801c135ce7
UBI (Latin: "where?") manages multiple logical volumes on a single flash device, specifically supporting NAND flash devices. UBI provides a flexible partitioning concept which still allows for wear-levelling across the whole flash device. In a sense, UBI may be compared to the Logical Volume Manager (LVM). Whereas LVM maps logical sector numbers to physical HDD sector numbers, UBI maps logical eraseblocks to physical eraseblocks. More information may be found at http://www.linux-mtd.infradead.org/doc/ubi.html Partitioning/Re-partitioning An UBI volume occupies a certain number of erase blocks. This is limited by a configured maximum volume size, which could also be viewed as the partition size. Each individual UBI volume's size can be changed independently of the other UBI volumes, provided that the sum of all volume sizes doesn't exceed a certain limit. UBI supports dynamic volumes and static volumes. Static volumes are read-only and their contents are protected by CRC check sums. Bad eraseblocks handling UBI transparently handles bad eraseblocks. When a physical eraseblock becomes bad, it is substituted by a good physical eraseblock, and the user does not even notice this. Scrubbing On a NAND flash bit flips can occur on any write operation, sometimes also on read. If bit flips persist on the device, at first they can still be corrected by ECC, but once they accumulate, correction will become impossible. Thus it is best to actively scrub the affected eraseblock, by first copying it to a free eraseblock and then erasing the original. The UBI layer performs this type of scrubbing under the covers, transparently to the UBI volume users. Erase Counts UBI maintains an erase count header per eraseblock. This frees higher-level layers (like file systems) from doing this and allows for centralized erase count management instead. The erase counts are used by the wear-levelling algorithm in the UBI layer. The algorithm itself is exchangeable. Booting from NAND For booting directly from NAND flash the hardware must at least be capable of fetching and executing a small portion of the NAND flash. Some NAND flash controllers have this kind of support. They usually limit the window to a few kilobytes in erase block 0. This "initial program loader" (IPL) must then contain sufficient logic to load and execute the next boot phase. Due to bad eraseblocks, which may be randomly scattered over the flash device, it is problematic to store the "secondary program loader" (SPL) statically. Also, due to bit-flips it may become corrupted over time. UBI allows to solve this problem gracefully by storing the SPL in a small static UBI volume. UBI volumes vs. static partitions UBI volumes are still very similar to static MTD partitions: * both consist of eraseblocks (logical eraseblocks in case of UBI volumes, and physical eraseblocks in case of static partitions; * both support three basic operations - read, write, erase. But UBI volumes have the following advantages over traditional static MTD partitions: * there are no eraseblock wear-leveling constraints in case of UBI volumes, so the user should not care about this; * there are no bit-flips and bad eraseblocks in case of UBI volumes. So, UBI volumes may be considered as flash devices with relaxed restrictions. Where can it be found? Documentation, kernel code and applications can be found in the MTD gits. What are the applications for? The applications help to create binary flash images for two purposes: pfi files (partial flash images) for in-system update of UBI volumes, and plain binary images, with or without OOB data in case of NAND, for a manufacturing step. Furthermore some tools are/and will be created that allow flash content analysis after a system has crashed.. Who did UBI? The original ideas, where UBI is based on, were developed by Andreas Arnez, Frank Haverkamp and Thomas Gleixner. Josh W. Boyer and some others were involved too. The implementation of the kernel layer was done by Artem B. Bityutskiy. The user-space applications and tools were written by Oliver Lohmann with contributions from Frank Haverkamp, Andreas Arnez, and Artem. Joern Engel contributed a patch which modifies JFFS2 so that it can be run on a UBI volume. Thomas Gleixner did modifications to the NAND layer. Alexander Schmidt made some testing work as well as core functionality improvements. Signed-off-by: Artem B. Bityutskiy <dedekind@linutronix.de> Signed-off-by: Frank Haverkamp <haver@vnet.ibm.com>
536 lines
17 KiB
C
536 lines
17 KiB
C
/*
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* Copyright (c) International Business Machines Corp., 2006
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* Copyright (c) Nokia Corporation, 2006, 2007
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
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* the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*
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* Author: Artem Bityutskiy (Битюцкий Артём)
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*/
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#ifndef __UBI_UBI_H__
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#define __UBI_UBI_H__
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#include <linux/init.h>
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#include <linux/types.h>
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#include <linux/list.h>
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#include <linux/rbtree.h>
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#include <linux/sched.h>
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#include <linux/wait.h>
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#include <linux/mutex.h>
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#include <linux/rwsem.h>
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#include <linux/spinlock.h>
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#include <linux/fs.h>
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#include <linux/cdev.h>
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#include <linux/device.h>
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#include <linux/string.h>
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#include <linux/mtd/mtd.h>
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#include <mtd/ubi-header.h>
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#include <linux/mtd/ubi.h>
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#include "scan.h"
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#include "debug.h"
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/* Maximum number of supported UBI devices */
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#define UBI_MAX_DEVICES 32
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/* UBI name used for character devices, sysfs, etc */
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#define UBI_NAME_STR "ubi"
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/* Normal UBI messages */
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#define ubi_msg(fmt, ...) printk(KERN_NOTICE "UBI: " fmt "\n", ##__VA_ARGS__)
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/* UBI warning messages */
