When a MNCC handler wants to issue the MNCC_BRIDGE primitive
overt the MNCC interface, this was not possible so far via the
MNCC socket. This primitive was so far only available from the
internal MNCC handler, more or less by accident I suppose. The reason
for this is in the way the array of two call references had been passed
into mncc_tx_to_cc().
In case of the RTP bridge mode we need to select the codec
ourselves. Rely on the same (incomplete) codec selection that
can be done using the mncc-int configuration node. This might
gain bearer capabilities support.
In case of a SDCCH a TCH/F will be attempted to be assigned.
This is an open issue for both modes and there should be a
preference for full or half-rate channels somewhere.
Implement sending MDCX on the newly allocated channel and send
the data to the same destination as the currently connected one.
This way the receiver can implement RTP RFC Appendix A.1 and
deal with the new source.
For the LCR rtp-bridge audio should directly flow to the
remote system. In contrast to the original patch audio
will now flow directly from the BTS to the remote system.
This assumes that BTS and the remote system are in the
same network segment and can directly communicate.
There are various limitations in the first iteration of
the implementation:
We could (and in the future) should delay the assignment
but currently we are forced to pick the channel and move
it to the audio state. In case we are located on a SDCCH
we always need to change but if we are on a TCH we could
send the ipa.CRCX and change the audio state a lot later.
The net effect is that the audio codec selection needs to
be done in the NITB code and not in the system connected
to it.
This only works with ip based systems. For E1 systems one
could still use the RTP socket or even try to move this
out of the process.
There is no code for handover handling and it relies on
the remote system dealing with the SSRC change of the
system.
I guess none of our users knows what a mi_type=0x02 is, but most would
know what an IMSI or a TMSI is. So let's use the newly introduced
gsm48_mi_type_name() function to fix this.
Traffic cannot sent to BTS, if there is (currently) no logical channel
associated with the transaction.
This happens, if TCH traffic is received from upper layer, but there is
no lchan available before completing immediate assignment, handover or
assignment process.
[hfreyther: The code has not been moved to tch_frame_down
but the issue looks similiar]
In case foreign simcards are used we can not do authentication
and ciphering. In case a TMSI is re-used too early and we do
page using TMSI we can't know which of the two MS is responding
to us. We could change the "secure channel" routine to ask for
the IMSI and only then stop the paging.
As we don't have ciphering there is not much use in using the
TMSI. Add a mode "no assign-tmsi" that will not assign the TMSI
during LU. Now CM Service Request and Paging Response will
work using the IMSI. There can't be a clash with that.
[ciaby fixed the vty write to use the right name]
When we can't find the TMSI then the subscriber is not in our
VLR. We have not consulted with the HLR and it is better to not
use such a severe error code.
The idea of "subscriber_get_channel" was that different
requests would be coordinated. At the same time we have
seen that the "queue" can get stuck at both 31C3 and the
rhizomatica installations.
Voice calls and SMS do not need coordination. We should
be able to send SMS on a voice channel and switch the MS
from a SDCCH to a TCH in case we establish a voice call.
The SMS code itself needs to coordinate to obey the limit
of one SMS per direction but this should be enforced in
the sms layer and not on the subscriber.
Modify the code to have a simple paging coordination. The
subscriber code will schedule the paging and register who
would like to know about success/failure.
This allowed to greatly simplify the paging response
handling for the transaction code (and in fact we could
move the transaction list into the subscriber structure
now). The code gained to support to cancel the notification
of a request (but not the paging itself yet).
TODO: Cancel paging request in case no one cares about it
anymore.
The trans_alloc function still uses the subscr object to access the
network object.
This patch adds an explicit net parameter to this function and
removes the access to subscr to obtain it.
Sponsored-by: On-Waves ehf
Currently every subcriber object directly refers to the gsm_network
which contains a flag shared by every related subscriber
(keep_subscr). This adds a dependency on gsm_network even if only the
function defined in gsm_subscriber_base.c are used.
This patch adds a new struct gsm_subscriber_group which contains the
keep_subscr flag and a back reference to the network object. The
latter is not dereferenced in gsm_subscriber_base.c, so it can safely
be set to NULL when only that part of the gsm_subscriber API is being
used. It also changes that API to use gsm_subscriber_group instead of
gsm_network parameters.
Since there are some places where a pointer to the gsm_network is
needed but where only a gsm_subscriber is available, a 'net' back
pointer is added to the group struct, too. Nevertheless subscr group
and network could be separated completely, but this is not the topic
of this commit.
Sponsored-by: On-Waves ehf
Currently the net pointer is obtained from trans->subscr->net. On the
other hand, the list gsm_trans object is managed by the net object.
This patch adds the back pointer to the structure and replaces all
trans->subscr->net by trans->net expressions. In trans_alloc() the
trans->net pointer is obtained from the subscr object.
Sponsored-by: On-Waves ehf
Incoming DTAP messages from MS are discarded during silent calls,
which leads to the repeated delivery of SMS since the ACKs are not
being processed.
This patch adds some log messages that have been helpful to track
this down.
