mirror of https://gitee.com/openkylin/linux.git
670 lines
24 KiB
Plaintext
670 lines
24 KiB
Plaintext
Introduction
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------------
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The configuration database is a collection of configuration options
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organized in a tree structure:
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+- Code maturity level options
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| +- Prompt for development and/or incomplete code/drivers
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+- General setup
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| +- Networking support
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| +- System V IPC
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| +- BSD Process Accounting
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| +- Sysctl support
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+- Loadable module support
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| +- Enable loadable module support
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| +- Set version information on all module symbols
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| +- Kernel module loader
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+- ...
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Every entry has its own dependencies. These dependencies are used
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to determine the visibility of an entry. Any child entry is only
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visible if its parent entry is also visible.
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Menu entries
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------------
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Most entries define a config option; all other entries help to organize
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them. A single configuration option is defined like this:
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config MODVERSIONS
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bool "Set version information on all module symbols"
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depends on MODULES
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help
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Usually, modules have to be recompiled whenever you switch to a new
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kernel. ...
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Every line starts with a key word and can be followed by multiple
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arguments. "config" starts a new config entry. The following lines
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define attributes for this config option. Attributes can be the type of
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the config option, input prompt, dependencies, help text and default
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values. A config option can be defined multiple times with the same
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name, but every definition can have only a single input prompt and the
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type must not conflict.
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Menu attributes
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---------------
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A menu entry can have a number of attributes. Not all of them are
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applicable everywhere (see syntax).
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- type definition: "bool"/"tristate"/"string"/"hex"/"int"
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Every config option must have a type. There are only two basic types:
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tristate and string; the other types are based on these two. The type
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definition optionally accepts an input prompt, so these two examples
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are equivalent:
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bool "Networking support"
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and
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bool
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prompt "Networking support"
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- input prompt: "prompt" <prompt> ["if" <expr>]
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Every menu entry can have at most one prompt, which is used to display
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to the user. Optionally dependencies only for this prompt can be added
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with "if".
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- default value: "default" <expr> ["if" <expr>]
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A config option can have any number of default values. If multiple
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default values are visible, only the first defined one is active.
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Default values are not limited to the menu entry where they are
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defined. This means the default can be defined somewhere else or be
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overridden by an earlier definition.
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The default value is only assigned to the config symbol if no other
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value was set by the user (via the input prompt above). If an input
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prompt is visible the default value is presented to the user and can
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be overridden by him.
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Optionally, dependencies only for this default value can be added with
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"if".
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The default value deliberately defaults to 'n' in order to avoid bloating the
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build. With few exceptions, new config options should not change this. The
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intent is for "make oldconfig" to add as little as possible to the config from
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release to release.
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Note:
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Things that merit "default y/m" include:
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a) A new Kconfig option for something that used to always be built
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should be "default y".
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b) A new gatekeeping Kconfig option that hides/shows other Kconfig
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options (but does not generate any code of its own), should be
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"default y" so people will see those other options.
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c) Sub-driver behavior or similar options for a driver that is
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"default n". This allows you to provide sane defaults.
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d) Hardware or infrastructure that everybody expects, such as CONFIG_NET
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or CONFIG_BLOCK. These are rare exceptions.
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- type definition + default value:
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"def_bool"/"def_tristate" <expr> ["if" <expr>]
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This is a shorthand notation for a type definition plus a value.
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Optionally dependencies for this default value can be added with "if".
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- dependencies: "depends on" <expr>
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This defines a dependency for this menu entry. If multiple
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dependencies are defined, they are connected with '&&'. Dependencies
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are applied to all other options within this menu entry (which also
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accept an "if" expression), so these two examples are equivalent:
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bool "foo" if BAR
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default y if BAR
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and
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depends on BAR
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bool "foo"
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default y
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- reverse dependencies: "select" <symbol> ["if" <expr>]
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While normal dependencies reduce the upper limit of a symbol (see
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below), reverse dependencies can be used to force a lower limit of
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another symbol. The value of the current menu symbol is used as the
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minimal value <symbol> can be set to. If <symbol> is selected multiple
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times, the limit is set to the largest selection.
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Reverse dependencies can only be used with boolean or tristate
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symbols.
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Note:
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select should be used with care. select will force
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a symbol to a value without visiting the dependencies.
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By abusing select you are able to select a symbol FOO even
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if FOO depends on BAR that is not set.
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In general use select only for non-visible symbols
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(no prompts anywhere) and for symbols with no dependencies.
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That will limit the usefulness but on the other hand avoid
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the illegal configurations all over.
