It was noticed that SCCP_RAN_MSG_RESET_ACK message is not freed after
sending. Since ran_peer_rx_reset() calls sccp_ran_down_l2_cl(), which
then calls osmo_sccp_user_sap_down_nofree(), which doesn't free the
message buffer (what's clear from its name).
OsmoMSC# show talloc-context application full filter msgb
full talloc report on 'osmo_msc' (total 20155 bytes in 88 blocks)
msgb contains 4640 bytes in 5 blocks (ref 0)
bssmap: reset ack contains 1160 bytes in 1 blocks (ref 0)
bssmap: reset ack contains 1160 bytes in 1 blocks (ref 0)
bssmap: reset ack contains 1160 bytes in 1 blocks (ref 0)
Let's free it after sending (or in case of error).
Change-Id: Ic174f6eecd6254af597dfbdc1c9e3d65716f0a76
This fixes the following compiler error:
msub.c: In function ‘msub_fsm_active’:
msub.c:85:35: error: ‘msc_role_a_c’ may be used uninitialized in this function
[-Werror=maybe-uninitialized]
|| (msc_role_a_c && msc_role_a_c->ran->type == OSMO_RAT_EUTRAN_SGS)))
~~~~~~~~~~~~^~~~~
msub.c:59:26: note: ‘msc_role_a_c’ was declared here
struct msc_role_common *msc_role_a_c;
^~~~~~~~~~~~
Change-Id: Id518dea77d01ed0518ca7cba6b1b363f1c8e6543
While developing the inter-MSC handover refactoring, I was annoyed by the fact
that mncc_tx_to_cc() receives an MNCC message struct containing a msg_type, as
well as a separate msg_type argument, which may deviate from each other. So, as
a first step I wanted to make sure that all callers send identical values for
both by inserting an OSMO_ASSERT(msg_type == msg->msg_type). Later I was going
to remove the separate msg_type argument.
I then forgot to
- carry on to remove the argument and
- to actually test with internal MNCC (it so happens that all of our ttcn3
tests also use external MNCC).
As a result, the "large refactoring" patch for inter-MSC Handover breaks
internal MNCC operation.
Fix that: remove the separate msg_type argument and make sure that all callers
of mncc_tx_to_cc() indeed pass the desired msg_type in msg->msg_type, and hence
also remove the odd duality of arguments.
Various functions in mncc_builtin.c also exhibit this separate msg_type
argument, which are all unused and make absolutely no sense. Remove those as
well.
Related: OS#3989
Change-Id: I966ce764796982709ea3312e76988a95257acb8d
We are just introducing smpp34_set_memory_functions() in libsmpp34
to allow applications like OsmoMSC to provide their own heap allocator
callback functions. Let's used this to integrate with talloc and
hence allow talloc tracking/debugging for libsmpp34 internal
allocations.
Depends: libsmpp34 Change-Id I3656117115e89638c093bfbcbc4369ce302f7a94
Change-Id: Ie2725ffab6a225813e65768735f01678e2022128
Related: OS#3913
Get rid of the legacy name bscconfig.h from osmo-nitb times.
Remove the #include from some of the files that aren't actually using it.
Instead of '#include "../../config.h"', use plain '#include "config.h"'
because we're anyway passing $top_srcdir as -I during compilation.
Change-Id: Id4f683be1f36f0630c83da54e02868aae847aeec
Before, I was testing with osmo-hlr patch
I01a45900e14d41bcd338f50ad85d9fabf2c61405 applied, but that patch is currently
in an abandoned state.
This is the counterpart implemented in osmo-msc: always include the terminating
nul char in the "blob" that is the MSC IPA name.
The dualities in the formats of routing between MSCs is whether to handle it as
a char*, or as a uint8_t* with explicit len (a blob).
In the VTY config to indicate target MSCs for inter-MSC handover, we have
strings. We currently even completely lack a way of configuring any blob-like
data as a VTY config item.
In osmo-hlr, the IPA names used for routing are currently received as a char*
which *includes* the terminating nul char. So in osmo-msc, if we also always
include the nul char, it works.
Instead, we could just send the char* part without the nul char, and apply
above mentioned osmo-hlr patch. That patch would magically match a name that
lacks a nul with a name that includes one. I think it is better to agree on one
format on the GSUP wire now, instead of making assumptions in osmo-hlr on the
format of the source/target names for routing. This format, from the way GSUP
so far transmits the IPA SERNO tag when a client attaches to osmo-hlr, happens
to include the terminating nul char.
Change-Id: I9ca8c9eef104519ed1ea46e2fef46dcdc0d554eb
3GPP TS 49.008 '4.3 Roles of MSC-A, MSC-I and MSC-T' defines distinct roles:
- MSC-A is responsible for managing subscribers,
- MSC-I is the gateway to the RAN.
- MSC-T is a second transitory gateway to another RAN during Handover.
After inter-MSC Handover, the MSC-I is handled by a remote MSC instance, while
the original MSC-A retains the responsibility of subscriber management.
MSC-T exists in this patch but is not yet used, since Handover is only prepared
for, not yet implemented.
Facilitate Inter-MSC and inter-BSC Handover by the same internal split of MSC
roles.
Compared to inter-MSC Handover, mere inter-BSC has the obvious simplifications:
- all of MSC-A, MSC-I and MSC-T roles will be served by the same osmo-msc
instance,
- messages between MSC-A and MSC-{I,T} don't need to be routed via E-interface
(GSUP),
- no call routing between MSC-A and -I via MNCC necessary.
This is the largest code bomb I have submitted, ever. Out of principle, I
apologize to everyone trying to read this as a whole. Unfortunately, I see no
sense in trying to split this patch into smaller bits. It would be a huge
amount of work to introduce these changes in separate chunks, especially if
each should in turn be useful and pass all test suites. So, unfortunately, we
are stuck with this code bomb.
The following are some details and rationale for this rather huge refactoring:
* separate MSC subscriber management from ran_conn
struct ran_conn is reduced from the pivotal subscriber management entity it has
been so far to a mere storage for an SCCP connection ID and an MSC subscriber
reference.
The new pivotal subscriber management entity is struct msc_a -- struct msub
lists the msc_a, msc_i, msc_t roles, the vast majority of code paths however
use msc_a, since MSC-A is where all the interesting stuff happens.
Before handover, msc_i is an FSM implementation that encodes to the local
ran_conn. After inter-MSC Handover, msc_i is a compatible but different FSM
implementation that instead forwards via/from GSUP. Same goes for the msc_a
struct: if osmo-msc is the MSC-I "RAN proxy" for a remote MSC-A role, the
msc_a->fi is an FSM implementation that merely forwards via/from GSUP.
* New SCCP implementation for RAN access
To be able to forward BSSAP and RANAP messages via the GSUP interface, the
individual message layers need to be cleanly separated. The IuCS implementation
used until now (iu_client from libosmo-ranap) did not provide this level of
separation, and needed a complete rewrite. It was trivial to implement this in
such a way that both BSSAP and RANAP can be handled by the same SCCP code,
hence the new SCCP-RAN layer also replaces BSSAP handling.
sccp_ran.h: struct sccp_ran_inst provides an abstract handler for incoming RAN
connections. A set of callback functions provides implementation specific
details.
* RAN Abstraction (BSSAP vs. RANAP)
The common SCCP implementation did set the theme for the remaining refactoring:
make all other MSC code paths entirely RAN-implementation-agnostic.
ran_infra.c provides data structures that list RAN implementation specifics,
from logging to RAN de-/encoding to SCCP callbacks and timers. A ran_infra
pointer hence allows complete abstraction of RAN implementations:
- managing connected RAN peers (BSC, RNC) in ran_peer.c,
- classifying and de-/encoding RAN PDUs,
- recording connected LACs and cell IDs and sending out Paging requests to
matching RAN peers.
