Always use LAC which is part of Cell Global ID otherwise we might end up
in a situation where separately stored LAC differs.
Both are described in 3GPP TS 23.008 $2.4 as temporary subscriber data
to be stored in VLR. Both are defined in 3GPP TS 23.003. The LAC is part
of LAI which is part of CGI so there should be no case when those values
differ for a given subscriber.
Change-Id: I993ebc3e14f25e83124b6d3f8461a4b18f971f8e
When a subscriber is displayed the RAN type is not included in the
overview. Meanwhile the MSC supports multiple different ran types it
becomes important to see in which RAN the subscriber is currently
active.
Change-Id: I000cafd5e41b9951d51b6bd6672ee68a224b8212
Related: OS#3615
When a VLR subscriber is displayed on the VTY we get a lot of meta
information, but there are also some flags to handle the internal
subscriber status e.g. conf_by_radio_contact_ind. Lets display those
flags as well as this information can be very helpful when debugging
problems in the VLR
Change-Id: I59a9145a4daad50d68de3fd5c3291f027256917f
Do not show the VTY command's own use count during 'show subscriber <ID>'.
When using 'show subscriber msisdn 2023', I was surprised to see a use count of
2 and suspected a use count leak. With 'show subscriber cache' however, the use
count is 1.
So I realized it is the vty command's own use count that makes it two, besides
the lu_complete=true one.
Change-Id: Id02b57b7ed299b010b9f8b9e809548eb1e6aa699
The 'ipa-name' option can now only be set via the configuration file
because changing the IPA name at run-time conflicts with active
GSUP connections and routes configured in the HLR. The osmo-msc
program must be restarted if its IPA name needs to change.
Change-Id: I6cff91793e646e0396e8f1bc87d0f52709e5f12a
Related: OS#3355
Two reasons:
- the caller of msc_mgcp_ass_complete() from Iu, iucs_rx_rab_assign(), failed
to be adjusted, breaking IuCS, as an --enable-iu --enable-werror build shows.
Unfortunately our gerrit verification doesn't --enable-werror for osmo-msc.
- the condition of requiring ST_MDCX_RAN is faulty, breaking GSM CS.
This reverts commit 212c0c9bda.
Change-Id: I8348675c2f7c8856ea1682d05ee54160d4cfeb96
Provide software version information to the GSUP peer. The version now
shows up in logs like this: Software_Version='osmo-msc-1.2.0.120-1263b'
Change-Id: I2eba32569349facdbb1fda201067c62cc804ccf4
Depends: I317d6c59f77e92fbb2b875a83dc0ec2fa5cb6006
Related: OS#3355
Add a 'ipa-name' VTY command which overrides the default IPA name
used by the MSC. This is a prerequisite for inter-MSC handover.
Related: OS#3355
Change-Id: I317d6c59f77e92fbb2b875a83dc0ec2fa5cb6006
It is a message that is initially permitted, but it is in fact not handled in
the L3 code but already before, upon receiving
BSS_MAP_MSG_CIPHER_MODE_COMPLETE.
Change-Id: I0079f07271ca76bd457d0e700f3a736eb9066b47
BSSMAP Assignment Complete: sort MGCP handling upon Assignment Complete to the
proper locations. a_iface_bssap.c is not the right place to invoke the MGCP
related procedures.
- in a_iface_bssap.c only decode the IEs.
- call ran_conn_assign_compl() and pass decoded values.
- drop msc_assign_compl(), it was dead code; instead:
- add ran_conn_assign_compl()
- pass on all MGCP related info to msc_mgcp_ass_complete()
- move all MGCP ctx related handling from a_iface_bssap.c to msc_mgcp.c.
I'm dropping some comments to save some time, because if I adjust them IMHO
they would still anyway restate the obvious.
ran_conn_assign_compl() is now quite a thin shim, but it makes sense to have
it:
- This is the place that should tear down the ran_conn in case assignment
failed, left for a future patch.
- In the light of upcoming inter-MSC handover, ran_conn_assign_compl() will be
the place where the Assignment Complete message might be relayed to a remote
MSC.
Change-Id: I8137215c443239bddf3e69b5715839a365b73b6c
BSSMAP Assignment Complete:
Do not invoke ran_conn_rx_sec_mode_compl(), that's just weird.
Instead this should call msc_assign_compl(), which is currently dead code and
does nothing ... and there are some more strings attached, being resolved in a
subsequent patch.
Change-Id: I448fdb783364628005437b3d866d1a076a9767d7
So far the only way to use external MNCC is to pass the -M cmdline arg:
osmo-msc -M /path/to/socket
However, the osmo-msc.service file for systemd is installed by 'make install',
and hence it is quite impractical to depend on such a config item to be
required in the service file:
- It defies any scheme an operator may have in place to compose the
osmo-msc.cfg file -- this option doesn't go in the .cfg file but needs
separate action to add to the installed service file.