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#define ubi_warn(fmt, ...) printk(KERN_WARNING "UBI warning: %s: " fmt "\n", \
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__FUNCTION__, ##__VA_ARGS__)
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/* UBI error messages */
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#define ubi_err(fmt, ...) printk(KERN_ERR "UBI error: %s: " fmt "\n", \
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__FUNCTION__, ##__VA_ARGS__)
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/* Lowest number PEBs reserved for bad PEB handling */
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#define MIN_RESEVED_PEBS 2
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/* Background thread name pattern */
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#define UBI_BGT_NAME_PATTERN "ubi_bgt%dd"
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/* This marker in the EBA table means that the LEB is um-mapped */
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#define UBI_LEB_UNMAPPED -1
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/*
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* In case of errors, UBI tries to repeat the operation several times before
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* returning error. The below constant defines how many times UBI re-tries.
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*/
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#define UBI_IO_RETRIES 3
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/*
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* Error codes returned by the I/O unit.
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*
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* UBI_IO_PEB_EMPTY: the physical eraseblock is empty, i.e. it contains only
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* 0xFF bytes
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* UBI_IO_PEB_FREE: the physical eraseblock is free, i.e. it contains only a
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* valid erase counter header, and the rest are %0xFF bytes
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* UBI_IO_BAD_EC_HDR: the erase counter header is corrupted (bad magic or CRC)
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* UBI_IO_BAD_VID_HDR: the volume identifier header is corrupted (bad magic or
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* CRC)
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* UBI_IO_BITFLIPS: bit-flips were detected and corrected
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*/
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enum {
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UBI_IO_PEB_EMPTY = 1,
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UBI_IO_PEB_FREE,
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UBI_IO_BAD_EC_HDR,
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UBI_IO_BAD_VID_HDR,
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UBI_IO_BITFLIPS
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};
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extern int ubi_devices_cnt;
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extern struct ubi_device *ubi_devices[];
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struct ubi_volume_desc;
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/**
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* struct ubi_volume - UBI volume description data structure.
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* @dev: device object to make use of the the Linux device model
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* @cdev: character device object to create character device
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* @ubi: reference to the UBI device description object
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* @vol_id: volume ID
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* @readers: number of users holding this volume in read-only mode
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* @writers: number of users holding this volume in read-write mode
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* @exclusive: whether somebody holds this volume in exclusive mode
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* @removed: if the volume was removed
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* @checked: if this static volume was checked
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*
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* @reserved_pebs: how many physical eraseblocks are reserved for this volume
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* @vol_type: volume type (%UBI_DYNAMIC_VOLUME or %UBI_STATIC_VOLUME)
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* @usable_leb_size: logical eraseblock size without padding
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* @used_ebs: how many logical eraseblocks in this volume contain data
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* @last_eb_bytes: how many bytes are stored in the last logical eraseblock
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* @used_bytes: how many bytes of data this volume contains
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* @upd_marker: non-zero if the update marker is set for this volume
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* @corrupted: non-zero if the volume is corrupted (static volumes only)
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* @alignment: volume alignment
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* @data_pad: how many bytes are not used at the end of physical eraseblocks to
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* satisfy the requested alignment
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* @name_len: volume name length
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* @name: volume name
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*
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* @updating: whether the volume is being updated
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* @upd_ebs: how many eraseblocks are expected to be updated
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* @upd_bytes: how many bytes are expected to be received
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* @upd_received: how many update bytes were already received
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* @upd_buf: update buffer which is used to collect update data
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*
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* @eba_tbl: EBA table of this volume (LEB->PEB mapping)
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*
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* @gluebi_desc: gluebi UBI volume descriptor
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* @gluebi_refcount: reference count of the gluebi MTD device
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* @gluebi_mtd: MTD device description object of the gluebi MTD device
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*
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* The @corrupted field indicates that the volume's contents is corrupted.