* RAN RESET now also for RANAP
ran_peer.c absorbs the reset_fsm from a_reset.c; in consequence, RANAP also
supports proper RESET semantics now. Hence osmo-hnbgw now also needs to provide
proper RESET handling, which it so far duly ignores. (TODO)
* RAN de-/encoding abstraction
The RAN abstraction mentioned above serves not only to separate RANAP and BSSAP
implementations transparently, but also to be able to optionally handle RAN on
distinct levels. Before Handover, all RAN messages are handled by the MSC-A
role. However, after an inter-MSC Handover, a standalone MSC-I will need to
decode RAN PDUs, at least in order to manage Assignment of RTP streams between
BSS/RNC and MNCC call forwarding.
ran_msg.h provides a common API with abstraction for:
- receiving events from RAN, i.e. passing RAN decode from the BSC/RNC and
MS/UE: struct ran_dec_msg represents RAN messages decoded from either BSSMAP
or RANAP;
- sending RAN events: ran_enc_msg is the counterpart to compose RAN messages
that should be encoded to either BSSMAP or RANAP and passed down to the
BSC/RNC and MS/UE.
The RAN-specific implementations are completely contained by ran_msg_a.c and
ran_msg_iu.c.
In particular, Assignment and Ciphering have so far been distinct code paths
for BSSAP and RANAP, with switch(via_ran){...} statements all over the place.
Using RAN_DEC_* and RAN_ENC_* abstractions, these are now completely unified.
Note that SGs does not qualify for RAN abstraction: the SGs interface always
remains with the MSC-A role, and SGs messages follow quite distinct semantics
from the fairly similar GERAN and UTRAN.
* MGW and RTP stream management
So far, managing MGW endpoints via MGCP was tightly glued in-between
GSM-04.08-CC on the one and MNCC on the other side. Prepare for switching RTP
streams between different RAN peers by moving to object-oriented
implementations: implement struct call_leg and struct rtp_stream with distinct
FSMs each. For MGW communication, use the osmo_mgcpc_ep API that has originated
from osmo-bsc and recently moved to libosmo-mgcp-client for this purpose.
Instead of implementing a sequence of events with code duplication for the RAN
and CN sides, the idea is to manage each RTP stream separately by firing and
receiving events as soon as codecs and RTP ports are negotiated, and letting
the individual FSMs take care of the MGW management "asynchronously". The
caller provides event IDs and an FSM instance that should be notified of RTP
stream setup progress. Hence it becomes possible to reconnect RTP streams from
one GSM-04.08-CC to another (inter-BSC Handover) or between CC and MNCC RTP
peers (inter-MSC Handover) without duplicating the MGCP code for each
transition.
The number of FSM implementations used for MGCP handling may seem a bit of an
overkill. But in fact, the number of perspectives on RTP forwarding are far
from trivial:
- an MGW endpoint is an entity with N connections, and MGCP "sessions" for
configuring them by talking to the MGW;
- an RTP stream is a remote peer connected to one of the endpoint's
connections, which is asynchronously notified of codec and RTP port choices;
- a call leg is the higher level view on either an MT or MO side of a voice
call, a combination of two RTP streams to forward between two remote peers.
BSC MGW PBX
CI CI
[MGW-endpoint]
[--rtp_stream--] [--rtp_stream--]
[----------------call_leg----------------]
* Use counts
Introduce using the new osmo_use_count API added to libosmocore for this
purpose. Each use token has a distinct name in the logging, which can be a
globally constant name or ad-hoc, like the local __func__ string constant. Use
in the new struct msc_a, as well as change vlr_subscr to the new osmo_use_count
API.
* FSM Timeouts
Introduce using the new osmo_tdef API, which provides a common VTY
implementation for all timer numbers, and FSM state transitions with the
correct timeout. Originated in osmo-bsc, recently moved to libosmocore.
Depends: Ife31e6798b4e728a23913179e346552a7dd338c0 (libosmocore)
Ib9af67b100c4583342a2103669732dab2e577b04 (libosmocore)
Id617265337f09dfb6ddfe111ef5e578cd3dc9f63 (libosmocore)
Ie9e2add7bbfae651c04e230d62e37cebeb91b0f5 (libosmo-sccp)
I26be5c4b06a680f25f19797407ab56a5a4880ddc (osmo-mgw)
Ida0e59f9a1f2dd18efea0a51680a67b69f141efa (osmo-mgw)
I9a3effd38e72841529df6c135c077116981dea36 (osmo-mgw)
Change-Id: I27e4988e0371808b512c757d2b52ada1615067bd
Avoid deprecation warning: use gsm48_decode_bcd_number2() instead of
gsm48_decode_bcd_number().
Validate the return value and add error handling.
Change-Id: Ibef71c46d72d2d43123e68f73e5ed554a69243d8
In smpp_openbsc.c submit_to_sms(), "get" the appropriate use count upon
assigning sms->receiver, fixing a -1 use count upon sms_free().
Also, avoid a "put" of a NULL subscriber in the same function.
Related: OS#3930
Change-Id: Idaf01cd3cfa08088ce0d543d0576db957dc94262
So far, sms_pending_failed() starts a new sms_queue_trigger() run. The
intention behind that might have been to fill up the queue when sending SMS has
failed, but the practical effect is actually bad:
As current ttcn3-msc-test runs show, a failed MT SMS gets triggered multiple
times in short succession, i.e. osmo-msc repeatedly sends Paging Requests for
the same subscriber.
This special case happens actually only when there are few SMS still in the DB
to be delivered. In the TTCN3 test, there is exactly one MT SMS for one
subscriber, and retriggering the queue brings up the same SMS every time.
See f_tc_lu_and_mt_sms_paging_and_nothing() and f_tc_sgsap_mt_sms_and_nothing()
which say:
"/* Expect the MSC to page exactly 10 times before giving up */"
This is bad because an MSC should send a Paging Request exactly once. Retrying
failed Paging is clearly the task of the BSC, not the MSC. The remaining code
around Paging correctly follows this paradigm, but this retrigger doesn't.
Do not immediately trigger the SMS queue on a failed MT SMS. Instead, leave it
up to the periodical SMS queue trigger to decide.
This patch will cause the MT SMS tests in ttcn3-msc-tests to fail, because the
test expectations are bogus. The patch fixing the test run is listed 'Related'
below.
Related: I7dce12942a65eaaf97f78ca69401c7f93faacb9e (osmo-ttcn3-hacks)
Change-Id: I24bf9f1c1167efe1080ae4cf47ed2ef0bd981e49
The function sgs_tx() is using the sgs connection pointer as context,
even though it has done a check for a nullpointer in the line before.
This is very prone to lead into a segfault when the SGs connection dies.
Change-Id: I88b95e3f8cd35241ad68f08d94c6ad7067b842e6
Related: OS#3859
The libsmpp34 build_tlv() function is allocating dynamic memory
which we need to release again by calling destroy_tlv().
Change-Id: Iacc74c9948fb10fa79c0dd7b0cb72d4adbefdeed
Closes: OS#3912
If subscriber is NULL, vlr_subscr_msisdn_or_name() returns string
"unknown", which is less informative than printing destination msisdn
expected for the queued sms.
This happens for instance if an sms was queued with Store&Forward and
destination subscriber is not currently registered
Change-Id: I4b8b54c9c41b17d4e1fa7ece63aa91a98036ef11
A memleak has been noticed after executing some of TTCN-3 test
cases. For example, the following ones:
- MSC_Tests.TC_lu_and_mo_sms,
- MSC_Tests.TC_lu_and_mt_sms.
The key point is that MSC_Tests.TC_lu_and_mo_sms basically sends
a MO SMS to a non-attached subscriber with MSISDN 12345, so this
message is getting stored in the SMSC's database.
As soon as the SMSC's queue is triggered, sms_submit_pending() would
retrieve pending messages from the database by calling function
smsq_take_next_sms() in loop and attempt to deliver them.
This function in it's turn checks whether the subscriber is attached
or not. If not, the allocated 'gsm_sms' structure would not be
free()ed! Therefore, every time smsq_take_next_sms() is called,
one 'gsm_sms' structure for an unattached subscriber is leaked.
Furthermore, there is a unit test called 'sms_queue_test', that
actually does cover smsq_take_next_sms() and was designed to
catch some potential memory leaks, but...
In order to avoid emulating the low-level SQLite API, the unit
test by design overwrites some functions of libmsc, including
db_sms_get_next_unsent_rr_msisdn(), that is being called by
smsq_take_next_sms().
The problem is that the original function in libmsc does
allocate a 'gsm_sms' structure on heap (using talloc), while
the overwriting function did this statically, returning a
pointer to stack. This critical difference made it impossible
to spot the memleak in smsq_take_next_sms() during the
unit test execution.
