devf-ram
Simulate flash filesystem using RAM memory
Syntax:
devf-ram [-AaDEIlRrVv] [-b priority] [-d log_method] [-e arg] [-f verifylevel]
[-i arrayindex[,partindex]] [-L limit] [-m mountover] [-P lock_mode]
[-p backgroundpercent[,superlimit]] [-S sector_erase_latency]
[-s base[,wsize[,aoffset[,asize[,usize[,bwidth[,ileave]]]]]]]
[-T max_erase_diff] [-t threads] [-U uid[:gid]]
[-u update] [-w buffersize] [-x type]
Runs on:
QNX OS
Options:
- -A
- When registering the path names for the partitions with resmgr_attach(), use the _RESMGR_FLAG_AFTER flag to force the path to be resolved after others with the same pathname at the same mountpoint.
- -a
- Don't automount filesystem partitions present on the media. If you specify both the -a and -R options, the driver ignores the -R option.
- -b priority
- Enable background reclaim at the specified priority. By default, background reclamation is disabled.
- -D
- Enable automatic detection of error-correcting code (ECC) mode.
If you specify this option, you don't need to specify -x.
Note:Don't mix ECC-enabled partitions and ECC-disabled partitions; the driver doesn't support this.
- -d log_method
- Control the logging from the flash driver.
The possible values for log_method are:
- 0 — log to stdout (the default)
- 1 — log to slogger2
- 2 — log to both stdout and slogger2
- -E
- Don't daemonize. If the driver detects a corrupt filesystem, the exit status is that filesystem's partition number plus 1.
- -e arg
- Only enumerate the flash partitions, instead of doing a full scan
and mount:
- If arg is an integer, the flash driver automounts all partitions with a partition number
less than or equal to arg.
For example, assume we have a flash layout as follows:
- /dev/fs0p0 — raw
- /dev/fs0p1 — formatted
- /dev/fs0p2 — formatted
- /dev/fs0p3 — formatted
If you start the driver with -e 1, the driver creates all the raw entries in /dev, but mounts only /dev/fs0p1 (/dev/fs0p0 is raw, so it's never mounted, regardless of the -e option).
- If arg is a string, the driver interprets it as a colon-separated list of exact paths to mount, if found.
- If arg is an integer, the flash driver automounts all partitions with a partition number
less than or equal to arg.
- -f verifylevel
- Simulate flash verify; provided only for syntax compatibility with real flash hardware (default=0, 0=none, write=1, erase=2, all=3).
- -I
- Call ThreadCtl(_NTO_TCTL_IO_PRIV) to request level 2 I/O privilege, instead of the default _NTO_TCTL_IO.
- -i arrayindex[,partindex]
- Starting socket index and first partition index; 0 ≥ index ≥15. The default is 0,0. Use this to give multiple drivers unique IDs. The -i option is just a suggestion for the resource database manager; the selected indexes can be larger.
- -L limit
- The number of retries to make if the physical flash erase function for a unit fails. The default is 0.
- -l
- List the available flash databases and exit.
- -m mountover
- Override the mountpoints assigned to a file system that are formatted with an empty (i.e.,
flashctl -p/dev/fs0p0 -e -f -n ""
) mountpoint. The mountover argument can include two%X
format specifiers (like those for printf()) that are replaced by the socket index and the partition index.Note:The -m option doesn't override a mountpoint specified with mkefs. - -P lock_mode
- Set the protection mode for Spansion-compatible devices:
- 0 — no lock (the default)
- 1 — persistent lock mode
- 2 — dynamic lock mode
- -p backgroundpercent[,superlimit]
- Set the background-reclaim percentage trigger (stale space over free space) and, optionally, the superseded extent limit before reclaim. The default is 100,16.
- -R
- Mount any automount filesystems as read-only. This option doesn't affect raw partition mounts, and it has an effect only at startup and initialization. Any subsequent mounting (with either flashctl or mount) ignores the -R option. If you also specify the -a option, the driver ignores the -R option.
- -r
- Enable fault recovery for dirty extents, dangling extents, and partial reclaims.
