This fixes a bug in the following circumstances:
* BSIC is set to 0 in the config file
* No TSC is explicitly specified at the BST level in the config file
In this case, we ended up using BSIC=0 and TSC=7, as TSC=7 is our
default initialization value.
The TSC of the CCCH/BCCH must always be the BCC, which is the lower 3
bits of the BSIC. Having configuration options for both the BSIC _and_
the TSC at the BTS level therefore makes no sense, as it only adds ways
in which users can configure non-oprational configurations. So we
remove the bts->tsc member, and keep only the ts->tsc members that allow
us to configure a timeslot-specific TSC that's different from the BTS
TSC (= BCC).
The signature of mr_config and the BSC implementation didn't
match and the compiler was warning about it:
osmo_bsc_api.c:530:2: warning: initialization from incompatible pointer type
.mr_config = bsc_mr_config,
^
osmo_bsc_api.c:530:2: warning: (near initialization for ‘bsc_handler.mr_config’)
Change the mr_config again and provide an implementation
that will set the ms and bts data structure. It would be
better to put the size outside of the IE but I am not going
to change it right now. It would also be nice to either move
the AMR setting into the "nitb" structure or have the msc
data be used _after_ the bts settings. This needs to be
cleaned up in the next step.
Manually verified by placing a MO call and checking that
both the channel mode modify and the mode modify request
contain the multi rate config with the rate mr config
(length two bytes, version 1, icmi==1, no start mode being
set).
This way a lot of if/else can just be killed by the caller deciding
which of the two instances to use.
I have copied both branches to new files, replace bts for ms in one
of them and ran diff on it. There is no difference.
Merge two copies into a local static helper function. The format
of the message will change and then it is easier to modify it in
one place than in two.
Sadly the original patch was merged before this clean-up so do
the clean-up as second step.
Conflicts:
openbsc/src/libbsc/abis_rsl.c
openbsc/src/libbsc/gsm_04_08_utils.c
As the comment says we should not rely that the paging
occurs on the current LAC. We might page at more BTS.
Walk all the BTS to stop paging. No callbacks will be
issued by this stop operation.
In case we can't page on a BTS then stop it everywhere. The
callers of paging_request assume that this is kind of an
atomic operation and we should help with that.
Check if the NAT has sent 16 bytes of RAND and if a key
has been configured in the system and then generate a
result using milenage. The milenage res will be sent and
noth the four byte GSM SRES derivation.
Unfortunately the basic structure of the response is broken.
There is a two byte length followed by data. The concept of
a 'tag' happens to be the first byte of the data.
This means we want to write strlen of the token, then we
want to write the NUL and then we need to account for the
tag in front.
Introduce a flag if the new or old format should be used.
This will allow to have new BSCs talk to old NATs without
an additional change. In the long run we can clean that up.
The code to do that doesn't belong to the control interface, so
abstract it out to a separate function gsm_bts_set_system_infos().
[hfreyther: Fix the coding style...]
We had issues with odd behavior on the nanoBTS which lead
to the introduction of the "broken" state. On busy multi
BTS cells (e.g. rhizomatica) with wifi backhaul the timeout
we set to wait for a RF Channe Release ACK is sometimes too
little and channels are marked broken that look to be okay
(besides the still to be determined delay).
In case of a sysmoBTS we now know that we can change the
state of a broken channel back to normal in case we do
receive the right response.
Manually verified using the Smalltalk BTS code
PackageLoader fileInPackage: 'FakeBTS'
bts := FakeBTS.BTS new.
bts btsId: '1903/0/0'.
bts connect: 'localhost'.
bts waitForBTSReady.
test := FakeBTS.OpenBSCTest new.
test bts: bts.
test requireAnyChannel
... wait for NITB output
<0004> abis_rsl.c:223 (bts=0,trx=0,ts=0,ss=0) Timeout during deactivation! Marked as broken.
... process pending messages
stdin next
<0004> abis_rsl.c:735 (bts=0,trx=0,ts=0,ss=0) CHAN REL ACK for broken channel. Releasing it.
So the channel went from broken to unallocated.
Create a control command to read and modify the gprs mode. Use
the get_string_value to indicate if the value was found or not.
This is useful for the ctrl interface where I didn't want to
replicate "none", "gprs" and "egprs". Share code to verify that
a BTS supports the mode.
Related: SYS#591
30f1f37638 introduced new channel
combinations but had a copy and paste error in the description.
The jenkins system didn't run the external tests so this issue
and others were not noticed until now.
Fix the copy and paste and update the test result.
This is a normal situation under high load: The BTS is out of resources
and the BSC cannot allocate any dedicated channel. We may send an IMM
ASS REJECT back to the MS. All well within normal parameters, not an
error that needs to be reported back to the caller, who propagates it
all the way up to libosmo-abis.
Move the "logging filter imsi IMSI" into the BTS/NITB code to
allow to set the gsm_subscriber and only compare it. This way
we simply compare the subscriber address and don't have to care
if the subscriber data is still valid.
The idea of ts_alloc()/ts_free() dates back to the very early days of
OpenBSC, where we didn't yet have a fixed PCHAN type assigned for every
lchan in a BTS. However, ever since, PCHAN types (channel combinations)
are configured by OML in a certain way, and we only allocate LCHANs
inside PCHANs of a matching type. There should be no PCHANs with
type GSM_PCHAN_NONE, unless those that you don't want to use for
administraive reasons or the like.