Let's refactor 'sms_queue_test' to use dynamic memory allocation,
and finally fix the evil memleak in smsq_take_next_sms().
Change-Id: Iad5e4d84d8d410ea43d5907e9ddf6e5fdb55bc7a
Closes: OS#3860
The default is [yes] alert-notifications, therefore write
"no alert-notifications" in the case that this has
been set, in order to preserve configuration after
write is called from vty.
Change-Id: I079aea96ee83fbf04f782dcab344d41a4ef04657
It was observed that the SGs server is started before
the actual VTY configuration is parsed. For example:
sgs
local-port 9999
local-ip 127.0.0.1
vlr-name vlr.example.net
produces the following debug output:
<0011> sgs_server.c:185 SGs socket bound to r=NULL<->l=0.0.0.0:29118
DLSS7 NOTICE <001e> osmo_ss7.c:1284 0: ASP Restart for server not implemented yet!
DSGS NOTICE <0011> sgs_server.c:185 SGs socket bound to r=NULL<->l=0.0.0.0:9999
DSGS NOTICE <0011> sgs_server.c:185 SGs socket bound to r=NULL<->l=127.0.0.1:9999
DMNCC DEBUG <0004> msc_main.c:604 Using internal MNCC handler.
The first startup is triggered by sgs_iface_init(), before reading
the VTY configuration, so the logging style is different. The next
two calls to sgs_server_open() are triggered during reading of the
VTY configuration by cfg_sgs_local_port() and cfg_sgs_local_ip().
Let's avoid starting the SGs server three times, and do it once,
after the VTY configuration is parsed. Also, keep the possibility
to change the binding parameters at run-time.
Change-Id: Ie0c31205ac48be7e50d0380a89833771b2708da4
The symbol GSM0808_SPEECH_FULL_BM is used in msc_vty.c, but gsm_08_08.h,
where the symbol is declared is not included.
Change-Id: I31a8894031aa2321d7dbf2586d076bc303247278
If the key_seq we get in the first messages matches the last_tuple, then
both we and the MS already know the key to use and we don't need the
AUTH REQUEST/RESPONSE cycle.
Security wise ... not so good, and so IMHO the 'auth required' option
in the MSC should always be set. But this allows to turn on ciphering on
a channel without doing any MM transaction, and so the MS doesn't turn
on the T3240 timer which allows to have a ciphered silent-call channel
that won't timeout.
Change-Id: Ief840a2ae7a0ffd2bf0bf726f209a79e3f787646
Signed-off-by: Sylvain Munaut <tnt@246tNt.com>
Let's add a safeguard against sending BSSAP messages with invalid length
values. This should never happen, and we'd rather see osmo-msc assert
during the development cycle than ever releasing a version which sends
invalid messages out on the wire.
Change-Id: I94327a0d276c65b528a8c7e33dde61ed53582284
Related: OS#3805
If gsm_silent_call_start() is called with an over long string in
traffic_dst_ip, then the target string might be left unterminated. Lets
use osmo_strlcpy() so that we can be sure the result in scd->traffic_ip
is always terminated.
Fixes: CID#196068
Change-Id: Ic81842175e412ae7d97d023b612412f33411d60c
In ttcn3-msc-tests, so far we leave an intentionally failed MT SMS in the SMS
queue, which may cause it to re-appear in subsequent tests.
Allow removing all SMS for a given subscriber from the SMS database for good.
(I dimly remember a user report where the SMS queue spams failed SMS attempts,
and the only way to get rid of SMS for a given subscriber is to tamper with the
sms.db file directly. This should no longer be necessary with this command.)
Related: I7dce12942a65eaaf97f78ca69401c7f93faacb9e (osmo-ttcn3-hacks)
Change-Id: I637cbd7adc075a192f49752b38779391472ff06d
An earlier code state used the conn to lookup the transaction, but this is now
done by vsub. Hence the conn lookup is not used and not needed.
conn is no longer used since 36c44b2100,
change-Id I093f36d63e671e50e54fc6236e97a777cc6da77b,
"transaction: change arguments of trans_find_by_sm_rp_mr()"
Change-Id: Ia878d70138c883cb1a1d983516aff83efa6488ce
In connection_for_subscriber(), do not return a ran_conn that is not yet
authenticated nor one that is already in release.
Using a ran_conn that is not yet authenticated may cause an auth/ciph
violation.
Using a ran_conn that is already in release may cause a use-after-free, see
OS#3842 for a description.
To be paranoid, upon releasing a conn, go through the transaction freeing
motions again by calling trans_conn_closed(), just in case some odd code path
added another transaction while the conn was already in release.
Related: OS#3842
Change-Id: Id957032e0ae1ff8ba055a75c3523447d3d06cbc3
We create a new ESME in smsc->esme_list on establishment
of a TCP connection, yet we do not know the system id
or anything else, until the ESME identifies and authenticates.
So do not send alert notifications until
we know the bind status (and system_id)
Change-Id: Iec92d4c145ca050c2e212139572eeaae581b99df
Since vsub->sgs.mme_name is allocated statically, comparing it
to null doesn't make sense - it's always != NULL.
Change-Id: Ib2933a20471ebff9dfe1d9fdddf39d177504c951
Fixes: CID#178166 Array compared against 0 (NO_EFFECT)
Comparing an array to null is not useful, because the expression
will always evaluate as true. Let's just always write SGs server
address and VLR name, no mater whether default values are used
or not, same as we do for the HLR address and port.
Change-Id: If045e42fca0315b0777eb86c44bf934ce58b340b
Fixes: CID#190871 Array compared against 0 (NO_EFFECT)
The SGS_STATE_TS11 is not for counters, it's for timers!
Change-Id: Ifbb1a37e644ae8bf8e7959f6f6cd6403ac1f2f1b
Fixes: CID#190872 Out-of-bounds read (OVERRUN)
It may happen that either the MS or an EUSE would become
unresponsive during a call independent SS session, e.g.
due to a bug, or a dropped message. In such cases, the
corresponding transaction would remain unfreed forever.
This change introduces a guard timer, that prevents keeping
'stalled' NCSS sessions forever. As soon as it expires, both
sides (i.e. MS and EUSE) are getting notified, and the
transaction is being released.
By default, the timer expires after 30 seconds. As soon as
either the MS, or an EUSE initiates any activity,
the watchdog timer is rescheduled.
The timeout value can be configured from the VTY:
msc
...
! Use 0 to disable this timer
ncss guard-timeout 30
Please note that changing the timeout value at run-time
doesn't affect the existing NCSS sessions, excepting the
case when the timer is disabled at run-time.
This change makes TC_lu_and_ss_session_timeout pass.
Change-Id: Icf4d87c45e90324764073e8230e0fb9cb96dd9cb
Related Change-Id: (TTCN) I3e1791773d56617172ae27a46889a1ae4d400e2f
Related: OS#3655
For some reason the existing code was using msgb_hexdump_l2() while the
L2 header is not used by the BSSAP transmit code. Let's fix this.
Change-Id: I52a1eb3a867ece63fcfa4c2a720d035ebfb90a7b
We don't want multiple callers to osmo_sccp_tx_data_msg() each having
to hex-dump a log message about the to-be-transmitted message, with
half of the caller sitest missing that printing. Let's centralize
all calls of osmo_sccp_tx_data_msg() in a wrapper function which
takes care of the related OSMO_ASSERT() and the related printing.
Change-Id: I6159ea72cc8e0650eda6c49544acd65e9c15e817
According to GSM 04.07, the TI flag takes one bit and can be
either of the following:
'0'B - transaction is allocated by sender of a message,
'1'B - transaction is allocated by receiver of a message.
Since we store transaction ID in gsm_trans structure, we also store
TI flag (as a part of transaction ID), which in this context means:
'0'B - transaction is allocated by us (OsmoMSC),
'1'B - transaction is allocated by some MS.
In 100% cases, trans_assign_trans_id() is used to assign transaction IDs
to transactions allocated by us (i.e. OsmoMSC) for MT connections. And
there is no need to use it for MO transactions, because they basically
already do contain a valid transaction ID assigned by the MS.