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* Since UBI protects only static volumes, this field is not relevant to
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* dynamic volumes - it is user's responsibility to assure their data
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* integrity.
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*
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* The @upd_marker flag indicates that this volume is either being updated at
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* the moment or is damaged because of an unclean reboot.
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*/
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struct ubi_volume {
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struct device dev;
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struct cdev cdev;
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struct ubi_device *ubi;
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int vol_id;
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int readers;
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int writers;
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int exclusive;
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int removed;
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int checked;
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int reserved_pebs;
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int vol_type;
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int usable_leb_size;
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int used_ebs;
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int last_eb_bytes;
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long long used_bytes;
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int upd_marker;
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int corrupted;
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int alignment;
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int data_pad;
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int name_len;
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char name[UBI_VOL_NAME_MAX+1];
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int updating;
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int upd_ebs;
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long long upd_bytes;
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long long upd_received;
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void *upd_buf;
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int *eba_tbl;
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#ifdef CONFIG_MTD_UBI_GLUEBI
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/* Gluebi-related stuff may be compiled out */
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struct ubi_volume_desc *gluebi_desc;
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int gluebi_refcount;
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struct mtd_info gluebi_mtd;
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#endif
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};
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/**
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* struct ubi_volume_desc - descriptor of the UBI volume returned when it is
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* opened.
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* @vol: reference to the corresponding volume description object
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* @mode: open mode (%UBI_READONLY, %UBI_READWRITE, or %UBI_EXCLUSIVE)
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*/
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struct ubi_volume_desc {
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struct ubi_volume *vol;
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int mode;
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};
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struct ubi_wl_entry;
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/**
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* struct ubi_device - UBI device description structure
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* @dev: class device object to use the the Linux device model
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* @cdev: character device object to create character device
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* @ubi_num: UBI device number
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* @ubi_name: UBI device name
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* @major: character device major number
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* @vol_count: number of volumes in this UBI device
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* @volumes: volumes of this UBI device
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* @volumes_lock: protects @volumes, @rsvd_pebs, @avail_pebs, beb_rsvd_pebs,
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* @beb_rsvd_level, @bad_peb_count, @good_peb_count, @vol_count, @vol->readers,
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* @vol->writers, @vol->exclusive, @vol->removed, @vol->mapping and
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* @vol->eba_tbl.
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*
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* @rsvd_pebs: count of reserved physical eraseblocks
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* @avail_pebs: count of available physical eraseblocks
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* @beb_rsvd_pebs: how many physical eraseblocks are reserved for bad PEB
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* handling
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* @beb_rsvd_level: normal level of PEBs reserved for bad PEB handling
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*
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* @vtbl_slots: how many slots are available in the volume table
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* @vtbl_size: size of the volume table in bytes
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* @vtbl: in-RAM volume table copy
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*
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* @max_ec: current highest erase counter value
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* @mean_ec: current mean erase counter value
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*
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* global_sqnum: global sequence number
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* @ltree_lock: protects the lock tree and @global_sqnum
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* @ltree: the lock tree
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* @vtbl_mutex: protects on-flash volume table
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*
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* @used: RB-tree of used physical eraseblocks
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* @free: RB-tree of free physical eraseblocks
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* @scrub: RB-tree of physical eraseblocks which need scrubbing
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* @prot: protection trees
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* @prot.pnum: protection tree indexed by physical eraseblock numbers
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* @prot.aec: protection tree indexed by absolute erase counter value
