The code for supporting the configuration of the OM2000 CON (LAPD
Concentrator) MO was so far incomplete and not used from the OM2000 FSM
initialization. This patch adds
* VTY commands for configuration of CON Groups and Paths
* The FSM integration to actually configure the CON MO
Change-Id: I56dc1b5e35adef3a2078bcf9536537eb0f454192
talloc_ctx.c: In function ‘talloc_ctx_init’:
talloc_ctx.c:40:2: warning: implicit declaration of function ‘msgb_talloc_ctx_init’ [-Wimplicit-function-declaration]
msgb_talloc_ctx_init(ctx_root, 0);
^~~~~~~~~~~~~~~~~~~~
Change-Id: Ib8ebc02d5cf0d2b4019473d3750ae7c6f8a32896
Value 4 used as magic number by both OpenBSC and OsmoBTS so it make
sense to add it to shared header. See
ebb483b69a5319e522ba5f713e9cb6f68a814a6a in osmo-bts for details.
Change-Id: I9c6ad68f4c6aa72d39ec7e5a6968b36ec20e79f4
Drop extern definitions of talloc_msgb_ctx and use msgb_talloc_ctx_init()
instead.
In sgsn_test.c, use a local variable msgb_ctx to do the talloc report
from the return value of msgb_talloc_ctx_init().
Change-Id: I2f9ace855f0ecbdc9adf5d75bcb1a3d666570de4
Just as a general precaution deemed to fit such a convenience function that
lives in libcommon, no actual failure observed.
Change-Id: I8e77fe1abc402469fd037e2fde2f46e2c8114f59
Add ts_is_tch() in gsm_data_shared.h/.c and use it to replace a switch on the
pchan in e1_config.c.
This patch is not due to an actual observed failure. A general grep for switch
on pchan turned up this instance that doesn't handle dyn TS properly. Hence
this patch is not actually tested with real equipment.
Change-Id: Ide4f156034bab77140d2d9a8c462d68ae6f0d6a6
In gsm_data_shared.c, add ts_pchan() to determine actual pchan type for dynamic
and non-dynamic TS.
Use in ts_subslots() to fix the value returned for TCH/F_PDCH in PDCH mode.
Adjust the assertion in channel_test.c accordingly.
Drop GSM_PCHAN_TCH_F_PDCH, which is now handled in ts_pchan().
Explicitly add GSM_PCHAN_PDCH as zero in subslots_per_pchan[] (cosmetic).
Adjust the comment in subslots_per_pchan[].
The fix for the number of subslots affects only one caller: bts_chan_load() in
chan_alloc.c. Before this, it would always include a TCH/F_PDCH in the
load_counter->total, now it is skipped when in PDCH mode. Whether this is the
way bts_chan_load() should handle dynamic TS is a separate discussion, so far
I'm only making sure that the two dyn TS kinds act in the same way:
TCH/F_TCH/H_PDCH is only counted when in TCH mode, and TCH/F_PDCH should match.
Change-Id: Icd6668667ad2be7ad20866ffd185bf3b8711ccd6
Decouple the talloc context allocations from global tall_bsc_ctx pointer.
It appears that talloc_ctx_init() was intended for general use, since it is
located in libcommon. It is currently used only by osmo-nitb; but the upcoming
osmo-cscn will use it as well.
Instead of defining in osmo-nitb main file, add definition in gsm_data.h.
Change-Id: I168106599b788f586be0ff0af4699b9746c1b103
Add vty function to explicitly set use of 4xRACH type of ack message for
PACKET CONTROL ACKNOWLEDGMENT. Previous hardcoded value (use RLC/MAC
control block) is used as a default.
This is handy for debugging issues related to Timing Advance in context
of GPRS.
Change-Id: Ie869ac0a82055110f1e3b875e246750c4e113336
Related: OS#1526
Commit ec1b5a0e9e introduced an unset cbits
value for the 'special hack for BCCH', where I break out of the switch
without setting cbits. Fix that.
Also remove the comment part that says 'return 0', because I don't return 0.
Change-Id: I54129d921807971eeafc23f80c57666c67b71377
In https://gerrit.osmocom.org/589 , msuraev reports an assertion on octphy.
So disable this recently added assertion until we clarify the invocation in
question.
Change-Id: Ia0f7ae5b114e179ab56b98adbae9810e81b4b88f
Accept GSM_PCHAN_TCH_F_TCH_H_PDCH for TCH/F and TCH/H if in matching pchan mode
or switching to matching pchan.
