nuttx/Documentation/reference/user/13_boardctl.rst
Xiang Xiao 902d2197b0 vnc: Decouple VNC server from NX graphic stack
since VNC server is very useful even without NX:
1.Replace nxgl_coord_t with fb_coord_t
2.Replace nxgl_rect_s with fb_area_s
3.Remove nxgl_xxx function call

Signed-off-by: Xiang Xiao <xiaoxiang@xiaomi.com>
2022-01-03 11:19:32 +08:00

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===========
Board IOCTL
===========
In a small embedded system, there will typically be a much
greater interaction between application and low-level board features.
The canonically correct to implement such interactions is by
implementing a character driver and performing the interactions
via low level ``ioctl()`` calls. This, however, may not be practical
in many cases and will lead to "correct" but awkward implementations.
:c:func:`boardctl` is non-standard OS interface to alleviate the problem.
It basically circumvents the normal device driver ``ioctl()``
interface and allows the application to perform direct
IOCTL-like calls to the board-specific logic. It is especially
useful for setting up board operational and test configurations.
:c:func:`boardctl` is an application interface to the OS.
There is no point, in fact, of using :c:func:`boardctl` within the OS;
the board interfaces prototyped in :file:`include/nuttx/board.h` may
be called directly from within the OS.
.. c:function:: int boardctl(unsigned int cmd, uintptr_t arg)
:param cmd: Identifies the board command to be executed. See
:file:`include/sys/boardctl.h` for the complete list of common
board commands. Provisions are made to support non-common,
board-specific commands as well.
:param arg: The argument that accompanies the command. The nature
of the argument is determined by the specific command.
:return: On success zero (OK) is returned; -1 (ERROR) is
returned on failure with the errno variable set to indicate the nature of the failure.
Supported commands
==================
The following is the list of supported :c:func:`boardctl` commands.
Besides this list, board logic can implement handling of custom commands by
implementing the :c:func:`board_ioctl` interface.
System state control
--------------------
.. c:macro:: BOARDIOC_INIT
Perform one-time application initialization.
:Argument: The argument is passed to the
:c:func:`board_app_initialize` implementation without modification.
The argument has no meaning to NuttX; the meaning of the
argument is a contract between the board-specific
initialization logic and the matching application logic.
The value could be such things as a mode enumeration value,
a set of DIP switch switch settings, a pointer to
configuration data read from a file or serial FLASH, or
whatever you would like to do with it. Every
implementation should accept zero/NULL as a default
configuration.
:Dependencies: Board logic must provide :c:func:`board_app_initialize`.
.. c:macro:: BOARDIOC_POWEROFF
Power off the board
:Argument: Integer value providing power off status information
:configuration: CONFIG_BOARDCTL_POWEROFF
:dependencies: Board logic must provide the :c:func:`board_power_off` interface.
.. c:macro:: BOARDIOC_RESET
Reset the board
:Argument: Integer value providing power off status information
:configuration: CONFIG_BOARDCTL_RESET
:dependencies: Board logic must provide the :c:func:`board_reset` interface.
Power Management
----------------
.. c:macro:: BOARDIOC_PM_CONTROL
Manage power state transition and query. The supplied argument
indicates the specific PM operation to perform, which map to
corresponding internal ``pm_<operation>`` functions
(see :doc:`/components/power`).
With this interface you can interact with PM handling arch/board logic
(typically done in IDLE loop) or you can directly manage state transitions
from userspace.
:Argument: A pointer to an instance of :c:struct:`boardioc_pm_ctrl_s`.
:configuration: CONFIG_PM
Board information
-----------------
.. c:macro:: BOARDIOC_UNIQUEID
Return a unique ID associated with the board (such as a
serial number or a MAC address).
:Argument: A writable array of size :c:macro:`CONFIG_BOARDCTL_UNIQUEID_SIZE` in
which to receive the board unique ID.
:dependencies: Board logic must provide the :c:func:`board_uniqueid` interface.
