The idea is to have a base static value which is set like before "timer
t3113 [seconds]", but now have a part of this timeout calculated
dynamically based on BTS channel configuration and channel load.
This patch only implements initial support to calculate based on channel
configuration, but doesn't include code to calculate based on channel
load. To implement the later part, we probably need to keep track of BTS
paging queues per paging group, which we don't do nowadays.
Dynamic calculation is enabled by default, and default static base value
is decreased accordingly. This way, in a typical setup were the default
10 seconds were used, now the calculated final value is 11 seconds.
That's intended because it was observed experimentally in osmo-gsm-tester with
a similar channel setup that sometimes paging response can arrive slightly
later than 10 seconds.
Related: OS#3680
Change-Id: I4fb2969b690151415038631fb6ad059aa6835c7f
It will be used further in follow-up patches. It also provides a place
to document its (intricate) logic around it and its possible uses.
Change-Id: Ia1d4bdbfca6b9719f54ee609b6bfadf7f3a4bb43
Set flag lchan->activate.immediate_assignment_sent to true when sending, and
omit a reject after that.
lchan->activate gets completely zeroed in lchan_reset(), which sets that flag
back to false whenever an lchan becomes inactive.
Related: OS#3709
Change-Id: I9ad094d272254d7aee9b0a676201d4ed8cd727ca
Add LCLS variant where the loop is closed on BTS level instead of
MGW. The main difference is the handling of connection-related
messages (we use IPA RSL instead of MGCP), the configuration and
correlation logic remains the same.
Change-Id: I7e8379f31037f2c48da69a01919701919a3066a2
Related: OS#3659
In preparation for upcoming LCLS changes we have to split IPA RSL MDCX
generation into separate function with the ability to set destination
explicitly instead of just using the value from lchan which will be used
in follow-up patches.
Change-Id: Iffe2f4f10e841fc36965cce02b4e5f017a5ae6c8
Related: OS#3659
This signal can be used for tools willing to request and parse Attribute Response
and do something with the information. ipaccess-config tool will use
this signal in later patch Change-Id Ida416a969a3309868d6f4e50f34b34f224c32dd6.
Related: OS#3624
Change-Id: I9a121bbfe1b96904d4e16845abc90bb6ef20d2c9
Some nanoBTS firmwares (if not all) are known to not work properly with
SI2ter. If BSC enables SI2ter through RSL, SI3 bit announcing SI2ter
available will be forwarded by nanoBTS to MS, but will still only send
SI2 message instead of expected SI2ter during TC=5 (see GSM 05.02 sec 6.3.4 "Mapping
of BCCH data"). As a result, some MS won't allow registering to the
network.
To avoid this kind of scenario, enable force-combined-si by default on
nanoBTS while still allowing to overwrite the feature through VTY. Other
BTS models are kept with force-combined-si disabled by default as
usually, since they seems to be working fine when SI2ter is enabled.
Related: OS#3063
Change-Id: Ide6e8967de0eedc9e2bcaf4414aaa537b009d72d
Put all lchan release related flags and settings in a sub-struct named
'release' to better indicate what those fields are for. There is no functional
change.
Change-Id: Icfddc6010e5d7c309f1a7ed3526b5b635ffeaf11
If an lchan is being released and had a SACCH active, there is no reason to
omit the Deact SACCH message ever. All of the callers that passed
do_deact_sacch = false did so for no good reason.
Drop the do_deact_sacch flag everywhere and, when the lchan type matches and
SAPI[0] is still active, simply always send a Deact SACCH message.
The do_deact_sacch flag was carried over from legacy code, by me, mainly
because I never really understood why it was there. I do hope I'm correct now,
asserting that having this flag makes no sense.
Change-Id: Id3301df059582da2377ef82feae554e94fa42035
After commit [1], the code makes sure to disassociate lchan and conn before
invoking the lchan release. However, we only send RR Release if a conn is
present, which clearly is nonsense after [1].
[1] commit 8b818a01b0
"subscr conn: properly forget lchan before release"
Change-Id: I4fd582b41ba4599af704d670af83651d2450b1db
Manage sending of RR Release via a flag, set during invoking lchan release.
Add do_rr_release arg to lchan_release(), gscon_release_lchans(). In
lchan_fsm.c, send RR Release only if do_rr_release was passed true; do not care
whether a conn is still associated (because it won't ever be since [1]).
That way we can intelligently decide what release process makes sense (whether
the lchan terminates the subscriber connection or whether the connection goes
on at another lchan), and still disassociate lchan and conn early.
BTW, this problem wasn't caught by the stock OsmoBSC TTCN3 tests, because the
f_expect_chan_rel() don't care whether an RR Release happens or not. This is
being fixed by Ibc64058f1e214bea585f4e8dcb66f3df8ead3845.
So far this patch should fix BSC_Tests_LCLS.TC_lcls_connect_clear.
Related: OS#3413
Change-Id: I666b3b4f45706d898d664d380bd0fd2b018be358
The function cgi_for_msc() provides an easy way to get a cell global id
for an msc/bts combination. This function is currently statically
defined in gsm_08_08.c. Lets move it to gsm_data.c and make it publicly
available.
Change-Id: I301fac6e83a429ae59b5c586aa283ad7ba54053d
Related: OS#3645
These indicators are a legacy of early handover_decision_2.c work, where there
were no separate handover1 and handover2 config commands. No need to restate
the abundantly obvious anymore.
Change-Id: Id4d29542f7dd5bd125d6f10c7783569f13092612
Print IDs and IPs of recently rejected BTS devices. Example output:
OsmoBSC> show rejected-bts
Date Site ID BTS ID IP
------------------- ------- ------ ---------------
2018-10-25 09:36:28 1234 0 192.168.1.37
Related: OS#2841
Change-Id: Iba3bfe8fc9432b7ae8f819df8bd71b35b3ec507e
The function gsm48_multirate_config() generates the multirate
configuration IE, that is sent via RSL to configure the active set of
AMR codecs inside the BTS. The function already works, but it does not
check the input data for consistancy. Lets add some consistancy check to
make sure that inconsistant parameters are rejected. Also allow the
output pointer to be NULL, so that the function can be used to perform
a dry run to be able to verify parameters.
- Check for invalid / inconsistant configuration parameters
- Perform a dry-run when lv pointer is set to NULL
Change-Id: I06beb7dd7236c81c3a91af4d09c31891f4b910a4
Related: OS#3529
The function check_codec_pref() currently only does a basic check over
the general codec configuration of bts and msc. However, it does not yet
check if the amr codec rate settings for the BTSs contradict the
allowed/forbidden amr codec rates of the MSC. When the two settings do
contradict AMR would not work, even when everything else is correctly
configured. We need to check this on startup to spot configuration
problems quickly.
- Add function to calculate intersections of struct
gsm48_multi_rate_conf variables.
- Calculate the intersection between the multi rate config of
each BTS with the one of the MSC
Change-Id: I3537d1c89e2520d35cc0e150ba8e6d3693e06710
Related: OS#3529
In networks with a couple of different BTSs it may be likely that one
accidently sets up a codec configuration (codec-support)) that will be
mutually exclusive towards the codec configuration for the MSC
(codec-list). We need a check that validates the configuration before
start to catch such configuration flaws quickly.
- Add a check that checks each MSC codec-list against each BTS
codec-support setting.
Change-Id: Ice827896bab1a2330741e0fccc731a04f1a07d38
Related: OS#3625
Opposed to all other codecs that are common in GSM, AMR requires a codec
configuration that is expressed by a bitmask (S0 to S15) in the speech
codec list in the ASSIGNMENT REQUEST. Also the BSC acknowledges those
configuration in the ASSIGNMENT COMPLETE message.
At the moment osmo-bsc ignores all incoming configuration bits. The bits
in the ASSIGNMENT COMPLETE speech codec (choosen) field are hardcoded.
- Store the configuration bits while parsing the ASSIGNMENT COMPLETE
- Create an intersection with the configuration that is actually
supported by the BSS
- Return the resulting (chosen) configuration bits with the assignment
complete message.
- Use the (highest of the) agreed codec rates in RSL channel activation.
Change-Id: I2d8ded51b3eb4c003fe2da6f2d6f48d001b73737
Related: OS#3529
The COMPLETE LAYER 3 INFORMATION message lacks the Codec List (BSS Supported)
information element. This information element is mandatory for networks
that use an IP based user plane (AoIP).
- Add function to generate the speech codec list from the current codec
settings (Available codecs)
- Generate and embed information element in L3 Compl. message
Depends: libosmocore I4e656731b16621736c7a2f4e64d9ce63b1064e98
Change-Id: Id6f2af3fdab45bf05f06aec03e222734d7a4cf70
Related: OS#3548
If the MSC sends a BSSMAP Classmark Request, send an RR Classmark Enquiry to
the MS.
(The reverse direction, i.e. sending a BSSMAP Classmark Update back to the MSC,
is already implemented.)
Related: OS#3043 (A5/3 encryption)
Related: osmo-ttcn3-hacks Idaab4d568cf986b4897ba008f6262c839d1592fb
Change-Id: If5db638fd6e8d9c2ef9e139e99f0fabe1ef16ddf
Remove unused gsm_subscriber_connection.user_plane.chan_mode.
There is only one VTY command that displays it along other
parameters, but it is used no where else. Lets remove it.
It was forgotten to be removed in:
commit 31f525e756
Date Mon May 14 18:14:15 2018 +0200
"large refactoring: use FSMs for lchans; add inter-BSC HO"
change-id I82e3f918295daa83274a4cf803f046979f284366
Change-Id: I10049c14ea206a4daafbdad01634d57c72a79d7c
Remove unused member gsm_subscriber_connection.user_plane.full_rate.
It was forgotten to be removed in:
commit 31f525e756
Date Mon May 14 18:14:15 2018 +0200
"large refactoring: use FSMs for lchans; add inter-BSC HO"
change-id I82e3f918295daa83274a4cf803f046979f284366
Change-Id: I3a14efe0039ff4690e27e3b083eb23c1b2a616c3
In case a given channel combination contains a CBCH, it replaces sub-slot 2
with a CBCH, i.e. we must not attempt to allocate the same for SDCCH.
On timeslot initialization, immediately place such an lchan FSM into new state
LCHAN_ST_CBCH, so that it never appears unused and never is picked during
lchan_select(). Also set lchan->type = GSM_LCHAN_CBCH.
Verified by configuring CBCH timeslots and watching 'show lchan summary'.
Immediately after RSL and OML are up, these pchan types show lchan 2 in state
CBCH:
BTS 0, TRX 0, Timeslot 0 CCCH+SDCCH4+CBCH, Lchan 2, Type CBCH, State CBCH - L1 MS Power: 0 dBm RXL-FULL-dl: -110 dBm RXL-FULL-ul: -110 dBm
BTS 0, TRX 0, Timeslot 1 SDCCH8+CBCH, Lchan 2, Type CBCH, State CBCH - L1 MS Power: 0 dBm RXL-FULL-dl: -110 dBm RXL-FULL-ul: -110 dBm
With a 'phys_chan_config ccch+sdcch4+cbch' and three phones simultaneously
requesting USSD, I see:
BTS 0, TRX 0, Timeslot 0 CCCH+SDCCH4+CBCH, Lchan 0, Type SDCCH, State ESTABLISHED - L1 MS Power: 14 dBm RXL-FULL-dl: -53 dBm RXL-FULL-ul: -47 dBm
BTS 0, TRX 0, Timeslot 0 CCCH+SDCCH4+CBCH, Lchan 1, Type SDCCH, State ESTABLISHED - L1 MS Power: 30 dBm RXL-FULL-dl: -47 dBm RXL-FULL-ul: -47 dBm
BTS 0, TRX 0, Timeslot 0 CCCH+SDCCH4+CBCH, Lchan 2, Type CBCH, State CBCH - L1 MS Power: 0 dBm RXL-FULL-dl: -110 dBm RXL-FULL-ul: -110 dBm
BTS 0, TRX 0, Timeslot 0 CCCH+SDCCH4+CBCH, Lchan 3, Type SDCCH, State ESTABLISHED - L1 MS Power: 16 dBm RXL-FULL-dl: -47 dBm RXL-FULL-ul: -47 dBm
With 'phys_chan_config SDCCH8+CBCH' and three phones simultaneously attaching,
I see:
BTS 0, TRX 0, Timeslot 1 SDCCH8+CBCH, Lchan 0, Type SDCCH, State WAIT_RLL_RTP_ESTABLISH - L1 MS Power: 0 dBm RXL-FULL-dl: -110 dBm RXL-FULL-ul: -110 dBm
BTS 0, TRX 0, Timeslot 1 SDCCH8+CBCH, Lchan 1, Type SDCCH, State WAIT_RLL_RTP_ESTABLISH - L1 MS Power: 0 dBm RXL-FULL-dl: -110 dBm RXL-FULL-ul: -110 dBm
BTS 0, TRX 0, Timeslot 1 SDCCH8+CBCH, Lchan 2, Type CBCH, State CBCH - L1 MS Power: 0 dBm RXL-FULL-dl: -110 dBm RXL-FULL-ul: -110 dBm
BTS 0, TRX 0, Timeslot 1 SDCCH8+CBCH, Lchan 3, Type SDCCH, State WAIT_RLL_RTP_ESTABLISH - L1 MS Power: 0 dBm RXL-FULL-dl: -110 dBm RXL-FULL-ul: -110 dBm
i.e. in all cases the CBCH lchan remains occupied and is not allocated as
SDCCH.
