2020-10-29 12:06:09 +00:00
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.. _kconfig:
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2019-02-12 12:06:51 +00:00
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================
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QEMU and Kconfig
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================
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QEMU is a very versatile emulator; it can be built for a variety of
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targets, where each target can emulate various boards and at the same
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time different targets can share large amounts of code. For example,
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a POWER and an x86 board can run the same code to emulate a PCI network
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card, even though the boards use different PCI host bridges, and they
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can run the same code to emulate a SCSI disk while using different
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2020-03-09 21:58:18 +00:00
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SCSI adapters. Arm, s390 and x86 boards can all present a virtio-blk
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2019-02-12 12:06:51 +00:00
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disk to their guests, but with three different virtio guest interfaces.
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Each QEMU target enables a subset of the boards, devices and buses that
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are included in QEMU's source code. As a result, each QEMU executable
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only links a small subset of the files that form QEMU's source code;
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anything that is not needed to support a particular target is culled.
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QEMU uses a simple domain-specific language to describe the dependencies
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between components. This is useful for two reasons:
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* new targets and boards can be added without knowing in detail the
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architecture of the hardware emulation subsystems. Boards only have
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to list the components they need, and the compiled executable will
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include all the required dependencies and all the devices that the
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user can add to that board;
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* users can easily build reduced versions of QEMU that support only a subset
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of boards or devices. For example, by default most targets will include
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all emulated PCI devices that QEMU supports, but the build process is
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configurable and it is easy to drop unnecessary (or otherwise unwanted)
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code to make a leaner binary.
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This domain-specific language is based on the Kconfig language that
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originated in the Linux kernel, though it was heavily simplified and
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the handling of dependencies is stricter in QEMU.
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Unlike Linux, there is no user interface to edit the configuration, which
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is instead specified in per-target files under the ``default-configs/``
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directory of the QEMU source tree. This is because, unlike Linux,
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configuration and dependencies can be treated as a black box when building
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QEMU; the default configuration that QEMU ships with should be okay in
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almost all cases.
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The Kconfig language
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--------------------
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Kconfig defines configurable components in files named ``hw/*/Kconfig``.
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Note that configurable components are _not_ visible in C code as preprocessor
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symbols; they are only visible in the Makefile. Each configurable component
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defines a Makefile variable whose name starts with ``CONFIG_``.
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All elements have boolean (true/false) type; truth is written as ``y``, while
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falsehood is written ``n``. They are defined in a Kconfig
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stanza like the following::
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config ARM_VIRT
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bool
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imply PCI_DEVICES
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imply VFIO_AMD_XGBE
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imply VFIO_XGMAC
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select A15MPCORE
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select ACPI
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select ARM_SMMUV3
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The ``config`` keyword introduces a new configuration element. In the example
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above, Makefiles will have access to a variable named ``CONFIG_ARM_VIRT``,
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with value ``y`` or ``n`` (respectively for boolean true and false).
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Boolean expressions can be used within the language, whenever ``<expr>``
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is written in the remainder of this section. The ``&&``, ``||`` and
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``!`` operators respectively denote conjunction (AND), disjunction (OR)
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and negation (NOT).
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The ``bool`` data type declaration is optional, but it is suggested to
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include it for clarity and future-proofing. After ``bool`` the following
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directives can be included:
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**dependencies**: ``depends on <expr>``
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This defines a dependency for this configurable element. Dependencies
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evaluate an expression and force the value of the variable to false
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if the expression is false.
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**reverse dependencies**: ``select <symbol> [if <expr>]``
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While ``depends on`` can force a symbol to false, reverse dependencies can
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be used to force another symbol to true. In the following example,
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``CONFIG_BAZ`` will be true whenever ``CONFIG_FOO`` is true::
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config FOO
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select BAZ
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The optional expression will prevent ``select`` from having any effect
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unless it is true.
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Note that unlike Linux's Kconfig implementation, QEMU will detect
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contradictions between ``depends on`` and ``select`` statements and prevent
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you from building such a configuration.
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**default value**: ``default <value> [if <expr>]``
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Default values are assigned to the config symbol if no other value was
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set by the user via ``default-configs/*.mak`` files, and only if
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``select`` or ``depends on`` directives do not force the value to true
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or false respectively. ``<value>`` can be ``y`` or ``n``; it cannot
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be an arbitrary Boolean expression. However, a condition for applying
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the default value can be added with ``if``.
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A configuration element can have any number of default values (usually,
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if more than one default is present, they will have different
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conditions). If multiple default values satisfy their condition,
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only the first defined one is active.
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**reverse default** (weak reverse dependency): ``imply <symbol> [if <expr>]``
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This is similar to ``select`` as it applies a lower limit of ``y``
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to another symbol. However, the lower limit is only a default
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and the "implied" symbol's value may still be set to ``n`` from a
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``default-configs/*.mak`` files. The following two examples are
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equivalent::
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config FOO
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bool
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imply BAZ
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config BAZ
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bool
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default y if FOO
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The next section explains where to use ``imply`` or ``default y``.
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Guidelines for writing Kconfig files
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------------------------------------
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Configurable elements in QEMU fall under five broad groups. Each group
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declares its dependencies in different ways:
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**subsystems**, of which **buses** are a special case
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Example::
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config SCSI
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bool
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Subsystems always default to false (they have no ``default`` directive)
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and are never visible in ``default-configs/*.mak`` files. It's
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up to other symbols to ``select`` whatever subsystems they require.
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They sometimes have ``select`` directives to bring in other required
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subsystems or buses. For example, ``AUX`` (the DisplayPort auxiliary
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channel "bus") selects ``I2C`` because it can act as an I2C master too.
