+++ /dev/null
-.. SPDX-License-Identifier: GPL-2.0+
-
-Boot Count Limit
-================
-
-This is enabled by CONFIG_BOOTCOUNT_LIMIT.
-
-This allows to detect multiple failed attempts to boot Linux.
-
-After a power-on reset, the "bootcount" variable will be initialized to 1, and
-each reboot will increment the value by 1.
-
-If, after a reboot, the new value of "bootcount" exceeds the value of
-"bootlimit", then instead of the standard boot action (executing the contents of
-"bootcmd"), an alternate boot action will be performed, and the contents of
-"altbootcmd" will be executed.
-
-If the variable "bootlimit" is not defined in the environment, the Boot Count
-Limit feature is disabled. If it is enabled, but "altbootcmd" is not defined,
-then U-Boot will drop into interactive mode and remain there.
-
-It is the responsibility of some application code (typically a Linux
-application) to reset the variable "bootcount" to 0 when the system booted
-successfully, thus allowing for more boot cycles.
-
-CONFIG_BOOTCOUNT_FS
---------------------
-
-This adds support for maintaining boot count in a file on a filesystem.
-Supported filesystems are FAT and EXT. The file to use is defined by:
-
-CONFIG_SYS_BOOTCOUNT_FS_INTERFACE
-CONFIG_SYS_BOOTCOUNT_FS_DEVPART
-CONFIG_SYS_BOOTCOUNT_FS_NAME
-
-The format of the file is:
-
-==== =================
-type entry
-==== =================
-u8 magic
-u8 version
-u8 bootcount
-u8 upgrade_available
-==== =================
-
-To prevent unattended usage of "altbootcmd", the "upgrade_available" variable is
-used.
-If "upgrade_available" is 0, "bootcount" is not saved.
-If "upgrade_available" is 1, "bootcount" is saved.
-So a userspace application should take care of setting the "upgrade_available"
-and "bootcount" variables to 0, if the system boots successfully.
-This also avoids writing the "bootcount" information on all reboots.
--- /dev/null
+.. SPDX-License-Identifier: GPL-2.0+
+
+Boot Count Limit
+================
+
+This is enabled by CONFIG_BOOTCOUNT_LIMIT.
+
+This allows to detect multiple failed attempts to boot Linux.
+
+After a power-on reset, the ``bootcount`` variable will be initialized to 1, and
+each reboot will increment the value by 1.
+
+If, after a reboot, the new value of ``bootcount`` exceeds the value of
+``bootlimit``, then instead of the standard boot action (executing the contents
+of ``bootcmd``), an alternate boot action will be performed, and the contents of
+``altbootcmd`` will be executed.
+
+If the variable ``bootlimit`` is not defined in the environment, the Boot Count
+Limit feature is disabled. If it is enabled, but ``altbootcmd`` is not defined,
+then U-Boot will drop into interactive mode and remain there.
+
+It is the responsibility of some application code (typically a Linux
+application) to reset the variable ``bootcount`` to 0 when the system booted
+successfully, thus allowing for more boot cycles.
+
+CONFIG_BOOTCOUNT_FS
+--------------------
+
+This adds support for maintaining boot count in a file on a filesystem.
+Tested filesystems are FAT and EXT. The file to use is defined by:
+
+CONFIG_SYS_BOOTCOUNT_FS_INTERFACE
+CONFIG_SYS_BOOTCOUNT_FS_DEVPART
+CONFIG_SYS_BOOTCOUNT_FS_NAME
+
+The format of the file is:
+
+.. list-table::
+ :header-rows: 1
+
+ * - type
+ - entry
+ * - u8
+ - magic
+ * - u8
+ - version
+ * - u8
+ - bootcount
+ * - u8
+ - upgrade_available
+
+To prevent unattended usage of ``altbootcmd``, the ``upgrade_available``
+variable is used.
+If ``upgrade_available`` is 0, ``bootcount`` is not saved.
+If ``upgrade_available`` is 1, ``bootcount`` is saved.
+So a userspace application should take care of setting the ``upgrade_available``
+and ``bootcount`` variables to 0, if the system boots successfully.
+This also avoids writing the ``bootcount`` information on all reboots.