==25637==ERROR: AddressSanitizer: stack-buffer-overflow on address 0x7fff3f587c43 at pc 0x5bf591 bp 0x7fff3f587630 sp 0x7fff3f587628
READ of size 4 at 0x7fff3f587c43 thread T0
#0 0x5bf590 in tv_fixed_put /home/alphaone/local/osmo-asan/include/osmocom/gsm/tlv.h:237
#1 0x5b7e14 in generate_si4 /home/alphaone/scm/osmo/openbsc/openbsc/src/libbsc/system_information.c:607
#2 0x5b488b in gsm_generate_si /home/alphaone/scm/osmo/openbsc/openbsc/src/libbsc/system_information.c:882
#3 0x4cb247 in gsm_bts_trx_set_system_infos /home/alphaone/scm/osmo/openbsc/openbsc/src/libbsc/bsc_init.c:166
#4 0x4d3c26 in bootstrap_rsl /home/alphaone/scm/osmo/openbsc/openbsc/src/libbsc/bsc_init.c:272
#5 0x4ced44 in inp_sig_cb /home/alphaone/scm/osmo/openbsc/openbsc/src/libbsc/bsc_init.c:316
#6 0x7f4f15b563d7 in osmo_signal_dispatch /home/alphaone/scm/osmo/libosmocore/src/signal.c:105
#7 0x7f4f156c0e3f in e1inp_int_snd_event (/home/alphaone/local/osmo-asan/lib/libosmoabis.so.4+0x17e3f)
#8 0x7f4f156be7e5 in e1inp_event (/home/alphaone/local/osmo-asan/lib/libosmoabis.so.4+0x157e5)
#9 0x583a6a in ipaccess_sign_link /home/alphaone/scm/osmo/openbsc/openbsc/src/libbsc/bts_ipaccess_nanobts.c:675
#10 0x7f4f156e63b0 in handle_ts1_read (/home/alphaone/local/osmo-asan/lib/libosmoabis.so.4+0x3d3b0)
#11 0x7f4f156e4f4e in ipaccess_fd_cb (/home/alphaone/local/osmo-asan/lib/libosmoabis.so.4+0x3bf4e)
#12 0x7f4f15b540b6 in osmo_select_main /home/alphaone/scm/osmo/libosmocore/src/select.c:160
#13 0x43c656 in main /home/alphaone/scm/osmo/openbsc/openbsc/src/osmo-nitb/bsc_hack.c:355
#14 0x7f4f1462e4bc (/lib64/libc.so.6+0x224bc)
#15 0x43b6cc (/home/alphaone/local/osmo-asan/bin/osmo-nitb+0x43b6cc)
Address 0x7fff3f587c43 is located in stack of thread T0 at offset 483 in frame
#0 0x5b712f in generate_si4 /home/alphaone/scm/osmo/openbsc/openbsc/src/libbsc/system_information.c:580
This frame has 8 object(s):
[32, 40) ''
[96, 104) ''
[160, 164) 'rc'
[224, 232) 'si4'
[288, 296) 'cbch_lchan'
[352, 360) 'restoct'
[416, 420) 'l2_plen'
[480, 483) 'cd'
HINT: this may be a false positive if your program uses some custom stack unwind mechanism or swapcontext
(longjmp and C++ exceptions *are* supported)
SUMMARY: AddressSanitizer: stack-buffer-overflow /home/alphaone/local/osmo-asan/include/osmocom/gsm/tlv.h:237 tv_fixed_put
We can now configure the pyisical channel types for CBCH either in the
CCCH+SDCCH4 or in the SDCCH8 chanel combination.
Depending on whether a CBCH exists on the BTS, we also generate the SI4
with matching CBCH channel description to notify the phones of the
existance of the CBCH.
There is now a VTY command how a SMS-CB message can be sent to a given
BTS.
We do not yet have any logic at all for actual scheduling of multiple
CBCH RSL messages towards one or multiple BTSs yet, though.
The new lchan will be in speech mode already but for AMR we will
need to provide a working multirate config in the channel activation,
otherwise the channel act might be nacked.
Copy the config from the current lchan into the new lchan. The
abis code simply added the mrconf if the speech mode was amr.
Before this commit the invalidate mrconf with all zeroes was
copied/sent.
In case of a ho_chan_activ_nack (sent due another bug inside
both sysmobts and openbsc) the code would not stop the timer
but free the datastructure. This can lead to a clear segfault
when the timer has expired. Create a "free" function which is
responsible to detach the handover structure, stop the timer
(which is idempotent) and free the structure.
In case a BTS is dropped, iterate over the list of BTS and check
if a dependency is now missing and then drop the BTS. This check
could lead to check of 256*256 checks (e.g. all BTS on each other
in the chain and the master is being dropped). The performance
aspect of it doesn't matter for our usecase. We expect to have
pairs of BTS right now.
E.g. for the sysmoBTS2050 we have the requirement that the first
board connects before the second due clocking. The easiest point
to enforce this is the BSC. Add a simple bitmask based system to
allow to express dependencies for IP based systems.
Currently every subcriber object directly refers to the gsm_network
which contains a flag shared by every related subscriber
(keep_subscr). This adds a dependency on gsm_network even if only the
function defined in gsm_subscriber_base.c are used.
This patch adds a new struct gsm_subscriber_group which contains the
keep_subscr flag and a back reference to the network object. The
latter is not dereferenced in gsm_subscriber_base.c, so it can safely
be set to NULL when only that part of the gsm_subscriber API is being
used. It also changes that API to use gsm_subscriber_group instead of
gsm_network parameters.
Since there are some places where a pointer to the gsm_network is
needed but where only a gsm_subscriber is available, a 'net' back
pointer is added to the group struct, too. Nevertheless subscr group
and network could be separated completely, but this is not the topic
of this commit.
Sponsored-by: On-Waves ehf
Increase the bcch_change_mark and generate a new copy of the
system information. Make the method public, add a small test
case. Manually verified using the FakeBTS. I don't know if
the MS will re-read these SIs.
Related: SYS#739
Since it is planned to use struct gsm_subscriber to manage subscriber
data in the SGSN, this file which contains the generic subscriber
related methods is moved to libcommon.
