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.. SPDX-License-Identifier: GPL-2.0+:
.. index::
single: cedit (command)
cedit command
=============
Synopsis
--------
::
cedit load <interface> <dev[:part]> <filename>
cedit run
cedit write_fdt <dev[:part]> <filename>
cedit read_fdt <dev[:part]> <filename>
cedit write_env [-v]
cedit read_env [-v]
cedit write_cmos [-v] [dev]
Description
-----------
The *cedit* command is used to load a configuration-editor description and allow
the user to interact with it.
It makes use of the expo subsystem.
The description is in the form of a devicetree file, as documented at
:ref:`expo_format`.
See :doc:`../../develop/cedit` for information about the configuration editor.
cedit load
~~~~~~~~~~
Loads a configuration-editor description from a file. It creates a new cedit
structure ready for use. Initially no settings are read, so default values are
used for each object.
cedit run
~~~~~~~~~
Runs the default configuration-editor event loop. This is very simple, just
accepting character input and moving through the objects under user control.
The implementation is at `cedit_run()`.
cedit write_fdt
~~~~~~~~~~~~~~~
Writes the current user settings to a devicetree file. For each menu item the
selected ID and its text string are written.
cedit read_fdt
~~~~~~~~~~~~~~
Reads the user settings from a devicetree file and updates the cedit with those
settings.
cedit read_env
~~~~~~~~~~~~~~
Reads the settings from the environment variables. For each menu item `<name>`,
cedit looks for a variable called `c.<name>` with the ID of the selected menu
item.
The `-v` flag enables verbose mode, where each variable is printed after it is
read.
cedit write_env
~~~~~~~~~~~~~~~
Writes the settings to environment variables. For each menu item the selected
ID and its text string are written, similar to:
setenv c.<name> <selected_id>
setenv c.<name>-str <selected_id's text string>
The `-v` flag enables verbose mode, where each variable is printed before it is
set.
cedit write_cmos
~~~~~~~~~~~~~~~~
Writes the settings to locations in the CMOS RAM. The locations used are
specified by the schema. See `expo_format_`.
The `-v` flag enables verbose mode, which shows which CMOS locations were
updated.
Normally the first RTC device is used to hold the data. You can specify a
different device by name using the `dev` parameter.
Example
-------
::
=> cedit load hostfs - fred.dtb
=> cedit run
=> cedit write_fdt hostfs - settings.dtb
That results in::
/ {
cedit-values {
cpu-speed = <0x00000006>;
cpu-speed-value = <0x00000003>;
cpu-speed-str = "2 GHz";
power-loss = <0x0000000a>;
power-loss-value = <0x00000000>;
power-loss-str = "Always Off";
};
}
=> cedit read_fdt hostfs - settings.dtb
This shows settings being stored in the environment::
=> cedit write_env -v
c.cpu-speed=11
c.cpu-speed-str=2.5 GHz
c.cpu-speed-value=3
c.power-loss=14
c.power-loss-str=Always Off
c.power-loss-value=0
c.machine-name=my-machine
c.cpu-speed=11
c.power-loss=14
c.machine-name=my-machine
=> print
...
c.cpu-speed=6
c.cpu-speed-str=2 GHz
c.power-loss=10
c.power-loss-str=Always Off
c.machine-name=my-machine
...
=> cedit read_env -v
c.cpu-speed=7
c.power-loss=12
This shows writing to CMOS RAM. Notice that the bytes at 80 and 84 change::
=> rtc read 80 8
00000080: 00 00 00 00 00 2f 2a 08 ...../*.
=> cedit write_cmos -v
Write 2 bytes from offset 80 to 84
=> rtc read 80 8
00000080: 01 00 00 00 08 2f 2a 08 ...../*.
=> cedit read_cmos -v
Read 2 bytes from offset 80 to 84
Here is an example with the device specified::
=> cedit write_cmos rtc@43
=>