Coverity is not happy about it but it doesn't appear to be a real
issue as the data will not be NULL on the first call.
Addresses: Coverity CID 1040704
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.
Begin with the NAT code. It is not clear yet if we will have one
file with all the tests or will have a sub directory with *.py files.
In the long run the base class will move to the osmo-python-tests
module.
The test scripts warn about missing documentation, untested configs,
check common errors, and stub out testing individual VTY commands.
The scripts have been moved to the another osmocom repository,
python/osmo-python-tests
The features were requested by zecke.
In some situations (like MS reboot without prior DETACH or SGSN reboot
without prior MS detach), the LLC sequence numbers for UI mode could
be different on both sides.
The LLC spec unfortunately doesn't permit us to send something like a
FRMR in this case, but instructs us to silently discard the frame. At
that time the remote LLC entity will re-transmit the frame with the same
seqeunce number over and over again, which we will drop again and again.
The mthod used now will keep track of the last received UI sequence
number. If that number is retransmitted for three times in a row, then
we accept this sequence number and recover from that point on.
system_id is a char array, which makes the NULL check a tautology,
so we should check with strlen if the string is empty or not.
This is fixing the "write" command of VTY that would otherwise
create a config file that can not be parsed.
If an ESME has the dcs_transparent config flag, then the TP-DCS
of MO-SMS is transparently passed to SMPP and not converted to SMPP
specific data_coding values.
This is needed in cases where ESMEs actually care about the exact
TP-DCS, as the conversion from TP-DCS to SMPP data_coding is not
bijective.
There are multiple ways how the TS 03.38 TP-DCS can indicate 8bit or
7bit messages. SMPP has it's own data coding specification, which is
different from TS 03.38.
However, some SMPP ESMEs want to be able to have fine-grained control
over the TP-DCS indicated in the TPDU header. If such values like 0xF6
are used in SMPP, we now transparently pass them on to the GSM side.
The RQNT message might not contain a 'S:' line with the actual tone
to play. Instead of calling the callback with the 0 as tone just leave
early.
Example:
X: 6B9519B88F0
R: D/[0-9#*](N), G/ft, fxr/t38
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.
* This branch make the type sysmobts work.
* Asssume a bsc_gsmnet variable to be defined.
* This allows to use channel configurations not supported by the
nanoBTS.
* Manually tested with the FakeBTS and tested by users.
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.
Extend the status message and send LAC/CI as part of the status
message. It is using TV to allow sending more fields in the feature.
We only need to encode the data and this is why there is no tlv
description yet.
The bsc_nat.h is included by common_vty.c so we may not used
sccp_types.h in the bsc_nat.h header file. Move the callstats
to a new file and include it where it is needed.
Find the Cell Identifier from the Complete Layer3 Information and
store it for future reference. We could begin to verify that the
LAC/CI used really belongs to the BSC.
The name sccp_connection is used in the osmo-sccp code, sccp_connections
was used in the NAT for tracking a sccp_connection. Rename it so it is
obvious that the struct belongs to the nat.
The rename was done with sed:
$ sed -i s,"struct sccp_connections","struct nat_sccp_connection",g \
include/openbsc/*.h src/osmo-bsc_nat/* tests/*/*
Prepend the international number with a '+' and then do the normal
re-writing on it. There are a couple of ways to handle this:
\+([0-9]), \+[0-9][0-9]([0-9]), \+49([0-9])
Add a test case for the international re-write based on an already
internationalized number.
Limit the amount of pending DLCX responses to three times the amount
of available endpoints. Currently all MGCP messages are sent and handled
in sequence.
We want to send a TRAP with the MGCP statistics from the NAT and
the connected BSC. The BSC endpoint can be either released because
of a DLCX from the MGCP CallAgent or the SCCP Connection release on
the A-link.
This is why we need to queue the statistics when the deleting the
endpoint on the BSC. The processing is continued once the response
arrives. This code assumes that the response of the DLCX will be sent
by the remote side. The current amount of outstanding responses can be
seen on the VTY. This assumption is based on the fact that the BSC has
already responded to the CRCX and maybe to the MDCX.
The MGCP RFC is bended to prefix the transaction identifier with "nat-"
to easily detect the response and hand it to the handler. This will
then parse the response and generate the TRAP. The current version is
v1. We assume that the transaction space is big enough and we will
not re-assign the transaction identifier too early.
The sysmobts is now having a SAPI queue with all pending SAPI operations
on the BTS. Add the llist_head to the lchan and make sure it is initialized
by the shared code.
The token was compared with the configured one but only up to a
user supplied length. Compare the token sizes and then use memcmp
for the actual comparison to make sure to compare the right ammount
of characters.
There is no unit-test but there should be one.