Sponsored-by: On-Waves ehf
Currently libcommon depends on libbsc, because gsm_network_init
(libcommon/gsm_data.c) directly calls gsm_net_update_ctype
(libbsc/gsm_04_08_utils.c).
This patch moves gsm_network_init to a new file libbsc/net_init.c.
Sponsored-by: On-Waves ehf
Currently the sign_link pointer is dereferenced after a call to
osmo_signal_dispatch, which can indirectly call
e1inp_sign_link_destroy. If that happens, accessing *sign_link is
illegal and can lead to a segmentation violation.
Since only the bts pointer is needed from sign_link after the call to
osmo_signal_dispatch, this patch changes abis_nm_rcvmsg_fom to save
that pointer to a local variable earlier.
Addresses:
<0019> input/ipa.c:250 accept()ed new link from 192.168.1.101 to port 3002
SET ATTR NACK CAUSE=Message cannot be performed
<0005> bsc_init.c:52 Got a NACK going to drop the OML links.
<001b> bsc_init.c:319 Lost some E1 TEI link: 1 0xb351a830
=================================================================
==13198== ERROR: AddressSanitizer: heap-use-after-free on address 0xb5d1bc70 at pc 0x80a6e3d bp 0xbfbb33d8 sp 0xbfbb33cc
Sponsored-by: On-Waves ehf
In case a BTS is being bootstrapped and one TS can not be
activated prevent the whole BTS from coming up.
When the OML activation is not being done the rest of the BSC
code still assumes these logical channel(s) to be available
and one will see channel activation issues that might be hard
to debug.
Instead of having a half-configured system up and running,
keep the BTS offline.
As bsc_ctrl_node_lookup() is called for each iteration,
the variables 'bts' and 'trx' are no longer static accross multiple
calls, which means we need a different way to determine if we are in the
right node while matching for a trx or a ts.
Now that the bulk of the control interface node lookup has
no reference to the BSC specific data structures, we are
moving it into libosmocore.
A control interface user now only registers an optional small
node lookup function like bsc_ctrl_node_lookup()
The idea here is that bsc_ctrl_cmd_handle now has no dependency
at all to the BSC related data structures and thus can actually become
part of libctrl.
The new function bsc_ctrl_node_lookup however will remain bsc-specific.
Send a non-call related SS message for an active call indentified
by the CIC of that call. As an ugly hack the order of the SS
release and the invocation are changed. That was necessary for the
E71 on a TCH. The time between notify and release was just too short.
The right would be to wait for the returnResultLast but this would
involve keeping more local state. Let's see how far we get here. It
might be necessary to change the order in the other call sites as
well.
Timing advance is stored inside lchan structure, so it is removed from
arguments. This is useful, if other actions are required prior calling
rsl_chan_activate_lchan. (like deactivating PDCH first)
The "shifted TA value" that is required by BS11 is now calculated inside
rsl_chan_activate_lchan and not by each user.
[Rebased by Holger. So some hunks were skipped as the patch
depended on Jolly's HO code]
In case we receive ERROR INDICATION and CONNECTION FAILURE we only
want to RF Channel Release the lchan once. This code is more simple
and should work as reliable as the previous commit.
When we receive an ERROR INDICATION and CONNECTION FAILURE we
might call rsl_rf_chan_release multiple times. The channel release
handling is still a bit messy and there too many paths that lead
to the call.
1.) In case we receive an ERROR INDICATION for SAPI=3. A RLL
error signal will be emitted that leads to the release of the
channel through the SMS code in case of the NITB. The call to
rsl_rf_chan_release might be a double release.
2.) In case a CONNECTION FAILURE is received when the release
process has already been started we would unconditionally
call rsl_rf_chan_release as well.
Because the lchan state is changed by the callers of the
rsl_rf_chan_release we can not move the state checking into this
code but need to do it in the caller. The issue was seen in a trace
from Rhizomatica and I created the DoubleRelease.st to re-produce
the issue and verified that we have no duplicate RF Channel Releses.
The other option would be to introduce a new state to track
the release process and see if we have already released SAPIs
deactivated the SACCH or such. We can not simply look at these
as for a channel that fails to activate they will be null already.
Looking at the code it seemed possible that a channel would
transition from BROKEN to NONE. Or worse from NONE to BROKEN.
Start the timer _after_ the channel has been released.
I'm not entirely sure if this is the best approach. However,
there are phones that send a RACH request for TCH/F on MO calls, even
though they actually do support TCH/H channels.
Currently, if a CTRL method does not set the reply, an error is
logged ("cmd->reply has not been set"). It even complains when the
function implementing the command returns CTRL_CMD_HANDLED, where
a reply text is not needed.
This patch changes the logging level from ERROR to NOTICE. The logging
is now only done, when the retry has not been set and the
implementation returns either CTRL_CMD_ERROR or CTRL_CMD_REPLY. So
in these cases the reply field must be set.
This fixes the generation of log messages when doing NAT ctrl command
forwarding.
Ticket: OW#1177
Sponsored-by: On-Waves ehf
This is mostly based on Alexander's migration code. The code
adds transaction handling and some sanity checks and cleanups
to the code. We made the decision to fork the sms_from_result
method and freeze it to that version. This way sms_from_result
can move forward without having to deal with legacy.
Given that the method is only called for a traffic channels the
missing breaks didn't hurt.
Fixes: Coverity CID 1040731, CID 1040732, CID 1040733,
CID 1040734
In case ftell -1 will be returned. Coverity complained that the
pos we pass to fseek might be negative. In case the ftell fails
we are at the last line for sure.
Fixes: Coverity CID 1040721
The old ipa_msg_recv() implementation didn't support partial receive,
so IPA connections got disconnected when this happened.
This patch adds the handling of the temporary message buffers and uses
ipa_msg_recv_buffered().
It has been successfully tested by jerlbeck with osmo-nitb and
osmo-bsc.