Detaching and re-attaching the BTS reliably brings back the CBCH state. Also
verified that changing the osmo-bsc config from telnet vty and dropping oml
followed by the BTS re-attaching brings back the CBCH state.
Change-Id: I2bafc5f696e818e38f8907ad0c8f38494df0623d
gsm48_lchan2chan_desc_as_configured() is similar to gsm48_lchan2chan_desc(),
but uses the *configured* channel combination, rather than the currently
active one.
Change-Id: Id4043218fb770e8420f19a4ef9428680ecdfd286
Related: OS#3532
The function is defined in gsm_data.c, so it should be declared
in gsm_data.h and not in gsm_04_08_rr.h
Change-Id: I5200063fb43c857a984ea8e41a8485d796e49cde
The flag lchan->activate.concluded prevents entering the
lchan_on_fully_established()/lchan_on_activation_failure() more than once. So
far it was checked by callers, instead place in the functions themselves.
There is a potential functional change here, since during lchan_fail(), the
concluded flag was set only after entering lchan_on_activation_failure(). Now
it is already set at the start and prevents multiple re-entry beyond doubt.
This patch is not a result of an actual observed faulty behavior, just from
reading the code and seeing the slight loophole.
Change-Id: I0c906438b05442d66255203eb816453b7193a6d8
Use libosmo-mgcp-client's new X-Osmo-IGN header to indicate that CallIDs are
allowed to mismatch.
Add VTY commands 'msc' / 'mgw x-osmo-ign call-id' and 'no mgw x-osmo-ign' to
switch this behavior explicitly.
For SCCPlite MSCs, unless a specific config was issued, always send
'X-Osmo-IGN: C' by default, to ignore CallID mismatches.
Depends: Id7ae275ffde8ea9389270cfe3db087ee8db00b51 (osmo-mgw)
Change-Id: I257ad574d8060fef19afce9798bd8a5a7f8c99fe
ipaccess_drop_oml was being called inside an osmo_fd cb context, were
-EBADF must be returned if the structure holding the osmo_fd is freed.
In the middle of the path (see OS#3495 for path tree) it goes through a
signal dispatch, so it's impossible to make sure we return some value to
the osmo_fd cb. As a result, it is required to defer dropping the OML
Link from current code path and do it through a timer.
Fixes following ASan report:
20180822124927913 <0004> abis_nm.c:787 OC=RADIO-CARRIER(02) INST=(00,00,ff): CHANGE ADMINISTRATIVE STATE NACK CAUSE=Message cannot be performed
20180822124927913 <0004> osmo_bsc_main.c:186 Got CHANGE ADMINISTRATIVE STATE NACK going to drop the OML links.
20180822124927913 <0015> bts_ipaccess_nanobts.c:406 (bts=0) Dropping OML link.
...
=================================================================
==17607==ERROR: AddressSanitizer: heap-use-after-free on address 0x62e000060a68 at pc 0x7f5ea8e27086 bp 0x7ffde92b6d80 sp 0x7ffde92b6d78
READ of size 8 at 0x62e000060a68 thread T0
#0 0x7f5ea8e27085 in handle_ts1_write input/ipaccess.c:371
#1 0x7f5ea8e27085 in ipaccess_fd_cb input/ipaccess.c:391
#2 0x7f5ea9147ca8 in osmo_fd_disp_fds libosmocore/src/select.c:217
#3 0x7f5ea9147ca8 in osmo_select_main libosmocore/src/select.c:257
#4 0x555813ab79d6 in main osmo-bsc/osmo_bsc_main.c:922
#5 0x7f5ea76d02e0 in __libc_start_main (/lib/x86_64-linux-gnu/libc.so.6+0x202e0)
#6 0x555813ab84e9 in _start (/bin/osmo-bsc+0x34d4e9)
Fixes: OS#3495
Change-Id: I7c794c763481c28e8c35dc9b11d27969e16feb3c
The intention was to use the file's basename, but __BASE_FILE__ means "the root
file that is being parsed and contains #include statements".
If we had a function using __BASE_FILE__ and that was defined in an #included
file, __BASE_FILE__ would indicate the first file where the #include is, and
not the file where the function is defined. __BASE_FILE__ works for us because
we don't ever include function definitions that log something, so __BASE_FILE__
always coincides with __FILE__ for our logging; but still __BASE_FILE__ is
semantically the wrong constant.
Related: OS#2740
Change-Id: Ic6d9dafc96c9d467ae53be2cd41adcf26a4e5125
It is theoretically possible to LCLS two legs that use different
codecs. However, this requires transcoding capabilities on the
local MGW. If the local MGW lacks transcoding features such a
local circuit should be avoided. Enabeling LCLS under such
coditions should be optional (VTY)
- Add check to avoid LCLS on different codec/rate
- Add VTY-Option to optionally override the check
(MGW is able to transcode)
Change-Id: I157549129a40c64364dc126f67195759e5f1d60f
Related: OS#1602
The API of a_reset.c is currently called with a pointer to struct
reset_ctx. This puts the responsibility of checking the presence of
msc->a.reset_fsm to the caller. It would be much more effective if the
caller would check if msc->a.reset_fsm before dereferencing it.
This also fixes at least one segfault that ocurrs when gscon_timer_cb()
is called but no sccp connection is present yet. Therefore the pointer
to bsc_msc_data would not be populated. This is now detected by
a_reset.c itsself.
- minor code cleanups
- call a_reset.c functions with msc (struct bsc_msc_data)
Change-Id: I0802aaadf0af4e58e41c98999e8c6823838adb61
Related: OS#3447
In cases where a codec has no fixed (IANA) payload type number, a
dynamically coosen payload type number is used. For the route between
BSC and MSC 3GPP as designated certain payload type numbers. However,
beond that, those payload type numbers may not necessarly apply. The
RTP communication between BTS and BSC still might run on a completely
different payload type number.
libosmo-netif contains a header file which payload type numbers
shall be used. Lets use those in order to signal the same payload type
numbers as we actually use in the RTP packets to the MGW.
Change-Id: I507a1b1446c8f140b2950d73cf737797604c1ac3
Related: OS#2728
Related: OS#3384
Remove as much as possible from bsc_api.h. Use '#pragma once'. Tweak head
comment.
BSC_API_CONN_POL_{ACCEPT,REJECT}: only user is static complete_layer3(), just
use a bool return value instead.
msc_connected(): only used in osmo_bsc_api.c, make static there.
Instead of including gsm_data.h, declare structs opaquely, include stdint.h.
codec_pref_test.c used this as indirect gsm_data.h include via osmo_bsc.h,
include gsm_data.h there directly.
osmo_bsc.h: instead of including bsc_api.h, declare opaque structs.
gsm_04_08_rr.h: declare opaque structs to replace indirect include of
gsm_data.h.
Change-Id: Ia9c0f9828317236048e40ec9ecf9990592e2190a
gsm0808_page() is just a thin wrapper for rsl_paging_cmd(), the only caller is
page_ms() from paging.c. Directly call rsl_paging_cmd() instead.
Move gsm0808_cipher_mode() to the only caller in osmo_bsc_bssap.c, make static.
Change-Id: Ib7ce026b52d4ba3e53a8b2824e74ea92432c48c5
If a release event is being handled, ignore other ricocheting release events
until that release handling has concluded.
For example, if an lchan is regularly released, it signals the lchan RTP FSM to
release, which then calls back to say "RTP is released" on termination -- this
should not trigger other state changes than the initial release intends.
Change-Id: Iec41e006b6ab9d0f618d36925341f9536353e5d8
Before this patch, the timeslot FSM receives OML and RSL ready events.
Afterwards, it relies on examining the RSL and OML status to match the received
events. This doesn't work for the ip.access nanobts, which fails to change the
CHANNEL OM's operational status even though it has sent an Opstart ACK. We
receive OML CHANNEL Opstart ACK, but the mo's state left at OP_STATE=Disabled.
We apparently cannot rely on the gsm_abis_mo state as assumed before this
patch, since changing the state depends on each BTS vendor's OML
implementation.
Also, implementation wise, it is better to not include assumptions on RSL and
OML implementations in the timeslot FSM. Simply receive the OML and RSL ready
events and remember that they arrived in dedicated flags.
Remove the no longer needed oml_is_ts_ready() callback from struct
gsm_bts_model added in:
commit 91aa68f762
"dyn TS: init only when both RSL and the Channel OM are established"
I99f29d2ba079f6f4b77f0af12d9784588d2f56b3
This keeps osmo-bts operational while fixing ip.access nanobts, where the
CHANNEL OM's state prevented the timeslot FSM from entering operation.
Change-Id: I4843d03b3237cdcca0ad2041ef6895ff253d8419
Add FSMs:
- timeslot_fsm: handle dynamic timeslots and OML+RSL availability.
- lchan_fsm: handle an individual lchan activation, RTP stream and release,
signal the appropriate calling FSMs on success, failure, release.
- mgw_endpoint_fsm: handle one entire endpoint with several CI.
- assignment_fsm: BSSMAP Assignment Request.
- handover_fsm: all of intra, inter-MO and inter-MT handover.
Above FSMs absorb large parts of the gscon FSM. The gscon FSM was surpassing
the maximum amount events (32), and it is more logical to treat assignment,
handover and MGW procedures in separate FSMs.
- Add logging macros for each FSM type:
- LOG_TS()
- LOG_LCHAN()
- LOG_MGWEP(), LOG_CI()
- LOG_ASSIGNMENT()
- LOG_HO()
These log with the osmo_fsm_inst where present.
New style decision: logging without a final newline char is awkward,
especially for gsmtap logging and when other logs interleave LOGPC() calls;
we have various cases where the final \n goes missing, and also this invokes
the log category checking N times instead of once.
So I decided to make these macros *always* append a newline, but only if
there is no final newline yet. I hope that the compiler optimizes the
strlen() of the constant format strings away. Thus I can log with or without
typing "\n" and always get an \n termination anyway.
General:
- replace osmo_timers, state enums and program-wide osmo_signal_dispatch()
with dedicated FSM timeouts, states and events.
- introduce a common way to handle Tnnn timers: gsm_timers.h/.c: struct T_def.
These can be used (with some macro magic) to define a state's timeout once,
and not make mistakes for each osmo_fsm_inst_state_chg().
Details:
bsc_subscr_conn_fsm.c:
- move most states of this FSM to lchan_fsm, assignment_fsm, handover_fsm and
mgw_endpoint_fsm.
- There is exactly one state for an ongoing Assignment, with all details
handled in conn->assignment.fi. The state relies on the assignment_fsm's
timeout.
- There is one state for an ongoing Handover; except for an incoming Handover
from a remote BSS, the gscon remains in ST_INIT until the new lchan and conn
are both established.
- move bssmap_add_lcls_status() to osmo_bsc_lcls.c
abis_rsl.c:
- move all dynamic timeslot logic away into timeslot_fsm. Only keep plain send/receive functions in
abis_rsl.c
- reduce some rsl functions to merely send a message, rename to "_tx_".
- rsl_ipacc_mdcx(): add '_tx_' in the name; move parts that change the lchan state out into the
lchan_fsm, the lchan->abis_ip.* are now set there prior to invoking this function.
- move all timers and error/release handling away into various FSMs.
- tweak ipa_smod_s_for_lchan() and ipa_rtp_pt_for_lchan() to not require an
lchan passed, but just mode,type that they require. Rename to
ipacc_speech_mode*() and ipacc_payload_type().
- add rsl_forward_layer3_info, used for inter-BSC HO MO, to just send the RR
message received during BSSMAP Handover Command.
- move various logging to LOG_LCHAN() in order to log with the lchan FSM instance.
One drawback is that the lchan FSM is limited to one logging category, i.e. this moves some logging
from DRR to DRSL. It might actually make sense to combine those categories.
- lose LOGP...LOGPC logging cascades: they are bad for gsmtap logging and for performance.
- handle_classmark_chg(): change logging, move cm2 len check out of the cm3 condition (I hope that's
correct).
- gsm48_send_ho_cmd(): split off gsm48_make_ho_cmd() which doesn't send right away, so that during
inter-bsc HO we can make an RR Handover Command to send via the MSC to the remote BSS.
assignment_fsm.c:
- the Chan Mode Modify in case of re-using the same lchan is not implemented
yet, because this was also missing in the previous implementation (OS#3357).
osmo_bsc_api.c:
- simplify bsc_mr_config() and move to lchan_fsm.c, the only caller; rename to
lchan_mr_config(). (bsc_mr_config() used to copy the values to mr_bts_lv
twice, once by member assignment and then again with a memcpy.)
- During handover, we used to copy the MR config from the old lchan. Since we
may handover between FR and HR, rather set the MR Config anew every time, so
that FR rates are always available on FR lchans, and never on HR lchans.
