The only real 1-1 relationship between BTS NM objects is the one between
GPRS Cell and BTS (which is actually a BTS cell).
In our current osmo-bts implementation we don't care much since we only
handle 1-cell BTSses, but let's make the data structure organization
more generic.
Implementation notes:
The gsm_bts_sm is moved to its own file, APIs to allocate are added and
the new public object is hooked correctly in the allocation process of
osmo-bsc.
Change-Id: I06461b7784fa2a78de37383406e35beae85fbad8
To be able to control the FACCH/SACCH repetition behavior inside the
BTS a one byte flag is sent to the BTS together with the
RSL_IE_OSMO_REP_ACCH_CAP IE. This patch adds the necessary VTY commands.
The sending of the flag is implemented in a follow-up patch.
See also: I39ae439d05562b35b2e47774dc92f8789fea1a57
Related: SYS#5114, OS#4796, OS#4794, OS#4795
Depends: libosmocore I6dda239e9cd7033297bed1deb5eb1d9f87b8433f
Change-Id: I083eaa2c30478912426e9c24a506f0b88836e190
A header file should only contain declarations, not entire definitions.
The fact that we have 'static const struct ...' definitions in a header
file means that very C file including this header file will get its own
private copy of the entire definition.
The header file should only include declarations, while the actual
non-static definitions should go to a *.c file. Let's fix this.
Also, take a chance to improve readability and apply more consistent
formatting (similar to 'struct hf_register_info[]' in Wireshark).
Change-Id: Ib5949879902acbe1edda577477d9d51a2cc425d1
Closes: OS#4816
Older osmo-bts versions (before FSMs) tended to mimic broken behavior
from nanoBTS. As so, we detect it because SiteMGr becomes Enabled by
default as in nanoBTS, and hence we can manage them also by expecting no
Offline state and sending Opstart (and hence finally transitting to
Enabled) during Dependency state.
Change-Id: Iaa036a2936f609b9b9721b2b4ad8d6deaf023f42
when an emergency call arrives while all TCH are busy, the BSC should
pick an arbitrary (preferably the longest lasting) call / lchan and
release it in favor of the incoming emergancy call.
The release of the existing call is a process that can not be done
synchronously while the ChanRQD is handled sonce multiple messages are
exchanged between BTS and MSC and multiple FSMs need to do their work.
To be able to release one lchan while handling a ChanRQD a queue is
implemented in which the incomming channel requests are collected. If
an emergency call is established while all channels are busy, an
arbitrary lchan is picked and freed. When freeing the lchan is done,
the queue is checked again and the emergency call is put on the free
lchan (TCH/H or TCH/F).
Change-Id: If8651265928797dbda9f528b544931dcfa4a0b36
Related: OS#4549
osmo-nitb supports the modification of an lchan if the lchan is
compatible but in the wrong mode. This feature was dropped in the
transition to AoIP/bsc-split. However, osmo-bsc still has code to
generate and parse the messeages, but the FSMs do not support a mode
modify yetm
Lets add handling for mode-modify to the lchan_fsm and assignment_fsm in
order to support mode modify again
Change-Id: I2c5a283b1ee33745cc1fcfcc09a0f9382224e2eb
Related: OS#4549
So far, during inter-BSC outgoing handover, when receiving an RR Handover
Failure from the MS, it would be counted as 'error'. Instead, add the 'failed'
counter like for all other HO types.
It may make sense to omit the 'failed' counter for inter-BSC *incoming*
handover, because then we won't receive an RR Handover Failure message. I
probably got those two mixed up during initial development.
Related: OS#4736
Change-Id: I9a61d5cc7273a830ba4e66e43e4aac6cdb707471
Currently the counters don't distinguish between intra-cell and
intra-bsc handover.
Add _CTR_INTRA_CELL_HO_ and _CTR_INTRA_BSC_HO_ counters to track
intra-cell/bsc handover separately.
Change-Id: I3a1195640b99813036c9f1426ee5f07548e26547
Related: SYS#4877
Our current handover counters only count success/failures per BSC. It
would be nice to also count which BTS is part of a (successful/failed)
handover.
This patch duplicates the BSC counters for the BTS and changes the
ho_count and related macros to also count per BTS. If a BTS is NULL
(when conn->lchan is NULL) counting for the BTS is ignored.
Change-Id: I025ef14e2cfd2eea8880212c9406372ce0bf9296
Related: SYS#4877
See updated documentation section in manuals/chapters/bts.adoc regarding
an explanation on how the system works.
Related: SYS#4911
Change-Id: I952c9eeae02809c7184078c655574ec817902e06
In the big mess of gsm_data we reached a point where we have multiple
functions doing the same thing, most probably because it's hard finding
stuff in there. Let's drop one of them (the one which less callers) and
move it to bts.*, where it belongs.
Change-Id: I9071a0ab250844619280fbe2be63ed99f2c87eb1
Place all code related to the object into the related file.
Having all the data model in one file made sense in early stage of
development to make progress quickly, but nowadays it hurts more than
helps, due to constantly growing size and more and more bits being
added to the model, gaining in complexity.
Currently, having lots of different objects mixed up in gsm_data.h is a hole
of despair, where nobody can make any sense were to properly put new stuff
in, ending up with functions related to same object in different files
or with wrong prefixes, declarations of non-existing functions, etc.
because people cannot make up their mind on strict relation to objects
in the data model.
Splitting them in files really helps finding code operating on a
specific object and helping with logically splitting in the future.
Change-Id: I00c15f5285b5c1a0109279b7ab192d5467a04ece