Ticket: OW#768
Sponsored-by: On-Waves ehf
In case the max_power_reduction changes, issue a new Set Radio
Carrier Attributes command. OML 12.21 allows to not include the
ARFCN list and the semantic I picked/understand is that a partial
update is possible.
Fixes: SYS#267
For GPRS the look-up via bts/trx does not make any sense and would
introduce bad depdencies for the SGSN. Move the look-up code to a
new file and introduce new setup methods.
The interface can be accessed through CTRL and a socket. But currently
it is only available when the socket interface has been configured.
Create the interface all the time but only listen on the socket when
a path has been specified.
E1 based BTS use TRAU muxer to decode TRAU frames. After changing
channel from one timeslot to another (due to handover or assignment),
the TRAU muxer must be updated. The call reference of the call is
disconnected from the old channel and connected to the new channel.
We don't want every caller to check for ts->tsc == -1 and then
using ts->trx->bts->tsc instead. Rather, introduce a new inline
function to retrieve the correct value.
This commit adds the implementation of these range formats to the
encoder. In addition, the work-around that tried range 512 first is
removed, so that the selection is primarily based on the max distance
between frequencies.
Ticket: OW#1061
Sponsored-by: On-Waves ehf
Currently the encoding of the chan_list is done by a hard-coded
sequence of macros that closely resembles figure 10.5.16 in
3GPP TS 04.08.
This patch replaces this by an algorithmic solution that can be used
for all range encodings and is based on the property
W(2^i) to W(2^(i+1)-1) are on w1_len-i bits when present
(see section 10.5.2.13 in TS 04.08).
Ticket: OW#1061
Sponsored-by: On-Waves ehf
f0 is currently set to arfcns[0] in range_enc_determine_range(),
while GSM 04.08 requires f0 to be ARFCN 0 in range1024 encoding.
This patch modifies range_enc_determine_range() to force f0 to be 0
if this encoding is used. This way the case distinction in
range_enc_filter_arfcns() is not longer necessary.
Sponsored-by: On-Waves ehf
The iPhone5 (US) appears to have some issues with the SIs generated,
or the nanoBTS is not sending them correctly.
Add a configurable hack to put all bands into the SI2/SI5 message.
It is enabled by the bts VTY command 'force-combined-si'.
This is a quick change without much reflection and watching for side
effects. I have verfied that a network with ARFCN 134 and neighbors
ARFCN 130 and 512 do not get generate the SI2ter and announce everything
inside the SI2.
This patch is conceptually based on 'si: Add a hack to disable
SI2ter/SI2bis/SI5ter/SI5bis messages' (692daaf2d2).
Ticket: OW#1062
Sponsored-by: On-Waves ehf
Speech codings which are not supported by BTS will be removed from the
bearer capability information element after parsing. This way it is not
required for the MNCC application to consider support of each BTS.
Only GSM full rate is supported by default.
This option is a workarround for a bug found in Nokia InSite BTS firmware
version 3.0.0. There is no RELease CONFirm message for local end release.
Nokia MetroSite with firmware version 4.178.16 is not affected.
TS 04.06 Chapter 5.4.4.4 "Local end release procedure" states that a
confirm must be sent by layer 2 when receiving a local end release
request.
In order to correctly switch a channel (handover or assignment), local
end release is required.
Sylvain pointed out that the RLL and the SMC timeout is the same.
This can lead to have a SMC re-transmission before the first RLL
Establish Request has timed out. Reduce the RLL timeout. GSM 08.58
does not specify a timeout so right now I just reduce it to seven
seconds.
Andreas highlighted that the doubel assignment is not needed and
wrong. Change the code to assign chan_list[0] before writing the
base frequency to the header. Update the testcase to make the highest
bit set and update the test result.
The IMSI can only be 15 characters in length, our define gives
us a length of 17. This means we have place for two NULs. Use
strncpy and make sure it is null-terminated.
Fixes: Coverity CID 1040707
These functions are currently located in libmsc/gsm_04_08.c together
with other symbols that (transitively) depend on many external
symbols (and thus libraries) that aren't otherwise needed by e.g.
osmo-bsc.
Since gsm48_tx_mm_serv_ack() will be needed by osmo-bsc, these
functions are moved to avoid the dependency on gsm_04_08.o.
Sponsored-by: On-Waves ehf
Remove ournode_exit_cmd, ournode_end_cmd, and bsc_install_default()
since this functionality is provided by the current libosmocore.
Replace calls to bsc_install_default() by call to
vty_install_default() with the following semantic patch:
@rule1@
expression N;
@@
- bsc_install_default(N);
+ vty_install_default(N);
Ticket: OW#952
Sponsored-by: On-Waves ehf
This adds in-place patching of the time information in the
MM INFORMATION message. The timezone in the 'Local time zone' and
the 'Universal time and local time zone' information elements
and the offset in the 'Network Daylight Saving Time' information
element are optionally set.
The new values are determined by the 'timezone' vty command in the
config_net_bts node. That command is extended by an optional
DST offset parameter.
Tests are provided for the vty part and for the plain
bsc_scan_msc_msg() function.
Sponsored-by: On-Waves ehf
Ticket: OW#978
This stores the last SET rf_locked control command along with a
timestamp. The 'show network' vty command is extended to show
this information.
Ticket: OW#659
This prevents the application from crashing when there is a half
configured BTS (e.g. by using the command 'bts 1' when there isn't
a BTS 1) and the 'write' command is used.
It was possible to cause a crash by enabling and disabling the
MSC connection. The enabling lead to scheduling a connection
and the second call was not stopping the timer.
Assign a static name to a MSC Connection and use it. In case there
are multiple connections we can now more easily identify them.
This is only used for the NAT right now, the BSC could start to
name the various MSC connections too.