Depends: I03ee7ce840ecfa0b6a33358e7385528aabd4873f (libosmocore),
I1f2918418c38918c5ac70acaa51a47adfca12b5e (libosmocore)
Change-Id: I82e3f918295daa83274a4cf803f046979f284366
Rationale: bsc_api.c used to be a kind of kitchen sink for various
implementations, we want to dissolve it. Also, combining 0808 and 0408 in the
same c file causes "weird" linking dependencies for utility and test programs.
bsc_api.c will be completely dissolved in upcoming
Ib7ce026b52d4ba3e53a8b2824e74ea92432c48c5.
Change-Id: Ie8ee334145bf7bc3a601d395ea7ab9b2009b61c7
"utils" suggests thin helpers to aid using a proper API, while this .c file
actually *is* the proper RR API. Rename from "utils" to "rr".
Change-Id: I0ffff63d57f03cb324df8e40e41caea5b55a2c85
In certain situations like handover or assignment, DTAP must not go out via RSL
directly but is cached to be submitted later. Make sure that all RSL DTAP
sending adheres to this:
gscon_submit_rsl_dtap() is the new "public" API to request an RSL DTAP to be
sent. Depending on the gscon's state, this ends up in the cache or is sent
directly. When caching, there is no way to tell whether sending will succeed or
not, so semantically it does not make sense to even return a result code. Just
return void. Change all "public" callers to gscon_submit_rsl_dtap().
Merge gsm0808_submit_dtap() and submit_dtap() guts to gsm0808_send_rsl_dtap(),
static in bsc_subscr_conn_fsm.c: directly send DTAP, assume a conn->lchan to be
present, or otherwise trigger a BSSMAP Clear Request.
The static submit_dtap() becomes a thin convenience wrapper.
Move ho_dtap_cache* functions to bsc_subscr_conn_fsm.c and rename to
gscon_dtap_cache_* -- they are not only for handover, also for assignment.
Function gsm0808_submit_dtap() m
Introduce function gscon_submit_rsl_dtap()
Change-Id: I6ffd7aa641c8905292c769400048c96aa0949585
9-bit BSIC exist in the 3GPP specs, but we don't use them anywhere. Rather
remove that choice from the API and UI.
Change-Id: I29b92f47da2636d3a19f073755f9382fa98f9010
The vty option bts->codec-support allows the user to set the supported
codecs per BTS level. However, those values are currently only used to
make the handover decision but the logic that handles the BSSMAP
ASSIGNMENT REQUEST does not check those flags.
- Do not ignore bts->codec-support flags on BSSMAP ASSIGNMENT REQUEST
Change-Id: I285234e9c81de74d9fb9907fca2c443b08537435
Closes: OS#3361
At the moment there are three sources that may advertise a list of
supported audio codec/rate settings. There is the MS that advertises
advertises a speech codec list and the MSC that sends a channel type
information element over A and there are also settings in the bsc
configuration file that may restrict the codec/rate types that are
allowed to use.
The function match_codec_pref() looks at all of the three buckets and
selects a codec that satisfies all three. This is already a somewhat
complicated process, overit is very isolated, so lets give it its own
c-file.
Due to the lack of unit-tests it is very hard to make changes here so
lets add also unit-test to make sure that regressions are catched early.
- Put match_codec_pref() and all its helper functions into a separate
c-file.
- Add a unit test.
Change-Id: Iabedfdcec8b99a319f2d57cbea45c5e36c7b6e29
Related: OS#3361
While GSCON is setting the codec info when operating on the MGW, LCLS
is not doing that yet. This means that the MDCX messages that are
sent by LCLS do not contain any payload type and also no ptime or
rtpmap fields. This also causes the following TTCN3 tests to fail:
TC_lcls_connect_break
TC_lcls_connect_clear
TC_lcls_gcr_bway_connect
TC_lcls_gcr_bway_dont_connect_csc
- Make mgcp_pick_codec() public as bsc_subscr_pick_codec()
- use bsc_subscr_pick_codec() to set codec info in osmo_bsc_lcls.c
Change-Id: I383d55fa602cda0926dd701ee517a299db578260
Closes: OS#3358
Commit "dyn ts, bts_ipaccess_nanobts.c: init PDCH on Chan OPSTART ACK"
bf7099262a Icf6e25ff068e8a2600562d52726ead65e864ec02
introduced signal S_NM_OPSTART_ACK and passed the FOM header to identify the BTS
by. But the FOM header's BTS number is zero on each Abis/IP link, and the BTS
and TRX are actually identified by msgb->dst == e1inp_sign_link, member trx. So
the initial implementation associated *all* Channel OPSTART ACKs with BTS 0.
Pass the entire msgb as S_NM_OPSTART_ACK signal argument, implement a
abis_nm_get_ts() to retrieve the proper timeslot and use that during timeslot
init.
Related: OS#3351 OS#3205
Change-Id: I45ce5c24cb62d00f350df1af1be6c11104d74193
We use the newly-introduced logging_vty_add_deprecated_subsys() from
libosmovty to make sure old config files will still parse even after
this change.
Change-Id: Ib4f67bb00e1d5460e643717b53f6a4d81278dc5d
struct bsc_api was used to provide an abstract API for both osmo-bsc and
osmo-msc, between BSC and MSC. That's no longer needed, so get rid of it, to
prevent code turbulences it creates for no reason.
Change-Id: I3fd5888c63a0b4f95520a498320aa105a6d60579
Move all of libbsc/ into osmo-bsc/, and separate/move some implementations to
allow linking from utils/* and ipaccess/* without pulling in unccessary
dependencies.
Some utilities use gsm_network and gsm_bts structs, which already include data
structures for fairly advanced uses. Move initialization that only osmo-bsc
needs into new bsc_network_init() and bsc_bts_alloc_register() functions, so
that the leaner tools can use the old gsm_* versions without the need to link
everything (e.g. handover and lchan alloc code).
In some instances, there need to be stubs if to cut off linking "just before
the RSL level" and prevent dependencies from creeping in.
- abis_rsl_rcvmsg(): the only program currently interpreting RSL messages is
osmo-bsc, the utils are merely concerned with OML, if at all.
- paging_flush_bts(): ip.access nanobts models call this when the RSL link is
dropped. Only osmo-bsc actually needs to do anything there.
- on_gsm_ts_init(): the mechanism to trigger timeslot initialization is related
to OML, while this action to take on init would pull in RSL dependencies.
utils/ and ipaccess/ each have a stubs.c file to implement these stubs. Tests
implement stubs inline where required.
From src/utils/, src/ipaccess/ and tests/*/, link in .o files from osmo-bsc/.
In order for this to work, the osmo-bsc subdir must be built before the other
source trees. (An alternative would be to include the .c files as sources, but
that would re-compile them in every source tree. Not a large burden really, but
unless linking .o files gives problems, let's have the quicker build.)
Minor obvious cleanups creep in with this patch, I will not bother to name them
individually now unless code review asks me to.
Rationale:
1) libbsc has been separate to use it for osmo-nitb and osmo-bsc in the old
openbsc.git. This is no longer required, and spreading over libbsc and osmo-bsc
is distracting.
2) Recently, ridiculous linking requirements have made adding new functions
cumbersome, because libbsc has started depending on osmo-bsc/*.c
implementations: on gscon FSM and bssap functions. For example, neither
bs11_config nor ipaccess-config nor bts_test need handover_cfg or BSSMAP
message composition. It makes no sense to link the entire osmo-bsc to it, nor
do we want to keep adding stubs to each linking realm.
Change-Id: I36a586726f5818121abe54d25654819fc451d3bf
The user might not want to enable LCLS support for administrative
reasons. So let's keep it disabled by default, until somebody
explicitly enables it with "lcls-mode mgw-loop".
In the future, we may want to introduce a "lcls-mode bts-loop" where we
don't loop at the BSC-colocated MGW, but where we instruct the BTSs to
feed the RTP directly to each other. This would require a
falt/transparent IP routing between the BTSs in the RAN.
Change-Id: Ied7985056c8cd182bf16119007a08cc5be14459b
Related: OS#1602
This code contains the following code:
* receive/parse/interpret LCLS specific BSSMAP IEs and PDUs
* osmo_fsm handling the various states and their transitions
* call leg correlation (finding the other subscr_conn with same GCR)
* communication between the two call-leg LCLS FSMs
* detection of supported / unsupported LCLS configurations
* display of GCR / LCLS information in "show conns"
* switch the media streams locally using MDCX to the MGW
Closes: OS#1602
Change-Id: I614fade62834def5cafc94c4d2578cd747a3f9f7
It's not a good idea to keep extern declarations copied over
half a dozen C files. Let's move it to a header.
Change-Id: I6f643f1393ba0955d9c0cf1cf78d5c604e7b9451
The bsc_msc_connection dates back to the old pre-libosmo-sigtran
days, and 90% of the field members weren't used at all (even the
new sigtran specific ones!). Let's merge what remains into struct
bsc_msc_data.
As a side effect, the already dysfunctional "dest A.B.C.D" VTY
command has been removed from the MSC node.
There's quite a bit of fall-out in the CTRL interface, which was
the code with strongest ties to bsc_msc_connection. This was
resolved by properly porting CTRL handling over to libosmo-sigtran,
meaning that an IPA/SCCPlite connected MSC can now again send CTRL
GET/SET commands, and can also receive those selective few TRAPs
that old osmo-bsc-sccplite also sent to its MSC[s].
Change-Id: I6b7354f3b23a26bb4eab12213ca3d3b614c8154f
Related: OS#2012
osmo-bsc_nat is too heavily tied into legacy SCCPlite code, as it
is not using libosmo-sigtran/osmo_ss7 so far. It's also full of
customer-specific code and it's shared use of some libbsc code here
has been complicating osmo-bsc development.
The current plan is to continue to use osmo-bsc_nat from openbsc.git
for those legacy users that need it, and not use osmo-bsc_nat in
new 3GPP AoIP setups. Should we ever get a strong demand for an AoIP
based bsc_nat, we can still revisit this later.
Change-Id: Ia05dc76336a64a7f08962843b9a7cc19f2c83387
Also: Move mgcp_timeslot_to_port() next to it, as they are
more or less the inverse transformation of each other.
Change-Id: Ica908e2bb8fc4e59e0d146b428c93a9efc385688
We used to have hard-coded M3UA. Let's allow the user to configure
this per MSC using a new "asp-protocol (m3ua|sua|ipa)" VTY command.
For SUA this should just work 1:1 without any trouble. For IPA,
this of course only changes the underlying transport without reflecting
the various differences in terms of BSSMAP ASSIGNMENT, MGCP handling,
etc.
Change-Id: I0800c709e574cedd7f5dd98be81c78782245cd13
Related: OS#2544
The state ST_WAIT_MODE_MODIFY_ACK can never be reached by the
current FSM model.
- Remove ST_WAIT_MODE_MODIFY_ACK and all related code
Change-Id: Iacaae2ee50ca1956066b7dce4517bbc9c2b0897e
Related: OS#2762
bsc_api.c notoriously lacks log context. Provide gsm_lchan_name() and/or
bsc_subscr_name() in roughly a million instances, using new LOGPLCHAN macro.
Add LOGPLCHAN() to gsm_data.h, to encourage use of it in other .c files.
Change-Id: If469defcc6fe8950dac5df61db3f39d297893318
Default usage values are defined in mgcp node, and can be per-BSC
overriden on each bsc node.
This commit is a forward-port of openbsc.git Change-Id
Ibf3932adc07442fb5e9c7a06404853f9d0a20959.
Depends on osmo-mgw.git Change-Id Ie19a64ac09f9d51f2434ad0d7925610fc919a90e.
Change-Id: Ie07b8a577caf731d59d68e3b3510ae2f9fd3dc93
Add a global counter to the BSC which shows the number of failed
connections attempts due to a unit_id mismatch between the BSC
and the BTS.
Change-Id: I58866aff36a1c8463bf84b4392a5124ffeaa32ea
Related: OS#3245
The 'show statistics' VTY command was not showing all counters
maintained by osmo-bsc. Instead of printing just two counters
related to paging, print all available counters in a generic way.
Adjust descriptions of some counters for nicer display.
After startup (all counters are zero) is now looks like this:
OsmoBSC# show statistics
handover:attempted: 0 Received handover attempts.
handover:no_channel: 0 Sent no channel available responses.
handover:timeout: 0 Timeouts of timer T3103.
handover:completed: 0 Received handover completed.
handover:failed: 0 Received HO FAIL messages.
paging:attempted: 0 Paging attempts for a subscriber.
paging:detached: 0 Paging request send failures because no responsible BTS was found.
paging:responded: 0 Paging attempts with successful response.
OsmoBSC#
Change-Id: I58ae04e1960774d760e3ebb54a4f307c9f753655
Related: OS#3245
The function a_reset_free() is not used anywhere at the code. The
reason for this is that a BSC instance is never cleared once it
is started up. Also the timer number is not according to the spec.
- Remove a_reset_free()
- Fix timer identification number (T4)
- use fi->priv to hold context info
- Fix sourcecode formatting
Change-Id: I72095d52304c520e383755eee6c889bce492cbd4
Related: OS#3102
Recent Icf6e25ff068e8a2600562d52726ead65e864ec02 changed the dyn_ts_init() hook
from bootstrap_rsl() to the Channel OPSTART ACK, but this is not sufficient.