Change-Id: Ie11999900b1789652ee078d34636dcda1e137eb0
The connection ref-counting implementation is specific to RAN
connections, and is not applicable for anything else. Moreover,
the API of this code is declared in 'ran_conn.h', so let's
move the code to a more logical place.
Change-Id: I593675d9bf56eaef12afdaf596ee1337b9a44259
According to GSM 04.80, section 2.5.1, Release complete message
may have an optional Cause IE. Let's add a new function, that
allows to specify cause location and value.
This function will be used by the upcoming changes.
Change-Id: I3b9e8e4f473d113d5b9e9e5d33f7914202077203
Depends Change-Id: (libosmocore) Ie3ac85fcef90a5e532334ba3482804d5305c88d7
The previous implementation of msc_send_ussd_release_complete() was
based on gsm0480_create_ussd_release_complete(), that doesn't
allow to specify GSM 04.07 transaction identifier.
The ability to specify particular transaction identifier
is required for handling multiple SS/USSD transactions.
Change-Id: Id2975c3383f18e83124ba38927c03980d67ddadb
Depends Change-Id: (libosmocore) Ie3ac85fcef90a5e532334ba3482804d5305c88d7
When a call ends that has been established in an CSFB context, we should
add a CSFB Indication IE to the BSSMAP CLEAR COMMAND to instruct the BSC
to add further CSFB related IEs into the RR RELEASE.
- Check if an SGs association exists and add CSFB Indication IE
Change-Id: I6cfa4b3becdd0138d74e2e1eddd83a0b1568c1de
Related: OS#3778
Add an SGs interface (3GPP TS 29.118) to osmo-msc in order to support
SMS tunneling and Circuit Switched Fallback (CSFB)
Change-Id: I73359925fc1ca72b33a1466e6ac41307f2f0b11d
Related: OS#3615
Initially, it was assumed that if there is no active RAN connection,
we can just start counting from 0x00, as there are no other SMS
related transactions, and transaction itself is allocated using
talloc_zero(). Until now it was looking good, but...
As soon as we establish RAN connection with subscriber, we already
have a transaction with SM-RP-MR 0x00, but conn->next_rp_ref also
remains 0x00 - it isn't being increased!
It means that we can face a SM-RP-MR conflict (or collision) if
another MT SMS would arrive to the MSC (from SMSC over GSUP)
when this transaction is still active, i.e. the first SMS is
still being sent, because conn->next_rp_ref++ would
return 0x00 again.
Moreover, there might be already a MO SMS transaction, and using
the conn->next_rp_ref counter wouldn't prevent us from having
duplicate SM-RP-MR value.
Let's get rid of this per-connection counter, and introduce a
function instead, that would iterate over existing transactions
and look for an unused SM-RP-MR value.
This change makes the following test cases pass:
- TC_gsup_mt_sms_rp_mr,
- TC_gsup_mo_mt_sms_rp_mr.
Discovered by: Neels Hofmeyr
Related Change-Id: (TTCN) I3a52d44f4abde9b6b471b9108c1cee905884c9bc
Related Change-Id: (TTCN) I17cbbaa64d9bce770f985588e93cd3eecd732120
Change-Id: Ife6d954c46b7d8348a4221ab677d0355eb3ee7ac
Previously, SM-RP Message Reference was assigned to MT transactions
only, but not to MO transactions. As a result, this could lead to
having a few transactions with duplicate SM-RP-MR value, because
in case of MO SMS, trans->sms.sm_rp_mr would remain 0x00.
Let's parse SM-RP-MR from MO SMS messages in gsm0411_rcv_sms(),
and assign it to the new transaction after allocation.
Change-Id: I4d07354175444f9764fb0dd6ea188a64494d79fe
The need to pass a pointer to RAN connection in order to find
a transaction limits possible use cases of trans_find_by_sm_rp_mr(),
e.g. when we need to find a transaction, but RAN connection is not
established yet.
Moreover, the pointer to RAN connection was only used to obtain
pointers to gsm_network and vlr_subscr, so we can just
pass them directly.
Change-Id: I093f36d63e671e50e54fc6236e97a777cc6da77b
Log transaction allocation errors as such. While at it, use proper
subsystem to log missing VLR subscriber.
Change-Id: I617be8793b9416ccd49022c72f7d93df7f4fb4d9
After libosmocore commit
If1e851ac605c8d2fde3da565b0bd674ea6350c2e
b27e6feb699712345373e87a48187dc622e4fa92
the osmo-msc master build is broken.
Apply the msgb_wrap_with_TL() rename to msgb_push_tl() to unbreak the build.
Change-Id: I1d4675e0c907b2f92f2ec79b02356391a6d72aa8
After recent changes to vlr_subscr_name() result became variable-length
which messes up old vty code. Fix this by moving it to the very end and
adjusting headers as necessary. While at it, make sure we don't print
headers if we have nothing else to show.
Change-Id: Id06b4277ff790d95457d0cc2f94ef6bf5366bb21
Adds (no) alert-notifications as a per-esme vty command,
in order to allow some ESMEs to be excluded from alerts.
The default is still to send alert notifications to all esme,
so no changes are required to the config file to maintain
identical operation after this patch.
Change-Id: I57f4d268ca6fe6a233f2caaffce62e4aade01274
Move code which allocates transaction for SMS and initializes
corresponding FSM into separate function (shared by MT and MO code
paths) to avoid code duplication and simplify further modifications.
Change-Id: I3563e11bebb58e656592df2ff7db96f41deaf735
The likely reason why it was disabled is due to
paging_cb_mmsms_est_req() logging pointers which results in unstable log
output. Fixing this allows us to track SMS-related regressions properly.
Change-Id: I44ae817d9edb73d182ff33ff5a2fd942e224e344
The pointers conn, conn->vsub and conn->vsub->last_tuple are checked,
but before the check those pointers are already dereferenced during
assignment. This defeats the purpose of the check. Lets dereference
those pointers after the check.
Fixes: CID#190404
Change-Id: Ice4992606f3799eac13154ec0b9f53e46d2e178e
Instead of
MGW(MGW_99)
use a name of
msc-mgcp(MSISDN:2331_GERAN_A:00000017_trans99)
1. The FSM is communication towards an MGW, not the MGW itself. When reading
combined logging (gsmtap_log), it is confusing to read 'MGW' in a log coming
from the MSC. The API is also called msc_mgcp_*.
2. Calling the FSM instance 'MGW_' again doesn't make sense.
3. Indicate 'trans' before the trans_id (trans_id was already shown, but not
indicated what it was).
4. Also indicate the actual subscriber's identification.
5. Also indicate the RAN connection and conn_id.
This comes up while trying to understand a call coming in on an already
established call: parsing the log with a human brain is near torture without
this info, taking extremely long to get grips on.
Change-Id: Ie5fc1ffb7eba0209fee4666a075655cd24d27473
ran_conn_get_conn_id(): instead of a talloc allocated string, return a static
buffer in ran_conn_get_conn_id(). So far this function had no callers.
Refactor ran_conn_update_id() API: during early L3-Complete, when no subscriber
is associated yet, update the FSM Id by the MI type seen in the L3 Complete
message: ran_conn_update_id_from_mi(). Later on set the vsub and re-update.
Call vlr.ops->subscr_update when the TMSI is updated, so that log context
includes the TMSI from then on.
Enrich context for vlr_subscr_name and ran_conn fi name.
Include all available information in vlr_subscr_name(); instead of either IMSI
or MSISDN or TMSI, print all of them when present. Instead of a short log,
rather have more valuable context.
A context info would now look like:
Process_Access_Request_VLR(IMSI-901700000014706:MSISDN-2023:TMSI-0x08BDE4EC:GERAN-A-3:PAGING_RESP)
It does get quite long, but ensures easy correlation of any BSSAP / IuCS
messages with log output, especially if multiple subscribers are busy at the
same time.
Print TMSI and TMSInew in uppercase hexadecimal, which is the typical
representation in the telecom world.
When showing the RAN conn id
GERAN_A-00000017
becomes
GERAN-A-23
- We usually write the conn_id in decimal.
- Leading zeros are clutter and might suggest hexadecimal format.
- 'GERAN-A' and 'UTRAN-Iu' are the strings defined by osmo_rat_type_name().
