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Some users of static UBI volumes implement their own integrity check, thus making the volume CRC check done at open time useless. For instance, this is the case when one use the ubiblock + dm-verity + squashfs combination, where dm-verity already checks integrity of the block device but this time at the block granularity instead of verifying the whole volume. Skipping this test drastically improves the boot-time. Adapted to U-Boot by Stefan Roese. Signed-off-by: Quentin Schulz <quentin.schulz@bootlin.com> Signed-off-by: Stefan Roese <sr@denx.de> Reviewed-by: Heiko Schocher <hs@denx.de> Cc: Quentin Schulz <quentin.schulz@bootlin.com> Cc: Boris Brezillon <boris.brezillon@bootlin.com>
446 lines
17 KiB
C
446 lines
17 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* Copyright © International Business Machines Corp., 2006
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*
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* Author: Artem Bityutskiy (Битюцкий Артём)
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*/
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#ifndef __UBI_USER_H__
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#define __UBI_USER_H__
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#include <linux/types.h>
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/*
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* UBI device creation (the same as MTD device attachment)
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* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* MTD devices may be attached using %UBI_IOCATT ioctl command of the UBI
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* control device. The caller has to properly fill and pass
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* &struct ubi_attach_req object - UBI will attach the MTD device specified in
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* the request and return the newly created UBI device number as the ioctl
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* return value.
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*
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* UBI device deletion (the same as MTD device detachment)
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* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* An UBI device maybe deleted with %UBI_IOCDET ioctl command of the UBI
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* control device.
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*
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* UBI volume creation
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* ~~~~~~~~~~~~~~~~~~~
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*
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* UBI volumes are created via the %UBI_IOCMKVOL ioctl command of UBI character
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* device. A &struct ubi_mkvol_req object has to be properly filled and a
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* pointer to it has to be passed to the ioctl.
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*
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* UBI volume deletion
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* ~~~~~~~~~~~~~~~~~~~
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*
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* To delete a volume, the %UBI_IOCRMVOL ioctl command of the UBI character
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* device should be used. A pointer to the 32-bit volume ID hast to be passed
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* to the ioctl.
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*
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* UBI volume re-size
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* ~~~~~~~~~~~~~~~~~~
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*
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* To re-size a volume, the %UBI_IOCRSVOL ioctl command of the UBI character
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* device should be used. A &struct ubi_rsvol_req object has to be properly
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* filled and a pointer to it has to be passed to the ioctl.
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*
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* UBI volumes re-name
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* ~~~~~~~~~~~~~~~~~~~
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*
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* To re-name several volumes atomically at one go, the %UBI_IOCRNVOL command
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* of the UBI character device should be used. A &struct ubi_rnvol_req object
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* has to be properly filled and a pointer to it has to be passed to the ioctl.
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*
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* UBI volume update
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* ~~~~~~~~~~~~~~~~~
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*
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* Volume update should be done via the %UBI_IOCVOLUP ioctl command of the
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* corresponding UBI volume character device. A pointer to a 64-bit update
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* size should be passed to the ioctl. After this, UBI expects user to write
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* this number of bytes to the volume character device. The update is finished
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* when the claimed number of bytes is passed. So, the volume update sequence
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* is something like:
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*
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* fd = open("/dev/my_volume");
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* ioctl(fd, UBI_IOCVOLUP, &image_size);
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* write(fd, buf, image_size);
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* close(fd);
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*
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* Logical eraseblock erase
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* ~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* To erase a logical eraseblock, the %UBI_IOCEBER ioctl command of the
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* corresponding UBI volume character device should be used. This command
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* unmaps the requested logical eraseblock, makes sure the corresponding
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* physical eraseblock is successfully erased, and returns.
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*
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* Atomic logical eraseblock change
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* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* Atomic logical eraseblock change operation is called using the %UBI_IOCEBCH
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* ioctl command of the corresponding UBI volume character device. A pointer to
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* a &struct ubi_leb_change_req object has to be passed to the ioctl. Then the
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* user is expected to write the requested amount of bytes (similarly to what
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* should be done in case of the "volume update" ioctl).
