The ARC Standard
was born in the early 90s as part of the Advanced Computing Environment initiative. It standardized certain hardware features and the ARC firmware environment. What all ARC implementations have in common is their strict non-compliance to the ARC standard, so the ARC Standard document should be taken with a shovel of salt.
32-bit vs. 64-bit
The ARC standard understands itself as an environment for a 32-bit operating system. With the R4000 and DEC Alpha already being around back then a short sighted decission but good enough for another few years on small to medium sized systems.
As the result most MIPS ARC firmware implementations are 32-bit but a few more recent ones are 64-bit only; the exact way this was done was never published anywhere. The ARC firmware on Power Indigo 2, Indigo 2 R10000, Origin, Onyx 2, Octane systems is known to be 64-bit.
ECOFF and ELF support
The ARC standard mandates ECOFF support only. While appropriate for the UNIX flavours of the time which often still based on ECOFF and convenient for Windows NT which is using PECOFF, an variant of ECOFF with an MSDOS .exe header added it wasn't appropriate for any modern flavor of UNIX which usually are based on the ELF binary format. Depending on the age and operating systems offered by a particular vendor many ARC firmware variants only support ECOFF.
In the early days of Linux/MIPS Milo was the bootloader for little endian ARC systems. It's considered obsolete and there are no systems that rely on it.
Booting the kernel fails with PROM error messages
>> boot bootp()/vmlinux 73264+592+11520+331680+27848d+3628+5792 entry: 0x8df9a960 Setting $netaddres to 192.168.1.5 (from server deadmoon) Obtaining /vmlinux from server deadmoon Cannot load bootp()/vmlinux Illegal f_magic number 0x7f45, expected MIPSELMAGIC or MIPSEBMAGIC.
This problem has been observed with Indys and with RM200. The elf2ecoff utility which is part of the kernel source allows conversion of an ELF kernel binary into a bootable ECOFF binary as the bootfile. There is also the arcboot utility which is shipping with recent Indy distributions and which as first stage bootloader is able to boot an ELF kernel of an ext2 or ext3 filesystem. Usually arcboot is the preferable solution.
The ARC Standard mandates network booting of an operating system via BOOTP/TFTP or alternatively DCL/RIPL. Most implementations comply to that with a varying degree of buggyness; the exception is the Olivetti M700-10 where network booting is not supported at all.
Machine doesn't download the kernel when I try to netboot
This problem has been observed with the ARC firmware of SNI RM200 and SGI IP22.
The boot client is replying to the BOOTP packets (may be verified using a packet sniffer like tcpdump or ethereal), but doesn't download the kernel from your BOOTP server. This happens if your boot server is running a kernel of the 2.3 series or higher. The problem may be circumvented by doing an
echo 1 > /proc/sys/net/ipv4/ip_no_pmtu_disc"
as root on the boot server. Alternatively you can also add this setting to /etc/sysctl.conf.
The kernel download from the TFTP server stops and times out
This may happen if the TFTP server is using a local port number of 32768 or higher which usually happens if the TFTP server is running Linux 2.3 or higher. This problem may be circumvented by doing a "echo 2048 32767 > /proc/sys/net/ipv4/ip_local_port_range" on the server. This problem has been observed on SGI IP22 and Siemens-Nixdorf RM200 systems.
Bug in DHCP version 2
When using DHCP version 2 you might see the following problem: Your machines receives it's BOOTP reply 3 times but refuses to start TFTP. You can fix this by doing a "unsetenv netaddr" in the PROM command monitor before you boot your system. DHCP version 3 fixes this problem.