Now RBS2k never calls dyn_ts_init(), and we may need to wait for RSL:
Dyn TS should actually be initialized only when *both* OML opstart and RSL link
are established. To that end, introduce a generalized API to query OML and RSL
status and to trigger a timeslot init at the appropriate time.
Add gsm_ts_check_init() to be called both when RSL and OML opstart are
established: trigger gsm_ts_init() only when both are given.
Add gsm_bts_trx_ts->initialized flag to mark whether initialization has already
taken place. Add gsm_bts_mark_all_ts_uninitialized() to conveniently clear this
flag for all TS in a BTS.
Add gsm_bts_model.oml_is_ts_ready() callback so that each BTS implementation
can return the OML status of a timeslot in its own OML implementation.
Actually, currently all BTS models that need this init mechanism store the TS'
OML status in ts->mo.nm_state. While we would in practice correctly init dyn TS
by just looking at ts->mo.nm_state, semantically, the decision whether the TS
is ready is up to the BTS models' specific OML implementations.
From bootstrap_rsl(), call gsm_ts_check_init(), in case the TS OML Opstart has
happened before RSL is established -- applies to all BTS models.
For all BTS models:
- call gsm_{bts,trx}_mark_all_ts_uninitialized() when OM is torn down, to make
sure the TS init mechanism will work a second time.
For all BTS models supporting dyn TS, i.e. osmo-bts, nanobts and RBS2k:
- implement oml_is_ts_ready().
- call gsm_ts_check_init() when a Channel OM is taken into operation.
Any BTS models that don't set oml_is_ts_ready() will see a ts init as soon as
RSL is bootstrapped (incidentally, the old dyn TS behavior before recent
Icf6e25ff068e8a2600562d52726ead65e864ec02).
This firstly fixes dyn TS for RBS2k by re-adding the initial switch to PDCH,
and furthermore does so only after both OML TS opstart and RSL are through.
This fixes the ttcn3-bsc-tests around dyn TS, since for the osmo-bts-virtual,
the RSL is established only after OML opstart on the TS, which was broken by
Icf6e25ff068e8a2600562d52726ead65e864ec02.
Nokia Site and Siemens BS11 practically do not require this init mechanism,
since all that happens there so far is dyn TS init, and these BTS models do not
support dyn TS of any kind. A future patch may add oml_is_ts_ready().
Related: OS#3205
Change-Id: I99f29d2ba079f6f4b77f0af12d9784588d2f56b3
Sending PDCH activation upon RSL bootstrap is too early. Introduce OPSTART ACK
handling to call dyn_ts_init() only when the dynamic timeslot is indeed ready
to receive a PDCH activation.
Related: OS#3205
Change-Id: Icf6e25ff068e8a2600562d52726ead65e864ec02
At this point, meas-feed is usable again, however, osmo-bsc is not able to
include the IMSI in every report like osmo-nitb did.
In consequence, the meas-vis and meas-web tools are unable to handle the
current measurement reports: these so far use the IMSI to list reports, and all
reports without an IMSI are collapsed onto the same line, swapping values.
So though osmo-bsc now sends usable measurement reports via meas-feed, two
avenues to improve should be pursued:
OS#3192: the visualization tools should use bts,ts,ss numbers, not IMSI.
OS#2969: osmo-bsc should always know a mobile identity.
Related: OS#2968
Change-Id: I186c7a995dd2b81746c32a58b55da64ed195a1ce
There are plans to register signal handlers in acc_ramp_init(). Once we
do that, the acc_ramp_init() function should only be called once to
avoid duplicate signal handlers on the handler list.
However, the acc_ramp_init() function currently serves a dual-purpose:
1) Initialize the acc_ramp structure for a bts
2) Enable or disable ACC ramping
Add new functions to support use case 2, and call acc_ramp_init()
just once while reading the configuration file. The VTY commands
which enable/disable ACC ramping use the new APIs instead.
Also, rename acc_ramp_start() to acc_ramp_trigger() and tweak its
semantics so that it can always be called regardless of what the
current configuration settings are. This prepares us for triggering
ACC ramping upon events other than "RSL link-up".
Change-Id: Ia25bff85d9e5c277da76bffa11d31972e9fdc323
Related: OS2591
It can be obtained from cmd field, so no need to store it in pending.
This way we simplify the ad-hoc struct bsc_cmd_list.
Change-Id: I6de64fc128ad623ca30b9e6cebebaff8de18f95d
There is a lot of dead code in osmo_bsc_msc.c that used to handle
the IPA multiplexed SSCP lite A interface.
- remove portions of the dead code
- remove IPA Ping related VTY commands
Change-Id: I5cf3fec31cc774c902f3cfe6d16fb85ef301694a
Correctly compute the TS 48.008 "speech mode" (codec) for AMR on TCH/F.
There are way too many different ways how to express a given voice
codec. There are two different schemes in TS 48.008 alone, plus one
on TS 48.058 and one in 04.08 / 44.018. Let's avoid unneeded
conversion (that we might get wrong) and avoid storing information in
a sub-struct of the lchan if we can simply derive it from the lchan
at the time we need it.
Also, move BSSAP related encoding/conversion functions closer to the
user (osmo_bsc_bssap), rather than in libbsc.
Without this patch, TCH/F with AMR was erroneously reported as TCH/H
with AMR in the BSSMAP ASSIGNMENT COMPLETE. After this patch, it's
reported correctly.
Change-Id: I6feebfae77fdc93a7ce333a25dd9b9267c5a4a2e
Related: OS#3094
Related: OS#3095
Related: OS#3096
Instead of a local redefinition, use osmo_cell_global_id.
This change is cosmetic because the decoded PLMN is currently actually never
used.
Change-Id: I38ac98a4d25159cfd4f686efbfbaf8f00625a6d8
In the current implementation of osmo-bsc, the subscriber connection is
not handled (very) statefully. However, there is some state keeping in the
code that handles the mgcp connection, but there are still to much loose ends
which allow odd situations to happen, which then lead severe error situations
(see also closes tags at the end) This commit adds a number of improvements
to fix those problems.
- Use an osmo-fsm to control the gsm_subscriber_connection state and
make sure that certain operations can only take place at certain states
(e.g let connection oriented SCCP traffic only pass when an SCCP connection
actually exists.
Remove the old osmo_bsc_mgcp.c code. Use the recently developed MGCP client
FSM to handle the MGCP connections.
Also make sure that stuff that already works does not break. This in
particular refers to the internal handover capability and the respective
unit-tests.
See also OS#2823, OS#2768 and OS#2898
- Fix logic to permit assignment to a signalling channel. (OS#2762)
- Introduce T993210 to release lchan + subscr_conn if MSC fails to respond
The GSM specs don't have an explicit timer for this, so let's introdcue
a custom timer (hence starting with 99).
This timeout catches the following situation:
* we send a SCCP CR with COMPL_L3_INFO from the MS to the MSC,
* the MSC doesn't respond (e.g. SCCP routing failure, program down, ...)
The MS is supposed to timeout with T3210, 3220 or 3230. But the BSC
shouldn't trust the MS but have some timer on its own.
SCCP would have a timer T(conn est), but that one is specified to be
1-2min and hence rather long.
See also: OS#2775
- Terminate bsc_subscr_conn_fsm on SCCP N-DISC.ind from MSC
If the MSC is disconnecting the SCCP channel, we must terminate the FSM
which in turn will release all lchan's and other state.
This makes TC_chan_rel_hard_rlsd pass, see also OS#2731
As a side-effect, this fixes TC_chan_act_ack_est_ind_refused(),
where the MSC is answering with CREF to our CR/COMPL_L3.
- Release subscriber connection on RLL RELEASE IND of SAPI0 on main DCCH
The subscriber connection isn't really useful for anything after the
SAPI0 main signalling link has been released. We could try to
re-establish, but our best option is probably simply releasing the
subscriber_conn and anything related to it.
This will make TC_chan_rel_rll_rel_ind pass, see also OS#2730
This commit has been tested using the BSC_Tests TTCN3 testsuit and the
following tests were passed:
TC_chan_act_noreply
TC_chan_act_ack_noest
TC_chan_act_ack_est_ind_noreply
TC_chan_act_ack_est_ind_refused
TC_chan_act_nack
TC_chan_exhaustion
TC_ctrl
TC_chan_rel_conn_fail
TC_chan_rel_hard_clear
TC_chan_rel_hard_rlsd
TC_chan_rel_a_reset
TC_rll_est_ind_inact_lchan
TC_rll_est_ind_inval_sapi1
TC_rll_est_ind_inval_sapi3
TC_rll_est_ind_inval_sacch
TC_assignment_cic_only
TC_assignment_csd
TC_assignment_ctm
TC_assignment_fr_a5_0
TC_assignment_fr_a5_1_codec_missing
TC_assignment_fr_a5_1
TC_assignment_fr_a5_3
TC_assignment_fr_a5_4
TC_paging_imsi_nochan
TC_paging_tmsi_nochan
TC_paging_tmsi_any
TC_paging_tmsi_sdcch
TC_paging_tmsi_tch_f
TC_paging_tmsi_tch_hf
TC_paging_imsi_nochan_cgi
TC_paging_imsi_nochan_lac_ci
TC_paging_imsi_nochan_ci
TC_paging_imsi_nochan_lai
TC_paging_imsi_nochan_lac
TC_paging_imsi_nochan_all
TC_paging_imsi_nochan_plmn_lac_rnc
TC_paging_imsi_nochan_rnc
TC_paging_imsi_nochan_lac_rnc
TC_paging_imsi_nochan_lacs
TC_paging_imsi_nochan_lacs_empty
TC_paging_imsi_a_reset
TC_paging_counter
TC_rsl_drop_counter
TC_classmark
TC_unsol_ass_fail
TC_unsol_ass_compl
TC_unsol_ho_fail
TC_err_82_short_msg
TC_ho_int
Authors:
Harald Welte <laforge@gnumonks.org>
Philipp Maier <pmaier@sysmocom.de>
Neels Hofmeyr <neels@hofmeyr.de>
Closes: OS#2730
Closes: OS#2731
Closes: OS#2762
Closes: OS#2768
Closes: OS#2775
Closes: OS#2823
Closes: OS#2898
Closes: OS#2936
Change-Id: I68286d26e2014048b054f39ef29c35fef420cc97
In order to avoid code duplication the feature list (bit masks) and
the desciptive value strings as well as the function to set and get
the feature bits have been moved to libosmocore.
- use feature list functionality provided by libosmocore
Depends: libosmocore Change-Id Id0c35aef11aa49aa40abe7deef1f9dbd12210776
Change-Id: I3e80517539cc5d0e5d8189d434a5e3cc0fdea1a0
Add the mnc_3_digits member to the info_ind.
Instead of changing to e.g. osmo_plmn_id, add the flag separately, and instead
of bool use a uint8_t, to not raise any struct packing issues and clarify the
flag's size beyond any doubt.
Bump the PCU interface version to 9.
This is one part of the three identical pcuif_proto.h patches:
- I49cd762c3c9d7ee6a82451bdf3ffa2a060767947 (osmo-bts)
- I787fed84a7b613158a5618dd5cffafe4e4927234 (osmo-pcu)
- I78f30aef7aa224b2e9db54c3a844d8f520b3aee0 (osmo-bsc)
Depends: Id2240f7f518494c9df6c8bda52c0d5092f90f221 (libosmocore)
Change-Id: I78f30aef7aa224b2e9db54c3a844d8f520b3aee0
Add 3-digit flags and use the new RAI and LAI API from libosmocore throughout
the code base to be able to handle an MNC < 100 that has three digits (leading
zeros).
The changes to abis_test and gsm0408_test show that this code now handles
3-digit MNC correctly, by not dropping the leading zero as 0xf in the encoded
PLMN.
Re-implement CTRL commands 'mcc', 'mnc' and 'mcc-mnc-apply' to preserve the
presence of the third digit of the MNC. Always reply with all leading zeros.
Adjust the expected results in ctrl_test_runner.py, to show that it works.
In VTY and CTRL, the parsing of MCC and MNC is inherently made stricter by use
of osmo_{mcc,mnc}_from_str() -- they will no longer allow surplus characters
and detect errno returned by strtol() (in contrast to atoi()).
Depends: Id2240f7f518494c9df6c8bda52c0d5092f90f221 (libosmocore),
Ib7176b1d65a03b76f41f94bc9d3293a8a07d24c6 (libosmocore),
I020a4f11791c61742a3d795f782805f7b7e8733e (libosmocore)
Change-Id: I8e722103344186fde118b26d8353db95a4581daa
All callers pass mcc=1, mnc=1, so just have it as default.
(Prepare for net->country_code etc to be replaced by net->plmn)
Change-Id: Ic16bc0bab3f2d4721e86a1a04f9d9f988d777df2
Move from using deprecated gsm48_construct_ra(), which uses a buf, to
gsm48_encode_ra(), which uses a gsm48_ra_id argument. Pass struct gsm48_ra_id
around instead of a buf.
struct gsm48_ra_id is the "encoded" representation of the bytes in a typical
MCC-MNC-LAC-RAC (04.08 Routing Area Id IE, 3GPP TS 24.008 § 10.5.5.15). Using
the struct spares using magic numbers for byte offsets.
