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<!-- retain these comments for translator revision tracking -->
<!-- $Id: sparc.xml 43641 2006-12-29 05:23:38Z fjp $ -->
<sect2 arch="arm" id="arm-firmware-overview"><title>ARM firmware</title>
<para>
As already mentioned before, there is unfortunately no standard for
system firmware on ARM systems. Even the behaviour of different
systems which use nominally the same firmware can be quite different.
This results from the fact that a large part of the devices using the
ARM architecture are embedded systems, for which the manufacturers
usually build heavily customized firmware versions and include
device-specific patches. Unfortunately the manufacturers often do not
submit their changes and extensions back to the mainline firmware
developers, so their changes are not integrated into newer versions of
the original firmware.
</para>
<para>
As a result even newly sold systems often use a firmware that is based
on a years-old manufacturer-modified version of a firmware whose
mainline codebase has evolved a lot further in the meantime and offers
additional features or shows different behaviour in certain aspects.
In addition to that, the naming of onboard devices is not consistent
between different manufacturer-modified versions of the same firmware,
therefore it is nearly impossible to provide usable
product-independend instructions for ARM-based systems.
</para>
</sect2>
<sect2 arch="arm" id="uboot-macsetting">
<title>Setting the ethernet MAC address in u-boot</title>
<para>
The MAC address of every ethernet interface should normally be
globally unique, and it technically has to be unique within its
ethernet broadcast domain. To achieve this, the manufacturer usually
allocates a block of MAC addresses from a centrally-administered
pool (for which a fee has to be paid) and preconfigures one of these
addresses on each item sold.
</para>
<para>
In the case of development boards, sometimes the manufacturer wants to
avoid paying these fees and therefore provides no globally unique
addresses. In these cases the users themselves have to define MAC
addresses for their systems. When no MAC address is defined for an
ethernet interface, some network drivers generate a random MAC address
that can change on every boot, and if this happens, network access
would be possible even when the user has not manually set an address,
but e.g. assigning semi-static IP addresses by DHCP based on the MAC
address of the requesting client would obviously not work reliably.
</para>
<para>
To avoid conflicts with existing officially-assigned MAC addresses,
there is an address pool which is reserved for so-called
<quote>locally administered</quote> addresses. It is defined by
the value of two specific bits in the first byte of the address (the
article "MAC address" in the English language Wikipedia gives a
good explanation). In practice this means that e.g. any address starting
with hexadecimal ca (such as ca:ff:ee:12:34:56) can be used as a locally
administered address.
</para>
<para>
On systems using u-boot as system firmware, the ethernet MAC address
is placed in the <quote>ethaddr</quote> environment variable.
It can be checked at the u-boot command prompt with the command
<quote>printenv ethaddr</quote> and can be set with the command
<quote>setenv ethaddr ca:ff:ee:12:34:56</quote>. After setting the value,
the command <quote>saveenv</quote> makes the assignment permanent.
</para>
</sect2>
<sect2 arch="arm" id="uboot-relocation-issues">
<title>Kernel/Initrd/Device-Tree relocation issues in u-boot</title>
<para>
On some systems with older u-boot versions there can be problems with
properly relocating the Linux kernel, the initial ramdisk and the
device-tree blob in memory during the boot process. In this case,
u-boot shows the message "Starting kernel ...", but the system freezes
afterwards without further output. These issues have been solved with
newer u-boot versions from v2014.07 onwards.
</para>
<para>
If the system has originally used a u-boot version older than
v2014.07 and has been upgraded to a newer version later, the problem
might still occur even after upgrading u-boot. Upgrading u-boot
usually does not modify the existing u-boot environment variables and
the fix requires an additional environment variable (bootm_size) to be
set, which u-boot does automatically only on fresh installations
without existing environment data. It is possible to manually set
bootm_size to the new u-boot's default value by running the command
"env default bootm_size; saveenv" at the u-boot prompt.
</para>
<para>
Another possibility to circumvent relocation-related problems is to
run the command "setenv fdt_high ffffffff; setenv initrd_high
0xffffffff; saveenv" at the u-boot prompt to completely disable
the relocation of the initial ramdisk and the device-tree blob.
</para>
</sect2>
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