- After a make install or package upgrades / re-installations, this option will
be plain overwritten silently, or lead to the need for resolving file
conflicts.
The initial spark for this came from configuring the 35c3 GSM from cfg
templates.
Change-Id: I2ec59d5eba407f83295528b51b93678d446b9cee
I want to add 'mncc internal' and 'mncc external' commands, and IMHO makes most
sense to have a common 'mncc' keyword to start MNCC config commands with. To
put it in terms of VTY online help:
OsmoMSC(config-msc)# mncc ?
internal Use internal MNCC handler
external Use internal MNCC handler
guard-timeout Set global guard timeout
So far only the 'guard-timeout' exists, I want to add 'internal' and 'external'
in a subsequent commit.
Keep the old command 'mncc-guard-timeout' as deprecated alias. That means it
still works from old config files, but online documentation will omit it.
On 'write', write back the new format instead.
Rationale: see I2ec59d5eba407f83295528b51b93678d446b9cee
Change-Id: I52d69af48e1ddc87b3fb54bf66a01b1b8cbf5abe
The function msc_paging_request() is only called from within
gsm_subscriber.c but never from outside. Lets make it static.
Change-Id: I2efc8eac01a4dd8733118067eecf566c13062106
gsm_subscriber.h contains some legacy cruft, part of which is that the VLR's
max MSISDN length should rather be defined in vlr.h. Same for GSM_NAME_LENGTH
-> VLR_NAME_LENGTH.
Adjust some sms_queue stuff that anyway includes vlr.h already.
Drop gsm_subscriber.h from vlr.h.
Add other (more concise) includes that thus become necessary, since the include
chain vlr.h->gsm_subscriber.h->gsm_data.h is no longer in place.
Change-Id: Iab5c507ec04fc2884187cf946f6ae2240e4a31f8
Along goes GSM_KEYSEQ_INVAL as VLR_*.
It's where it logically belongs, and is almost the only reason why vlr.h
includes gsm_data.h. The remaining reason, GSM_EXTENSION_LENGTH, will be moved
by upcoming patch.
Change-Id: I122feae7ee3cbc59e941daef35a954bce29fec76
For hysterical raisins, there are some header files that contain few
declarations, and where the name doesn't reflect the content. Combine them to
new msc_common.h:
- common.h
- common_cs.h
- osmo_msc.h
Change-Id: I9e3a587342f8d398fb27354a2f2475f8797cdb28
With the dawn of inter-BSC,MSC handover, adopting the MSC-A,-I,-T roles from
3GPP TS 49.008, the RAN connection shall soon be a neatly separated corner of
osmo-msc, so gravitate ran_conn decarations to files of matching name.
Also, the current chaos of API defined in files with mismatching/meaningless
names drives me crazy.
Change-Id: Ice31e6c43e46678538c65261f150c67e1d0845e5
Following previous rename of gsm_subscriber_connection:
Some functions and #defines are still called like "msc_conn" or just "msc_",
while they are clearly about a RAN conn.
To avoid confusion with the future separate concepts of MSC roles and a RAN
connection, rename all those to match the common "ran_conn" prefix.
Change-Id: Ia17a0a35f11911e00e19cafb5d7828d729a69640
In preparation for inter-BSC and inter-MSC handover, we need to separate the
subscriber management logic from the actual RAN connections. What better time
to finally rename gsm_subscriber_connection.
* Name choice:
In 2G, this is a connection to the BSS, but even though 3GPP TS commonly talk
of "BSS-A" and "BSS-B" when explaining handover, it's not good to call it
"bss_conn": in 3G a BSS is called RNS, IIUC.
The overall term for 2G (GERAN) and 3G (UTRAN) is RAN: Radio Access Network.
* Rationale:
A subscriber in the MSC so far has only one RAN connection, but e.g. for
inter-BSC handover, a second one needs to be created to handover to. Most of
the items in the former gsm_subscriber_connection are actually related to the
RAN, with only a few MM and RTP related items. So, as a first step, just rename
it to ran_conn, to cosmetically prepare for moving the not strictly RAN related
items away later.
Also:
- Rename some functions from msc_subscr_conn_* to ran_conn_*
- Rename "Subscr_Conn" FSM instance name to "RAN_conn"
- Rename SUBSCR_CONN_* to RAN_CONN_*
Change-Id: Ic595f7a558d3553c067f77dc67543ab59659707a
msc_compl_l3() always returns MSC_CONN_ACCEPT, because the conn FSM handles (or
should handle) all reject cases. The accept/reject return value is a legacy
from libbsc internally passing a conn over to libmsc, in osmo-nitb.
Drop enum msc_compl_l3_rc.
Change msc_compl_l3_rc() to return void.
Change all callers to always act like for acceptance, as they always did anyway.
Drop some local variables now no longer needed.
Adjust the comment to msc_compl_l3().
Drop a bunch of #if-0'd code from msc_compl_l3().