Filesystems
-----------
.. c:macro:: BOARDIOC_MKRD
Create a RAM disk
:Argument: Pointer to read-only instance of :c:struct:`boardioc_mkrd_s`.
:configuration: CONFIG_BOARDCTL_MKRD
.. c:macro:: BOARDIOC_ROMDISK
Register a ROM disk
:Argument: Pointer to read-only instance of :c:struct:`boardioc_romdisk_s`.
:configuration: CONFIG_BOARDCTL_ROMDISK
Symbol Handling
---------------
.. c:macro:: BOARDIOC_APP_SYMTAB
Select the application symbol table. This symbol table
provides the symbol definitions exported to application
code from application space.
:Argument: A pointer to an instance of :c:struct:`boardioc_symtab_s`.
:configuration: CONFIG_BOARDCTL_APP_SYMTAB
.. c:macro:: BOARDIOC_OS_SYMTAB
Select the OS symbol table. This symbol table provides
the symbol definitions exported by the OS to kernel
modules.
:Argument: A pointer to an instance of :c:struct:`boardioc_symtab_s`.
:configuration: CONFIG_BOARDCTL_OS_SYMTAB
.. c:macro:: BOARDIOC_BUILTINS
Provide the user-space list of built-in applications for
use by BINFS in protected mode. Normally this is small
set of globals provided by user-space logic. It provides
name-value pairs for associating built-in application
names with user-space entry point addresses. These
globals are only needed for use by BINFS which executes
built-in applications from kernel-space in PROTECTED mode.
In the FLAT build, the user space globals are readily
available. (BINFS is not supportable in KERNEL mode since
user-space address have no general meaning that
configuration).
:Argument: A pointer to an instance of :c:struct:`boardioc_builtin_s`.
:configuration: This command is always available when
CONFIG_BUILTIN is enabled, but does nothing unless
CONFIG_BUILD_PROTECTED and CONFIG_FS_BINFS are also
selected.
USB
---
.. c:macro:: BOARDIOC_USBDEV_CONTROL
Manage USB device classes
:Argument: A pointer to an instance of :c:struct:`boardioc_usbdev_ctrl_s`.
:configuration: CONFIG_BOARDCTL && CONFIG_BOARDCTL_USBDEVCTRL
:dependencies: Board logic must provide ``board_<usbdev>_initialize()`.
Graphics
--------
.. c:macro:: BOARDIOC_NX_START
Start the NX server
:Argument: Integer display number to be served by this NXMU instance.
:configuration: CONFIG_NX
:dependencies: Base graphics logic provides :c:func:`nxmu_start`.
.. c:macro:: BOARDIOC_VNC_START
Start the NX server and framebuffer driver.
:Argument: A reference readable instance of :c:struct:`boardioc_vncstart_s`.
:configuration: CONFIG_VNCSERVER
:dependencies: VNC server provides :c:func:`nx_vnc_fbinitialize`.
.. c:macro:: BOARDIOC_NXTERM
Create an NX terminal device
:Argument: A reference readable/writable instance of
:c:struct:`boardioc_nxterm_create_s`.
:configuration: CONFIG_NXTERM
:dependencies: Base NX terminal logic provides :c:func:`nx_register` and
:c:func:`nxtk_register`.
.. c:macro:: BOARDIOC_NXTERM_IOCTL
Create an NX terminal IOCTL command. Normal IOCTLs
cannot be be performed in most graphics contexts since
the depend on the task holding an open file descriptor
:Argument: A reference readable/writable instance of
:c:struct:`boardioc_nxterm_ioctl_s`.
:configuration: CONFIG_NXTERM
:dependencies: Base NX terminal logic provides :c:func:`nxterm_ioctl_tap`.
Testing
-------
.. c:macro:: BOARDIOC_TESTSET
Access architecture-specific up_testset() operation
:Argument: A pointer to a write-able spinlock object. On success
the preceding spinlock state is returned: 0=unlocked,
1=locked.
:configuration: CONFIG_BOARDCTL_TESTSET
:dependencies: Architecture-specific logic provides :c:func:`up_testset`.