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* @wl_lock: protects the @used, @free, @prot, @lookuptbl, @abs_ec, @move_from,
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* @move_to, @move_to_put @erase_pending, @wl_scheduled, and @works
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* fields
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* @wl_scheduled: non-zero if the wear-leveling was scheduled
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* @lookuptbl: a table to quickly find a &struct ubi_wl_entry object for any
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* physical eraseblock
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* @abs_ec: absolute erase counter
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* @move_from: physical eraseblock from where the data is being moved
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* @move_to: physical eraseblock where the data is being moved to
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* @move_from_put: if the "from" PEB was put
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* @move_to_put: if the "to" PEB was put
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* @works: list of pending works
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* @works_count: count of pending works
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* @bgt_thread: background thread description object
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* @thread_enabled: if the background thread is enabled
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* @bgt_name: background thread name
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*
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* @flash_size: underlying MTD device size (in bytes)
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* @peb_count: count of physical eraseblocks on the MTD device
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* @peb_size: physical eraseblock size
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* @bad_peb_count: count of bad physical eraseblocks
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* @good_peb_count: count of good physical eraseblocks
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* @min_io_size: minimal input/output unit size of the underlying MTD device
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* @hdrs_min_io_size: minimal I/O unit size used for VID and EC headers
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* @ro_mode: if the UBI device is in read-only mode
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* @leb_size: logical eraseblock size
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* @leb_start: starting offset of logical eraseblocks within physical
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* eraseblocks
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* @ec_hdr_alsize: size of the EC header aligned to @hdrs_min_io_size
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* @vid_hdr_alsize: size of the VID header aligned to @hdrs_min_io_size
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* @vid_hdr_offset: starting offset of the volume identifier header (might be
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* unaligned)
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* @vid_hdr_aloffset: starting offset of the VID header aligned to
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* @hdrs_min_io_size
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* @vid_hdr_shift: contains @vid_hdr_offset - @vid_hdr_aloffset
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* @bad_allowed: whether the MTD device admits of bad physical eraseblocks or
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* not
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* @mtd: MTD device descriptor
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*/
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struct ubi_device {
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struct cdev cdev;
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struct device dev;
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int ubi_num;
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char ubi_name[sizeof(UBI_NAME_STR)+5];
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int major;
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int vol_count;
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struct ubi_volume *volumes[UBI_MAX_VOLUMES+UBI_INT_VOL_COUNT];
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spinlock_t volumes_lock;
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int rsvd_pebs;
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int avail_pebs;
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int beb_rsvd_pebs;
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int beb_rsvd_level;
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int vtbl_slots;
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int vtbl_size;
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struct ubi_vtbl_record *vtbl;
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struct mutex vtbl_mutex;
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int max_ec;
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int mean_ec;
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/* EBA unit's stuff */
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unsigned long long global_sqnum;
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spinlock_t ltree_lock;
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struct rb_root ltree;
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/* Wear-leveling unit's stuff */
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struct rb_root used;
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struct rb_root free;
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struct rb_root scrub;
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struct {
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struct rb_root pnum;
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struct rb_root aec;
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} prot;
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spinlock_t wl_lock;
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int wl_scheduled;
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struct ubi_wl_entry **lookuptbl;
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unsigned long long abs_ec;
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struct ubi_wl_entry *move_from;
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struct ubi_wl_entry *move_to;
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int move_from_put;
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int move_to_put;
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struct list_head works;
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int works_count;
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struct task_struct *bgt_thread;
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int thread_enabled;
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char bgt_name[sizeof(UBI_BGT_NAME_PATTERN)+2];
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/* I/O unit's stuff */
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long long flash_size;
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int peb_count;
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int peb_size;
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int bad_peb_count;
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int good_peb_count;
