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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [fs/] [rom/] [v2_0/] [doc/] [mk_romfs.txt] - Rev 757
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MK_ROMFS - Make a ROMFS image
=============================
This program creates a ROMFS image that can be read by eCos.
mk_romfs - Create an eCos ROMFS disk image from the files
contained under a specified directory
Usage: ../support/mk_romfs [options] <fs_root> <fs_file>
fs_root is the directory containing the files to package into the ROMFS image
fs_file is the name of the ROMFS image file to create
Options include:
-v / -q increase / decrease verbosity
-n do everything EXCEPT creating the output file
-b write a big-endian image (default is little endian)
-l collapse hard links to a single node
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How to use.
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For example, suppose you wish to access the following directories and files:
/
/etc passwd, group
/dev
/mnt
/tmp (for a RAMFS)
/var (for a RAMFS)
1. Create the required directories and files under a suitable root, eg. under
~/rom:
$ mkdir ~/rom
$ cd ~/rom
$ mkdir etc dev mnt tmp var
$ cp /etc/passwd /etc/group etc/
( remembering to edit these files....;-)
2. Make the romfs image in a suitable place, eg /tftpboot for direct upload to
the RedBoot monitor.
$ mk_romfs -v . /tftpboot/romfs.img
mk_romfs: Verbosity 2 little endian
Phase 1 - Build file list
Phase 2 - Calculate space allocation
Phase 2a - * Directories
Phase 2b - * Regular files
Phase 2c - * Executable files
Phase 3 - Construct ROMFS image file (3 kb)
Phase 3a - * Node table
Phase 3b - * Data blocks
/tftpboot/romfs.img completed
3. Connect to your target RedBoot monitor, and load the romfs image. You will
need to determine a suitable place in RAM to load the image into.
$ telnet xxx.xxx.xxx.xxx 1000
Trying xxx.xxx.xxx.xxx...
Connected to xxx.xxx.xxx.xxx.
Escape character is '^]'.
RedBoot> load romfs.img -r -v -b 0x1000000
Raw file loaded 0x01000000-0x0100093e
RedBoot>
4. Determine where to load the romfs image in the ROM. See what's there...
RedBoot> fis list
Name FLASH addr Mem addr Length Entry point
RedBoot 0x50000000 0x50000000 0x020000 0x00000000
RedBoot[backup] 0x50020000 0x50020000 0x020000 0x00000000
RedBoot config 0x503C0000 0x503C0000 0x020000 0x00000000
FIS directory 0x503E0000 0x503E0000 0x020000 0x00000000
RedBoot> fis free
0x50040000 .. 0x503C0000
RedBoot>
We can see that a suitable place would be 0x50040000.
Alternatively, you can let RedBoot determine the address itself...
5. Copy the image from RAM to ROM...
RedBoot> fis create -b 0x1000000 -l 0x940 RomFs
... Erase from 0x50040000-0x50040940: .
... Program from 0x01000000-0x01000940 at 0x50040000: .
... Erase from 0x503e0000-0x50400000: .
... Program from 0x01fd0000-0x01ff0000 at 0x503e0000: .
RedBoot> fis list
Name FLASH addr Mem addr Length Entry point
RedBoot 0x50000000 0x50000000 0x020000 0x00000000
RedBoot[backup] 0x50020000 0x50020000 0x020000 0x00000000
RedBoot config 0x503C0000 0x503C0000 0x020000 0x00000000
FIS directory 0x503E0000 0x503E0000 0x020000 0x00000000
RomFs 0x50040000 0x01000000 0x000940 0x00000000
RedBoot>
6. MAKE A NOTE OF THE ADDRESS IN FLASH THAT THE IMAGE IS LOADED AT.
The ROMFS option 'CYGNUM_FS_ROM_BASE_ADDRESS' needs to be set to this
value in order to access the filesystem.
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