Accept RSL_CHAN_OSMO_PDCH chan_nr cbits for GSM_PCHAN_TCH_F_TCH_H_PDCH pchan.
Change-Id: If8f7c118f69e5a9f370bfe25f82f3d5a8de75b51
In gsm_lchan2chan_nr() use the current pchan type.
In gsm_lchan_as_pchan2chan_nr(), add the special case of non-standard cbits for
activating PDCH on a TCH/F_TCH/H_PDCH dyn TS. This way, gsm_pchan2chan_nr()
conforms to the standard and does not need access to a ts struct.
Change-Id: If248b9073b9f397110a2003d8e1a04afdc1c0e20
For upcoming dynamic TS, the pchan choice for RSL De-/Activation is not
trivial. So in order to pass the desired pchan to generate the RSL chan_nr,
introduce gsm_lchan_as_pchan2chan_nr().
To avoid code dup, this requires decoupling the gsm_ts2chan_nr() pchan from the
actual ts struct, so refactor gsm_ts2chan_nr() to gsm_pchan2chan_nr() with
explicit pchan, ts_nr and lchan_nr arguments.
Change-Id: I1a40e8452fe8120d350a27973e56be0b8c8c517f
lchan_lookup in abis_rsl.c and rsl_lchan_lookup() from osmo-bts rsl.c are the
same code, except for the log context, which is only set in abis_rsl.c.
Factor out the common code to rsl_lchan_lookup() in gsm_data_shared.c.
Openbsc and osmo-bts each define their own DRSL log constant, so add an int *rc
return code argument and keep the logging part in abis_rsl.c's thin lchan_lookup()
wrapper. Incidentally, this also removes code dup for logging.
To avoid duplicate symbols, the rsl_lchan_lookup() implementation needs to be
removed from osmo-bts, so older osmo-bts git revisions will not build with
this.
Change-Id: Ie89bc5bb9110a0e539d37991dedac6f913211b48
Add state fields osmo_bts_trx_ts->dyn.* to record dynamic timeslot state.
Initialize in gsm_bts_trx_alloc().
Change-Id: I0a4049df8500b4f7c864f1355c4e9238932d1b8f
Add GSM_PCHAN_TCH_F_TCH_H_PDCH in gsm_pchant_names and gsm_pchant_descs: the
VTY and CTRL can now handle the new pchan type.
Adjust the CTRL iface test to expect the new PCHAN type in the output.
Fixes make check with --enable-external-tests after libosmocore commit
fd80f5a04239c2ab7b561401476dd89f2861748b that adds GSM_PCHAN_TCH_F_TCH_H_PDCH.
Change-Id: I4ad9c972d7f76f7e20cf74d6fc3d1928b644a4f8
In gsm_lchant_name(enum gsm_chan_t), use the gsm_chan_t_names value strings
from libosmocore instead of redefining the same strings. The list from
libosmocore is also more complete, including CCCH and PDTCH.
Add a todo comment to move to libosmocore.
In consequence, libosmogsm linkage needs to be added to osmo-bsc_mgcp,
mgcp_test, mgcp_transcoding_test and smpp_mirror, smpp_test.
Change-Id: If65ee7c0619cbc0acb0a15045bd5a969442c93cc
* extend "auth policy" vty command with new option "regexp"
* add vty command "authorized-regexp" for setting arbitrary POSIX
regular expression
* add basic vty test
* add optional "regexp" argument to subscriber-create-on-demand vty
command
With those in place we can now set the regexp against which MS's IMSI
will be matched.
If IMSI match the regexp than MS is allowed to access the network. If
subscriber is already marked as authorized in HLR than it'll be allowed
regardless of IMSI matching.
The same way we can decide whether to create subscribers on-demand
basesd on IMSI regexp match. Similar to authorization this restriction
can be overridden by manually creating subscriber via vty, ctrl
interface or directly in HLR.
Change-Id: I525f4b80676de47d1d422686da2ca012301b0129
Fixes: OS#1647
subscr_name() was called from several places:
* either without a check for subscr being NULL, which for example
was causing a segfault if we hand-over a channel before identifying the
subscriber
* or with an explicit NULL check and the ternary operator (?).
We now simplify the code by checking for the NULL Subscriber in subscr_name()
itself.
