UBIFS is a filesystem that works on top of UBI volumes
- the UBIFS home page is at: http://www.linux-mtd.infradead.org/doc/ubifs.html
- UBIFS presentation slides: ubifs.odp
It represents a next-generation flash filesystem, compared to JFFS2, and (via UBI) operates on raw flash rather than on block-based media (such as eMMC or traditional hard drives).
UBIFS was written by developers at Nokia with help from the University of Szeged. Included in these developers was the current (as of 2012) maintainer of UBIFS, Artem Bityuski. The filesystem was mainlined in the Linux kernel in July, 2008, in kernel version 2.6.27.
The UBIFS home page has more detailed information, but in summary, UBI has the following features relative to other flash filesystems:
- UBI/UBIFS scales to large flash sizes better than JFFS2
- Good fault tolerance, via a number of features
- Built-in on-the-fly compression
- Good runtime performance
As of kernel version 3.7, UBI fastmap support was added to the kernel, to overcome a scalability issue with the time required to mount UBIFS on large flash media.
I specifically deals with the scalability issue described here: http://www.linux-mtd.infradead.org/doc/ubifs.html#L_scalability
A description of the feature is at: http://lwn.net/Articles/517422/
"UBI Fastmap is an optional feature which stores the physical to logical eraseblock relations in a checkpoint (called fastmap) to reduce the initialization time of UBI. The current init time of UBI is proportional to the number of physical erase blocks on the FLASH device. With fastmap enabled the scan time is limited to a fixed number of blocks."
UBIFS vs. YAFFS2 comparisons for 126.96.36.199
Note: see our Flash_Filesystem_Benchmarks for more recent benchmarks.
Hardware: MIPS, 403MHz CPU, 1GB Nand Flash
IOZone results: 4M, 8M & 16M file sizes in 980MB partition.
- mount time
- "1st mount" : time for mounting just after "flash_eraseall".
- "Empty" : time for mounting after "1st mount".(there's no files in partition)
- "Full" : time for mounting after creating files util the partition is full.(file size is random.)
- "Ubiattach" time for attaching 980MB partition into the ubi layer using ubiattach util.
|1st mount||2.59 sec||0.17 sec||2.25 sec|
|Empty||2.57 sec||0.11 sec||0.03 sec|
|Full||2.63 sec||0.16 sec||0.80 sec|
- IOZone results
Creating UBI Image
This is easiest to do, if you have access to the device and can run ubinfo and dmesg, otherwise you'll need to determine the volume size, Logical Erase Block size, etc by other means. UBI has some block overhead, which I found documentation inconsistent with my particular application, so your results may very. If your device is one UBI image for the entire NAND, this should be easier, and could probably be determined by just mounting a copy of the UBI image from the device if available.
To create the image from a rootfs you've built first you need to create the ubi.ini file, that describes your ubi image. Create a regular text file, ubi.ini, example contents, for more info run ubinize -h:
[ubi_rfs] mode=ubi image=ubifs.img vol_id=0 vol_size=87349248 vol_type=dynamic vol_name=ubi_rfs vol_alignment=1 vol_flags=autoresize
Next you'll run the commands that actually build it. Here ubi.ini is the file you just created, ubifs.img is a temp file you can delete once you are done, and your_erootfs.ubi is the name of the rootfs image that will be created.
sudo /usr/sbin/mkfs.ubifs -m 2048 -e 129024 -c 677 -r /path/to/rootfs ubifs.img sudo /usr/sbin/ubinize -o your_erootfs.ubi -p 131072 -m 2048 -s 512 -O 512 ubi.ini
To determine these and the ubi.ini file settings, use ubinfo -a and dmesg on the device if possible, which both give plenty of information about the values needed. The size and vol_name are listed under "Present volumes" when you run ubinfo -a on the device. The second half of that particular ubi device's description. While the NAND description's PEB, LEB etc are in dmesg.
- -m - Minimum I/O unit size.
- -e - Logical Erase Block (LEB) size.
- -c - Max LEB count. (vol_size/LEB)
- -x - Compression values lzo (default), favor_lzo, zlib, none
- -r - Path to root filesystem.
- ubifs.img - Temporary image file.
- -o - Output file.
- -p - Physical Erase Block (PEB) size.
- -m - Minimum I/O unit size.
- -s - Minimum I/O size for UBI headers, eg. sub-page size.
- -O - VID header offset from start of PEB.
- ubi.ini - UBI image configuration file.
Mounting UBI Image on PC using nandsim
First create a simulated NAND device (this one is 256MB, 2048 page size). <number>_id_byte= corresponds to the ID bytes sent back from the NAND.
$ sudo modprobe nandsim first_id_byte=0x20 second_id_byte=0xaa third_id_byte=0x00 fourth_id_byte=0x15
Check it was created.
$ cat /proc/mtd dev: size erasesize name mtd0: 10000000 00020000 "NAND simulator partition 0"
Next, attach it to a mtd device.
$ sudo modprobe ubi mtd=0
I had to detach it prior to formatting it.
$ sudo ubidetach /dev/ubi_ctrl -m 0
If that ubidetach step fails when you enter it, just proceed to the next step to format the mtd device.
$ sudo ubiformat /dev/mtd0 -f <image>.ubi ubiformat: mtd0 (nand), size 268435456 bytes (256.0 MiB), 2048 eraseblocks of 131072 bytes (128.0 KiB), min. I/O size 2048 bytes libscan: scanning eraseblock 2047 -- 100 % complete ubiformat: 2048 eraseblocks have valid erase counter, mean value is 1 ubiformat: flashing eraseblock 455 -- 100 % complete ubiformat: formatting eraseblock 2047 -- 100 % complete
Then, attach it.
$ sudo ubiattach /dev/ubi_ctrl -m 0 UBI device number 0, total 2048 LEBs (264241152 bytes, 252.0 MiB), available 0 LEBs (0 bytes), LEB size 129024 bytes (126.0 KiB)
Make a target directory, and mount the device.
$ mkdir temp $ sudo mount -t ubifs ubi0 temp