Add bsc_install_default() and replace all install_default()
This patch adds bsc_install_default() which calls install_default()
and add 'exit' and 'end'. All other calls to install_default() are
replaced by calls to bsc_install_default().
Since 'exit' and 'end' are now added automatically to each node, the
explicit registrations of these commands are removed by this patch,
too.
The related tests succeed now without work-arounds (except for the
'config' node itself which is part of libosmocore).
It was possible that the wrong NSEI information was sent to the
BTS. This is because patch_nm_tables is not called before sending
the data to the BTS. This will break when two BTS connect more or
less at the same time.
Stop using the arrays directly and instead introduce a method
that will patch the table and return the data and length. This
makes sure that all users patch the table before we send the
data to the BTS.
I bootstrapped a sysmoBTS and I can bring up rsl. The device is
running with a dummy load so I couldn't do more verification.
Disable the periodic LU using "no periodic location update" VTY
command. In that case set the expire_lu to 0 which will then be
translated to a NULL in the database layer. This leads to a bit of
copy and paste in the db_sync_subscriber method but I don't see
how we could easily use 'datetime(%i, 'unixepoch')' and 'NULL'
at the same time.
Change the query to find expired queries to check for NOT NULL
and the time being in the past. This means if there are still
old subscribers in the database they might not be expired. One
would need to execute a query like "UPATE Subscriber SET expire_lu
= 0 WHERE expire_lu is null". The same applies when disabling the
periodic LU. One would need to update the database by hand.
Manual tests executed/passed:
1.) periodic LU enabled:
* use gst LUTest.st to do a LU
* UPDATE Subscriber SET expire_lu=datetime('now');
* observe the subscriber being expired (it was)
2.) periodic LU disabled:
* use gst LUTest.st to do a LU
* verify that the expire_lu is NULL in the database
bsc_api.c:417:3: warning: format ‘%lu’ expects argument of type ‘long unsigned int’, but argument 7 has type ‘unsigned int’ [-Wformat]
bsc_api.c: In function ‘handle_ass_fail’:
bsc_api.c:458:3: warning: format ‘%lu’ expects argument of type ‘long unsigned int’, but argument 7 has type ‘unsigned int’ [-Wformat]
db.c: In function ‘db_sync_subscriber’:
db.c:785:3: warning: format ‘%i’ expects argument of type ‘int’, but argument 8 has type ‘time_t’ [-Wformat]
osmo_msc.c: In function ‘msc_release_connection’:
osmo_msc.c:145:20: warning: unused variable ‘trans’ [-Wunused-variable]
smpp_smsc.c: In function ‘link_accept_cb’:
smpp_smsc.c:891:24: warning: assignment from incompatible pointer type [enabled by default]
smpp_smsc.c:271:1: warning: ‘esme_by_system_id’ defined but not used [-Wunused-function]
smpp_openbsc.c: In function ‘smpp_openbsc_init’:
smpp_openbsc.c:545:2: warning: implicit declaration of function ‘smpp_vty_init’ [-Wimplicit-function-declaration]
osmo_bsc_ctrl.c: In function ‘verify_bts_loc’:
osmo_bsc_ctrl.c:340:19: warning: variable ‘height’ set but not used [-Wunused-but-set-variable
smpp_mirror.c: In function ‘main’:
smpp_mirror.c:297:2: warning: implicit declaration of function ‘osmo_init_logging’ [-Wimplicit-function-declaration]
The support has been implemented for an old model, we were told that
newer versions would be made incompatible with OpenBSC. Ther are
various warnings in the code and coverity has found some new ones.
Just remove the code as we don't know of anyone using this code.
In case the specified trx number is not configured, do not crash
but return NULL from the function. The libosmo-abis library should
close the connection for us then.
A channel that fails to send an ACK/NACK/REL within the four second
timeout is now marked as broken. In case the release comes in late
it will be ignored. The lchan should already been freed and for now
we don't want to trust the channel.
In the future we might want to send a "release" for a channel that
got activated ack late and just set the state to none on a channel
that is released acked late.
The late ACK and REL has been tested with two manual tests using the
fakebts. The channels remained blocked even after having received
the ACK message here. The NACK case has not been manually tested.
Assume that there is a bsc_gsmnet and modify the ipaccess-config to
provide this symbol. If a bsc_gsmmnet is not available when linked
the linker will complain and fail.
E.g. give an error like this:
../../src/libbsc/libbsc.a(bts_ipaccess_nanobts.o): In function `ipaccess_sign_link_up':
src/libbsc/bts_ipaccess_nanobts.c:550: undefined reference to `bsc_gsmnet'
Make sure that the bts_ipa_nm_sig_cb is only installed once. In
a nanoBTS + sysmoBTS network the _start method will be called
for each mode leading to the handler being registered twice.
Make sure that there is only one handler registered by unregistering
a previously installed handler. The osmo_signal_unregister_handler
will remove 0 or 1 handlers per invocation and we only add one
handler in this file so it is always balanced.
The nanoBTS code is trying to find a struct gsm_bts based on
the ipaccess_gsmnet and the ipaccess_unit data. The pointer is
not initialized in the case of a sysmoBTS leading to a classic
NULL pointer dereference.
Move the feature init into the _init method. This way we can
re-use the start code of the nanoBTS. This ensures that the
ipaccess_gsmnet pointer is properly initialized and that the
signal handlers are installed.
This patch adds a new VTY command "ip.access rsl-ip A.B.C.D" at the
BTS level. If you set this IP address, the BTS will be instructed to
establish the RSL link to the indiciated IP address, rather than using
the same as for the OML link (default).
Use "ip.access rsl-ip 0" to disable the feature.
Inside the SI1 rest_octets we will need to indicate if the ARFCN
is band 1800 or 1900. If the BTS is either 850 or 1900 we assume
we are running a PCS network, otherwise it is a DCS network.