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*
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* Logical eraseblock map
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* ~~~~~~~~~~~~~~~~~~~~~
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*
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* To map a logical eraseblock to a physical eraseblock, the %UBI_IOCEBMAP
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* ioctl command should be used. A pointer to a &struct ubi_map_req object is
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* expected to be passed. The ioctl maps the requested logical eraseblock to
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* a physical eraseblock and returns. Only non-mapped logical eraseblocks can
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* be mapped. If the logical eraseblock specified in the request is already
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* mapped to a physical eraseblock, the ioctl fails and returns error.
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*
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* Logical eraseblock unmap
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* ~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* To unmap a logical eraseblock to a physical eraseblock, the %UBI_IOCEBUNMAP
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* ioctl command should be used. The ioctl unmaps the logical eraseblocks,
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* schedules corresponding physical eraseblock for erasure, and returns. Unlike
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* the "LEB erase" command, it does not wait for the physical eraseblock being
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* erased. Note, the side effect of this is that if an unclean reboot happens
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* after the unmap ioctl returns, you may find the LEB mapped again to the same
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* physical eraseblock after the UBI is run again.
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*
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* Check if logical eraseblock is mapped
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* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* To check if a logical eraseblock is mapped to a physical eraseblock, the
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* %UBI_IOCEBISMAP ioctl command should be used. It returns %0 if the LEB is
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* not mapped, and %1 if it is mapped.
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*
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* Set an UBI volume property
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* ~~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* To set an UBI volume property the %UBI_IOCSETPROP ioctl command should be
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* used. A pointer to a &struct ubi_set_vol_prop_req object is expected to be
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* passed. The object describes which property should be set, and to which value
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* it should be set.
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*
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* Block devices on UBI volumes
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* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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*
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* To create a R/O block device on top of an UBI volume the %UBI_IOCVOLCRBLK
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* should be used. A pointer to a &struct ubi_blkcreate_req object is expected
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* to be passed, which is not used and reserved for future usage.
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*
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* Conversely, to remove a block device the %UBI_IOCVOLRMBLK should be used,
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* which takes no arguments.
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*/
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/*
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* When a new UBI volume or UBI device is created, users may either specify the
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* volume/device number they want to create or to let UBI automatically assign
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* the number using these constants.
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*/
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#define UBI_VOL_NUM_AUTO (-1)
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#define UBI_DEV_NUM_AUTO (-1)
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/* Maximum volume name length */
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#define UBI_MAX_VOLUME_NAME 127
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/* ioctl commands of UBI character devices */
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#define UBI_IOC_MAGIC 'o'
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/* Create an UBI volume */
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#define UBI_IOCMKVOL _IOW(UBI_IOC_MAGIC, 0, struct ubi_mkvol_req)
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/* Remove an UBI volume */
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#define UBI_IOCRMVOL _IOW(UBI_IOC_MAGIC, 1, __s32)
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/* Re-size an UBI volume */
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#define UBI_IOCRSVOL _IOW(UBI_IOC_MAGIC, 2, struct ubi_rsvol_req)
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/* Re-name volumes */
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#define UBI_IOCRNVOL _IOW(UBI_IOC_MAGIC, 3, struct ubi_rnvol_req)
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/* ioctl commands of the UBI control character device */
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#define UBI_CTRL_IOC_MAGIC 'o'
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/* Attach an MTD device */
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#define UBI_IOCATT _IOW(UBI_CTRL_IOC_MAGIC, 64, struct ubi_attach_req)
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/* Detach an MTD device */
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#define UBI_IOCDET _IOW(UBI_CTRL_IOC_MAGIC, 65, __s32)
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/* ioctl commands of UBI volume character devices */
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#define UBI_VOL_IOC_MAGIC 'O'
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/* Start UBI volume update
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* Note: This actually takes a pointer (__s64*), but we can't change