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- weak reverse dependencies: "imply" <symbol> ["if" <expr>]
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This is similar to "select" as it enforces a lower limit on another
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symbol except that the "implied" symbol's value may still be set to n
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from a direct dependency or with a visible prompt.
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Given the following example:
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config FOO
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tristate
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imply BAZ
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config BAZ
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tristate
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depends on BAR
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The following values are possible:
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FOO BAR BAZ's default choice for BAZ
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--- --- ------------- --------------
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n y n N/m/y
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m y m M/y/n
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y y y Y/n
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y n * N
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This is useful e.g. with multiple drivers that want to indicate their
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ability to hook into a secondary subsystem while allowing the user to
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configure that subsystem out without also having to unset these drivers.
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- limiting menu display: "visible if" <expr>
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This attribute is only applicable to menu blocks, if the condition is
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false, the menu block is not displayed to the user (the symbols
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contained there can still be selected by other symbols, though). It is
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similar to a conditional "prompt" attribute for individual menu
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entries. Default value of "visible" is true.
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- numerical ranges: "range" <symbol> <symbol> ["if" <expr>]
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This allows to limit the range of possible input values for int
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and hex symbols. The user can only input a value which is larger than
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or equal to the first symbol and smaller than or equal to the second
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symbol.
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- help text: "help" or "---help---"
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This defines a help text. The end of the help text is determined by
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the indentation level, this means it ends at the first line which has
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a smaller indentation than the first line of the help text.
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"---help---" and "help" do not differ in behaviour, "---help---" is
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used to help visually separate configuration logic from help within
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the file as an aid to developers.
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- misc options: "option" <symbol>[=<value>]
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Various less common options can be defined via this option syntax,
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which can modify the behaviour of the menu entry and its config
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symbol. These options are currently possible:
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- "defconfig_list"
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This declares a list of default entries which can be used when
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looking for the default configuration (which is used when the main
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.config doesn't exists yet.)
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- "modules"
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This declares the symbol to be used as the MODULES symbol, which
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enables the third modular state for all config symbols.
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At most one symbol may have the "modules" option set.
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- "allnoconfig_y"
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This declares the symbol as one that should have the value y when
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using "allnoconfig". Used for symbols that hide other symbols.
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Menu dependencies
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-----------------
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Dependencies define the visibility of a menu entry and can also reduce
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the input range of tristate symbols. The tristate logic used in the
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expressions uses one more state than normal boolean logic to express the
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module state. Dependency expressions have the following syntax:
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<expr> ::= <symbol> (1)
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<symbol> '=' <symbol> (2)
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<symbol> '!=' <symbol> (3)
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<symbol1> '<' <symbol2> (4)
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<symbol1> '>' <symbol2> (4)
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<symbol1> '<=' <symbol2> (4)
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<symbol1> '>=' <symbol2> (4)
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'(' <expr> ')' (5)
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'!' <expr> (6)
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<expr> '&&' <expr> (7)
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<expr> '||' <expr> (8)
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Expressions are listed in decreasing order of precedence.
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(1) Convert the symbol into an expression. Boolean and tristate symbols
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are simply converted into the respective expression values. All
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other symbol types result in 'n'.
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(2) If the values of both symbols are equal, it returns 'y',
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otherwise 'n'.
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(3) If the values of both symbols are equal, it returns 'n',
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otherwise 'y'.
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(4) If value of <symbol1> is respectively lower, greater, lower-or-equal,
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or greater-or-equal than value of <symbol2>, it returns 'y',
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otherwise 'n'.
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(5) Returns the value of the expression. Used to override precedence.
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(6) Returns the result of (2-/expr/).
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(7) Returns the result of min(/expr/, /expr/).
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(8) Returns the result of max(/expr/, /expr/).
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An expression can have a value of 'n', 'm' or 'y' (or 0, 1, 2
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respectively for calculations). A menu entry becomes visible when its
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expression evaluates to 'm' or 'y'.
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There are two types of symbols: constant and non-constant symbols.
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Non-constant symbols are the most common ones and are defined with the
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'config' statement. Non-constant symbols consist entirely of alphanumeric
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characters or underscores.
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Constant symbols are only part of expressions. Constant symbols are
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always surrounded by single or double quotes. Within the quote, any
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other character is allowed and the quotes can be escaped using '\'.
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Menu structure
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--------------
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The position of a menu entry in the tree is determined in two ways. First
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it can be specified explicitly:
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menu "Network device support"
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depends on NET
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config NETDEVICES
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...