In the process, fix a sanitizer warning for unaligned access by using memcpy()
instead of pointer assignment:
osmo-bsc/src/libbsc/abis_nm.c:2857:27: runtime error: store to misaligned address 0x7ffe8e0d6695 for type 'uint16_t', which requires 2 byte alignment
Note that (besides removing a now unnecessary cast) the gsm0408_test and
abis_test tests of RAI / CGI encoding remain stable, which indicates that the
new code is still correct.
Change-Id: I0d3908fb8ca1e2e669d257b5d59b40675fa85d06
Access Control Class (ACC) ramping is used to slowly make the cell
available to an increasing number of MS. This avoids overload at
startup time in cases where a lot of MS would discover the new
cell and try to connect to it all at once.
Ramping behaviour can be configured with new VTY commands:
[no] access-control-class-ramping
access-control-class-ramping-step-interval (<30-600>|dynamic)
access-control-class-ramping-step-size (<1-10>)
(The minimum and maximum values for these parameters are hard-coded,
but could be changed if they are found to be inadequate.)
The VTY command 'show bts' has been extended to display the
current ACC ramping configuration.
By default, ACC ramping is disabled.
When enabled, the default behaviour is to enable one ACC per
ramping step with a 'dynamic' step interval. This means the
ramping interval (time between steps) is scaled to the channel
load average of the BTS, i.e. the number of used vs. available
channels measured over a certain amount of time.
Below is an example of debug log output with ACC ramping enabled,
while many 'mobile' programs are concurrently trying to connect
to the network via an osmo-bts-virtual BTS. Initially, all ACCs
are barred, and then only one class is allowed. Then the current
BTS channel load average is consulted for scheduling the next
ramping step. While the channel load average is low, ramping
proceeds faster, and while it is is high, ramping proceeds slower:
(bts=0) ACC RAMP: barring Access Control Class 0
(bts=0) ACC RAMP: barring Access Control Class 1
(bts=0) ACC RAMP: barring Access Control Class 2
(bts=0) ACC RAMP: barring Access Control Class 3
(bts=0) ACC RAMP: barring Access Control Class 4
(bts=0) ACC RAMP: barring Access Control Class 5
(bts=0) ACC RAMP: barring Access Control Class 6
(bts=0) ACC RAMP: barring Access Control Class 7
(bts=0) ACC RAMP: barring Access Control Class 8
(bts=0) ACC RAMP: barring Access Control Class 9
(bts=0) ACC RAMP: allowing Access Control Class 0
(bts=0) ACC RAMP: step interval set to 30 seconds based on 0% channel load average
(bts=0) ACC RAMP: allowing Access Control Class 1
(bts=0) ACC RAMP: step interval set to 354 seconds based on 59% channel load average
(bts=0) ACC RAMP: allowing Access Control Class 2
(bts=0) ACC RAMP: step interval set to 30 seconds based on 0% channel load average
(bts=0) ACC RAMP: allowing Access Control Class 3
(bts=0) ACC RAMP: step interval set to 30 seconds based on 0% channel load average
Change-Id: I0a5ac3a08f992f326435944f17e0a9171911afb0
Related: OS#2591
Handover decision 2 arguments are now configured by 'handover2 foo'. To match
that scheme, rename the previously 'handover foo' args for handover decision 1
to 'handover1 foo'.
For backwards compatibility, still provide aliases of the original VTY
commands. Writing back the config will result in 'handover1' though.
Change-Id: I7305ae7c04cc70082cd80d42b2ba32ffa399f51a
Instead of reacting on S_LCHAN* signals in the handover decision code,
introduce callbacks for the handover decision to be invoked by handover_logic.c
at the appropriate time.
The rationale is explained in a comment to struct handover_decision_callbacks,
quoting:
"
All events that are interesting for handover decision are actually communicated
by S_LCHAN_* signals, so theoretically, each handover algorithm could evaluate
those. However, handover_logic.c cleans up handover operation state upon
receiving some of these signals. To allow a handover decision algorithm to take
advantage of e.g. the struct bsc_handover before it is discarded, the handover
decision event handler needs to be invoked before handover_logic.c discards the
state. For example, if the handover decision wants to place a penalty timer
upon a handover failure, it still needs to know which target cell the handover
failed for; handover_logic.c erases that knowledge on handover failure, since
it needs to clean up the lchan's handover state.
The most explicit and safest way to ensure the correct order of event handling
is to invoke the handover decision algorithm's actions from handover_logic.c
itself, before cleaning up. This struct provides the callback functions for
this purpose.
For consistency, also handle signals in this way that aren't actually in danger
of interference from handover_logic.c (which also saves repeated lookup of
handover state for lchans). Thus, handover decision algorithms should not
register any signal handler at all.
"
Also:
- Publish struct bsc_handover to use it as argument to above callbacks.
- Add enum hodec_id to struct bsc_handover, to be able to signal the
appropriate hodec algorithm per event.
- Add hodec_id argument to bsc_handover_start*() to be placed in the
bsc_handover struct.
- Publish the LOGPHO logging macros in handover.h along with struct
bsc_handover, convenient for logging in callback implementations.
Replace handover_decision.c's signal handler with a registered
handover_decision_callbacks instance.
(Upcoming handover_decision_2 will use all of the callbacks introduced here.)
Change-Id: Id5b64504007fe03e0406a4b395cd0359232b77d2
The conn's penalty timers will be used only for handover decision 2, make it
clear by a sub-struct.
hodec2 will also initialize the penalty timer list on demand only, so no need
to always initialize.
Change-Id: Ie6c2bc2b10dc424dfd94a9e11a9a62f51c48aa10
Handover decision 2 will also store the last seen mr nr for neighbor cell
measurements and hence can tell whether a neighbor's measurement is outdated.
Change-Id: Ic1148364597f91b5a55666c80c758b61fa56f582
Do not share config items between the current handover decision and the
upcoming handover_decision_2.
Rename current handover config items to hodec2_* and duplicate the ones
relevant to handover decision algorithm 1 with name prefix of hodec1_*.
I considered moving hodec2 parameters to an entirely separate .c file and
struct, but that causes considerable code bloat. Rather use the nice
handover_cfg net/bts level mechanism as-is, and simply prefix the names.
In the VTY, the hodec1 parameters are configurable by 'handover foo 23'
commands, while the hodec2 parameters are by 'handover2 foo 23'. The generic
VTY commands to enable/disable handover and to choose the algorithm are still
'handover (0|1)' and 'handover algorithm (1|2)'.
(Note, a subsequent commit will rename the 'handover foo' for hodec1 to
'handover1 foo' and add backwards-compat aliases.)
For example, the 'window rxlev averaging 5' command now exists both for
handover decision 1 and handover decision 2, and its values are independent.
This is valid config:
network
# set up handover decision algorithm 1
# (pending rename of these items to 'handover1 ...')
handover window rxlev averaging 5
handover window rxlev neighbor averaging 5
# set up handover decision algorithm 2
handover2 window rxlev averaging 7
handover2 window rxlev neighbor averaging 7
handover2 penalty-time max-distance 10
# enable handover
handover 1
bts 0
handover algorithm 1
bts 1
handover algorithm 2
In this example, bts 0 uses algo 1 with rxlev averaging of 5, while bts 1 uses
algorithm 2 where rxlev averaging of 7 is in effect.
Change-Id: I6475b2543b18d21710a6d774b214cb484f36ec8e
So far, the administrator had to pick one particular cipher which
would then be used throughout all subscribers/phones. This is a bit
impractical, as e.g. not all phones support A5/3. Extend the VTY
command syntax in a backwards-compatible way to permit for multiple
ciphers.
The bit-mask of permitted ciphers from the MSC (sent in ASSIGNMENT
COMMAND) is intersected with the vty-configured mask a the BSC.
Finally, the best (highest) possible cipher is chosen.
Change-Id: I1d1c8131855bcab2392b4f27f6216bdb2fae10e0
Closes: OS#2461
About half of our log categories/subsystems were inherited from
OsmoNITB, and are no longer used but may confuse the user.
Change-Id: I8b39429f71c0faefdf8158a82093cfb19f44809e
There was always a 1:1 correspondence between gsm_subscriber_connection
and osmo_bsc_sccp_con, so there's really no point in having two separate
dynamically allocated data structures with pointers back and forth and
another linked list around.
Let's merge osmo_bsc_sccp_con into gsm_subscriber_connection for
simplicity.
The resulting code might not be elegant in places, but I've tried to
do only the most simple changes in this patch, while further
simplifications can be done in later subsequent patches.
As a side-effect, this patch also fixes lchan clearing if the MSC
(or the local SCCP provider) hard-disconnects the SCCP connection.
Change-Id: Idd2b733477ee90d24dec369755a00f1c39c93f39
Have expicitly named vty write functions for bts and net levels, so that it is
trivial to add commands that exist only on one of each (like the upcoming
congestion check timer config for hodec2).
Change-Id: Ibea4c20abc50c3d655f6bbb1a643477dfc722c8e
On BSSMAP Assignment Request received from the MSC, store the Speech Codec List
in the subscr conn, so that we may evaluate available codecs during handover
decision. (Will be used, e.g., by handover_decision_2.)
Change-Id: I8222d73085eb777696e365c94214c05d56e6d129
Separate penalty timers API from specific struct members and move to own .h/.c
file, so that future code may re-use the API arbitrarily.
Change-Id: Ife975a1c7c17a500b1693be620475a8bea72f86f
Upcoming handover_decision_2 will want to be able to handover to a differing
TCH type, hence add a parameter to bsc_handover_start(); adjust current callers
to pass the old lchan type.
Tweak the 'bts' argument to 'new_bts'.
Change-Id: I4478ebcaada00897cc38c5a299e07661139ed3c5
This leaves common_cs.h practically empty. Leave its removal to the next patch,
which removes libcommon-cs entirely
(I07d4a48af3154ee4d904686f230a51b8b8a94ff9).
Change-Id: Ic3233f03580aa8c0ab178dfd33e68ecab5b9f042
The gsm_network VTY was partly shared between libmsc and libbsc in the old
openbsc.git; now osmo-bsc.git has its own copy, so merge all of it into
bsc_vty.c.
This leaves common_cs_vty.c practically empty; leave removal of the file to
later, when we drop the entire libcommon-cs in
I07d4a48af3154ee4d904686f230a51b8b8a94ff9.
Note that gsmnet_from_vty() is also already declared in bsc/vty.h.
Change-Id: I6f3a596f31762b48afed39a85a343c400826300f
These functions were originally shared between libmsc and libbsc in the old
openbsc.git; now osmo-bsc.git has its own copies, so move them into libbsc.
Change-Id: Ie411c2ce8008accee54782a442d6361e50777a54
Some part of the network init was common between libbsc and libmsc in the old
openbsc.git repository. Now osmo-bsc.git is independent with its own copy of
the gsm_network initialization. So move it over to libbsc.
Change-Id: I8968787a5f0b078619264f0cb42349a9bc7943af
The separation of gsm_data_shared.* from gsm_data.* historically allowed
compiling parts of it into osmo-bts, which we have dropped since (osmo-bts has
its own copy now). Even though gsm_data.* now becomes rather large by it,
remove the legacy separation to get rid of the "shared" naming, which is no
longer meaningful. A future patch might separate into meaningful smaller bits,
if we get the time.
Change-Id: Ie247bc492efb331871d970c56700595ad3f7e201
Replace calls to make_sock() with osmo_sock_init_ofd().
Shame on me for not testing every single one in practice, I hope for peer
review to confirm that this should be correct... Read closely please!
The IPPROTO_GRE define seems to be unused (at least in osmo-bsc.git), drop it
completely.
Change-Id: Ia6e4e0e1eed3328fa25b3b90be376d532ad0e56b
Provide concise log categories for each main scope.
Move the complete log categories 1:1 to osmo_bsc_main.c.
In bsc_nat.c, omit obviously unused log categories.
In tests, omit almost all log categories, except for those explicitly tested as
the expected output.
Note: should any logging occur for a log category that is omitted by accident,
such will end up being logged as DLGLOBAL, so it will show up and we can fix
it, and it will not get lost silently.
Change-Id: Ib524e49ec211662e0dfde8161495a72aa8ad76cf
Move bsc_vty_go_parent() to osmo_bsc_main.c and bsc_nat.c, and drop those nodes
that aren't used in the respective main scope.
Change-Id: I22ebb76742e9c5ab9dd608ac089a5c558aceeb36
If a BTS/TRX does not respond to the "IPA RSL Connect" command,
pretend that the BTS has sent a NACK for the connection.
To ensure that osmo_timer_del(&trx->rsl_connection_timeout) is not called
before this timer is initialized with osmo_timer_setup(), the E1 layer now
drops incoming RSL messages from a BTS/TRX in LOCKED administrative state.
We cancel the timeout if we receive an RSL Connect ACK or NACK from the BTS,
and if the underlying E1 link does down.