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* that without breaking the ABI on 32bit systems
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*/
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#define UBI_IOCVOLUP _IOW(UBI_VOL_IOC_MAGIC, 0, __s64)
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/* LEB erasure command, used for debugging, disabled by default */
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#define UBI_IOCEBER _IOW(UBI_VOL_IOC_MAGIC, 1, __s32)
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/* Atomic LEB change command */
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#define UBI_IOCEBCH _IOW(UBI_VOL_IOC_MAGIC, 2, __s32)
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/* Map LEB command */
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#define UBI_IOCEBMAP _IOW(UBI_VOL_IOC_MAGIC, 3, struct ubi_map_req)
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/* Unmap LEB command */
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#define UBI_IOCEBUNMAP _IOW(UBI_VOL_IOC_MAGIC, 4, __s32)
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/* Check if LEB is mapped command */
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#define UBI_IOCEBISMAP _IOR(UBI_VOL_IOC_MAGIC, 5, __s32)
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/* Set an UBI volume property */
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#define UBI_IOCSETVOLPROP _IOW(UBI_VOL_IOC_MAGIC, 6, \
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struct ubi_set_vol_prop_req)
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/* Create a R/O block device on top of an UBI volume */
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#define UBI_IOCVOLCRBLK _IOW(UBI_VOL_IOC_MAGIC, 7, struct ubi_blkcreate_req)
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/* Remove the R/O block device */
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#define UBI_IOCVOLRMBLK _IO(UBI_VOL_IOC_MAGIC, 8)
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/* Maximum MTD device name length supported by UBI */
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#define MAX_UBI_MTD_NAME_LEN 127
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/* Maximum amount of UBI volumes that can be re-named at one go */
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#define UBI_MAX_RNVOL 32
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/*
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* UBI volume type constants.
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*
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* @UBI_DYNAMIC_VOLUME: dynamic volume
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* @UBI_STATIC_VOLUME: static volume
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*/
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enum {
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UBI_DYNAMIC_VOLUME = 3,
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UBI_STATIC_VOLUME = 4,
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};
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/*
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* UBI set volume property ioctl constants.
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*
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* @UBI_VOL_PROP_DIRECT_WRITE: allow (any non-zero value) or disallow (value 0)
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* user to directly write and erase individual
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* eraseblocks on dynamic volumes
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*/
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enum {
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UBI_VOL_PROP_DIRECT_WRITE = 1,
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};
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/**
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* struct ubi_attach_req - attach MTD device request.
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* @ubi_num: UBI device number to create
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* @mtd_num: MTD device number to attach
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* @vid_hdr_offset: VID header offset (use defaults if %0)
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* @max_beb_per1024: maximum expected number of bad PEB per 1024 PEBs
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* @padding: reserved for future, not used, has to be zeroed
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*
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* This data structure is used to specify MTD device UBI has to attach and the
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* parameters it has to use. The number which should be assigned to the new UBI
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* device is passed in @ubi_num. UBI may automatically assign the number if
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* @UBI_DEV_NUM_AUTO is passed. In this case, the device number is returned in
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* @ubi_num.
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*
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* Most applications should pass %0 in @vid_hdr_offset to make UBI use default
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* offset of the VID header within physical eraseblocks. The default offset is
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* the next min. I/O unit after the EC header. For example, it will be offset
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* 512 in case of a 512 bytes page NAND flash with no sub-page support. Or
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* it will be 512 in case of a 2KiB page NAND flash with 4 512-byte sub-pages.
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*
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* But in rare cases, if this optimizes things, the VID header may be placed to
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* a different offset. For example, the boot-loader might do things faster if
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* the VID header sits at the end of the first 2KiB NAND page with 4 sub-pages.
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* As the boot-loader would not normally need to read EC headers (unless it
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* needs UBI in RW mode), it might be faster to calculate ECC. This is weird
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* example, but it real-life example. So, in this example, @vid_hdr_offer would
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* be 2KiB-64 bytes = 1984. Note, that this position is not even 512-bytes
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* aligned, which is OK, as UBI is clever enough to realize this is 4th
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* sub-page of the first page and add needed padding.