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int min_io_size;
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int hdrs_min_io_size;
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int ro_mode;
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int leb_size;
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int leb_start;
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int ec_hdr_alsize;
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int vid_hdr_alsize;
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int vid_hdr_offset;
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int vid_hdr_aloffset;
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int vid_hdr_shift;
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int bad_allowed;
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struct mtd_info *mtd;
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};
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extern struct file_operations ubi_cdev_operations;
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extern struct file_operations ubi_vol_cdev_operations;
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extern struct class *ubi_class;
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/* vtbl.c */
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int ubi_change_vtbl_record(struct ubi_device *ubi, int idx,
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struct ubi_vtbl_record *vtbl_rec);
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int ubi_read_volume_table(struct ubi_device *ubi, struct ubi_scan_info *si);
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/* vmt.c */
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int ubi_create_volume(struct ubi_device *ubi, struct ubi_mkvol_req *req);
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int ubi_remove_volume(struct ubi_volume_desc *desc);
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int ubi_resize_volume(struct ubi_volume_desc *desc, int reserved_pebs);
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int ubi_add_volume(struct ubi_device *ubi, int vol_id);
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void ubi_free_volume(struct ubi_device *ubi, int vol_id);
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/* upd.c */
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int ubi_start_update(struct ubi_device *ubi, int vol_id, long long bytes);
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int ubi_more_update_data(struct ubi_device *ubi, int vol_id,
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const void __user *buf, int count);
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/* misc.c */
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int ubi_calc_data_len(const struct ubi_device *ubi, const void *buf, int length);
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int ubi_check_volume(struct ubi_device *ubi, int vol_id);
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void ubi_calculate_reserved(struct ubi_device *ubi);
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/* gluebi.c */
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#ifdef CONFIG_MTD_UBI_GLUEBI
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int ubi_create_gluebi(struct ubi_device *ubi, struct ubi_volume *vol);
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int ubi_destroy_gluebi(struct ubi_volume *vol);
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#else
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#define ubi_create_gluebi(ubi, vol) 0
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#define ubi_destroy_gluebi(vol) 0
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#endif
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/* eba.c */
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int ubi_eba_unmap_leb(struct ubi_device *ubi, int vol_id, int lnum);
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int ubi_eba_read_leb(struct ubi_device *ubi, int vol_id, int lnum, void *buf,
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int offset, int len, int check);
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int ubi_eba_write_leb(struct ubi_device *ubi, int vol_id, int lnum,
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const void *buf, int offset, int len, int dtype);
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int ubi_eba_write_leb_st(struct ubi_device *ubi, int vol_id, int lnum,
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const void *buf, int len, int dtype,
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int used_ebs);
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int ubi_eba_atomic_leb_change(struct ubi_device *ubi, int vol_id, int lnum,
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const void *buf, int len, int dtype);
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int ubi_eba_copy_leb(struct ubi_device *ubi, int from, int to,
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struct ubi_vid_hdr *vid_hdr);
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int ubi_eba_init_scan(struct ubi_device *ubi, struct ubi_scan_info *si);
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void ubi_eba_close(const struct ubi_device *ubi);
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|
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/* wl.c */
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int ubi_wl_get_peb(struct ubi_device *ubi, int dtype);
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int ubi_wl_put_peb(struct ubi_device *ubi, int pnum, int torture);
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int ubi_wl_flush(struct ubi_device *ubi);
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int ubi_wl_scrub_peb(struct ubi_device *ubi, int pnum);
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int ubi_wl_init_scan(struct ubi_device *ubi, struct ubi_scan_info *si);
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void ubi_wl_close(struct ubi_device *ubi);
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|
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/* io.c */
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int ubi_io_read(const struct ubi_device *ubi, void *buf, int pnum, int offset,
|
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int len);
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int ubi_io_write(const struct ubi_device *ubi, const void *buf, int pnum,
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int offset, int len);
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int ubi_io_sync_erase(const struct ubi_device *ubi, int pnum, int torture);
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int ubi_io_is_bad(const struct ubi_device *ubi, int pnum);
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int ubi_io_mark_bad(const struct ubi_device *ubi, int pnum);
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int ubi_io_read_ec_hdr(const struct ubi_device *ubi, int pnum,
|
|
struct ubi_ec_hdr *ec_hdr, int verbose);
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|
int ubi_io_write_ec_hdr(const struct ubi_device *ubi, int pnum,
|
|
struct ubi_ec_hdr *ec_hdr);
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|
int ubi_io_read_vid_hdr(const struct ubi_device *ubi, int pnum,
|
|
struct ubi_vid_hdr *vid_hdr, int verbose);
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int ubi_io_write_vid_hdr(const struct ubi_device *ubi, int pnum,
|
|
struct ubi_vid_hdr *vid_hdr);
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|
|
|
/*
|
|
* ubi_rb_for_each_entry - walk an RB-tree.