Change-Id: I759d15f4e820d5fc16397ed7210ce92308e52a09
On UTRAN, Security Mode is used instead of Ciphering Command, which does not
feature an A5 algorithm id.
Change-Id: Idc7ca9da1aa13ae16f5db2cb1024676cbc770820
The gsm_subscriber_connection->encr is never used. Use it.
When sending the Ciphering Mode Command, populate the encryption key.
When receivint the Ciphering Mode Complete, populate the chosen alg_id.
Out of paranoia, store the enc key only if the size is large enough.
Hence the vty_dump_one_conn() now reports the actually chosen A5 algorithm ID
used.
For 3G connections, though, this will still remain 0 in the VTY, since there is
no explicit A5 algorithm negotiated on UTRAN. (Security Mode Command and
Security Mode Complete instead of the GERAN Ciphering.)
(Note, 'struct gsm_encr encr' will be renamed to 'struct geran_encr geran_encr'
in Idc7ca9da1aa13ae16f5db2cb1024676cbc770820)
Change-Id: Ice2c470c360612249f97301944c6fdf9443c7dce
In I4a07ece80d8dd40b23da6bb1ffc9d3d745b54092 I've introduced a
regression. According to GSM TS 04.11, section 2.3, SAPI 3 shall
be used for both MO/MT SMS transmissions. Due to a mistake,
caused by misunderstanding of the meaning of trans->dlci, SAPI 3
was not assigned to SM transactions if there is already an active
RAN connection with subscriber. Let's fix this.
Let's also drop this misleading comment:
/* FIXME: specify SACCH in case we already have active TCH */
because it's a task of the BSC/BTS to decide which lchan to use.
Change-Id: I08d0801a89d377441e95fb8e3dd27c8d587f89e9
Related: OS#3716
gsm_network contains an int handover.active which is always zero. Drop it.
There is real handover code coming up soon, one part of this is to avoid
confusion.
The internal MNCC code queried it to decide whether to MNCC_BRIDGE or proxy RTP
(MNCC_FRAME_RECV). Since RTP is being handled by osmo-mgw since forever, drop
that entire condition from mncc_builtin.
Change-Id: Ie16e718266882588b38297121364ca0b7fdfe948
According to GSM TS 04.11, the SMC (Short Message Control) state
machine is a part of CM-sublayer of L3, that is responsible for
connection management (establisment and releasing), and SM-RP
(Relay Protocol) message delivery.
For some reason, the connection establisment request from SMC
(GSM411_MMSMS_EST_REQ) was not handled properly - it was
always assumed that connection is already established.
This is why the code initiating a MT (Mobile Terminated) SMS
transfer had to establish a radio connection with subscriber
manually.
Let's benefit from having the SMC state machine, and offload
connection establishment to it. This change makes the local
implementation closer to GSM TS 04.11, and facilitates the
further integration of GSUP transport.
NOTE: the expected unit test output is changed, because now we
always allocate a transaction first, and then establish a
connection, not vice versa.
Change-Id: I4a07ece80d8dd40b23da6bb1ffc9d3d745b54092
According to GSM TS 04.11, section 8.2.3, the RP Message Reference
is a mandatory field for all messages on the SM-RL (SM Relay Layer),
that is used to link an RP-ACK or RP-ERROR message to the associated
(preceding) RP-DATA or RP-SMMA message transfer attempt.
This change extends the transaction state structure with SM-RP-MR,
and introduces a new function for matching transactions within a
given connection by this reference.
Change-Id: Ice47c37ecef4416e65ecee8931d946c915316791
It's much better to have both RP-DATA header parsing and validation
code in a single function. There is no need to pass all the header
fields (DA, OA, UI) to gsm411_rx_rp_ud() because they are not
used there.
Change-Id: Iaf295949148e2a613c5403d1f7a926fcd6849c15
Passing a message buffer containing the whole encoded message, and
a pointer to the RP header (struct gsm411_rp_hdr) is redundant.
Change-Id: I0eb5c7c485ab7d109966431bd875fa74e00936d7
| ../../../git/src/libmsc/msc_vty.c:1202:44: warning: format '%lu' expects argument of type 'long unsigned int', but argument 3 has type 'uint64_t {aka long long unsigned int}' [-Wformat=]
| vty_out(vty, "Location Update : %lu attach, %lu normal, %lu periodic%s",
| ^
Change-Id: Iae1c0b20a519ce71a21f72cea3c63694ef10adb4
When using smpp-first, after the ESME accepts our STATUS REPORT,
we were sending it locally into gsm340_rx_sms_submit() anyway.
In the case of the ESME mirroring the report back to us, this
would result in two copies of the status report in the SMS
database, which were also both then delivered to the MS.
This causes no visible error to the user but is a waste of radio
resources.
With this patch, we check if it is the sms_report that has had
receiver set in sms_route_mt_sms() and not the original SMS we
are reporting on, which of course already has receiver set.
Change-Id: I3529b89535800eaa1127721d613fa7bbcb8b23be