The band indicator is not documented in GSM 04.08 but it is in the
GSM 05.14 version 6.1.0 Release 1997.
abis_rsl.c:332:23: warning: 'memset' call operates on objects of type 'struct rsl_ie_chan_mode'
while the size is based on a different type 'struct rsl_ie_chan_mode *'
[-Wsizeof-pointer-memaccess]
memset(cm, 0, sizeof(cm));
~~ ^~
abis_rsl.c:332:23: note: did you mean to dereference the argument to 'sizeof' (and multiply it
by the number of elements)?
memset(cm, 0, sizeof(cm));
^~
1 warning generated.
The paging structure is still initialized lazily and we attempt
to traverse it before it is ready. The crash was discovered by
Katerina. Removing the lazy initialization will take a bit of work
as the gsm_data_shared is used by the osmo-bts and the OpenBSC but
paging is different.
Katerina pointed out that some nodes are not fully documented and
proposed some messages. The token/timeout messages were correct, I
have modified the other messages. I removed the full-stop from the
PING/PONG documentation as we are normally not using a full sentence.
The message was corrupt at several points. They are fixed now and
successfully tested.
A default T3122 timer value of 10 is defined by default now. If set to 0,
the reject message will not be sent. Note that when using existing configs
with T3122 value set to 0.
The RF lock excluded BTS was not paged at all. Now forward the
paging message to the handler and call a function that will check
if this LAC can be paged right now. Introduce a new paging method
that allows to page on a dedicated bts, refactor the code to use
this method for paging.
For PCS1900 the SI1 does not contain the ARFCN of the serving cell.
This is because the arfcn2band method will return GSM_BAND_1800 and
not GSM_BAND_1900. The academic fix would be to set the ARFCN_PCS bit
but this would require increasing the bitvector sizes from 1024/8 to
(0x8000 + 1024) / 8. This would increase the storage size for each
bitvector by three.
It is not possible to have DCS1800 and PCS1900 in one network so we
can avoid increasing the memory usage and check if the ARFCN resolved
to 1800 and then check if the BTS is a 1900 BTS and then claim that
this is compatible.
The code predates the TLV parser and we were parsing the RLM from the
wrong offset. In general we were using the length of the TLV which
happened to be equal to the T200 indication.
After consulting the RLM cuases not every of them should generate a
BSC_RLLR_IND_ERR_IND as these are forwarded to the MSC as a SAPI reject
right now.
TLV parsing now generates this due a bug in the osmo-bts code:
abis_rsl.c:1605 (bts=0,trx=0,ts=2,ss=0) SAPI=0 <0000> abis_rsl.c:1547 (bts=0,trx=0,ts=2,ss=0) ERROR INDICATION cause=Fraeme not implemented
For short IP failures we want the RF to stay up and wait for
the re-connect but in case the A-link is gone too long it is
good to switch off the RF and wait for commands to enable it
again.
Handle the mr_config request and set the AMR multirate config for
the given MSC. Initialize the mr_config with the AMR5.9 default we
have been using until now.
libcommon: Default to 30min location update period
libbsc: Limit VTY value for periodic update and disallow the value 0
According to GSM 04.08 Table 10.5.33 "The value 0 is used for infinite
timeout value i.e. periodic updating shall not be used within the cell."
This was the default value until now, but the code that deals with
expiring inactive subscribers in the next commit can't handle that case
so this remains a TODO for now.
The actual command implementation was already for this, but some
bad vty parsing prevented optional range arguments from working
properly.
Signed-off-by: Sylvain Munaut <tnt@246tNt.com>
This was reported by Kevin when he was testing handover. The problem
is the order of the signal handlers for S_ABISIP_CRCX_ACK. Right now
the handover signal handler is called before the one inside the libmsc
gsm_04_08.c. This means S_HANDOVER_ACK is signalled _before_ there is a
rtp socket created for the channel. The result is that the MDCX will
never be sent and the called will not be properly switched _after_ the
handover detection.
I do not want to play with the order of signal handlers, remove the
CRCX ack handling from the handover_logic.c and force the NITB (and
later the BSC) to check if the lchan is involved with a handover and
do the switching in there. This means right now we do what two signal
handlers did in one.
Reproduced and tested with the FakeBTS Handover test.
Log message:
<0004> abis_rsl.c:1954 (bts=1,trx=0,ts=3,ss=0) IPAC_CRCX_ACK ...
<000c> gsm_04_08.c:1400 no RTP socket for new_lchan
<001a> rtp_proxy.c:533 rtp_socket_create(): success
<001a> rtp_proxy.c:615 rtp_socket_bind(rs=0x48703c8, IP=0.0.0.0): ...
In case of handover (but probably on RACH) we would send a RLL for
SAPI=0 even if this SAPI was never established. After we have released
all SAPI>0 locally check that SAPI=0 is established and if not release
the rf channel directly.
T3109 is started when the SACCH is deactivated. It is stopped when
the phones sends the DISC/UA/UM on LAPDm for the main signalling
link. In case of timeout the abnormal release procedure will be
initiated. Make sure to not issue the SACCH Deactivate twice to
avoid confusing the equipment.
This is still not fully spec compliant. In case of a timeout the
abnormal release handling will be started which involves starting
T3111+2. The error handling should be split out of the rf channel
release method, e.g. lchan_release should be called and check if
the channel release was already initiated.
If the CHAN ACTIV is NACKED we set the state backto NONE. This is
problematic as our channel allocator will allocate from the front
or from the back and if the channel is early in the list it might
cause permanent failures. Introduce a BROKEN state and use it when
the channel activation is failing for an unknown reason. Copy the
cause so it can be inspected later.
Deactivate the SACCH and release all SAPIs locally as of GSM 04.08. Add
documentation to the code and explain what will happen as part of the
release process.
* Release all channels with SAPI > 0 with the "local end release"
(as of NOTE 1 of GSM 04.08).