Change-Id: Ide09f4a515222eb2ec6c25e7a6a8c5f6cc2ffd4b
Reviewed-on: https://gerrit.osmocom.org/92
Tested-by: Jenkins Builder
Reviewed-by: Holger Freyther <holger@freyther.de>
* Add per-BTS DTX settings
* Configure Uplink and Downlink DTX separately
* Deprecate global DTX option (it was never tested/used anyway)
* Use libosmocore function for DTX indicator in System
Information (previously it was incorrectly assigned for half-rate
channels)
Related: OS#22
Change-Id: I3d55168475ad47044b6238b55846ea22bdd518a4
Reviewed-on: https://gerrit.osmocom.org/40
Tested-by: Jenkins Builder
Reviewed-by: Holger Freyther <holger@freyther.de>
* support for sending arbitrary static SI2quater.
* vty interface for neightbor EARFCNs specific to SI2quater.
* dynamic generation of SI2quater messages.
* unit test for SI2quater messages.
Fixes: OS#1630
We now store the pre-printed lchan name in lchan->name to avoid having
to call sprintf every time there is a debug statement somewhere,
particularly as most of those debug statements are going to be inactive
most of the time.
This fixes a bug in the following circumstances:
* BSIC is set to 0 in the config file
* No TSC is explicitly specified at the BST level in the config file
In this case, we ended up using BSIC=0 and TSC=7, as TSC=7 is our
default initialization value.
The TSC of the CCCH/BCCH must always be the BCC, which is the lower 3
bits of the BSIC. Having configuration options for both the BSIC _and_
the TSC at the BTS level therefore makes no sense, as it only adds ways
in which users can configure non-oprational configurations. So we
remove the bts->tsc member, and keep only the ts->tsc members that allow
us to configure a timeslot-specific TSC that's different from the BTS
TSC (= BCC).
Add new kitchen sink openbsc/utils.h and libcommon/utils.c to make three so far
static functions public (so I can use them in the upcoming OAP code).
A place to put them could have been the gprs_utils.h, but all general functions
in there have a gprs_ prefix, and todo markings to move them away. All other
libcommon headers are too specific, so I opened up this kitchen sink header.
Replace the implementation of encode_big_endian() with a call to
osmo_store64be_ext(). See comments.
Apply the change in Makefiles and C files.
Currently the handling of the buffers is not done consistently. Some
code assumes that the whole buffer may be used to store the string
while at other places, the last buffer byte is left untouched in the
assumption that it contains a terminating NUL-character. The latter
is the correct behaviour.
This commit changes to code to not touch the last byte in the buffers
and to rely on the last byte being NUL. So the maximum IMSI/IMEI
length is GSM_IMSI_LENGTH-1/GSM_IMEI_LENGTH-1.
For information: We assume that we allocate the structure with
talloc_zero. This means we have NULed the entire imsi array and then
only write sizeof - 1 characters to it. So the last byte remains NUL.
Fixes: Coverity CID 1206568, 1206567
Sponsored-by: On-Waves ehf
Create a control command to read and modify the gprs mode. Use
the get_string_value to indicate if the value was found or not.
This is useful for the ctrl interface where I didn't want to
replicate "none", "gprs" and "egprs". Share code to verify that
a BTS supports the mode.
Related: SYS#591
30f1f37638 introduced new channel
combinations but had a copy and paste error in the description.
The jenkins system didn't run the external tests so this issue
and others were not noticed until now.
Fix the copy and paste and update the test result.
Move the "logging filter imsi IMSI" into the BTS/NITB code to
allow to set the gsm_subscriber and only compare it. This way
we simply compare the subscriber address and don't have to care
if the subscriber data is still valid.
We can now configure the pyisical channel types for CBCH either in the
CCCH+SDCCH4 or in the SDCCH8 chanel combination.
Depending on whether a CBCH exists on the BTS, we also generate the SI4
with matching CBCH channel description to notify the phones of the
existance of the CBCH.
There is now a VTY command how a SMS-CB message can be sent to a given
BTS.
We do not yet have any logic at all for actual scheduling of multiple
CBCH RSL messages towards one or multiple BTSs yet, though.
In case a BTS is dropped, iterate over the list of BTS and check
if a dependency is now missing and then drop the BTS. This check
could lead to check of 256*256 checks (e.g. all BTS on each other
in the chain and the master is being dropped). The performance
aspect of it doesn't matter for our usecase. We expect to have
pairs of BTS right now.
E.g. for the sysmoBTS2050 we have the requirement that the first
board connects before the second due clocking. The easiest point
to enforce this is the BSC. Add a simple bitmask based system to
allow to express dependencies for IP based systems.