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endmenu
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All entries within the "menu" ... "endmenu" block become a submenu of
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"Network device support". All subentries inherit the dependencies from
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the menu entry, e.g. this means the dependency "NET" is added to the
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dependency list of the config option NETDEVICES.
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The other way to generate the menu structure is done by analyzing the
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dependencies. If a menu entry somehow depends on the previous entry, it
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can be made a submenu of it. First, the previous (parent) symbol must
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be part of the dependency list and then one of these two conditions
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must be true:
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- the child entry must become invisible, if the parent is set to 'n'
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- the child entry must only be visible, if the parent is visible
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config MODULES
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bool "Enable loadable module support"
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config MODVERSIONS
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bool "Set version information on all module symbols"
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depends on MODULES
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comment "module support disabled"
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depends on !MODULES
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MODVERSIONS directly depends on MODULES, this means it's only visible if
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MODULES is different from 'n'. The comment on the other hand is only
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visible when MODULES is set to 'n'.
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Kconfig syntax
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--------------
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The configuration file describes a series of menu entries, where every
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line starts with a keyword (except help texts). The following keywords
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end a menu entry:
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- config
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- menuconfig
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- choice/endchoice
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- comment
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- menu/endmenu
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- if/endif
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- source
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The first five also start the definition of a menu entry.
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config:
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"config" <symbol>
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<config options>
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This defines a config symbol <symbol> and accepts any of above
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attributes as options.
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menuconfig:
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"menuconfig" <symbol>
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<config options>
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This is similar to the simple config entry above, but it also gives a
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hint to front ends, that all suboptions should be displayed as a
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separate list of options. To make sure all the suboptions will really
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show up under the menuconfig entry and not outside of it, every item
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from the <config options> list must depend on the menuconfig symbol.
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In practice, this is achieved by using one of the next two constructs:
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(1):
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menuconfig M
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if M
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config C1
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config C2
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endif
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(2):
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menuconfig M
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config C1
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depends on M
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config C2
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depends on M
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In the following examples (3) and (4), C1 and C2 still have the M
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dependency, but will not appear under menuconfig M anymore, because
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of C0, which doesn't depend on M:
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(3):
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menuconfig M
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config C0
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if M
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config C1
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config C2
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endif
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(4):
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menuconfig M
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config C0
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config C1
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depends on M
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config C2
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depends on M
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choices:
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"choice" [symbol]
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<choice options>
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<choice block>
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"endchoice"
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This defines a choice group and accepts any of the above attributes as
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options. A choice can only be of type bool or tristate. If no type is
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specified for a choice, its type will be determined by the type of
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the first choice element in the group or remain unknown if none of the
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choice elements have a type specified, as well.
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While a boolean choice only allows a single config entry to be
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selected, a tristate choice also allows any number of config entries
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to be set to 'm'. This can be used if multiple drivers for a single
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hardware exists and only a single driver can be compiled/loaded into
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the kernel, but all drivers can be compiled as modules.
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A choice accepts another option "optional", which allows to set the
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choice to 'n' and no entry needs to be selected.
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If no [symbol] is associated with a choice, then you can not have multiple
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definitions of that choice. If a [symbol] is associated to the choice,
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then you may define the same choice (i.e. with the same entries) in another
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place.
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comment:
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"comment" <prompt>
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<comment options>
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This defines a comment which is displayed to the user during the
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configuration process and is also echoed to the output files. The only
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possible options are dependencies.
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menu:
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"menu" <prompt>
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<menu options>
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<menu block>
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"endmenu"
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This defines a menu block, see "Menu structure" above for more
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information. The only possible options are dependencies and "visible"
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attributes.
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if:
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"if" <expr>
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<if block>
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"endif"
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This defines an if block. The dependency expression <expr> is appended
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to all enclosed menu entries.
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source:
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"source" <prompt>
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This reads the specified configuration file. This file is always parsed.
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mainmenu:
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"mainmenu" <prompt>
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This sets the config program's title bar if the config program chooses
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to use it. It should be placed at the top of the configuration, before any
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other statement.
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'#' Kconfig source file comment:
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An unquoted '#' character anywhere in a source file line indicates
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the beginning of a source file comment. The remainder of that line
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is a comment.
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Kconfig hints
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-------------
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This is a collection of Kconfig tips, most of which aren't obvious at
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first glance and most of which have become idioms in several Kconfig
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files.
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Adding common features and make the usage configurable
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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It is a common idiom to implement a feature/functionality that are
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relevant for some architectures but not all.
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The recommended way to do so is to use a config variable named HAVE_*
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that is defined in a common Kconfig file and selected by the relevant
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architectures.
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An example is the generic IOMAP functionality.