* No need to wait for all SAPIs to be torn down and the normal
REL_IND/REL_CONF will call rsl_handle_release and the channel
should be released.
* Update the documentation
Put the idiom that sets the lchan state to none and respecting the
error state into a shared method. This way the special handling for
the abnormal case is just in one place.
Avoid printing error messages when paging while the BTS is down. In
case a BTS is going down it is best to just let the timers expire
normally. We can not expire them right away as multiple BTS could be
paged and we do not want to interfere with that. There is no need to
stop the queue right now.
The previous code didn't work as expected. The trx and dst pointer
are located in an union and in the case of the Abis code the dst
is used to point to the signalling link timeslot and not the TRX.
The is_ipaccess_bts always returned false because the dst was casted
to a trx while it was no trx.
This fix was tested with the nack_test/NACKTest.st of the test repo.
I saw the old copy of the "Appendix J" code too late and I have
discovered some quirks and I am more familar with my implementation.
Most noticable 'w' only needs to be as big as the input arfcn but
requires the 'w' to be initialized. The power_of_2 implementation
differs as well (mine matches the output of wirehsark).
The f0 could be chosen in a better way but right now picking
the lower bound is the easiest. It is not clear if to use
modulo if the range is chosen in the middle. This can be improved
in the future. Right now I have no bit fiddling for range128, 256
and 1024 as I was running out of time.
alpha=0 (the new value) doesn't reduce MS transmission power during GPRS
as much as we did with alpha=10. This is to optimize for coverage and
to keep GPRS working at all cost, and not care about MS battery life
time or uplink interference in surrounding cells.
FIXME: This should be made configurable via the VTY and the normal
default (unless configured otherwise by vty/config file) should be '6'.
In order to keep mobile at PACCH as long as possible the timer T3192 is
set to 1500ms. This reduces the probablity of long lasting assignment
process on CCCH for subsequent downlink TBFs.
The first fields are still the location up to the height.
The next field is "operational" if any of the trx are operational,
otherwise "inoperational"
The second to last field contains "locked" if all of the trx are in the
admin state, otherwise "unlocked".
The last field represents the rf policy currently in effect. It is one
of (on|off|grace|unknown).
<tstamp>,<valid>,<lat>,<lon>,<height>,<oper>,<admin>,<policy>
bts_hsl_femtocell.c: In function ‘hsl_sign_link_up’:
bts_hsl_femtocell.c:206:3: warning: format ‘%lx’ expects argument of type ‘long unsigned int’, but argument 7 has type ‘uint64_t’ [-Wformat]
bts_hsl_femtocell.c:210:2: warning: format ‘%lx’ expects argument of type ‘long unsigned int’, but argument 6 has type ‘uint64_t’ [-Wformat]
abis_nm.c: In function ‘abis_nm_get_attr’:
abis_nm.c:1380:11: warning: unused variable ‘cur’ [-Wunused-variable]
abis_nm.c: In function ‘ipac_parse_bcch_info’:
abis_nm.c:2588:11: warning: variable ‘len’ set but not used [-Wunused-but-set-variable]
bts_nokia_site.c:1310:6: warning: variable ‘constructed’ set but not used [-Wunused-but-set-variable]
bts_nokia_site.c: At top level:
bts_nokia_site.c:1364:12: warning: ‘dump_elements’ defined but not used [-Wunused-function]
gsm_04_08.c: In function ‘mm_rx_loc_upd_req’:
gsm_04_08.c:521:6: warning: variable ‘rc’ set but not used [-Wunused-but-set-variable]
osmo_msc.c: In function ‘msc_ciph_m_compl’:
osmo_msc.c:122:7: warning: variable ‘rc’ set but not used [-Wunused-but-set-variable]
bts_hsl_femtocell.c: In function ‘hslfemto_bootstrap_om’:
bts_hsl_femtocell.c:101:11: warning: variable ‘cur’ set but not used [-Wunused-but-set-variable]
bts_hsl_femtocell.c: In function ‘hsl_drop_oml’:
bts_hsl_femtocell.c:232:21: warning: variable ‘line’ set but not used [-Wunused-but-set-variable]
handover_logic.c: In function ‘ho_chan_activ_ack’:
handover_logic.c:197:6: warning: variable ‘rc’ set but not used [-Wunused-but-set-variable]
We now have a lchan->csd_mode member that determines if RSL should
activate the channel in CSD transparent services or not. The previous
code always assumed CSD is non-transparent.
(This requires libosmocore >= eed26116c96f03c6128fac3dead9054714af6cab)
Some nodes below 'config' didn't have ournode_exit / ournode_end,
and thus were not able to properly perform this function. exit should
always only go back one level, while end drops us back to ENABLE_NODE.
The prompt now represents the nesting level, and there's one consistent
space after the final prompt character (typically #).
This effectively limits the number of BTSs to 256, but I think that's
acceptable for now. Unfortuantely there's no decent way to dynamically
update the valid number range depending on how many BTSs are actually
configured in the system :/
While generally we should log troly unknown RR messages, we can simply
pass along RRLP messages (which aren't unknown!)
In real networks, the RRLP would probably not end up at the MSC, but
well, sometimes we don't care what real/classic networks do.
We are currently not checking if the BTS actually suports that cipher,
and we particularly don't have any hack for ip.access which apparently
seems to re-use the RSL algorithm identifier for A5/2.
so far, osmo-bts/sysmobts used to be entered as "sysmobts" type in the
configuration file. However, there are some differences in the
protocol/behaviour and we should reflect that by a new BTS plugin (with
lots of code reuse from the nanobts driver).
In case the connection should not be created/accepted release
the channel by sending a RR Release and de-activating the
SACCH. Phones should deal better with that behavior.