Note:You should always specify the -r option unless you're trying to debug an issue concerning flash corruption.If you don't specify -r, and a power failure occurs, the following can happen:
- You can waste space.
If an erasure was happening when the power was cut off,
there will be some
dangling
extents (i.e. marked for deletion, but not actually deleted). If you specify the -vv option, the driver printsdangle
for every dangling extent found. These extents will continue to occupy space forever, until they're deleted. Using the -r option will cause them to be reclaimed. - The system may be marked as read-only. If the driver detects an error in the structure of the filesystem, and you haven't specified the -r option, the driver marks the partition as read-only, so that it can't be further damaged.
- If a reclaim operation is interrupted by a power loss, the spare block
may be unusable.
In this case, if you specify the -vv option, the driver prints
partial
to the console. The partition is still read-write, but reclaims are turned off; if you continue to overwrite files, you'll eventually fill the filesystem with stale data.
- You can waste space.
If an erasure was happening when the power was cut off,
there will be some
- -S sector_erase_latency
- Set the simulated sector erase latency in milliseconds (max = 10000).
- -s base[,wsize[,aoffset[,asize[,usize[,bwidth[,ileave]]]]]]
- Set socket options, normally the base physical address, window size,
array offset, array size, unit size, bus width, and interleave.
The format is left flexible for socket services with customized drivers.
The arguments are:
- base
- Physical base address of the flash part. This value is board-specific.
Note:For the devf-ram utility, the base argument carries a special meaning:
- 0
- Allocate system memory.
- Nonzero
- Use the exact physical address. You must exercise caution here. See the caveats below.
- wsize
- Size of the physically contiguous flash part.
- aoffset
- For SRAM, the offset from the base address to the start of the flash array.
- asize
- For SRAM, the size of the flash array. The default is equal to wsize.
- usize
- The size of a physical erase sector. For SRAM, this number can be any power of two. 64 KB should be the minimum, for performance reasons.
- bwidth
- The total width of the data bus, as seen from the microprocessor's perspective. This is the width of one simulated flash chip multiplied by the interleave. This value must be a power of 2 (1, 2, 4, or 8).
- ileave
- The number of simulated flash chips arranged on the data bus. This value must be a power of 2 (1, 2, 4, or 8).
You can specify the base physical address, sizes, and offset in octal (0777
), hexadecimal (0x1ff
), or decimal (511
). The sizes must be a power of two, and you can specify them with any of the following suffixes:- (nothing) — bytes
- k — kilobytes
- m — megabytes
Note:On ARM targets, devf-ram can't resize the shared object /dev/shmem/fs*. If you need to restart devf-ram with a new size, first unlink the old shared object:rm /dev/shmem/fs*
- -T max_erase_diff
- Set the threshold value (maximum erase count − minimum erase count in a partition) to trigger wear-levelling. The default value is two times the sector number in the partition. Typically, for very large partitions containing more than 1000 sectors, you should use this option to specify a threshold (for example, 1000) to make the sector erasure counts more evenly distributed across the entire partition.
- -t threads
- The number of threads. The minimum is 1, the default is 2, and the maximum is 100. Extra threads increase performance when background reclaiming is enabled (with the -b option) and when multiple chips and/or spare blocks are available.
- -U uid[:gid]
- Switch the driver to the specified UID and optional GID.
- -u update
- Specify the update level for timestamps.
POSIX specifies that timestamps be kept when you access, create, or modify a file.
FFSv3 is documented as not supporting the access
timestamp, in order to reduce wear on the hardware.
The values for update are:
- 0 — don't update the modification time for files (the default).
- 1 — update the modification time for files according to the POSIX rules.
- 2 — update the modification time for files, as well as for the parent directory.
Note:The -u2 option is very, very expensive and will cause many reclaims because the time updates have to flow right up to the root directory, so one file update may cause many directory updates. - -V
- Display filesystem and MTD version information, and then exit.
- -v
- Be verbose; specify additional v characters for more verbosity.
For more information, see
Verbose output
. - -w buffersize
- Write (append) buffer size in bytes. The default buffersize is 512. Using a larger write-buffer prevents the creation of very small extents, reducing overhead. If buffersize is 0, appending is disabled.