Depends: I7798c3ef983c2e333b2b9cbffef6f366f370bd81 (libosmocore)
Depends: Ica25919758ef6cba8348da199b0ae7e0ba628798 (libosmocore)
Change-Id: I66a68ce2eb8957a35855a3743d91a86299900834
When a CM Service Req is being rejected, we should do so before changing the
state of the current conn.
Concerning multiple CM Service Requests: in fact we should store multiple
requests, but first fix the status quo of rejecting multiple requests.
Change-Id: I39209ee6662694aa054a2fc0d21eae76fb33e2f1
For each conn, set a default logging category, to distinguish categories for
BSSMAP and RANAP based conns.
LOG_RAN_CONN(): log with the conn's default category,
LOG_RAN_CONN_CAT(): log with a manually set category (mostly for keeping
previous DMM logging on the same category).
In some places, replace LOGP() using manual context with LOG_RAN_CONN(), and
remove the manual context info, now provided by the conn->fi->id.
This is loosely related to inter-BSC and inter-MSC handover: to speed up
refactoring, I want to avoid the need for manual logging context and just use
this LOG_RAN_CONN().
Change-Id: I0a7809840428b1e028df6eb683bc5ffcc8df474a
In gsm0911_rcv_nc_ss() we sometimes use pdisc parsed from msgb and
sometimes constant. This function is only called when protocol
discriminator is GSM48_PDISC_NC_SS so there's no point in parsing it
again from msgb.
Let's make it consistent and always use constant.
Change-Id: Iae40bf9906fe676ff817c709120015fca4c9e042
Remove "0 =", "1 =" in-front of the boolean descriptions of
auth-tuple-reuse-on-error. The online VTY doc and the pdf manual
prepend the value automatically.
Change-Id: Ifd14c2fb3f58701eaf66570d729a660233fb83ed
Rationale: reading pcaps becomes so much easier when each of osmo-bsc and
osmo-msc address their MGW with differing domain names. Otherwise, both will
have a '0@mgw' endpoint and it gets really confusing.
After this, with according configuration, there can be a '0@bsc' and a '0@msc'
endpoint.
osmo-mgw-for-msc.cfg:
mgcp
domain msc
osmo-msc.cfg:
msc
mgw endpoint-domain msc
Depends: Ia662016f29dd8727d9c4626d726729641e21e1f8 (osmo-mgw)
Change-Id: I87ac11847d1a6d165ee9a2b5d8a4978e7ac73433
Replace locally defined enum ran_type with libosmocore's new enum
osmo_rat_type, and value_string ran_type_names with osmo_rat_type_names.
The string representations change, which has cosmetic effects on the test suite
expectations.
Depends: I659687aef7a4d67ca372a39fef31dee07aed7631 (libosmocore)
Change-Id: I2c78c265dc99df581e1b00e563d6912c7ffdb36b
during code review, I completely overlooked this:
We've added the 'ipa-name', which identifies the MSC on the GSUP link to the
HLR, under the 'msc' section, while all other GSUP/HLR related config is under
the 'hlr' section.
Before we roll that out in a release, move it over to 'hlr'.
Related: OS#3355
Change-Id: I1a572865aa90c5fa43c6f57282a6e2b06776e425
If Assignment fails in the BSC, trigger an EV_TEARDOWN_ERROR in the mgcp_ctx
FSM instance, so that the call gets torn down immediately. Before this, the
non-call would idle around without anything happening.
Related: OS#3236
Depends: I11b182a03f5ecb6df7cd8f260757d3626c8e945d (libosmocore)
Change-Id: I358cfbaf0f44f25148e8b9bafcb9257b1952b35a
If a call is already busy and another call is coming in, do not try to
immediately assign an lchan (before this patch, it fails because there already
is an mgcp_ctx for the conn). Leave the second CC transaction waiting.
When a call is hung up, as soon as the old mgcp_ctx is discarded, look for
other CC transactions that are waiting. If there is one, trigger assignment, so
a new mgcp_ctx is set up for the new call.
This fixes the following scenario:
- from A, call B.
- from C, call B; B rings during ongoing call.
- in B, pick up the call, choose to drop the old call.
After this patch, and with osmo-bsc patch with change-id
I0c00ec2c120e5008281755adcd4944a3ce4d8355
we are now able to talk to the new caller.
I currently haven't tested yet what happens if there is *three* peers trying to
talk to the same number, running out of lab phones (not really, just not
bothering now). Possibly we should be taking over the particular call indicated
by the CC TI; instead, the current patch version takes on whichever waiting
call it finds first. This is fine if *one* additional call comes in on an
ongoing call, and this is already a huge improvement to what we had before.
Related: OS#3735
Change-Id: I0ba216b737909e92080a722db26e3577726c63cb
The flag is set to true when an assignment has been started, and it is only
relevant for a CC transaction. So fix naming and place in cc struct.
Cosmetic preparation for I1f8746e7babfcd3028a4d2c0ba260c608c686c76 and
I0ba216b737909e92080a722db26e3577726c63cb/
Change-Id: I8dacf46141ba0b664e85b0867ade330c97d8495f
Various places in the code check a flag whether assignment was started and
launch it. To fix incoming-call-during-ongoing-call, I will tweak that logic.
To be able to do that only in one place, remove code dup.
Cosmetic preparation for I1f8746e7babfcd3028a4d2c0ba260c608c686c76 and
I0ba216b737909e92080a722db26e3577726c63cb/
Depends: I11b182a03f5ecb6df7cd8f260757d3626c8e945d (libosmocore: LOGPFSMSL)
Change-Id: I11c0b7dc3f1a747028629b48e522bb3b864884ba
In rare cases, a conn is already associated with a subscriber. So far, we
abort()ed on that, bringing the entire osmo-msc down. Rather log an error and
keep the service running.
In vlr.ops.subscr_assoc, add success/failure return value, and abort the
LU/PARQ on error.
I haven't figured out in detail yet why/how a subscriber would re-launch a
LU/PARQ on a conn that is already associated, so far it is merely clear that we
do not want to crash the MSC if that happens. A log is in OS#3742.
Related: OS#3742, OS#3743
Change-Id: Ic0d54644bc735700220b1ef3a4384c217d57d20f
Do not break the currently ongoing call when rejecting a second incoming
caller.
There may be multiple (up to seven) simultaneous CC transactions, and there is
one mgcp_ctx for the currently active RTP stream.
Release the MGCP context only when the active CC transaction is releasing.
Before this patch, any CC transaction release would destroy the single MGCP
context, possibly breaking the currently ongoing call (another CC trans).
This also fixes a possible use-after-free if there were pending MGCP message
responses for the MGCP context; they are canceled properly for a released
transaction, but since one transaction would free the other transaction's MGCP
state, the clean up did not take place and possibly caused an mgcp client
response handling to access a freed mgcp_ctx.
Related: OS#3735
Change-Id: I1f8746e7babfcd3028a4d2c0ba260c608c686c76
Use local variables instead of writing trans->conn-> all the time.
Cosmetic preparation for I1f8746e7babfcd3028a4d2c0ba260c608c686c76 and
I0ba216b737909e92080a722db26e3577726c63cb/
Change-Id: I99717b3b72a9d7cbc95455ea25b2018ec1755308
As a rudiment of OsmoNiTB, OsmoMSC is still involved in SMS
processing, storage (in SQLite DB), and routing (via SMPP).
In real networks this is done by the external entity called
SMSC (SMS Centre), while the MSC is doing re-encapsulation
of GSM 04.11 SM-TL (Transport Layer) payload (i.e. TPDU)
between SM-RL (Relay Layer) and MAP.
Since OsmoMSC itself is not a 'Network in The Box' anymore, it
makes sense to replicate the 'traditional' behaviour of MSC.
The problem is that this behaviour cannot co-exist with the
current implementation, so the key idea is to rip out the
local SMS storage and routing from OsmoMSC, and (re)implement
it in a separate process (OsmoSMSC?).
As a temporary solution, this change introduces a 'kill-switch'
VTY option that enables routing of SMS messages over GSUP
towards ESME (through VLR and HLR), but breaks the local
storage and routing. This is why it's disabled by default.
As soon as we move the SMS processing and storage away from
OsmoMSC, this behaviour would be enabled by default, and
the VTY option would be hidden and deprecated. At the moment,
this option basically does nothing, and will take an effect
in the follow-up changes.