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*
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* The @max_beb_per1024 is the maximum amount of bad PEBs UBI expects on the
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* UBI device per 1024 eraseblocks. This value is often given in an other form
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* in the NAND datasheet (min NVB i.e. minimal number of valid blocks). The
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* maximum expected bad eraseblocks per 1024 is then:
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* 1024 * (1 - MinNVB / MaxNVB)
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* Which gives 20 for most NAND devices. This limit is used in order to derive
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* amount of eraseblock UBI reserves for handling new bad blocks. If the device
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* has more bad eraseblocks than this limit, UBI does not reserve any physical
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* eraseblocks for new bad eraseblocks, but attempts to use available
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* eraseblocks (if any). The accepted range is 0-768. If 0 is given, the
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* default kernel value of %CONFIG_MTD_UBI_BEB_LIMIT will be used.
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*/
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struct ubi_attach_req {
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__s32 ubi_num;
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__s32 mtd_num;
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__s32 vid_hdr_offset;
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__s16 max_beb_per1024;
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__s8 padding[10];
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};
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/*
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* UBI volume flags.
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*
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* @UBI_VOL_SKIP_CRC_CHECK_FLG: skip the CRC check done on a static volume at
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* open time. Only valid for static volumes and
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* should only be used if the volume user has a
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* way to verify data integrity
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*/
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enum {
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UBI_VOL_SKIP_CRC_CHECK_FLG = 0x1,
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};
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#define UBI_VOL_VALID_FLGS (UBI_VOL_SKIP_CRC_CHECK_FLG)
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/**
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* struct ubi_mkvol_req - volume description data structure used in
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* volume creation requests.
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* @vol_id: volume number
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* @alignment: volume alignment
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* @bytes: volume size in bytes
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* @vol_type: volume type (%UBI_DYNAMIC_VOLUME or %UBI_STATIC_VOLUME)
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* @flags: volume flags (%UBI_VOL_SKIP_CRC_CHECK_FLG)
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* @name_len: volume name length
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* @padding2: reserved for future, not used, has to be zeroed
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* @name: volume name
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*
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* This structure is used by user-space programs when creating new volumes. The
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* @used_bytes field is only necessary when creating static volumes.
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*
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* The @alignment field specifies the required alignment of the volume logical
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* eraseblock. This means, that the size of logical eraseblocks will be aligned
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* to this number, i.e.,
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* (UBI device logical eraseblock size) mod (@alignment) = 0.
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*
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* To put it differently, the logical eraseblock of this volume may be slightly
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* shortened in order to make it properly aligned. The alignment has to be
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* multiple of the flash minimal input/output unit, or %1 to utilize the entire
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* available space of logical eraseblocks.
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*
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* The @alignment field may be useful, for example, when one wants to maintain
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* a block device on top of an UBI volume. In this case, it is desirable to fit
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* an integer number of blocks in logical eraseblocks of this UBI volume. With
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* alignment it is possible to update this volume using plane UBI volume image
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* BLOBs, without caring about how to properly align them.
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*/
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struct ubi_mkvol_req {
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__s32 vol_id;
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__s32 alignment;
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__s64 bytes;
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__s8 vol_type;
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__u8 flags;
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__s16 name_len;
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__s8 padding2[4];
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char name[UBI_MAX_VOLUME_NAME + 1];
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} __packed;
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/**
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* struct ubi_rsvol_req - a data structure used in volume re-size requests.
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* @vol_id: ID of the volume to re-size
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* @bytes: new size of the volume in bytes
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*
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* Re-sizing is possible for both dynamic and static volumes. But while dynamic
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* volumes may be re-sized arbitrarily, static volumes cannot be made to be
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* smaller than the number of bytes they bear. To arbitrarily shrink a static
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* volume, it must be wiped out first (by means of volume update operation with
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* zero number of bytes).
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*/
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struct ubi_rsvol_req {
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__s64 bytes;
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__s32 vol_id;
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} __packed;
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/**
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* struct ubi_rnvol_req - volumes re-name request.