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**devices**
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Example::
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config MEGASAS_SCSI_PCI
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bool
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default y if PCI_DEVICES
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depends on PCI
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select SCSI
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Devices are the most complex of the five. They can have a variety
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of directives that cooperate so that a default configuration includes
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all the devices that can be accessed from QEMU.
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Devices *depend on* the bus that they lie on, for example a PCI
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device would specify ``depends on PCI``. An MMIO device will likely
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have no ``depends on`` directive. Devices also *select* the buses
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that the device provides, for example a SCSI adapter would specify
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``select SCSI``. Finally, devices are usually ``default y`` if and
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only if they have at least one ``depends on``; the default could be
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conditional on a device group.
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Devices also select any optional subsystem that they use; for example
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a video card might specify ``select EDID`` if it needs to build EDID
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information and publish it to the guest.
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**device groups**
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Example::
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config PCI_DEVICES
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bool
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Device groups provide a convenient mechanism to enable/disable many
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devices in one go. This is useful when a set of devices is likely to
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be enabled/disabled by several targets. Device groups usually need
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no directive and are not used in the Makefile either; they only appear
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as conditions for ``default y`` directives.
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2022-02-08 15:59:10 +00:00
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QEMU currently has three device groups, ``PCI_DEVICES``, ``I2C_DEVICES``,
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and ``TEST_DEVICES``. PCI devices usually have a ``default y if
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2019-02-12 12:06:51 +00:00
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PCI_DEVICES`` directive rather than just ``default y``. This lets
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some boards (notably s390) easily support a subset of PCI devices,
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for example only VFIO (passthrough) and virtio-pci devices.
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2022-02-08 15:59:10 +00:00
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``I2C_DEVICES`` is similar to ``PCI_DEVICES``. It contains i2c devices
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that users might reasonably want to plug in to an i2c bus on any
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board (and not ones which are very board-specific or that need
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to be wired up in a way that can't be done on the command line).
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``TEST_DEVICES`` instead is used for devices that are rarely used on
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production virtual machines, but provide useful hooks to test QEMU
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or KVM.
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**boards**
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Example::
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config SUN4M
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bool
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imply TCX
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imply CG3
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select CS4231
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select ECCMEMCTL
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select EMPTY_SLOT
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select ESCC
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select ESP
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select FDC
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select SLAVIO
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select LANCE
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select M48T59
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select STP2000
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Boards specify their constituent devices using ``imply`` and ``select``
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directives. A device should be listed under ``select`` if the board
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cannot be started at all without it. It should be listed under
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``imply`` if (depending on the QEMU command line) the board may or
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may not be started without it. Boards also default to false; they are
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enabled by the ``default-configs/*.mak`` for the target they apply to.
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**internal elements**
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Example::
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config ECCMEMCTL
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bool
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select ECC
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Internal elements group code that is useful in several boards or
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devices. They are usually enabled with ``select`` and in turn select
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other elements; they are never visible in ``default-configs/*.mak``
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files, and often not even in the Makefile.
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Writing and modifying default configurations
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--------------------------------------------
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In addition to the Kconfig files under hw/, each target also includes
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a file called ``default-configs/TARGETNAME-softmmu.mak``. These files
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initialize some Kconfig variables to non-default values and provide the
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starting point to turn on devices and subsystems.
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A file in ``default-configs/`` looks like the following example::
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# Default configuration for alpha-softmmu
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# Uncomment the following lines to disable these optional devices:
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#
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#CONFIG_PCI_DEVICES=n
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#CONFIG_TEST_DEVICES=n
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# Boards:
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#
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CONFIG_DP264=y
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The first part, consisting of commented-out ``=n`` assignments, tells
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the user which devices or device groups are implied by the boards.
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The second part, consisting of ``=y`` assignments, tells the user which
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boards are supported by the target. The user will typically modify
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the default configuration by uncommenting lines in the first group,
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or commenting out lines in the second group.
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It is also possible to run QEMU's configure script with the
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2019-07-23 12:08:04 +00:00
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``--without-default-devices`` option. When this is done, everything defaults
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to ``n`` unless it is ``select``ed or explicitly switched on in the
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``.mak`` files. In other words, ``default`` and ``imply`` directives
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are disabled. When QEMU is built with this option, the user will probably
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want to change some lines in the first group, for example like this::
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CONFIG_PCI_DEVICES=y
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#CONFIG_TEST_DEVICES=n
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and/or pick a subset of the devices in those device groups. Right now
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there is no single place that lists all the optional devices for
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``CONFIG_PCI_DEVICES`` and ``CONFIG_TEST_DEVICES``. In the future,
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we expect that ``.mak`` files will be automatically generated, so that
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they will include all these symbols and some help text on what they do.
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``Kconfig.host``
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----------------
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In some special cases, a configurable element depends on host features
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2020-11-17 13:58:32 +00:00
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that are detected by QEMU's configure or ``meson.build`` scripts; for
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example some devices depend on the availability of KVM or on the presence
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of a library on the host.
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2019-02-12 12:06:51 +00:00
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These symbols should be listed in ``Kconfig.host`` like this::
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2020-11-17 13:58:32 +00:00
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config TPM
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bool
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2020-11-17 13:58:32 +00:00
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and also listed as follows in the top-level meson.build's host_kconfig
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variable::
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2020-11-17 13:58:32 +00:00
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host_kconfig = \
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2021-12-21 11:38:27 +00:00
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(have_tpm ? ['CONFIG_TPM=y'] : []) + \
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2023-02-06 18:34:02 +00:00
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('CONFIG_LINUX' in config_host ? ['CONFIG_LINUX=y'] : []) + \
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(have_ivshmem ? ['CONFIG_IVSHMEM=y'] : []) + \
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2019-02-12 12:06:51 +00:00
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...
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