Change-Id: Ie57685ed2ce1e4c978e775b68fdffe58de44882b
Related: OS#3587
We can check if we're parsing the config file by checking
whether vty->type equals VTY_FILE. This avoids the use of
an extra local variable to track the parsing state.
Change-Id: I85161575e025f7c389832427a434bd8e2d6ecc75
Fixes: 1051c42088
Related: OS#3355
When the VLR subscriber information is shown on the VTY it shows IMSI
and TMSI, but not IMEI and IMEISV. Since in some cases this information
might be helpful, lets display it as well.
Change-Id: Iedd75dbb9850388ec1fedb984ed0b8bf4c62e780
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
the control interface command subscriber-list-active-v1 contains a stray
debug printf, lets remove it.
Change-Id: I085cf7b4a45708ccb883f70f71f4fbcfda58d332
Count COMPLETE and REJECT messages. Besides general troubleshooting
that's also useful for TTCN-3 tests to check that OsmoMSC processed
those messages as expected.
Change-Id: I5822b2b38b64f1a691b26c926a8e2bece21dc624
Related: OS#3187
The external MNCC handler may hang indefinitely in cases where the remote
end of the MNCC ceases to work properly. Add a global guard timer to
make sure the call reaches ACTIVE state.
Change-Id: I7375d1e17cd746aac4eadfe1e587e82cf1630d3d
Related: OS#3599
The function _handle_error() initalizes a struct gsm_mncc variable
on startup. The initalization accesses mgcp_ctx->trans->callref. All
this is done before the assertion on mgcp_ctx. Later in the code one
finds an if which tests on mgcp_ctx->free_ctx. This is the only part of
the code that accesses the mncc struct variable. We should move the
initalization there as well.
- Move initalization of struct gsm_mncc mncc into the if body
that uses it.
Change-Id: I86983eabd999c4275dcc0e4a169ef2aa1e33c747
Related: OS#3635
Move code which needs to test the mgcp_ctx->free_ctx flag upwards
such that it runs before we're calling functions which will
potentially free mgcp_ctx. The code being moved up takes effect
only in case mgcp_ctx won't be freed, so there should be no
functional difference.
Change-Id: I5df17c19e2a68c019f7eaf582b14585caa54b32a
Related: OS#2885
At the moment osmo-msc populates the member ip in struct gsm_mncc_rtp
with the wrong byte ordering. This causes LCR or
osmo-sip-connector to receive the IP address in the wrong order, which
eventually leads into a reversed IP address in the SDP part of the SIP
messages.
Change-Id: I86148179b549b511528e4c65213eb6c204cc609e
Related: OS#3431
This recent patch moves Classmark storage to the VLR subscriber, and introduced
a segfault when a Classmark Update is received during IMSI detach:
commit 986fe7ed18
change-id I27081bf6e9e017923b2d02607f7ea06beddad82a
Mon Sep 17 01:12:13 2018 +0200
"store classmark in vlr_subscr, not conn"
It assumed that we would never accept any Classmark Update messages unless we
also have a valid subscriber for it. Well, that is proven wrong by the
ttcn3-msc-test TC_imsi_detach_by_imsi(), which brings osmo-msc to its knees.
Fix: in case of no valid vlr_subscr being present, store Classmark in the conn
temporarily, and copy any received Classmark to VLR subscriber as soon as it
gets associated with the conn (if at all).
Change-Id: Ib2a2ae6bf86e8f29fc6751a8b5cdb7187cd70290
When the VLR requests a Ciphering Mode with vlr_ops.set_ciph_mode(), and if we
need a ciph algo flag from a Classmark information that is not yet known
(usually CM 2 during LU), send a BSSMAP Classmark Request to get it.
To manage the intermission of the Classmark Request, add
- msc_classmark_request_then_cipher_mode_cmd(),
- state SUBSCR_CONN_S_WAIT_CLASSMARK_UPDATE,
- event SUBSCR_CONN_E_CLASSMARK_UPDATE.
From state AUTH_CIPH, switch to state WAIT_CLASSMARK_UPDATE. Once the BSSMAP
Classmark Response, is received, switch back to SUBSCR_CONN_S_AUTH_CIPH and
re-initiate Ciphering Mode.
To be able to re-enter the Ciphering Mode algo decision, factor it out into
msc_geran_set_cipher_mode().
Rationale:
In the following commit, essentially we stopped supporting A5/3 ciphering:
commit 71330720b6
"MSC: Intersect configured A5 algorithms with MS-supported ones"
Change-Id: Id124923ee52a357cb7d3e04d33f585214774f3a3
A5/3 was no longer supported because from that commit on, we strictly checked
the MS-supported ciphers, but we did not have Classmark 2 available during
Location Updating.
This patch changes that: when Classmark 2 is missing, actively request it by a
BSSMAP Classmark Request; continue Ciphering only after the Response. Always
request missing Classmark, even if a lesser cipher were configured available.
If the Classmark Update response fails to come in, cause an attach failure.
Instead, we could attempt to use a lesser cipher that is also enabled. That is
left as a future feature, should that become relevant. I think it's unlikely.
Technically, we could now end up requesting a Classmark Updating both during LU
(vlr_lu_fsm) and CM Service/Paging Response (proc_arq_fsm), but in practice the
only time we lack a Classmark is: during Location Updating with A5/3 enabled.
A5/1 support is indicated in CM1 which is always available, and A5/3 support is
indicated in CM2, which is always available during CM Service Request as well
as Paging Response. So this patch has practical relevance only for Location
Updating. For networks that permit only A5/3, this patch fixes Location
Updating. For networks that support A5/3 and A5/1, so far we always used A5/1
during LU, and after this patch we request CM2 and likely use A5/3 instead.
In msc_vlr_test_gsm_ciph, verify that requesting Classmark 2 for A5/3 works
during LU. Also verify that the lack of a Classmark Response results in attach
failure.
In msc_vlr_test_gsm_ciph, a hacky unit test fakes a situation where a CM2 is
missing during proc_arq_fsm and proves that that code path works, even though
the practical relevance is currently zero. It would only become interesting if
ciphering algorithms A5/4 and higher became relevant, because support of those
would be indicated in Classmark 3, which would always require a Classmark
Request.
Related: OS#3043
Depends: I4a2e1d3923e33912579c4180aa1ff8e8f5abb7e7 (libosmocore)
Change-Id: I73c7cb6a86624695bd9c0f59abb72e2fdc655131
Store all Classmark information in the VLR.
So, we now always know the Classmark 1 (mandatory IE for LU). This is visible
in the msc_vlr_tests -- they no longer indicate "assuming A5/1 is supported"
because classmark 1 is missing, because we now know the Classmark 1.
Rationale:
During Location Updating, we receive Classmark 1; during CM Service Request and
Paging Response, we receive Classmark 2. So far we stored these only for the
duration of the conn, so as soon as a LU is complete, we would forget CM1.
In other words, for anything else than a LU Request, we had no Classmark 1
available at all.
During Ciphering Mode Command, we rely on Classmark 1 to determine whether A5/1
is supported. That is moot if we don't even have a Classmark 1 for any CM
Service Request or Paging Response initiated connections.
The only reason that A5/1 worked is that we assume A5/1 to work if Classmark 1
is missing. To add to the confusion, if a phone indicated that it did *not*
support A5/1 in the Classmark 1, according to spec we're supposed to not
service it at all. A code comment however says that we instead want to heed the
flag -- which so far was only present in a Location Updating initiated
connection. Now we can make this decision without assuming things.
This got my attention while hacking on sending a BSSMAP Classmark Request from
the MSC if it finds missing Classmark information, and was surprised to see it
it lacking CM1 to decide about A5/1.
Change-Id: I27081bf6e9e017923b2d02607f7ea06beddad82a
For networks without Authentication, the conn is already accepted when
SUBSCR_CONN_E_COMPLETE_LAYER_3 is emitted. Mute that misleading error message.
All is actually fine.
Adjust expected test logs.