- -x type
- Enable software ECC mode.
Specify type as 1 for 64-byte alignment ECC, or 2 for 32-byte.
Note:Don't mix ECC-enabled partitions and ECC-disabled partitions; the driver doesn't support this.
Description:
- /dev/fsn
- Default mountpoint for socket n.
- /dev/fsnp0
- Raw access for socket n, partition 0.
- mountpoint
- Flash filesystem mountpoint for socket n, partition 0 with transparent decompression.
You can specify the mountpoint above with the mount attribute of the mkefs command, and override it with the -n option to flashctl. By default, it's /fsnp0.
Verbose output
If you specify the -v option, a devf-* driver provides some useful information. This section describes the output that you get if you specify -vvv; at higher levels of verbosity, the output also includes messages about the use of malloc() and free(), but these aren't likely to be useful to you.
The rest of the messages that the driver prints are variable; messages are printed as the driver discovers things of interest. The general format of a message is
(devf tN::function:line) Message string
where tN is the thread printing the message, function is the function emitting the message, and line is the line number that emitted the message.
- (devf t1::f3s_skt_attach:109) fs0 socket RAM (flash simulation)
- The flash driver located a flash socket, number zero (
fs0
). This message also indicates that the hardware identification succeeded. - (devf t1::f3s_flash_probe:248) chip total = 1, bus_width = 8, interleave = 2
- After identifying the hardware, the driver prints the geometry. The chip total is
the number of contiguous chips. The bus width is the size of the data bus, in bytes.
The interleave is the number of physical chips sharing the data bus (high and low
halves of the data bus, for example).
This particular example indicates that there are two physical chips sharing a 64-bit data bus.
- (devf t1::f3s_skt_attach:135) fs0 array SRAM U: 80 S: 020000
- The flash driver has allocated the flash array (i.e., the storage media) of type SRAM, with 0x80 hardware sectors, and a sector size of 0x020000 bytes.
- (devf t1::f3s_recover_boot:248) fs0p0 boot P[00] U: 80
- The filesystem is now scanning for partitions. It has found a boot header, and has
named the partition /dev/fs0p0. The boot signature is located on
physical block 0, and the partition has 0x80 sectors (called
units
in devf-* nomenclature). - (devf t1::f3s_recover_reclaim:989) fs0p0 spare P[7F]
- The second phase of the startup scan is processing /dev/fs0p0, and has found a spare block. The spare block is located on physical sector 0x7F.
- (devf t3::f3s_table_find:66) fs0p1 raw U: 09
- A region of flash was found that isn't formatted. The region is given the name /dev/fs0p1; its size is 0x09 sectors.
Examples:
devf-ram -s0,16m
devf-ram -r -u2 -b5 &
devf-ram -s0,32m,,,64k -v -r
devf-ram -s0,128m,,,512k -v -r
devf-ram -s0,4m,,,64k -v -r
Caveats:
- Hard links, and everything related to hard links (the . and .. directories don't exist, struct stat's nlink member is hard-coded, and unlink() of directories returns ENOTSUP).
- Access times aren't updated on the media; they're set to the modification time.
QNX OS flash filesystem version 3 no longer provides built-in decompression.
Performance might be slow when multiple writers are writing randomly to a shared file or to a shared directory (e.g., using unlink or rename). In these cases, the offset pointers have to be rewound for every access. There's no performance penalty when appending to a file, or when creating files with open(O_CREAT), mkdir, mknod, or link.
Don't try to create a devf-ram partition at the address of a real flash memory.
You may get an error message: Unable to properly identify any flash devices
.
Don't try to create a devf-ram partition (e.g., using nonzero value for base argument) at the address of physical memory that is in use. It may destroy applications and crash the operating system. The only use for specifying such nonzero base is to create a flash filesystem for board specific memory (e.g., SRAM).
devf-ram -s0,16m
flashctl -p /dev/fs0p0 -e -f -m
If there's insufficient RAM, when you try to create an nM size partition with -s0 option, the devf-ram driver returns without an error message. The partition isn't created.