Hi guys,
I also figured that out and played with the Rest Octets of SI 3, but
with no succes.
It's true what you said about the Rest Octets Dieter, and it took me
some time to figure that out for me Harald.
Wether the result is L or H depends on the result of the tested bit
XOR'ed with the bit which is part of the value 0x2B. So actually you
should XOR all octets with 0x2B (but only for those who expect an H or L
as result). This value is not just a random, it is also specified by the
CSN.1 standard. It would be much clearer if GSM spec put an example and
not some abstract description which kills my braincells.
Anyway, I'll try your Rest Octets examples, maybe it helps for me.
Concerning the SI 1, I modified the Cell Channel Description of the SI 1
myself, according to the DCS1800 standard, but turns out it didn't work
for me. I assume SI 1 is hardcoded ofcourse.
Harald Welte schreef:
Hi Dieter,
thanks for further looking into this.
On Sat, Jul 04, 2009 at 11:41:52AM +0200, Dieter Spaar wrote:
I have further investigated the problem. Besides
the fact that
the channel allocation in SYSTEM INFORMATION 1 is not correct
for GSM 1800, this is probably not the reason for the problem.
Most certainly its just one wrong bit, the GPRS indicator in
the SYSTEM INFORMATION 3 rest octets.
The current setting is
0x80, 0x00, 0x00, 0x2B
but it should be
0x80, 0x00, 0x08, 0x2B
What might lead to some confusion is the meaning of "L" and "H" in
the specification of CSN.1. For the rest octets the bit value is
determined by a comparsion (XOR) to the padding byte 0x2B. So the
value 0x08 above actually means "L" for the GPRS indicator, which
means "No GPRS".
where did you find this XOR? I just searched through 04.07 and 04.08 and
didn't find any indication thereof. Sure, the padding bit sequence ix 0x2b, so
all spare bits have to be padded with that. But where did you get the XOR
from?
Also, this would mean that if we put explicitly 0x2b into the padding of
our messages, then it would result in all-zero 0x00 on the air, since
0x2b xor 0x2b == 0x00
I'm now looking at an actual abis trace from a production cell with GPRS
enabled, and it has
"0x80, 0x00, 0x80, 0x0b"
as SI3 rest octets.
During early start of the BTS, SI3 rest octets are set to
"0x80, 0x00, 0x83, 0x2b"
Maybe that helps
Regards,