While here, add a missing message buffer free() in bts_isdn_sign_link().
The callers do not free it.
Change-Id: Ia72b65a0f15f47dcb8a6f944f6c3695a4a64b923
Related: OS#2716
In addition to logging the current values of a BTS's channel load
average and T3122 override, maintain stat items for these values.
This allows for plotting these values over time, for instance.
These values show up in the VTY under 'show stats' like this:
base transceiver station:
Channel load average.: 25 %
T3122 IMMEDIATE ASSIGNMENT REJECT wait indicator.: 32 s
Change-Id: Icace0176e8b1d23d7c7b4816f7c67c65312844fa
Suggested-by: laforge
The IMMEDIATE ASSIGN REJECT message contains a wait indicator which
tells an MS requesting a channel to wait for a specified amount of
time before trying to request a channel again, i.e. the wait indicator
controls the T3122 timeout value in the MS.
Previously, the wait indicator was fixed to 10 seconds.
This is not sufficient if there are a lot of MS requesting channels
because the MS will retry too soon. Instead of using a fixed value,
maintain a dynamic wait indicator value based on average channel load.
The load (used vs. available channels on a BTS) is sampled once per
second, and once 8 samples have been collected we update a BTS-specific
T3122 wait indicator based on the measured load.
While the wait indicator could go up to 255 seconds, this initial
implementation keeps it in the range from 10 to 128 seconds.
Further experimentation and testing will show whether higher wait
indicator values are desirable, if the sampling rate needs to change,
or if the function mapping the load measurement to a wait indicator
value should change (currently we map the load average linearly into
the range [10, 128] inclusive).
Change-Id: I57e38f6d6ba3b23cc6e1f9520b90261dbb1f1cec
Related: OS#2592
This member was merely a cache for conn->lchan->ts->trx->bts,
so let's avoid having to keep copies of the same data (which needs
to be kept up to date).
Change-Id: Id3bff8b18425ef5d45eb460ac9eb620023013ba0
This penalty timer is used to temporarily block cells where handover
or assignment failed or where handover is not allowed. This is usefull
to prevent repeated handover attempts to broken cells or cells that have
limited allowed distance.
Change-Id: I95cb7e3211b2470b773965e7aa94d8eb6c8c1a3a
Add ho_dtap_cache to gsm_subscriber_connection, a stock msgb queue to be used
with msgb_enqueue() and msgb_dequeue().
Keep a counter of queue length, to enforce a sane maximum counter for cached
messages. So far a hardcoded maximum of 23 messages will be cached.
Have balanced ho_dtap_cache_add() and ho_dtap_cache_flush() functions.
The original patch was by jolly, but I have basically completely replaced it
with the simpler msgb queue pattern.
Change-Id: I6e4d93628befb3d97e5cee0343cd9f8ba0b8620c
This is needed for handover algorithm to balance free slots and to prevent
congestion of one cell, while other cells still have free capacities.
Change-Id: Ic8bee8a515ee8aa9a99af71756fe60b8dd8f868b
If we want to average over up to 10 measurement reports (as configurable
at VTY), we need a history of at least 10 measurements.
Change-Id: Ia7cfac073bdc464092ca3e51dec319ac30401dd1
get_meas_rep_avg will return -EINVAL, if the required number of
measurements are not reached. There will be no handover possible until the
given number of measurements are available.
Change-Id: Ibc4410b4e162cdb6c070128d2c63946bb79d6d65
In order to keep processing power at BTS at a defined level, the handover
decision might want to limit maximum number of slots that require RACH
detection.
Change-Id: I8908e37fe0d8d2eda906cc6301ba0969b25a5575
It is desirable to allow configuring handover for each individual network cell.
At the same time, it is desirable to set global defaults.
Treat the 'network' node handover parameters as global defaults, add another
set of parameters for each individual BTS.
This raises questions on how the 'network' node should affect the individual
BTS. The simplistic solution would have been: on creating a BTS in the config,
just copy the current defaults; with serious drawbacks:
- tweaking any parameter in the telnet VTY on network node will never affect
any running BTS.
- network node defaults *must* be issued before the bts sections in the config
file.
- when writing a config back to file, we would copy all net node defaults to
each BTS node, making the network node configs pointless.
Instead, add a handover_cfg API that tracks whether a given node has a value
set or not. A bts node ho_cfg gets a pointer to the network node config and
returns those values if locally unset. If no value is set on any node, use the
"factory" defaults, which are hardcoded in the API. Only write back exactly
those config items that were actually issued in a config file / on the telnet
VTY. (ho_cfg API wise, we could trivially add another ho_cfg level per TRX if
we so desire in the future.)
Implement ho parameters as an opaque config struct with getters and setters to
ensure the tracking is always heeded. Opaqueness dictates allocating instead of
direct embedding in gsm_network and gsm_bts structs, ctx is gsm_net / bts.
This is 100% backwards compatible to
old configs.
- No VTY command syntax changes (only the online help).
- If a 'bts' sets nothing, it will use the 'network' defaults.
- The 'show network' output only changes in presence of individual BTS configs.
On 'show network', say "Handover: On|Off" as before, iff all BTS reflect
identical behavior. Otherwise, output BTS counts of handover being enabled or
not.
Use the same set of VTY commands (same VTY cmd syntax as before) on network and
BTS nodes, i.e. don't duplicate VTY code. From the current vty->node, figure
out which ho_cfg to modify.
For linking, add handover_cfg.c (the value API) in libcommon, while the
handover_vty.c is in libbsc. This is mainly because some utility programs use
gsm_network and hence suck in the ho stuff, but don't need the VTY commands.
Review the VTY online help strings.
Add VTY transcript test for handover options, testing config propagation from
network to bts nodes, 'show network' output and VTY online help strings.
(Needs recent addition of '... !' wildcard to osmo_interact_common.py.)
I considered leaving parts of this more readable, but in the end decided for
heavy use of macros to define and declare the API, because more values will be
added in upcoming patches and I want to prevent myself from messing them up.
Inspired-by: jolly/new_handover branch, which moves the config to 'bts' level
Depends: I7c1ebb2e7f059047903a53de26a0ec1ce7fa9b98 (osmo-python-tests)
Change-Id: I79d35f6d3c0fbee67904378ad7f216df34fde79a
Do not instruct the MGW to move the RTP to the new lchan before we have
received a HANDOVER DETECT.
Before:
Chan Activ
Chan Activ Ack
IPACC-CRCX
-ACK
IPACC-MDCX
-ACK
MGCP MDCX --> MGW
...
HANDOVER DETECT
Call continues on new lchan
In above sequence, if the HANDOVER DETECT times out, the MGW has moved to the
new lchan which never becomes used and is released. Furthermore, from the IPACC
MDCX until the HANDOVER DETECT, the RTP stream would break off momentarily.
After:
Chan Activ
Chan Activ Ack
IPACC-CRCX
-ACK
IPACC-MDCX
-ACK
...
HANDOVER DETECT
MGCP MDCX --> MGW
Call continues on new lchan
If the HANDOVER DETECT times out, the call happily continues on the old lchan.
This change is inspired by Ivan Kluchnikov's HO work, who implemented a similar
fix in the openbsc.git codebase (branch fairwaves/master-rebase): his patch
moves ipacc_mdcx() to connect RTP to the new lchan from switch_for_handover()
(which triggered on S_ABISIP_CRCX_ACK, i.e. creation of the new lchan) to later
on in ho_detect() a.k.a. the S_LCHAN_HANDOVER_DETECT signal handler:
http://git.osmocom.org/openbsc/commit/?h=fairwaves/master-rebase&id=9507a7a1ea627e07370c9d264816bb190b3b91b8
This patch does essentially the same: remove the mgcp_handover() call from the
MDCX-ACK handling (creation of the new lchan), and add a signal handler for
S_LCHAN_HANDOVER_DETECT to osmo_bsc_mgcp.c to effect the MGW switchover.
Note, it would have been possible to call mgcp_handover() directly from rx of
the HANDOVER DETECT message, but that produces linking fallout in some utils/
projects, which then need to link the mgcp code as well. That is because those
aren't properly separated from the more complex parts of libbsc. Using the
signal is a bit bloaty, but saves the linking hell for now. I've faced a
similar problem twice recently, it would pay off to separate out the simpler
utils/ and ipaccess/ tools so that they don't need to link all of libbsc and
osmo-bsc, at some point (TM).
Change-Id: Iec58c5fcc5697f1775da7ec0111135108ed1fc8f
A subsequent patch will add registration of a signal; cosmetically prepare by
creating a common mgcp_init() function. It makes sense for the FSM registration
to move to it.
Change-Id: I510e1081171706eb3d9fb2db50a9aa4f768929b5
We can now either page an invidual BTS directly or page several BTS in a
given location area. This decision is taken based on the contents of the
cell identifier list in the paging request. Select a set of BTS for paging
while processing the cell identifier list, rather than requiring the
paging layer to loop over all BTS in the MSC.
This change requires some adjustment in bssap_test. In particular,
this test must now add a BTS to its network in order to pass.
The purpose of this change is to make the layering a bit cleaner.
There is one functional change: We no longer abort paging if paging fails
for a particular BTS. Instead, we keep trying to page on other BTS.
Change-Id: Ic1c72c7f83e53988eb9fedf314b1dc459836833d
Suggested-by: Harald Welte
Depends: Ic7772e75c3d7fb0df6e17e118bb33b3248352d4d
Related: OS#2753
The stow-enabled jenkins builds are currently failing like below:
make[3]: Entering directory '/build/src/libcommon'
CC bsc_version.o
CC common_vty.o
CC debug.o
CC gsm_data.o
In file included from debug.c:34:0:
../../include/osmocom/bsc/gsm_data.h:15:38: fatal error: osmocom/sigtran/sccp_sap.h: No such file or directory
#include <osmocom/sigtran/sccp_sap.h>
^
compilation terminated.
In file included from common_vty.c:27:0:
../../include/osmocom/bsc/gsm_data.h:15:38: fatal error: osmocom/sigtran/sccp_sap.h: No such file or directory
#include <osmocom/sigtran/sccp_sap.h>
^
compilation terminated.
In file included from gsm_data.c:37:0:
../../include/osmocom/bsc/gsm_data.h:15:38: fatal error: osmocom/sigtran/sccp_sap.h: No such file or directory
#include <osmocom/sigtran/sccp_sap.h>
^
compilation terminated.
Let's make sure the common gsm_data.h have all required CFLAGS to compile.
Change-Id: I30b75db6ffba227b05b5413b84b15f69e0c213f2
This builds upon https://gerrit.osmocom.org/#/c/5698/ which implements
support for paging by LAI.
The ttcn3 test TC_paging_imsi_nochan_ci passes with this code when
run in isolation. It does not pass if another paging test (such as
TC_paging_imsi_nochan_lai) is executed beforehand. This problem
looks similar to the scenario tested in TC_paging_imsi_a_reset.
Change-Id: Ic7772e75c3d7fb0df6e17e118bb33b3248352d4d
Depends: Ic3c62ff0fccea586794ea4b3c275a0685cc9326e
Related: OS#2753
This change removes a few USSD specific declarations, which are
not actually used now, and probably accidentally migrated from
legacy OpenBSC.
Change-Id: I060223349971a7fce169a018bf16eb91f0e20342
Add a new control command 'msc.N.connection_status' which can be used
to query the connection status of a particular MSC with number N.
Keep the old control command 'msc_connection_status', which always
queries MSC 0, for backwards compatibility.
Change-Id: Ibd41474a1be80e782b19ec337c856b5efc593fa8
Related: OS#2729
T3109 is started when the BSS sends a RR CHAN REL to the MS and stops
downlink SACCH generation. Stopped when the MS successfully releases the
LAPDm link. After stop or timeout, the radio channel is released using
RSL RF CHAN REL.
Recommended values in literature are 1-2s + RadioLinkTimeout*0.48s or
5s, while we had the absurdly high 19s timeout. This means we occupy
the radio channel way longer than needed in situations where the MS is
no longer able to properly release Layer2 (LAPDm DISC) due to loss of
signal or the like.
See also: https://osmocom.org/projects/osmobsc/wiki/Timers
Change-Id: I7416b4118e5b73c6ffb98e3546bc62a36c7a967a
Closes: OS#2734
This is a new inline function that hides all accesses to conn->bts.
A follow-up patch will then point this to conn->lchan->ts->trx->bts
to get rid of the bts field.
Change-Id: Ib6cf7097ced34eebe80441c29ab1534f21956a33
when a transaction to the MGW times out, then the context
information is freed. Unfortunately the client is not informed
about this and will try to execute the callback anyway.
explicitly cancel the transaction in order to prevent access
to already freed data structures.
Change-Id: I40794dff7d10e2b6a96863a2da7e9fbd5662a1bf
libosmo-sccp is the old sccp-lite-focused SCCP implementation that we
used before libosmo-sigtran was created. The new osmo-bsc in this
repository is using libosmo-sigtran and shouldn't be using parts of
libosmo-sccp anymore.
We only keep it around in configure.ac and Makefile.am for osmo-bsc_nat,
which is not even built in this repository anymore (or 'again yet'?)
