Revision 810198bc9c109489dfadc57131c5183ce6ad2d7d authored by Rajashekhara, Sudhakar on 12 July 2011, 10:28:53 UTC, committed by Sekhar Nori on 07 September 2011, 08:53:01 UTC
DA850/OMAP-L138 EMAC driver uses random mac address instead of a fixed one because the mac address is not stuffed into EMAC platform data. This patch provides a function which reads the mac address stored in SPI flash (registered as MTD device) and populates the EMAC platform data. The function which reads the mac address is registered as a callback which gets called upon addition of MTD device. NOTE: In case the MAC address stored in SPI flash is erased, follow the instructions at [1] to restore it. [1] http://processors.wiki.ti.com/index.php/GSG:_OMAP-L138_DVEVM_Additional_Procedures#Restoring_MAC_address_on_SPI_Flash Modifications in v2: Guarded registering the mtd_notifier only when MTD is enabled. Earlier this was handled using mtd_has_partitions() call, but this has been removed in Linux v3.0. Modifications in v3: a. Guarded da850_evm_m25p80_notify_add() function and da850evm_spi_notifier structure with CONFIG_MTD macros. b. Renamed da850_evm_register_mtd_user() function to da850_evm_setup_mac_addr() and removed the struct mtd_notifier argument to this function. c. Passed the da850evm_spi_notifier structure to register_mtd_user() function. Modifications in v4: Moved the da850_evm_setup_mac_addr() function within the first CONFIG_MTD ifdef construct. Signed-off-by: Rajashekhara, Sudhakar <sudhakar.raj@ti.com> Signed-off-by: Sekhar Nori <nsekhar@ti.com> Cc: stable@kernel.org
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ldm.txt
LDM - Logical Disk Manager (Dynamic Disks)
------------------------------------------
Originally Written by FlatCap - Richard Russon <ldm@flatcap.org>.
Last Updated by Anton Altaparmakov on 30 March 2007 for Windows Vista.
Overview
--------
Windows 2000, XP, and Vista use a new partitioning scheme. It is a complete
replacement for the MSDOS style partitions. It stores its information in a
1MiB journalled database at the end of the physical disk. The size of
partitions is limited only by disk space. The maximum number of partitions is
nearly 2000.
Any partitions created under the LDM are called "Dynamic Disks". There are no
longer any primary or extended partitions. Normal MSDOS style partitions are
now known as Basic Disks.
If you wish to use Spanned, Striped, Mirrored or RAID 5 Volumes, you must use
Dynamic Disks. The journalling allows Windows to make changes to these
partitions and filesystems without the need to reboot.
Once the LDM driver has divided up the disk, you can use the MD driver to
assemble any multi-partition volumes, e.g. Stripes, RAID5.
To prevent legacy applications from repartitioning the disk, the LDM creates a
dummy MSDOS partition containing one disk-sized partition. This is what is
supported with the Linux LDM driver.
A newer approach that has been implemented with Vista is to put LDM on top of a
GPT label disk. This is not supported by the Linux LDM driver yet.
Example
-------
Below we have a 50MiB disk, divided into seven partitions.
N.B. The missing 1MiB at the end of the disk is where the LDM database is
stored.
Device | Offset Bytes Sectors MiB | Size Bytes Sectors MiB
-------+----------------------------+---------------------------
hda | 0 0 0 | 52428800 102400 50
hda1 | 51380224 100352 49 | 1048576 2048 1
hda2 | 16384 32 0 | 6979584 13632 6
hda3 | 6995968 13664 6 | 10485760 20480 10
hda4 | 17481728 34144 16 | 4194304 8192 4
hda5 | 21676032 42336 20 | 5242880 10240 5
hda6 | 26918912 52576 25 | 10485760 20480 10
hda7 | 37404672 73056 35 | 13959168 27264 13
The LDM Database may not store the partitions in the order that they appear on
disk, but the driver will sort them.
When Linux boots, you will see something like:
hda: 102400 sectors w/32KiB Cache, CHS=50/64/32
hda: [LDM] hda1 hda2 hda3 hda4 hda5 hda6 hda7
Compiling LDM Support
---------------------
To enable LDM, choose the following two options:
"Advanced partition selection" CONFIG_PARTITION_ADVANCED
"Windows Logical Disk Manager (Dynamic Disk) support" CONFIG_LDM_PARTITION
If you believe the driver isn't working as it should, you can enable the extra
debugging code. This will produce a LOT of output. The option is:
"Windows LDM extra logging" CONFIG_LDM_DEBUG
N.B. The partition code cannot be compiled as a module.
As with all the partition code, if the driver doesn't see signs of its type of
partition, it will pass control to another driver, so there is no harm in
enabling it.
If you have Dynamic Disks but don't enable the driver, then all you will see
is a dummy MSDOS partition filling the whole disk. You won't be able to mount
any of the volumes on the disk.
Booting
-------
If you enable LDM support, then lilo is capable of booting from any of the
discovered partitions. However, grub does not understand the LDM partitioning
and cannot boot from a Dynamic Disk.
More Documentation
------------------
There is an Overview of the LDM together with complete Technical Documentation.
It is available for download.
http://www.linux-ntfs.org/
If you have any LDM questions that aren't answered in the documentation, email
me.
Cheers,
FlatCap - Richard Russon
ldm@flatcap.org
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