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|
* @rb: a pointer to type 'struct rb_node' to to use as a loop counter
|
|
* @pos: a pointer to RB-tree entry type to use as a loop counter
|
|
* @root: RB-tree's root
|
|
* @member: the name of the 'struct rb_node' within the RB-tree entry
|
|
*/
|
|
#define ubi_rb_for_each_entry(rb, pos, root, member) \
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|
for (rb = rb_first(root), \
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|
pos = (rb ? container_of(rb, typeof(*pos), member) : NULL); \
|
|
rb; \
|
|
rb = rb_next(rb), pos = container_of(rb, typeof(*pos), member))
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|
|
|
/**
|
|
* ubi_zalloc_vid_hdr - allocate a volume identifier header object.
|
|
* @ubi: UBI device description object
|
|
*
|
|
* This function returns a pointer to the newly allocated and zero-filled
|
|
* volume identifier header object in case of success and %NULL in case of
|
|
* failure.
|
|
*/
|
|
static inline struct ubi_vid_hdr *ubi_zalloc_vid_hdr(const struct ubi_device *ubi)
|
|
{
|
|
void *vid_hdr;
|
|
|
|
vid_hdr = kzalloc(ubi->vid_hdr_alsize, GFP_KERNEL);
|
|
if (!vid_hdr)
|
|
return NULL;
|
|
|
|
/*
|
|
* VID headers may be stored at un-aligned flash offsets, so we shift
|
|
* the pointer.
|
|
*/
|
|
return vid_hdr + ubi->vid_hdr_shift;
|
|
}
|
|
|
|
/**
|
|
* ubi_free_vid_hdr - free a volume identifier header object.
|
|
* @ubi: UBI device description object
|
|
* @vid_hdr: the object to free
|
|
*/
|
|
static inline void ubi_free_vid_hdr(const struct ubi_device *ubi,
|
|
struct ubi_vid_hdr *vid_hdr)
|
|
{
|
|
void *p = vid_hdr;
|
|
|
|
if (!p)
|
|
return;
|
|
|
|
kfree(p - ubi->vid_hdr_shift);
|
|
}
|
|
|
|
/*
|
|
* This function is equivalent to 'ubi_io_read()', but @offset is relative to
|
|
* the beginning of the logical eraseblock, not to the beginning of the
|
|
* physical eraseblock.
|
|
*/
|
|
static inline int ubi_io_read_data(const struct ubi_device *ubi, void *buf,
|
|
int pnum, int offset, int len)
|
|
{
|
|
ubi_assert(offset >= 0);
|
|
return ubi_io_read(ubi, buf, pnum, offset + ubi->leb_start, len);
|
|
}
|
|
|
|
/*
|
|
* This function is equivalent to 'ubi_io_write()', but @offset is relative to
|
|
* the beginning of the logical eraseblock, not to the beginning of the
|
|
* physical eraseblock.
|
|
*/
|
|
static inline int ubi_io_write_data(const struct ubi_device *ubi, const void *buf,
|
|
int pnum, int offset, int len)
|
|
{
|
|
ubi_assert(offset >= 0);
|
|
return ubi_io_write(ubi, buf, pnum, offset + ubi->leb_start, len);
|
|
}
|
|
|
|
/**
|
|
* ubi_ro_mode - switch to read-only mode.
|
|
* @ubi: UBI device description object
|
|
*/
|
|
static inline void ubi_ro_mode(struct ubi_device *ubi)
|
|
{
|
|
ubi->ro_mode = 1;
|
|
ubi_warn("switch to read-only mode");
|
|
}
|
|
|
|
/**
|
|
* vol_id2idx - get table index by volume ID.
|
|
* @ubi: UBI device description object
|
|
* @vol_id: volume ID
|
|
*/
|
|
static inline int vol_id2idx(const struct ubi_device *ubi, int vol_id)
|
|
{
|
|
if (vol_id >= UBI_INTERNAL_VOL_START)
|
|
return vol_id - UBI_INTERNAL_VOL_START + ubi->vtbl_slots;
|
|
else
|
|
return vol_id;
|
|
}
|
|
|
|
/**
|
|
* idx2vol_id - get volume ID by table index.
|
|
* @ubi: UBI device description object
|
|
* @idx: table index
|
|
*/
|
|
static inline int idx2vol_id(const struct ubi_device *ubi, int idx)
|
|
{
|
|
if (idx >= ubi->vtbl_slots)
|
|
return idx - ubi->vtbl_slots + UBI_INTERNAL_VOL_START;
|
|
else
|
|
return idx;
|
|
}
|
|
|
|
#endif /* !__UBI_UBI_H__ */
|