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We would in lib/Kconfig see:
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# Generic IOMAP is used to ...
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config HAVE_GENERIC_IOMAP
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config GENERIC_IOMAP
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depends on HAVE_GENERIC_IOMAP && FOO
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And in lib/Makefile we would see:
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obj-$(CONFIG_GENERIC_IOMAP) += iomap.o
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For each architecture using the generic IOMAP functionality we would see:
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config X86
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select ...
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select HAVE_GENERIC_IOMAP
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select ...
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Note: we use the existing config option and avoid creating a new
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config variable to select HAVE_GENERIC_IOMAP.
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Note: the use of the internal config variable HAVE_GENERIC_IOMAP, it is
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introduced to overcome the limitation of select which will force a
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config option to 'y' no matter the dependencies.
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The dependencies are moved to the symbol GENERIC_IOMAP and we avoid the
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situation where select forces a symbol equals to 'y'.
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Adding features that need compiler support
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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There are several features that need compiler support. The recommended way
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to describe the dependency on the compiler feature is to use "depends on"
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followed by a test macro.
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config STACKPROTECTOR
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bool "Stack Protector buffer overflow detection"
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depends on $(cc-option,-fstack-protector)
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...
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If you need to expose a compiler capability to makefiles and/or C source files,
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CC_HAS_ is the recommended prefix for the config option.
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config CC_HAS_STACKPROTECTOR_NONE
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def_bool $(cc-option,-fno-stack-protector)
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Build as module only
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~~~~~~~~~~~~~~~~~~~~
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To restrict a component build to module-only, qualify its config symbol
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with "depends on m". E.g.:
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config FOO
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depends on BAR && m
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limits FOO to module (=m) or disabled (=n).
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Kconfig recursive dependency limitations
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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If you've hit the Kconfig error: "recursive dependency detected" you've run
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into a recursive dependency issue with Kconfig, a recursive dependency can be
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summarized as a circular dependency. The kconfig tools need to ensure that
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Kconfig files comply with specified configuration requirements. In order to do
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that kconfig must determine the values that are possible for all Kconfig
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symbols, this is currently not possible if there is a circular relation
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between two or more Kconfig symbols. For more details refer to the "Simple
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Kconfig recursive issue" subsection below. Kconfig does not do recursive
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dependency resolution; this has a few implications for Kconfig file writers.
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We'll first explain why this issues exists and then provide an example
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technical limitation which this brings upon Kconfig developers. Eager
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developers wishing to try to address this limitation should read the next
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subsections.
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Simple Kconfig recursive issue
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Read: Documentation/kbuild/Kconfig.recursion-issue-01
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Test with:
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make KBUILD_KCONFIG=Documentation/kbuild/Kconfig.recursion-issue-01 allnoconfig
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Cumulative Kconfig recursive issue
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Read: Documentation/kbuild/Kconfig.recursion-issue-02
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Test with:
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make KBUILD_KCONFIG=Documentation/kbuild/Kconfig.recursion-issue-02 allnoconfig
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Practical solutions to kconfig recursive issue
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Developers who run into the recursive Kconfig issue have two options
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at their disposal. We document them below and also provide a list of
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historical issues resolved through these different solutions.
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a) Remove any superfluous "select FOO" or "depends on FOO"
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b) Match dependency semantics:
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b1) Swap all "select FOO" to "depends on FOO" or,
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b2) Swap all "depends on FOO" to "select FOO"
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The resolution to a) can be tested with the sample Kconfig file
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Documentation/kbuild/Kconfig.recursion-issue-01 through the removal
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of the "select CORE" from CORE_BELL_A_ADVANCED as that is implicit already
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since CORE_BELL_A depends on CORE. At times it may not be possible to remove
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some dependency criteria, for such cases you can work with solution b).
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The two different resolutions for b) can be tested in the sample Kconfig file
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Documentation/kbuild/Kconfig.recursion-issue-02.
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Below is a list of examples of prior fixes for these types of recursive issues;
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all errors appear to involve one or more select's and one or more "depends on".