Sponsored-by: On-Waves ehf
E1 based BTS use TRAU muxer to decode TRAU frames. After changing
channel from one timeslot to another (due to handover or assignment),
the TRAU muxer must be updated. The call reference of the call is
disconnected from the old channel and connected to the new channel.
The check is removed from gsm48_cc_rx_setup() and gsm48_cc_rx_call_conf().
Receiving a layer 3 message implies that the transaction has a subscriber
connection and a logical channel.
This patch fixes the Coverity issues with CID 115311 and CID 1155312.
Speech codings which are not supported by BTS will be removed from the
bearer capability information element after parsing. This way it is not
required for the MNCC application to consider support of each BTS.
Only GSM full rate is supported by default.
Currently the NET_DST information element (see GSM 24.008) is not
included in generated MM info messages even when the DST field in the
timezone info has been set via the VTY or the control interface.
This patch modifies gsm48_tx_mm_info() to append this information
element if (and only if) a non-zero DST has been configured. The
DST IE is not part of GSM 4.8. Therefore it will only be sent, if the
DST offset is configured to a value != 0.
The DST functionality has been verified with wireshark by Jacob.
Sponsored-by: On-Waves ehf
Currently we only set the SUBSCR on RSL messages. Extend it to
messages that go through MNCC. For call control/bridging it is
difficult to pick the right subscriber. We should support a list
or at least two legs in the imsi filter context.
conn->loc_operation is already NULL (e.g. due a five second timeout but
we are still processing a RSL message after we initiated the release
procedure). Do not attempt to authorize a subcriber without knowing the
key_sequence.
This can cause more problems but we will need to test this in the field.
(gdb) bt
#0 gsm0408_authorize (conn=0x19fc2f0, msg=<optimized out>) at gsm_04_08.c:323
#1 gsm0408_authorize (conn=0x19fc2f0, msg=<optimized out>) at gsm_04_08.c:319
#2 0x000000000043a99a in mm_rx_id_resp (conn=0x19fc2f0, msg=<optimized out>)
at gsm_04_08.c:495
#3 gsm0408_rcv_mm (msg=<optimized out>, conn=0x19fc2f0) at gsm_04_08.c:1041
#4 gsm0408_dispatch (conn=0x19fc2f0, msg=<optimized out>) at gsm_04_08.c:3232
(gdb) p *conn
$5 = {entry = {next = 0x1746930, prev = 0x1a14270}, subscr = 0x1745eb0,
expire_timer_stopped = 1 '\001', loc_operation = 0x0, sec_operation = 0x0,
anch_operation = 0x0, silent_call = 0, put_channel = 0, sccp_con = 0x0, in_release = 0,
lchan = 0x7f8c79007218, ho_lchan = 0x0, bts = 0x1719f90, T10 = {node = {
rb_parent_color = 0, rb_right = 0x0, rb_left = 0x0}, list = {next = 0x0, prev = 0x0},
timeout = {tv_sec = 0, tv_usec = 0}, active = 0, cb = 0, data = 0x0},
secondary_lchan = 0x0}
When modern Smartphones receive "Not in VLR". The baseband firmware
apparently does not try to do an IMSI ATTACH but just remains un-happy
and will not connect to the network anymore.
Decoding and encoding of FR and EFR TRAU frames are put into seperate
functions. CRC check is done to detect bad EFR TRAU frames.
The test case includes FR and EFR transcoding.
EFR support was tested with Nokia InSite BTS and Siemens BS11.
These functions are currently located in libmsc/gsm_04_08.c together
with other symbols that (transitively) depend on many external
symbols (and thus libraries) that aren't otherwise needed by e.g.
osmo-bsc.
Since gsm48_tx_mm_serv_ack() will be needed by osmo-bsc, these
functions are moved to avoid the dependency on gsm_04_08.o.
Sponsored-by: On-Waves ehf
The MS do not show the USSD messages yet. This patch modifies the
implementation to insert a CM Service Accept before the ussdNotify
to finish the establishment of the MM connection according to
3GPP TS 04.10/3.2.1.
This fix has been tested with a Blackberry phone that has shown
an ussd_grace_txt after rf_locked has been set to '1'. Without this
patch, that message wasn't shown. The phone has sent a CC Setup
and other messages before processing the channel release message sent
by the BSC, but these messages have not been forwarded to the MSC (as
expected).
Ticket: OW#957
Sponsored-by: On-Waves ehf
We were expiring subscribers during active calls. This is because
the T3212 is stopped under certain conditions but we didn't stop
that timer at all.
Remember if T3212 timer was stopped due something done by NITB and
update the expiration time at the end of the radio connection, as
the phone should restart it when returning to MM Idle.
It is a bit difficult to decide when we should set the flag. E.g.
in a CM Service Request we don't know if we accept the service and
during a LU we already send MM messages before we accept or reject
the subscriber.
The easiest is to set the flag when receiving a paging response
on known subscribers and at the end of the authentication process.
Do not expire a subscriber that has an active connection that is
marked with the flag, e.g. we would still expire a subscriber that
is being paged.
Manual tests executed/passed:
* gst LUTest.st verified that a expiration date was set
* gst SMSTest.st (doing another LU but forcing a timeout on the
SMS sending). Verified that the expire_lu was updated.