Change-Id: I2d19d0a7cf3226ee1456f75a68e007ba98232402
lchan_type was removed from gsm_mncc and the hello message
on initial import from legacy OpenBSC in
Change-Id: Id3705236350d5f69e447046b0a764bbabc3d493c
This patch follows on from Change-Id: Ia02373a36df7605507ee3de49173a9fd6547b726
which reintroduced lchan_type to the gsm_mncc struct.
This patch restores the lchan_type_offset to the hello protocol message
Without this patch, LCR will issue an error and disconnect from the MNCC socket.
Change-Id: I65312082fa5dc0721170f923840e992ef9481a63
Closes: OS#3461
When the assignment completes a choosen codec is returned. At the
moment we do not use this information.
- add struct members for codec info (both, RAN and CN)
- parse codec info in BSSMAP ASSIGNMENT COMPLETE
- use codec info on mgcp
Since the MNCC API is not complete yet, we currently only use the
codec info only on the internal MNCC yet.
Change-Id: I9d5b1cd016d9a058b22a367d0e5e9f2ef447931a
Related: OS#2728
osmo-hlr has recently (as of Change-Id
Iad227bb477d64da30dd6bfbbe1bd0c0a55be9474) a working shared library
implementation of libosmo-gsup-client.
We can remove the local implementation in osmo-msc and use the
system-installed shared library instead.
Change-Id: I6f542945403cf2e3ddac419186b09ec0e2d43b69
Since we don't process SS/USSD requests in OsmoMSC anymore, there
are some useless GSM 04.80 functions remained from the past.
In particular, this change does the following:
- removes both gsm0480_send_{ussd_response|return_error}
functions because they are not used anymore;
- changes symbol prefix from 'gsm0480_' to 'msc_', in order to
avoid possible conflicts with the libosmogsm's GSM 04.80 API;
- cleans up useless includes;
Change-Id: I2990d8627bce0ce6afb1dcf6b11bb194292380d3
This change introduces some new rate counters for call-independent
SS/USSD connections. As OsmoMSC doesn't handle the messages itself,
and only responsible for dispatching messages between both
A and GSUP interfaces, the following is taken into account:
- MS-initiated and network-initiated requests to establish
a NC SS/USSD session (transaction) - "nc_ss:m{o|t}_requests";
- successfully established MS-initiated and network-initiated
SS/USSD sessions (transactions) - "nc_ss:m{o|t}_established".
Change-Id: I23c9475abc9951d82f3342fdc5aaa367836f7741
According to GSM TS 02.90, section 4.3, release of the connection
used for SS/USSD is normally the responsibility of the network.
But the user may also initiate connection release, e.g. by
pressing the 'red button'.
TTCN-3 test case: I7936ed5072ed2ae02f039dc90a1fece1e7f70a70
Change-Id: I76fc277bf9db614a97824b1541cd5bb75aa3e29d
This change introduces a possibility to establish network-initiated
SS/USSD transactions with a subscriber in either IDLE, or DEDICATED
state. In the first case, a new transaction is established using
Paging procedure. If a subscriber already has an active connection,
a separate new transaction is established.
TTCN-3 test case: I073893c6e11be27e9e36f98f11c1491d0c173985
Change-Id: Ief14f8914ef013bd6efd7be842f81fbf053f02e2
In order to be able to support external SS/USSD gateway, we should
not terminate the GSM 04.80 messages at OsmoMSC. Instead, we need
to follow the GSM TS 09.11 specification, and forward all messages
unhandled by OsmoMSC to OsmoHLR over GSUP protocol.
This change implements forwarding of MO SS/USSD messages. The
forwarding assumes transcoding between GSM 04.80 messages and
GSUP messages. The payload of Facility IE is carried 'as is'.
As a side-effect, this will disable the osmo-msc internal handler
implementing the "*#100#" for obtaining the subscribers own phone
number. In order to re-gain this functionality, you will need a
modern osmo-hlr (Change-Id I1d09fab810a6bb9ab02904de72dbc9e8a414f9f9)
and the following line in your osmo-hlr.cfg:
hlr
ussd route prefix *#100# internal own-msisdn
TTCN-3 test case: I01de73aced6057328a121577a5a83bc2615fb2d4
Change-Id: Ide5f7e350b537db80cd8326fc59c8bf2e01cb68c
Some internal sub-systems, such as SS/USSD or SMS implementation,
may also need to use GSUP connection with HLR. Previously, it was
only available within the libvlr code, and nowhere else.
Let's introduce the generic GSUP message router, which will
receive messages unhandled by VLR itself, and route them to
a handler depending on the message type.
Change-Id: Ib8146ce5788c8f249dcaa39d61bd0388574bf892
The CC sub-layer is fairly self-contained, so let's move it to
a separate C source file. The old gsm_04_08.c file now only
contains the 04.07 / DTAP core and MM sub-layer handling.
I did this initially as an experiment to see how self-contained
our CC implementation really is. Given this rather straight-forward
patch builds fine, CC really is self-contained (yay!).
Change-Id: Idb8dd7a8d9d8b4a28c492f12da3cc3305b695cca
There is no need to pass a pointer to a ss_request struct when
calling the gsm0480_send_ussd_* functions, because they only
use both transaction ID and InvokeID from there, which may
be passed directly.
This change allows one to use this API without parsing the
whole GSM 04.80 message, or when parsing is failed. Moreover,
if InvokeID is not available, one can pass any incorrect,
(e.g. negative) value, so the universal NULL tag will be used.
Finally, setting a TI flag is also up to the caller.
Change-Id: I13d5abbfdcf8238ebaf0566c420f09cd9255b648
Previously it was intended that we are always parsing the
whole GSM 04.80 message, including the Invoke ID. But
there is no need to do that, since we are going to
forward the Facility IE payload to HLR in near future.
Moreover, there was a mistake (my bad) - transaction is
being established before parsing of the message, so the
req structure remains uninitialized until that.
Let's just send RELEASE COMPLETE message without any Cause or
Facility IEs. We could indicate a problem using the first one,
but according to GSM TS 04.80, the Cause IE only makes sense
when "its functional handling is specified in the service
description or GSM TS 09.11".
Change-Id: Iecba2dccada9bbcdeb3a9dfd868719aeedc07022
This function could be also used by other parts of code, e.g.
by gsm_04_11.c or by gsm_09_11.c, during initialization of
a new transaction. No need to hide it.
Change-Id: I9a9d17fca4901163dae10d76455aa4cf54497156
During a long time, we had both file and symbol names, actually
related to Supplementary Services, with the 'ussd' abbreviation.
This is not absolutely wrong, but isn't correct at the same time.
USSD is a kind of Supplementary Services, this is only a part
of them. There are also 'structured' Supplementary Services,
which can be call related or call independent.
The "Signalling interworking for supplementary services" is
defined by GSM TS 09.11, and this is exactly what MSC should
implement. Let's use the specification number for naming, as
we do e.g. in the GSM 04.11 (SMS) implementation.
Change-Id: Ic1eaceddb58132318e4e941be542da34b8ebefe1
A subscriber may have a few active transactions at the same time.
For example, one can receive SMS messages during a call, or during
an active SS/USSD session.
We already have connection ref-counting and transactions for CC
and SMS, so let's also use both for SS/USSD.
Change-Id: I21c6777cb88f1f4f80f75dcd39734e952bd4e8b0
Previously the MSC_CONN_USE token for Supplementary Services was
called 'MSC_CONN_USE_TRANS_USSD'. Non-call related Supplementary
Services is not only about USSD, so let's rename it.
Change-Id: I5b3517c87a32fa64dea6b0c912f2b76c5c25a112
There are error and problem codes defined by GSM TS 04.80:
- Error codes are used when a message is structured correctly,
but something is wrong in context of the current operation.
Usually they are carried by 'Return Error' component.
- Problem codes are used when something is wrong with the
message structure, or with carried values. They are
carried by 'Reject' component.
There are three groups of them (see table 3.13):
- General Problem Codes (table 3.14),
- Invoke Problem Codes (table 3.15),
- Return Result Problem Codes (table 3.16),
- Return Error Problem Codes (table 3.17).
The first group is general purpose, and can be sent in
response to any kind of message, excluding 'Reject' itself.
Other ones are bound to specific component types, such as
'Invoke', 'Return Result' and 'Return Error'.