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commit fix
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====== ===
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06b718c01208 select A -> depends on A
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c22eacfe82f9 depends on A -> depends on B
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6a91e854442c select A -> depends on A
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118c565a8f2e select A -> select B
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f004e5594705 select A -> depends on A
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c7861f37b4c6 depends on A -> (null)
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80c69915e5fb select A -> (null) (1)
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c2218e26c0d0 select A -> depends on A (1)
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d6ae99d04e1c select A -> depends on A
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95ca19cf8cbf select A -> depends on A
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8f057d7bca54 depends on A -> (null)
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8f057d7bca54 depends on A -> select A
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a0701f04846e select A -> depends on A
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0c8b92f7f259 depends on A -> (null)
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e4e9e0540928 select A -> depends on A (2)
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7453ea886e87 depends on A > (null) (1)
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7b1fff7e4fdf select A -> depends on A
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86c747d2a4f0 select A -> depends on A
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d9f9ab51e55e select A -> depends on A
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0c51a4d8abd6 depends on A -> select A (3)
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e98062ed6dc4 select A -> depends on A (3)
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91e5d284a7f1 select A -> (null)
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(1) Partial (or no) quote of error.
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(2) That seems to be the gist of that fix.
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(3) Same error.
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Future kconfig work
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~~~~~~~~~~~~~~~~~~~
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Work on kconfig is welcomed on both areas of clarifying semantics and on
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evaluating the use of a full SAT solver for it. A full SAT solver can be
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desirable to enable more complex dependency mappings and / or queries,
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for instance on possible use case for a SAT solver could be that of handling
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the current known recursive dependency issues. It is not known if this would
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address such issues but such evaluation is desirable. If support for a full SAT
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solver proves too complex or that it cannot address recursive dependency issues
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Kconfig should have at least clear and well defined semantics which also
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addresses and documents limitations or requirements such as the ones dealing
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with recursive dependencies.
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Further work on both of these areas is welcomed on Kconfig. We elaborate
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on both of these in the next two subsections.
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Semantics of Kconfig
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~~~~~~~~~~~~~~~~~~~~
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The use of Kconfig is broad, Linux is now only one of Kconfig's users:
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one study has completed a broad analysis of Kconfig use in 12 projects [0].
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Despite its widespread use, and although this document does a reasonable job
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in documenting basic Kconfig syntax a more precise definition of Kconfig
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semantics is welcomed. One project deduced Kconfig semantics through
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the use of the xconfig configurator [1]. Work should be done to confirm if
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the deduced semantics matches our intended Kconfig design goals.
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Having well defined semantics can be useful for tools for practical
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evaluation of depenencies, for instance one such use known case was work to
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express in boolean abstraction of the inferred semantics of Kconfig to
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translate Kconfig logic into boolean formulas and run a SAT solver on this to
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find dead code / features (always inactive), 114 dead features were found in
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Linux using this methodology [1] (Section 8: Threats to validity).
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Confirming this could prove useful as Kconfig stands as one of the the leading
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industrial variability modeling languages [1] [2]. Its study would help
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evaluate practical uses of such languages, their use was only theoretical
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and real world requirements were not well understood. As it stands though
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only reverse engineering techniques have been used to deduce semantics from
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variability modeling languages such as Kconfig [3].
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[0] http://www.eng.uwaterloo.ca/~shshe/kconfig_semantics.pdf
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[1] http://gsd.uwaterloo.ca/sites/default/files/vm-2013-berger.pdf
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[2] http://gsd.uwaterloo.ca/sites/default/files/ase241-berger_0.pdf
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[3] http://gsd.uwaterloo.ca/sites/default/files/icse2011.pdf
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Full SAT solver for Kconfig
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~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Although SAT solvers [0] haven't yet been used by Kconfig directly, as noted in
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the previous subsection, work has been done however to express in boolean
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abstraction the inferred semantics of Kconfig to translate Kconfig logic into
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boolean formulas and run a SAT solver on it [1]. Another known related project
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is CADOS [2] (former VAMOS [3]) and the tools, mainly undertaker [4], which has
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been introduced first with [5]. The basic concept of undertaker is to exract
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variability models from Kconfig, and put them together with a propositional
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formula extracted from CPP #ifdefs and build-rules into a SAT solver in order
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to find dead code, dead files, and dead symbols. If using a SAT solver is
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desirable on Kconfig one approach would be to evaluate repurposing such efforts
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somehow on Kconfig. There is enough interest from mentors of existing projects
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to not only help advise how to integrate this work upstream but also help
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maintain it long term. Interested developers should visit:
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http://kernelnewbies.org/KernelProjects/kconfig-sat
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[0] http://www.cs.cornell.edu/~sabhar/chapters/SATSolvers-KR-Handbook.pdf
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[1] http://gsd.uwaterloo.ca/sites/default/files/vm-2013-berger.pdf
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[2] https://cados.cs.fau.de
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[3] https://vamos.cs.fau.de
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[4] https://undertaker.cs.fau.de
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[5] https://www4.cs.fau.de/Publications/2011/tartler_11_eurosys.pdf
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