Change-Id: I8f274be7d196cd7a5b1ec9ada949130fb06e984d
RRLP is handled in OsmoMSC after the split from NITB, so let's remove
any bogus VTY commands left over in the BSC.
Change-Id: Ib626f43a3a3ca69dfc127afe5832eb58f7fb6a38
There still is a lot of dead code that we inherited from the NITB
days, let's remove more of it.
libtrau will be re-introduced as part of osmo-mgw later.
Change-Id: I8e0af56a158f25a4f1384d667c03eb20e72df5b8
Those NACKs shouldn't happen in production, and if they do, you probably
want to have a more persistent figure than a line in the log file about
it. Having counters allows the user to monitor this efficiently.
Change-Id: Ic82c6baaf4cb88d07bc5cdc200f8279cf130f396
Those NACKs (CRCX/MDCX/PDCH_ACT) shouldn't happen in production, and
if they do, you probably want to have a more persistent figure than
a line in the log file about it. Having counters allows the user
to monitor this efficiently.
Change-Id: I5edf979c9a2b4c9a5a60eef9f66c26da54f2bddf
Our T3113 timer default of 60s was set early in the development of
OpenBSC, where we didn't really know what values to use and used
excessively large/safe values. Paging the same MS for 60 seconds (even
if there's no paging response) will however create a lot of PCH load for
no good reason.
It seems there's no clear guidance as to what the value should be. Other
implementations use something in the order of 10 seconds (OpenBTS,
yateBTS), which seems more realistic. THe Siemens BS-11 has a default of
5 seconds.
Let's be conservative and go to 10s as a default, which is already 6
times less potential PCH usage than our default so far...
Closes: OS#2756
Change-Id: If9c8441939c6fdcf6e2b9ede8cc576eb86296209
Counting the number of T3113 expirations (one per subscriber per BTS)
vs the number of paging attempts (Bsc global) is a ueseless figure,
as you cannot relate each other.
We count on the BSC level:
* how many PAGING we received from the MSC (total)
* how many of those were for cells/LACs we don't serve
* how many of those resulted in PAGING RESPONSE
We count on the BTS leve:
* how many PAGING CMD we sent to the BTS (total)
* how many of those we ignored as we were already paging
* how many of those resulted in PAGING RESPONSE
* how many were expired due to T3113 expiring
Change-Id: I410bbcbb2621f95f11238f7a5da01ab438f5fee1
According to the spec it's an empty 1-byte element reserved for future
extension but we still have to generate padding properly. Add stub
function similar to the used for SI2ter and adjust test output
accordingly.
Related: OS#2711
Change-Id: I3c278c57880a173df3c4648c9724339d23ce94fd
When the MSC has lost its state and issues a RESET, we should not only
clear all ongoing radio connections, but we should also stop any paging.
There's no point in paging a subscriber if the MSC doesn't know about
this paging anymore.
Change-Id: If3f53d3bb66ad2dc02db823cb813590c6b59c700
Closes: OS#2736
The call-back was needed inside the NITB to determine which part (CC,
SMS, ...) had triggered a given paging. A pure BSC doesn't need that
feature, so let's get rid of it.
The 'void *cbfn_data' is replaced with a 'struct bsc_msc_data *', as
all callers use it with that type.
Change-Id: I8839e8338d3ad1a91b41e687e8412fcdca3fd9ab
This timer is started when a channel is allocated with an IMMEDIATE
ASSIGNMENT message. It is stopped when the MS has correctly seized the
channel. Ever since the early days of development we were using a very
long timeout to be on the safe side. However, in production networks
this is a terrible waste of resources, as we will occupy 10s worth
of air-time on one of our channels for each RACH request we receive.
The only scenarios where you might need something absurdly high as 10s
would be if you have 8s of RTT between your BTS and the BSC.
See also https://osmocom.org/projects/osmobsc/wiki/Timers
Change-Id: If3c52a7cf0c06d074c44a2fc414679279189aab9
Closes: OS#2733
Previously we simply omitted SI2ter Rest Octets which is spec violation
which lead to 'Malformed Packet' error in Wireshark RSL dissector. Fix
this by generating empty 'no rest octets' with proper padding. Adjust
test output accordingly.
Change-Id: Ie4419aaaf93a462f501f8d8f7bf2677d37c58f94
Fixes: OS#2711
This is left over from the OsmoNITB days. We're defining and allocating
these MSC counters, but never actually using them. This also means that
the automatic counter export will list them, raising the expectation at
users that such counters could be used in OsmoBSC.
Let's remove them. They are in OsmoMSC, but not OsmoBSC.
Change-Id: I5bd9e6e333b1c396beae46630986b17e7f8b82ef
In more recent versions of libosmocore, we are converting any '.'
in [rate] counter names to ':' to avoid clashes with the special
meaning of '.' in the CTRL interface. Let's avoid any conversion
and use the proper name already here.
This also changes the codec_foo counters to codec:foo to follow the
notation of other counters.
Change-Id: I18916abbfc706b86bd211e7cca1a0ca3099826e9
We used to have a lot of counters only globlly per BSC, but they're
much more useful on a per-BTS level.
Change-Id: I954b9dda72b83b91d46a934c221a8b3375743599
Make it future compatible for changes. Otherwise it will break
when additional enums are adding to chreq in libosmocore.
Depends on libosmocore Id67ba8de89dd6288e449197438e9e1c5d7f5a134
Change-Id: I2acab2af8d67bccb2bc495512c1f259ae649a832
osmo-mgw assigns connection identifiers which are returned with
the response to the CRCX.
store the assigned connection identifiers and use them to identify
the connections.
Depends: osmo-mgw Iab6a6038e7610c62f34e642cd49c93d11151252c
Closes: OS#2648
Change-Id: Ib379a6f40875bb8f2cf29038a5b5b7a40a21adab
authentication (optional|required) is no longer needed, the
related decisions are now made in the HLR.
Change-Id: Ib6c6331cc86004c4862067031e4fcb12a6975b63
The following structs are no longer used/needed:
- gsm_auth_algo
- gsm_auth_info
- gsm_auth_tuple
- gsm_security_operation
Change-Id: I93873a6cb980a54e03e719170e27a7e397236b77
Prepare for a future change that accesses bts->network during gsm_bts_alloc().
Currently, gsm_bts_alloc() takes a ctx parameter, and gsm_bts_alloc_register()
then gets the gsm_network pointer and sets bts->network to it. All callers
anyway pass gsm_network as ctx to gsm_bts_alloc(), and anything else would not
make sense anyway. So enforce passing exactly gsm_network to gsm_bts_alloc()
and already set the bts->network pointer from there.
Prepares-for: I00870a5828703cf397776668d3301c0c3a4e033a
Change-Id: Ie590c14aa08df4c4f345596b23e5226c5577057a
Use new #pragma style instead of #ifndef dance.
Forward-declare all structs we're using pointers of.
Move function comments to their definitions in the .c file.
Change-Id: I3d43ec01897c0ef9eaf506e68d5a1ec1977f70ea
While this header was still shared among several code trees, we had this ROLE
construct in place to exclude some parts in some trees. Since we're having one
copy per code base now, the ROLE #ifdefs were dropped, also drop void *role.
Change-Id: I4f0c337779d8e7266b6e02815d886728c4826bb9
* change return type to bool
* constify parameters
The nm_is_running(), trx_is_usable() and ts_is_usable() always return
boolean value and are always used as such anyway. The also do not change
their parameters.
Change-Id: I6a572fc78371c69f5308edbad0ebe15e143d0505
Authentication is no longer done in the BSC, the variables that
set the authentication policy and the IMSI regex have no longer
any effect.
Remove auth policy and authorized-regexp
Change-Id: Ie31b921b5fd0af5501ec0c77c0f08089c10075e2
It's leftover from the time when gsm_data_shared.* was actually shared
with OsmoBTS. Nowadays ROLE_BSC is always defined so we can just drop it
entirely and make working with gsm_data_shared.h slightly easier.
Change-Id: I34fc9ee5955c14bbbde68d5499cf2acfd329afbc
In state prior to this patch, "3G Early Classmark Sending Restriction"
bit in SI3 rest octets was always set to H, which is a sane default as
the policy to send the information is then controlled by "Early
Classmark Sending Control" bit in the same octet.
However, it seems Quortus SoftCore can have some issues decoding the
option, so let's add a vty cmd to be able to disable it for those
having any issues.
Related: SYS#4021
Change-Id: Ic1afe071038a3bb5871d7ff40f665c8644f801ec
The reset context contains a string buffer to allow for setting
a human readable name, that is then displayed in the logs. Since
OSMO-FSMs already have such a feature there is no need for an
extra name variable.
Use LOGPFSML and the name parameter of osmo_fsm_inst_alloc()
to display the name of the FSM
Fixes: Coverity CID#178664
Change-Id: I34511698923abec7545a6f3defd595f97b4bbeb1
osmo-bsc currently negotiates the RTP stream directly with the
BTS and reports back the RTP IP/Port on the BTS. This works fine
for a single BTS, but for Handover the port/ip pointing to the
MSC side must not change, so an entity in between the BTSs and
the MSC is required.
Integrate the mgcp-client and use osmo-mgw to switch the RTP
streams.
Depends: osmo-mgw Ib5fcc72775bf72b489ff79ade36fb345d8d20736
Depends: osmo-mgw I44b338b09de45e1675cedf9737fa72dde72e979a
Depends: osmo-mgw I29c5e2fb972896faeb771ba040f015592487fcbe
Change-Id: Ia2882b7ca31a3219c676986e85045fa08a425d7a
To properly decide if a given OML link is degraded we have to use
BTS-specific information about MO state.
* move check function into BTS-specific part
* add generic wrapper
Related: OS#2486
Change-Id: Iddc7a4d20fbb95a6566eed1487a12733e5adb9e2
Expose OML link uptime available via vts's "sh bts 0" command with the
new "bts.0.oml-uptime" ctrl command. To avoid code duplication, move
uptime computation into separate function and use it for both.
Change-Id: Iec405aa949d6a38a9c8e64cd7ee4b49fd416835d
Related: OS#2486
OML link state is available via vty ("sh bts 0" command) and
ctrl ("oml-connection-state" RO variable).
When showing OML link state, take into consideration RSL link state as
well: if OML is up but RSL is missing show it as degraded.
That's implemented via BTS model-specific functions (currently Sysmo- and
Nano- BTS only)
Change-Id: I5952fc59e4d82e0aa627ad91d20f964d9559a4c4
Related: OS#2486
This is a BSC, it has norelation to RANAP or Iu(h). Let's remove
an references to it, and also the build dependency to libosmo-ranap-dev
Change-Id: I517b9f69309b2ed0540dd6c186b3d4a2a03aed44
Save the time when OML link to BTS was established and show it in
vty. That's useful when troubleshooting issues like periodic/sporadic
BTS restart.
Related: SYS#3889
Change-Id: I9e4e8504afe8ca467b68d41826f61654e24d9600
Previously we've used function so debug print always pointed to the same
place which is not very useful. Wrap it with macro so proper
file:line is printed. Also, make sure that we always change state only
through this wrapper and log only when the state has changed.
Change-Id: I21789f8021290965b61a54a2b23177ccbbfe8321
According to 3GPP TS 44.018 §1.8 the "network shall never enable PBCCH
and PCCCH".
Change-Id: I319e71a4b0c682361529e9c21377398a826b934b
Related: OS#2400
* log administrative state transitions
* log what's caused it
* while at it, mark boolean variable as such
Change-Id: I3e25a19fac4d0b4886d825c9876771b1f66efe58
Related: SYS#3864
After osmo-mgw change I8e0b2d2a399b77086a36606f5e427271c6242df1, there now is a
separated libosmo-mgcp-client, and osmo-bsc needs adjusting.
But besides having an unused struct in gsm_network, osmo-bsc does not yet use
its MGCP client; these are merely plans for the future. Until we do, let's just
drop the dependency entirely.
Change-Id: I6402c7cbe58dacae7630f7f03819f8102e54c699
These either remain from openbsc.git or slipped in while applying recent
patches from openbsc.git and do not belong in osmo-bsc.
Empty out contrib: remove things that are either obviously unrelated to
osmo-bsc, or seem old and/or esoteric.
osmoappdesc.py: drop nitb_e1_configs (and some ws)
Change-Id: Ib20064f35e623d99c7d59496a3156e84b8a0d07a
Rewire build and includes to libosmo-legacy-mgcp.
Drop osmo-bsc_mgcp and related python tests, now found in osmo-mgw.git.
libosmo-legacy-mgcp is installed from osmo-mgw, hence add the dependency to
jenkins.sh (so far using the pre_release branch).
Change-Id: Ic99d681759edce11564da62500c2aac5cf5fffe2
Remove libiu here, use the functions from libosmo-ranap instead, by applying
the ranap_ / RANAP_ prefix.
Corresponding change-id in osmo-iuh.git is I6a3f7ad15be03fb94689b4af6ccfa828c25f45c0
To be able to run the msc_vlr tests for RAN_UTRAN_IU without Iu client headers
available, add iu_dummy.h, containing mere function signatures that match
iu_dummy.c and a mostly empty struct ranap_ue_conn_ctx.