In case the call handling starts on a TCH/H switch to a TCH/F
if fullrate is requested. Add a method that is used to determine
if the mode and current channel are compatible with each other.
We want to have multiple MSCs but we also have some data
that is only present on a per BSC basis. Right now the
MSC data is not allocated with talloc, so we have some
change in the talloc contexts.
In addition to SI 2 and SI 5, the SI 2ter and 2bis is generated, if
neighbour cells in other bands exist. Also it is indicated in the rest
octets of SI3, that SI 2ter is used. If no neighbour cell in a different
band exists, the SI 2ter and SI 5ter is omitted.
A special case is P-GSM range (channels 1-124). To be compatible with
older phones, SI 2bis and SI 5bis is used. If the BCCH lays inside the
P-GSM band, only neighbour cells of the P-GSM range are included in
SI 2 and SI 5. If neighbour cells exist in the same band (900), but lay
outside the P-GSM range, the SI 2bis and SI 5bis is used to extend the
list of neighbour cells. The extension is also indicated in SI 2 and
SI 5. If the BCCH lays inside the P-GSM range, but no neighbour cell
exists in the same band outside the P-GSM range, the SI 2bis ans SI 5bis
are omitted.
This must have been obsoleted by the move to libosmo-abis.
GCC warning:
bts_ipaccess_nanobts.c: In function ‘ipaccess_drop_oml’:
bts_ipaccess_nanobts.c:509:21: warning: variable ‘line’ set but not used [-Wunused-but-set-variable]
The old BSC code had code to override the payload type, this has
been removed, remove the variable accessing it.
GCC warning:
abis_rsl.c: In function ‘ipa_rtp_pt_for_lchan’:
abis_rsl.c:1590:22: warning: unused variable ‘net’ [-Wunused-variable]
Introduce a SS_CCCH for the paging and the rach load. The paging
code could now start using the signal.
GCC warning:
abis_rsl.c: In function ‘rsl_rx_ccch_load’:
abis_rsl.c:1371:11: warning: variable ‘rach_access_count’ set but not used [-Wunused-but-set-variable]
abis_rsl.c:1370:11: warning: variable ‘rach_busy_count’ set but not used [-Wunused-but-set-variable]
abis_rsl.c:1369:11: warning: variable ‘rach_slot_count’ set but not used [-Wunused-but-set-variable]
attribute get|set <0-255> (.HEX) was never implemented and the
output about the unused attributes clutter the build output, remove
them.
GCC warning:
abis_nm_vty.c: In function ‘oml_attrib_get’:
abis_nm_vty.c:141:25: warning: unused variable ‘oms’ [-Wunused-variable]
abis_nm_vty.c: In function ‘oml_attrib_set’:
abis_nm_vty.c:152:25: warning: unused variable ‘oms’ [-Wunused-variable]
Use LOGP(DNM, LOGL_ERROR, ...); for errors in the
abis_nm_rx_sw_act_req method.
GCC warning:
abis_nm.c: In function ‘abis_nm_rx_sw_act_req’:
abis_nm.c:412:6: warning: variable ‘ret’ set but not used [-Wunused-but-set-variable]
I'm sure I read somewhere that it actually was 0..1024, as I kept
wondering how stupid it was to use 10bit+1. However, that source
was incorrect, as GSM TS 05.05 quite clearly states 0..1023
RR Messages like STATUS, GPRS SUSPEND, HANDOVER COMPLETE/FAIL, ...
should be processed on the BSC side of things, not on the MSC side.
This is among other things required in preparation of intra-BSC
hand-over support in osmo-bsc.
In case of a reset (loss of the BTS) close down all remaining
RTP Proxy sockets. In case of a lchan_free shout if the rtp
proxy is still open. I would prefer if the proxy code sits inside
the gsm subscriber connection.
gsm_data_shared.h includes e1_input.h of libosmo-abis, add the
LIBOSMOABIS_CFLAGS to Makefile.am, remove AM_LDFLAGS at the same
time as we only build .a archives.
In case of a memory allocation failure in rsl_rx_chan_rqd we would
have left the channel in the LCHAN_S_ACT_REQ state. Move the state
change below the allocation.
In case a BTS does not send the RF Channel Release ACK and we are
closing the channel because of an error two timers are running to
set the state back to none.
Make lchan_deact_tmr_cb and rsl_rx_rf_chan_rel_ack behave the same
in regard to changing the state of the lchan. For the other direction
we are save, the error path will set the state to NONE and the timeout
will call lchan_free to set the channel type back to NONE, only then
the lchan may be allocated again.
The channel release procedure requires some more tweaking, some part
was started in the zecke/28c3 branch and needs to be tested/integrated
with the goal of having one common release path.
In case of a failed channel we still want the channel to not be
re-allocated right away but keep it closed/unused for (T3109 + T311).
rsl_rx_rf_chan_rel_ack has a check to not set the channel to S_NONE in
case the channel is in the error state. Add the camp Harald added a timer
to set the channel back to the none state in case the RF Channel Release
is not acked.
This reverts commit fc462dd59e.
show lchan should be capable of showing all allocated lchans,
all of a given bts, a given trx, a given ts. This feature was
broken when I added the ability to show a more simple summary.
Restore the initial behavior by splitting out the for loops
for the bts/trx/ts and check if we have parsed all parameters
and then call and return the subroutine.
The osmo-nitb application sometimes crashes because the BSC API
is doing an assignment underneath which is not handled by the code,
add dumy handlers to not crash, the right thing to do is to change
MNCC to have an assignment that can succeed/fail.
The keyword to look for is MNCC_LCHAN_MODIFY and mncc_sock should
wait for an ack/nack but right now the call just continues.
The UTC offset from the operating system will be used by default to
calculate the NITZ in MM INFO. However, a "timezone" vty command is
added at the BTS level, allowing BTS-specific overrides, e.g. in case
BTSs are distributed accross multiple timezones.