A CM service request must be acknowledged also, when encryption is already
enabled.
Without encryption enabled, the security status is GSM_SECURITY_NOTAVAIL,
which causes a CM service acknowledge. On initial CM service request, the
security status is GSM_SECURITY_SUCCEED, if encryption is enabled. This
will not lead to an acknowledge, because the cyphering command implies an
acknowlege. An additional CM service request requires an acknowledge, so
I added a new security status: GSM_SECURITY_ALREADY
Coverity pointed out that we use trans->subscr after a NULL check,
it is our believe that every transaction will have a subscriber.
Remove the check and add an assert before we are dispatching things.
Fixes: Coverity CID 1040740, CID 1040739
If after release has been sent, the call control layer waits for:
- reception of release complete
- or timeout
- or release of transaction (due to radio link failure)
In this case, an MNCC_REL_CNF is sent to upper layer. The callref must
still exist, so the upper layer can handle this confirm.
If transaction is destroyed, but callref still exists, the
mncc_release_ind function is called. If the upper layer already sent an
MNCC_REL_REQ, the state N19 was entered. In this case it expects an
MNCC_REL_CNF.
This was reported by Kevin when he was testing handover. The problem
is the order of the signal handlers for S_ABISIP_CRCX_ACK. Right now
the handover signal handler is called before the one inside the libmsc
gsm_04_08.c. This means S_HANDOVER_ACK is signalled _before_ there is a
rtp socket created for the channel. The result is that the MDCX will
never be sent and the called will not be properly switched _after_ the
handover detection.
I do not want to play with the order of signal handlers, remove the
CRCX ack handling from the handover_logic.c and force the NITB (and
later the BSC) to check if the lchan is involved with a handover and
do the switching in there. This means right now we do what two signal
handlers did in one.
Reproduced and tested with the FakeBTS Handover test.
Log message:
<0004> abis_rsl.c:1954 (bts=1,trx=0,ts=3,ss=0) IPAC_CRCX_ACK ...
<000c> gsm_04_08.c:1400 no RTP socket for new_lchan
<001a> rtp_proxy.c:533 rtp_socket_create(): success
<001a> rtp_proxy.c:615 rtp_socket_bind(rs=0x48703c8, IP=0.0.0.0): ...
If subscriber A is calling B and has sent a CC Setup message we will
allocate the MO and MT transaction and link them together. When the
BTS or the lchan is failing the BSC API will send a clear request,
as part of the clear request all pending transactions will be released.
As part of taking down the transaction, the remote leg will be informed
and will send a MNCC_REL_REQ. This results in a call to trans_free. The
llist_for_each_entry_safe does not handle removing other elements from
the list and we would segfault.
One way to fix this is to move the transaction list into the subscriber
connection. This might require to create the subscriber connection for
MT handling earlier. Otherwise one could have one transaction list inside
the subscriber connection and a global list for MT- transactions.
This has been reported and analyzed by Tobias Engel. The IMSI Detach
is dispatched as part of the complete layer3 message. I had patched
the code to release the anchor and call msc_release_connection to
release the connection as fast as possible (otherwise the anchor would
trigger in a couple of seconds).
With commit 70ae5d3000 I made this more
generic to release the connection immediately if there are no operations,
no transaction and no silent call. This leads to the subscriber connection
being released twice and eventually causing a segfault. Remove the
msc_release_connection invocation from the IMSI Detach code as the connection
will be taken down by the BSC API.
This has been tested using the FakeBTS and an IMSI Detach message. The
channel is released immediately and the nitb does not crash.
abis_nm.c: In function ‘abis_nm_get_attr’:
abis_nm.c:1380:11: warning: unused variable ‘cur’ [-Wunused-variable]
abis_nm.c: In function ‘ipac_parse_bcch_info’:
abis_nm.c:2588:11: warning: variable ‘len’ set but not used [-Wunused-but-set-variable]
bts_nokia_site.c:1310:6: warning: variable ‘constructed’ set but not used [-Wunused-but-set-variable]
bts_nokia_site.c: At top level:
bts_nokia_site.c:1364:12: warning: ‘dump_elements’ defined but not used [-Wunused-function]
gsm_04_08.c: In function ‘mm_rx_loc_upd_req’:
gsm_04_08.c:521:6: warning: variable ‘rc’ set but not used [-Wunused-but-set-variable]
osmo_msc.c: In function ‘msc_ciph_m_compl’:
osmo_msc.c:122:7: warning: variable ‘rc’ set but not used [-Wunused-but-set-variable]
bts_hsl_femtocell.c: In function ‘hslfemto_bootstrap_om’:
bts_hsl_femtocell.c:101:11: warning: variable ‘cur’ set but not used [-Wunused-but-set-variable]
bts_hsl_femtocell.c: In function ‘hsl_drop_oml’:
bts_hsl_femtocell.c:232:21: warning: variable ‘line’ set but not used [-Wunused-but-set-variable]
handover_logic.c: In function ‘ho_chan_activ_ack’:
handover_logic.c:197:6: warning: variable ‘rc’ set but not used [-Wunused-but-set-variable]