is part of the inputs that are hashed. |
| Any changes to this variable would invalidate the stamp and cause the |
| ``do_compile`` task to run. |
| |
| The following list describes related variables: |
| |
| - :term:`BB_HASHCHECK_FUNCTION`: |
| Specifies the name of the function to call during the "setscene" part |
| of the task's execution in order to validate the list of task hashes. |
| |
| - :term:`BB_SETSCENE_DEPVALID`: |
| Specifies a function BitBake calls that determines whether BitBake |
| requires a setscene dependency to be met. |
| |
| - :term:`BB_TASKHASH`: Within an executing task, |
| this variable holds the hash of the task as returned by the currently |
| enabled signature generator. |
| |
| - :term:`STAMP`: The base path to create stamp files. |
| |
| - :term:`STAMPCLEAN`: Again, the base path to |
| create stamp files but can use wildcards for matching a range of |
| files for clean operations. |
| |
| Wildcard Support in Variables |
| ============================= |
| |
| Support for wildcard use in variables varies depending on the context in |
| which it is used. For example, some variables and filenames allow |
| limited use of wildcards through the "``%``" and "``*``" characters. |
| Other variables or names support Python's |
| `glob <https://docs.python.org/3/library/glob.html>`_ syntax, |
| `fnmatch <https://docs.python.org/3/library/fnmatch.html#module-fnmatch>`_ |
| syntax, or |
| `Regular Expression (re) <https://docs.python.org/3/library/re.html>`_ |
| syntax. |
| |
| For variables that have wildcard suport, the documentation describes |
| which form of wildcard, its use, and its limitations. |