Make sure we can build with and without --enable-iu: include osmo-iuh headers
only with --enable-iu.
Change-Id: Ib8c4fcdb4766c5e575618b95ce16dce51063206b
This was originally a long series of commits converging to the final result
seen in this patch. It does not make much sense to review the smaller steps'
trial and error, we need to review this entire change as a whole.
Implement AoIP in osmo-msc and osmo-bsc.
Change over to the new libosmo-sigtran API with support for proper
SCCP/M3UA/SCTP stacking, as mandated by 3GPP specifications for the IuCS and
IuPS interfaces.
From here on, a separate osmo-stp process is required for SCCP routing between
OsmoBSC / OsmoHNBGW <-> OsmoMSC / OsmoSGSN
jenkins.sh: build from libosmo-sccp and osmo-iuh master branches now for new
M3UA SIGTRAN.
Patch-by: pmaier, nhofmeyr, laforge
Change-Id: I5ae4e05ee7c57cad341ea5e86af37c1f6b0ffa77
Set the time on the status report to the time the message was delivered, as
this may not be the same as the time when we are delivering the report to the
originating MS.
Change-Id: I9056429d40bf02731f004b7833f1de45a0d1add8
In 2015, Jacob moved/copied related functions to libosmocore, but
for some reason didn't remove the copies here. Let's follow-up on
that and remove duplicated code.
The libosmocore commit introducing osmo_apn_to_str() was
8114294bf29ac6e44822c0ae43d4b0819f11b022
Change-Id: I7315ffcbed8a54cca2056f313bb7783ad82d0ee9
Fixes regression probably introduced in c696cc28.
For bts>0 logging doesn't show bts number correctly when printing lchan
identification string - it will always show it as "bts=0". The reason for
this is that the identification string is cached before bts->nr value is
set to a proper value.
This patch sets bts->nr as part of the first step of the bts structure
initialization, before caching happens thus making sure the cached
identification string is cached with the correct values.
Change-Id: I61c18a7f021fcb1ec00d34a745f4e3ab03416c2d
If the mobile phone requests a status report via SMS, send a DELIVER_SM
with esm_class = Delivery Receipt to ESME to indicate that the SMS has
been already delivered to its destination.
MS GSM 03.40 SMSC SMPP 3.4 ESME
| | |
| SMS-DELIVER | |
|<----------------------------| |
| GSM 04.11 RP-ACK | |
|---------------------------->| |
| | DELIVER-SM |
| | esm_class = Delivery Receipt |
| |------------------------------->|
| | DELIVER-SM-RESP |
| |<-------------------------------|
| | |
This patch implements "Appendix B. Delivery Receipt Format" as specified
in the SMPP 3.4 specs. This string is conveyed in the SMS message as
data, and it is only meaningful to the ESME, for logging purposes. The
"submit date" and "done date" are not yet set, and other fields are just
sent with dummy values, so they are left to be finished as future work.
The new SMPP TLV tag TLVID_user_message_reference is added to the SMPP
messages inconditionally now since this information is required by
delivery-reports to associate the status-report with the original SMS.
Change-Id: Ic1a9023074bfa938099377980b6aff9b262fab2a
A number of the GSM timers (including T3109) had no reasonable
default values if not specified in the VTY / config file. Together
with unconditional writing to the config file, this created
config files with a persistent setting for important timers as '0'.
To make things worse, many of our example cofig files suffered from the
same problem.
Let's avoid this from happening by
* having reasonable defaults if nothing specified in the config file
* conditionally savingg timers only if they differ from default
* reject any timer values that state zero during start-up (see previous
commit)
Change-Id: Iaac0bfca423852b61d8b9eb1438157ef00d0d8c8
Closes: OS#2380
For some GGSNs we need to insert the PDP Charging Characteristics
that were returned. We receive these values from GSUP and will
fill them into the tlv structure when finding the ggsn context.
Change-Id: I1725bfd2403d29ce3550bfcd6fcc1498426ef906
The ip.access nano3G needs the first RTP payload's first two bytes to read hex
'e400', or it will reject the RAB assignment. Add flag
patched_first_rtp_payload to mgcp_rtp_state to detect the first RTP payload on
a stream, and overwrite its first bytes with e400. This should probably be
configurable, but seems to not harm other femto cells (as long as we patch only
the first RTP payload in each stream). Only do this when sending to the BTS
side.
Related: OS#2459
Change-Id: I5eff04dcb0936e21690e427ae5e49228cd459bd4
osmo-nitb becomes osmo-msc
add DIUCS debug log constant
add iucs.[hc]
add msc vty, remove nitb vty
add libiudummy, to avoid linking Iu deps in tests
Use new msc_tx_dtap() instead of gsm0808_submit_dtap()
libmgcp: add mgcpgw client API
bridge calls via mgcpgw
Enable MSC specific CTRL commands, bsc_base_ctrl_cmds_install() still needs to
be split up.
Change-Id: I5b5b6a9678b458affa86800afb1ec726e66eed88
In an upcoming commit, sgsn_vty_init() will require access to the global sgsn
config struct to initialize a generic VTY command with the proper config
destination address, see Change-Id I5b5b6a9678b458affa86800afb1ec726e66eed88.
Change-Id: Ie6b6e5422987586531a898e0c5b867623dbecb0f
Disable large parts of the code that depend on BSC presence. The code sections
disabled by #if BEFORE_MSCSPLIT shall be modified or dropped in the course of
adding the A-interface.
Don't set msg->lchan nor msg->dst.
Don't use lchan in libmsc.
Decouple lac from bts.
Prepare entry/exit point for MSC -> BSC and MSC -> RNC communication:
Add msc_ifaces.[hc], a_iface.c, with a general msc_tx_dtap() to redirect to
different interfaces depending on the actual subscriber connection.
While iu_tx() is going to be functional fairly soon, the a_tx() is going to be
just a dummy for some time (see comment).
Add Iu specific fields in gsm_subscriber_connection: the UE connection pointer
and an indicator for the Integrity Protection status on Iu (to be fully
implemented in later commits).
Add lac member to gsm_subscriber_connection, to allow decoupling from
bts->location_area_code. The conn->lac will actually be set in iu.c in an
upcoming commit ("add iucs.[hc]").
move to libcommon-cs: gsm48_extract_mi(), gsm48_paging_extract_mi().
libmsc: duplicate gsm0808 / gsm48 functions (towards BSC).
In osmo-nitb, libmsc would directly call the functions on the BSC level, not
always via the bsc_api. When separating libmsc from libbsc, some functions are
missing from the linkage.
Hence duplicate these functions to libmsc, add an msc_ prefix for clarity, also
add a _tx to gsm0808_cipher_mode():
* add msc_gsm0808_tx_cipher_mode() (dummy/stub)
* add msc_gsm48_tx_mm_serv_ack()
* add msc_gsm48_tx_mm_serv_rej()
Call these from libmsc instead of
* gsm0808_cipher_mode()
* gsm48_tx_mm_serv_ack()
* gsm48_tx_mm_serv_rej()
Also add a comment related to msc_gsm0808_tx_cipher_mode() in two places.
Remove internal RTP streaming code; OsmoNITB supported that, but for OsmoMSC,
this will be done with an external MGCP gateway.
Remove LCHAN_MODIFY from internal MNCC state machine.
Temporarily disable all paging to be able to link libmsc without libbsc.
Skip the paging part of channel_test because the paging is now disabled.
Employ fake paging shims in order for msc_vlr_tests to still work.
msc_compl_l3(): publish in .h, tweak return value. Use new libmsc enum values
for return val, to avoid dependency on libbsc headers. Make callable from
other scopes: publish in osmo_msc.h and remove 'static' in osmo_msc.c
add gsm_encr to subscr_conn
move subscr_request to gsm_subscriber.h
subscr_request_channel() -> subscr_request_conn()
move to libmsc: osmo_stats_vty_add_cmds()
gsm_04_08: remove apply_codec_restrictions()
gsm0408_test: use NULL for root ctx
move to libbsc: gsm_bts_neighbor()
move to libbsc: lchan_next_meas_rep()
move vty config for t3212 to network level (periodic lu)
remove unneccessary linking from some tests
remove handle_abisip_signal()
abis_rsl.c: don't use libvlr from libbsc
gsm_subscriber_connection: put the LAC here, so that it is available without
accessing conn->bts. In bsc_api.c, place this lac in conn for the sake of
transition: Iu and A will use this new field to pass the LAC around, but in a
completely separate OsmoBSC this is not actually needed. It can be removed
again from osmo-bsc.git when the time has come.
Siemens MRPCI: completely drop sending the MRPCI messages for now, they shall
be added in osmo-bsc once the A-Interface code has settled. See OS#2389.
Related: OS#1845 OS#2257 OS#2389
Change-Id: Id3705236350d5f69e447046b0a764bbabc3d493c
Original libvlr code is by Harald Welte <laforge@gnumonks.org>,
polished and tweaked by Neels Hofmeyr <nhofmeyr@sysmocom.de>.
This is a long series of trial-and-error development collapsed in one patch.
This may be split in smaller commits if reviewers prefer that. If we can keep
it as one, we have saved ourselves the additional separation work.
SMS:
The SQL based lookup of SMS for attached subscribers no longer works since the
SQL database no longer has the subscriber data. Replace with a round-robin on
the SMS recipient MSISDNs paired with a VLR subscriber RAM lookup whether the
subscriber is currently attached.
If there are many SMS for not-attached subscribers in the SMS database, this
will become inefficient: a DB hit returns a pending SMS, the RAM lookup will
reveal that the subscriber is not attached, after which the DB is hit for the
next SMS. It would become more efficient e.g. by having an MSISDN based hash
list for the VLR subscribers and by marking non-attached SMS recipients in the
SMS database so that they can be excluded with the SQL query already.
There is a sanity limit to do at most 100 db hits per attempt to find a pending
SMS. So if there are more than 100 stored SMS waiting for their recipients to
actually attach to the MSC, it may take more than one SMS queue trigger to
deliver SMS for subscribers that are actually attached.
This is not very beautiful, but is merely intended to carry us over to a time
when we have a proper separate SMSC entity.
Introduce gsm_subscriber_connection ref-counting in libmsc.
Remove/Disable VTY and CTRL commands to create subscribers, which is now a task
of the OsmoHLR. Adjust the python tests accordingly.
Remove VTY cmd subscriber-keep-in-ram.
Use OSMO_GSUP_PORT = 4222 instead of 2222. See
I4222e21686c823985be8ff1f16b1182be8ad6175.
So far use the LAC from conn->bts, will be replaced by conn->lac in
Id3705236350d5f69e447046b0a764bbabc3d493c.
Related: OS#1592 OS#1974
Change-Id: I639544a6cdda77a3aafc4e3446a55393f60e4050
Original libvlr code is by Harald Welte <laforge@gnumonks.org>,
polished and tweaked by Neels Hofmeyr <nhofmeyr@sysmocom.de>.
This is a long series of trial-and-error development collapsed in one patch.
This may be split in smaller commits if reviewers prefer that. If we can keep
it as one, we have saved ourselves the additional separation work.
Related: OS#1592
Change-Id: Ie303c98f8c18e40c87c1b68474b35de332033622
Before, each GSUP client would contact the HLR with an identical unit id, i.e.
"SGSN-00-00-00-00-00-00", with the result that some messages were sucked off by
the wrong client.
Pass explicit unit name from each gsup client user, so that OsmoMSC is "MSC"
and OsmoSGSN is "SGSN". Hence the HLR can properly route the messages.
Todo: also set some values instead of the zeros.
Unrelated cosmetic change while editing the arguments: gsup_client_create()'s
definition's oap client config arg name mismatched the one used in the
declaration. Use oapc_config in both.
Change-Id: I0a60681ab4a4d73e26fe8f0637447db4b6fe6eb2
This is the first step in creating this repository from the legacy openbsc.git.
Like all other Osmocom repositories, keep the autoconf and automake files in
the repository root. openbsc.git has been the sole exception, which ends now.
Change-Id: I9c6f2a448d9cb1cc088cf1cf6918b69d7e69b4e7
Add the hooks/configure detection to compile everything with
-fvisibility=hidden and then make certain symbols visible. This
will be used to make parts of the API public.
There are no users yet but we should have some soon.
The abnormal case is that lchan_free ist getting called due
a RSL_MT_CHAN_REL_ACK in the RSL but the refcount of this
channel is not zero. This means that some "logical operation"
is still going on that needs to be cancelled.
Instead of always queuing up all operations in the
struct gsm_lchan use the signal framework to inform higher
layers about this abnormal case.
In gsm_04_08.c a signal handler is installed and in the
abnormal case the location updating request operation is
freed.
This was a stupid decision. We will have to assign the
network at some other place. The problem will be a problem
when we have two gsm_networks in one process and the same
subscriber is traveling in both networks.
The pointer was initially added to support to open a lchan
by using the gsm_subscriber structure. We would have restored
the struct gsm_bts from the db when loading the subscriber.
Instead we will dynamically resolve the gsm_bts and might end
up paging multiple bts in the same (stored/old) location area
until it answers.