248 lines
8.1 KiB
ReStructuredText
248 lines
8.1 KiB
ReStructuredText
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======================
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Kconfig macro language
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======================
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Concept
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-------
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The basic idea was inspired by Make. When we look at Make, we notice sort of
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two languages in one. One language describes dependency graphs consisting of
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targets and prerequisites. The other is a macro language for performing textual
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substitution.
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There is clear distinction between the two language stages. For example, you
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can write a makefile like follows::
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APP := foo
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SRC := foo.c
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CC := gcc
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$(APP): $(SRC)
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$(CC) -o $(APP) $(SRC)
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The macro language replaces the variable references with their expanded form,
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and handles as if the source file were input like follows::
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foo: foo.c
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gcc -o foo foo.c
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Then, Make analyzes the dependency graph and determines the targets to be
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updated.
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The idea is quite similar in Kconfig - it is possible to describe a Kconfig
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file like this::
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CC := gcc
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config CC_HAS_FOO
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def_bool $(shell, $(srctree)/scripts/gcc-check-foo.sh $(CC))
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The macro language in Kconfig processes the source file into the following
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intermediate::
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config CC_HAS_FOO
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def_bool y
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Then, Kconfig moves onto the evaluation stage to resolve inter-symbol
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dependency as explained in kconfig-language.rst.
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Variables
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---------
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Like in Make, a variable in Kconfig works as a macro variable. A macro
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variable is expanded "in place" to yield a text string that may then be
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expanded further. To get the value of a variable, enclose the variable name in
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$( ). The parentheses are required even for single-letter variable names; $X is
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a syntax error. The curly brace form as in ${CC} is not supported either.
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There are two types of variables: simply expanded variables and recursively
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expanded variables.
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A simply expanded variable is defined using the := assignment operator. Its
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righthand side is expanded immediately upon reading the line from the Kconfig
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file.
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A recursively expanded variable is defined using the = assignment operator.
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Its righthand side is simply stored as the value of the variable without
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expanding it in any way. Instead, the expansion is performed when the variable
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is used.
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There is another type of assignment operator; += is used to append text to a
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variable. The righthand side of += is expanded immediately if the lefthand
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side was originally defined as a simple variable. Otherwise, its evaluation is
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deferred.
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The variable reference can take parameters, in the following form::
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$(name,arg1,arg2,arg3)
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You can consider the parameterized reference as a function. (more precisely,
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"user-defined function" in contrast to "built-in function" listed below).
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Useful functions must be expanded when they are used since the same function is
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expanded differently if different parameters are passed. Hence, a user-defined
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function is defined using the = assignment operator. The parameters are
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referenced within the body definition with $(1), $(2), etc.
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In fact, recursively expanded variables and user-defined functions are the same
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internally. (In other words, "variable" is "function with zero argument".)
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When we say "variable" in a broad sense, it includes "user-defined function".
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Built-in functions
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------------------
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Like Make, Kconfig provides several built-in functions. Every function takes a
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particular number of arguments.
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In Make, every built-in function takes at least one argument. Kconfig allows
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zero argument for built-in functions, such as $(filename), $(lineno). You could
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consider those as "built-in variable", but it is just a matter of how we call
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it after all. Let's say "built-in function" here to refer to natively supported
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functionality.
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Kconfig currently supports the following built-in functions.
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- $(shell,command)
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The "shell" function accepts a single argument that is expanded and passed
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to a subshell for execution. The standard output of the command is then read
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and returned as the value of the function. Every newline in the output is
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replaced with a space. Any trailing newlines are deleted. The standard error
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is not returned, nor is any program exit status.
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- $(info,text)
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The "info" function takes a single argument and prints it to stdout.
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It evaluates to an empty string.
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- $(warning-if,condition,text)
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The "warning-if" function takes two arguments. If the condition part is "y",
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the text part is sent to stderr. The text is prefixed with the name of the
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current Kconfig file and the current line number.
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- $(error-if,condition,text)
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The "error-if" function is similar to "warning-if", but it terminates the
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parsing immediately if the condition part is "y".
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- $(filename)
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The 'filename' takes no argument, and $(filename) is expanded to the file
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name being parsed.
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- $(lineno)
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The 'lineno' takes no argument, and $(lineno) is expanded to the line number
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being parsed.
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Make vs Kconfig
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---------------
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Kconfig adopts Make-like macro language, but the function call syntax is
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slightly different.
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A function call in Make looks like this::
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$(func-name arg1,arg2,arg3)
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The function name and the first argument are separated by at least one
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whitespace. Then, leading whitespaces are trimmed from the first argument,
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while whitespaces in the other arguments are kept. You need to use a kind of
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trick to start the first parameter with spaces. For example, if you want
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to make "info" function print " hello", you can write like follows::
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empty :=
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space := $(empty) $(empty)
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$(info $(space)$(space)hello)
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Kconfig uses only commas for delimiters, and keeps all whitespaces in the
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function call. Some people prefer putting a space after each comma delimiter::
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$(func-name, arg1, arg2, arg3)
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In this case, "func-name" will receive " arg1", " arg2", " arg3". The presence
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of leading spaces may matter depending on the function. The same applies to
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Make - for example, $(subst .c, .o, $(sources)) is a typical mistake; it
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replaces ".c" with " .o".
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In Make, a user-defined function is referenced by using a built-in function,
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'call', like this::
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$(call my-func,arg1,arg2,arg3)
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Kconfig invokes user-defined functions and built-in functions in the same way.
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The omission of 'call' makes the syntax shorter.
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In Make, some functions treat commas verbatim instead of argument separators.
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For example, $(shell echo hello, world) runs the command "echo hello, world".
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Likewise, $(info hello, world) prints "hello, world" to stdout. You could say
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this is _useful_ inconsistency.
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In Kconfig, for simpler implementation and grammatical consistency, commas that
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appear in the $( ) context are always delimiters. It means::
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$(shell, echo hello, world)
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is an error because it is passing two parameters where the 'shell' function
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accepts only one. To pass commas in arguments, you can use the following trick::
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comma := ,
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$(shell, echo hello$(comma) world)
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Caveats
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-------
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A variable (or function) cannot be expanded across tokens. So, you cannot use
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a variable as a shorthand for an expression that consists of multiple tokens.
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The following works::
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RANGE_MIN := 1
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RANGE_MAX := 3
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config FOO
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int "foo"
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range $(RANGE_MIN) $(RANGE_MAX)
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But, the following does not work::
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RANGES := 1 3
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config FOO
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int "foo"
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range $(RANGES)
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A variable cannot be expanded to any keyword in Kconfig. The following does
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not work::
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MY_TYPE := tristate
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config FOO
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$(MY_TYPE) "foo"
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default y
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Obviously from the design, $(shell command) is expanded in the textual
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substitution phase. You cannot pass symbols to the 'shell' function.
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The following does not work as expected::
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config ENDIAN_FLAG
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string
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default "-mbig-endian" if CPU_BIG_ENDIAN
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default "-mlittle-endian" if CPU_LITTLE_ENDIAN
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config CC_HAS_ENDIAN_FLAG
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def_bool $(shell $(srctree)/scripts/gcc-check-flag ENDIAN_FLAG)
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Instead, you can do like follows so that any function call is statically
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expanded::
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config CC_HAS_ENDIAN_FLAG
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bool
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default $(shell $(srctree)/scripts/gcc-check-flag -mbig-endian) if CPU_BIG_ENDIAN
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default $(shell $(srctree)/scripts/gcc-check-flag -mlittle-endian) if CPU_LITTLE_ENDIAN
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