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* @count: count of volumes to re-name
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* @padding1: reserved for future, not used, has to be zeroed
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* @vol_id: ID of the volume to re-name
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* @name_len: name length
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* @padding2: reserved for future, not used, has to be zeroed
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* @name: new volume name
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*
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* UBI allows to re-name up to %32 volumes at one go. The count of volumes to
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* re-name is specified in the @count field. The ID of the volumes to re-name
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* and the new names are specified in the @vol_id and @name fields.
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*
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* The UBI volume re-name operation is atomic, which means that should power cut
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* happen, the volumes will have either old name or new name. So the possible
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* use-cases of this command is atomic upgrade. Indeed, to upgrade, say, volumes
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* A and B one may create temporary volumes %A1 and %B1 with the new contents,
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* then atomically re-name A1->A and B1->B, in which case old %A and %B will
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* be removed.
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*
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* If it is not desirable to remove old A and B, the re-name request has to
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* contain 4 entries: A1->A, A->A1, B1->B, B->B1, in which case old A1 and B1
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* become A and B, and old A and B will become A1 and B1.
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*
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* It is also OK to request: A1->A, A1->X, B1->B, B->Y, in which case old A1
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* and B1 become A and B, and old A and B become X and Y.
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*
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* In other words, in case of re-naming into an existing volume name, the
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* existing volume is removed, unless it is re-named as well at the same
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* re-name request.
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*/
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struct ubi_rnvol_req {
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__s32 count;
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__s8 padding1[12];
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struct {
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__s32 vol_id;
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__s16 name_len;
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__s8 padding2[2];
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char name[UBI_MAX_VOLUME_NAME + 1];
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} ents[UBI_MAX_RNVOL];
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} __packed;
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/**
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* struct ubi_leb_change_req - a data structure used in atomic LEB change
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* requests.
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* @lnum: logical eraseblock number to change
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* @bytes: how many bytes will be written to the logical eraseblock
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* @dtype: pass "3" for better compatibility with old kernels
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* @padding: reserved for future, not used, has to be zeroed
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*
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* The @dtype field used to inform UBI about what kind of data will be written
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* to the LEB: long term (value 1), short term (value 2), unknown (value 3).
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* UBI tried to pick a PEB with lower erase counter for short term data and a
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* PEB with higher erase counter for long term data. But this was not really
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* used because users usually do not know this and could easily mislead UBI. We
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* removed this feature in May 2012. UBI currently just ignores the @dtype
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* field. But for better compatibility with older kernels it is recommended to
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* set @dtype to 3 (unknown).
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*/
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struct ubi_leb_change_req {
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__s32 lnum;
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__s32 bytes;
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__s8 dtype; /* obsolete, do not use! */
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__s8 padding[7];
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} __packed;
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/**
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* struct ubi_map_req - a data structure used in map LEB requests.
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* @dtype: pass "3" for better compatibility with old kernels
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* @lnum: logical eraseblock number to unmap
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* @padding: reserved for future, not used, has to be zeroed
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*/
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struct ubi_map_req {
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__s32 lnum;
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__s8 dtype; /* obsolete, do not use! */
|
|
__s8 padding[3];
|
|
} __packed;
|
|
|
|
|
|
/**
|
|
* struct ubi_set_vol_prop_req - a data structure used to set an UBI volume
|
|
* property.
|
|
* @property: property to set (%UBI_VOL_PROP_DIRECT_WRITE)
|
|
* @padding: reserved for future, not used, has to be zeroed
|
|
* @value: value to set
|
|
*/
|
|
struct ubi_set_vol_prop_req {
|
|
__u8 property;
|
|
__u8 padding[7];
|
|
__u64 value;
|
|
} __packed;
|
|
|
|
/**
|
|
* struct ubi_blkcreate_req - a data structure used in block creation requests.
|
|
* @padding: reserved for future, not used, has to be zeroed
|
|
*/
|
|
struct ubi_blkcreate_req {
|
|
__s8 padding[128];
|
|
} __packed;
|
|
|
|
#endif /* __UBI_USER_H__ */
|