For some reason, a 'Reject' component with the general problem
code 'GSM_0480_GEN_PROB_CODE_UNRECOGNISED' was always used in
OsmoMSC. Even when the message structure is correct.
Let's properly indicate errors in the following way:
- 'Reject' with GSM_0480_GEN_PROB_CODE_UNRECOGNISED
when the gsm0480_decode_ss_request() fails to decode
a message. It can only return 0 or 1, so it's hard to
guess which exact part of message caused the error.
- 'Return Error' with GSM0480_ERR_CODE_ILLEGAL_SS_OPERATION
when the operation code is not related to USSD.
- 'Return Error' with GSM0480_ERR_CODE_UNEXPECTED_DATA_VALUE
when the requested USSD code is unhandled (not supported).
There is a TTCN-3 testcase for this:
https://gerrit.osmocom.org/9470/
Change-Id: I800e7ec98dc9d0bca2d45a8b8255d60253d63e14
Since change If9a81d057f73150e483286472e73c45e7a453a6d removes the
RTP loopback at the beginning. This also means that the Hack we
do to run the IuUP negotiation via looping back the first few
RTP packets will not work anymore. However, we should keep that
hack as long as we do not have IuUP support in the MGW.
- Start RTP connection in loopback mode for IuUP
Change-Id: I4c7d90de4dc87e8baf7cf4a0c69d0e9e8c92e27b
Remove subscribers which fail to send periodic Location Updates from the
list of subscribers known to the VLR. This complements the IMSI detach
procedure: periodic LU expiry triggers an implicit IMSI detach.
Expired subscribers are purged from a periodic timer which iterates
over all subscribers once per minute.
Subscribers with an active connection do not expire. This is controlled
by the subscriber conn FSM which sets a subscriber's the LU expiry timeout
value to GSM_SUBSCRIBER_NO_EXPIRATION while a connection is active.
Add support for fake time with osmo_clock_gettime() to msc_vlr tests.
This functionality existed in OpenBSC but was lost during the nitb split.
This code took some inspiration from the OpenBSC implementation.
Related: OS#1976
Change-Id: Iebdee8b12d22acfcfb265ee41e71cfc8d9eb3ba9
a_reset.c/h was originally developed to be used in both, bsc and
msc without changes. Unfortunately no suitable library has been
found for a_reset.c/h so the file ended up as duplicated code in
both split brances. Eventually we decided to specialize the
generalized code again, which means some of the functions needed
only by osmo-bsc are removed.
- Remove dead code
- Fix timer identification number (T16)
- use fi->priv to hold context info
- Minor cosmetic fixes
Change-Id: I8e489eb494d358d130e51cb2167929edeaa12e92
Depends: libosmocore I36d221c973d3890721ef1d376fb9be82c4311378
Related: OS#3103
Catched by osmo-gsm-tester running test voice:octphy.
Fixes following AddressSanitizer report:
==18864==ERROR: AddressSanitizer: heap-use-after-free on address 0x61a000016f18 at pc 0x55f1b29eee5c bp 0x7ffdaa2ac000 sp 0x7ffdaa2abff8
WRITE of size 8 at 0x61a000016f18 thread T0
#0 0x55f1b29eee5b in setup_trig_pag_evt osmo-msc/src/libmsc/gsm_04_08.c:1490
#1 0x55f1b2a086c1 in subscr_paging_dispatch osmo-msc/src/libmsc/gsm_subscriber.c:101
#2 0x7fb88e07c1c9 in osmo_timers_update libosmocore/src/timer.c:257
#3 0x7fb88e07f1b1 in osmo_select_main libosmocore/src/select.c:253
#4 0x55f1b29b600b in main osmo-msc/msc_main.c:694
#5 0x7fb88bebe2e0 in __libc_start_main (/lib/x86_64-linux-gnu/libc.so.6+0x202e0)
#6 0x55f1b29b69f9 in _start (osmo-msc/bin/osmo-msc+0xf09f9)
Related: OS#3198
Change-Id: Ie7fdca4d48e247c77a53e81aec2b6bacd8fef678
Take the chance to pass a var of type enum instead, so the compiler
warns us if a new enum value is added. For instance, if we remove
GSM_PAGING_EXPIRED from the switch statement:
src/libmsc/gsm_04_08.c:1463:2: warning: enumeration value ‘GSM_PAGING_EXPIRED’ not handled in switch [-Wswitch]
switch (paging_event) {
^~~~~~
Change-Id: I65d871704b9636c594dc982200fbe7f7ce6784f5
Fixes following error catched by enabling address sanitizer:
==20792==ERROR: AddressSanitizer: heap-use-after-free on address 0x60b000122610 at pc 0x7f9c9c3fe063 bp 0x7ffd2e68f600 sp 0x7ffd2e68edb0
READ of size 11 at 0x60b000122610 thread T0
#0 0x7f9c9c3fe062 (/usr/lib/x86_64-linux-gnu/libasan.so.3+0x3c062)
#1 0x7f9c9beb8ee4 in talloc_strdup (/usr/lib/x86_64-linux-gnu/libtalloc.so.2+0x6ee4)
#2 0x56096a7cf75b in smpp_smsc_conf src/libmsc/smpp_smsc.c:983
#3 0x56096a7cf9df in smpp_smsc_start src/libmsc/smpp_smsc.c:1015
#4 0x56096a7d4935 in smpp_openbsc_start src/libmsc/smpp_openbsc.c:785
#5 0x56096a755ad0 in main src/osmo-msc/msc_main.c:598
#6 0x7f9c9927b2e0 in __libc_start_main (/lib/x86_64-linux-gnu/libc.so.6+0x202e0)
#7 0x56096a756979 in _start (/home/jenkins/workspace/osmo-gsm-tester_run-prod/trial-805/inst/osmo-msc/bin/osmo-msc+0xf0979)
Related: OS#3181
Change-Id: Iaf0d251c8d2912266a087ada4d20905146e08592
The only reason to use int instead of the enum was the lack of header
iu_client.h when not building with Iu support. Rather use the configure result
properly, include the header when Iu support is built and use the proper enum.
Omit the entire iu sub-struct when building without Iu.
Add LIBOSMORANAP_CFLAGS to libvlr, in order to find the iu_client.h header (now
also included from gsm_data.h).
Rationale: Instead of using a questionable typecast from int* to enum*, we can
now use the enum member directly without needing to silence compiler warnings.
Change-Id: Ic9f8bf53f4b605c166e84cd7edd90c10fe7d7a1f
This bug is super obvious: We cannot first call
sms_pending_free(pending) and then in the next line still dereference
the pending->sms_id member.
This bug was introduced in January with Change-Id: I3749855fe25d9d4e37ec96b0c2bffbc692b66a78
and apparently nobody has tested any MT-SMS with asan enabled since?
Change-Id: Ibf17f270cdeb8153036eda3de274dd163bbff7e6
Closes: OS#3152
We set acl->esme during _process_bind(), but we don't clear it
in case the TCP connection for the ESME is dead. This leads to
a stale acl->esme pointer, which we will attempt to dereference
the next time a SMS is delivered to a route pointing to this acl,
where it will be a heap use-after-free.
This was discovered using AddressSanitizer and MSC_Tests.ttcn
Closes: OS#3168
Change-Id: I1f140d7f9c7d89f200ddbcd81a8df66de69fb3e4
Instead of keeping separate enums for FSM results and translating between those
and the actual 04.08 reject causes that will ultimately reach the MS, just pass
enum gsm48_reject_value cause codes around everywhere.
Collapse some VLR *_timeout() and *_cancel() api to just *_cancel() with a
gsm48 cause arg.
(Hopefully) improve a few reject causes, but otherwise just aim for more
transparent decisions on which cause value is used, for future fixes of
returned causes.
Depends: I6661f139e68a498fb1bef10c266c2f064b72774a (libosmocore)
Change-Id: I27bf8d68737ff1f8dc6d11fb1eac3d391aab0cb1
In the subscr_conn_fsm instance's ID, include the Complete Layer 3 type, so
that we can see on the first glance whether a state transition belongs to MO or
MT.
The huge patch is due to the cosmetic change affecting nearly every single log
line in the msc_vlr_tests, by nature of changing the FSM's ID.
Related: OS#3122
Change-Id: I2a7e27e0f16df1872dcda64cb928c3b8528ea3f7