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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
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osmo_talloc_replace_string() was introducd into libosmocore in 2014, see
commit f3c7e85d05f7b2b7bf093162b776f71b2bc6420d
There's no reason for us to re-implement this as bsc_replace_string
here.
Change-Id: I6d2fcaabbc74730f6f491a2b2d5c784ccafc6602
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talloc_free the cfg only after asserting num_bsc count sanity.
This caused a failure in the 'bsc-nat' test with -fsanitize build.
Should fix the Osmocom_Sanitizer build on jenkins.osmocom.org
https://jenkins.osmocom.org/jenkins/job/Osmocom_Sanitizer/
Change-Id: Ic20aacaccffcaa58ccec6d24c884727dc1bc50e6
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Check for existing BSC before allocating new one.
Track number of remaining BSCs on deallocation.
Explicitly use BSC number in allocation function.
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This commit adds the class_id initialiser to all rate_ctr_group_desc
definitions.
Sponsored-by: On-Waves ehf
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In the upcoming authentication improvements it is nice to
separate the finding of the config from the post-allow
handling of it.
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Move the filter methods to the filter module. This is
still only usable for the NAT and the _dt/_cr filter
routines need to move back to the bsc_nat in the long
run.
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The talloc_free on the nat lead to the freeing of the bsc_config
which lead to freeing of the rate_ctr_group. The rate_ctr_group
remained in a global list and the next creation of a bsc_config
would access dead memory. Fix it.
The free routine is only meant to be used by the test, for the
real nat we would need to make sure that all connections and
other state that refers to the cfg is removed/closed first.
Fix various memleaks in the test while we are at it. There are
still some to fix.
==7195== Invalid write of size 4
==7195== at 0x4043171: rate_ctr_group_alloc (linuxlist.h:65)
==7195== by 0x804D893: bsc_config_alloc (bsc_nat_utils.c:174)
==7195== by 0x804B5D2: main (bsc_nat_test.c:954)
==7195== Address 0x4311cbc is 52 bytes inside a block of size 208 free'd
==7195== at 0x4029D28: free (in /usr/lib/valgrind/vgpreload_memcheck-x86-linux.so)
==7195== by 0x4048D98: _talloc_free (talloc.c:609)
==7195== by 0x4052806: talloc_free (talloc.c:578)
==7195== by 0x804B58A: main (bsc_nat_test.c:940)
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... which happened during recent migration of IPA functionality from
libosmo-abis into libosmocore.
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The filtering architecture already allowed to specify a reject
reason but this has not been used for the access-lists. Extend
the access-list to include a reject reason and extend the test
case to honor it.
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* The post-routing is applied after the first re-writing. To do this
the new number is copied back into the called data structure.
* Add a testcase that goes from 0172 to 0049 and then back to 0049
using the post rule with a table lookup.
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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.
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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/*/*
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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.
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Move all routines related to filtering to a separate file.
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Move the code around to make it more clear what the routines should do.
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Internationalize the number like we do it for Call Control. Update
the test result to match this new behavior.
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Introduce number rewriting of SMS-SUBMIT. Introduce a new list,
move code around to help with finding a new number, somehow the
number encoding for TP-DA is borked, 03.40 references 04.11 but
the length appears to be strlen(number) without taken the type
field into account.
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Match IMSI and destination address against a set of entries, if it
is matching the header will be modified and no sender report will be
requested. Change the test case to request the sender report and then
verify that this bit is reset to 0.
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SMS went from SAPI=3 to SAPI=0 and nobody notices on the NAT->MSC direction.
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Move the regexp parsing code from the NAT to libcommon as it will
be used by the NAT and BSC code. This also adds the #include <regex.h>
include to gsm_data. This header should be split up.
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This is a big patch that ports openBSC over libosmo-abis.
Sorry, the changes that are included here are all dependent
of libosmo-abis, splitting them into smaller pieces would
leave the repository in some intermediate state, which is
not desired.
The main changes are:
- The directory libabis/ has been removed as it now lives in
libosmo-abis.
- new configuration file format for nanoBTS and HSL femto, we
need to define the virtual e1_line and attach it to the OML
link.
- all the existing BTS drivers (nanoBTS, hsl femto, Nokia site,
BS11 and rbs2000) now use the new libosmo-abis framework.
- use r232 input driver available in libosmo-abis for bs11_config.
- use ipa_msg_recv instead of old ipaccess_read_msg function.
- delete definition of gsm_e1_subslot and input_signal_data.
These structures now lives in libosmo-abis.
Most of this patch are deletions of libabis/ which has been
moved to libosmo-abis.
This patch also modifies openBSC to use all the new definitions
available in libosmocore and libosmo-abis. In order to do that,
we have replaced the following:
- DINP, DMI, DMIB and DMUX by their respective DL* correspondences.
- SS_GLOBAL by SS_L_GLOBAL
- SS_INPUT by SS_L_INPUT
- S_GLOBAL_SHUTDOWN by S_L_GLOBAL_SHUTDOWN
- SS_INPUT by SS_L_INPUT
- S_INP_* by S_L_INP_* sub-signals
- E1INP_NODE by L_E1INP_NODE vty node
This patch has been tested with:
- one nanoBTS
- the HSL femto with the examples available under libosmo-abis
- BS11 with both dahdi and misdn drivers.
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Passes commands beginning with "bsc.<num>" to the bsc that is
responsible for LAC <num>.
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Match the used SMSC and the destination of the SMS and change
the SMSC address if both are matched.
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Use the same filtering infrasturcture to patch the SMSC
address in a CP-DATA/RP-DATA message. Add a very simple
testcase for this code.
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Refactor the code to allow having different handlers. The goal
is to be able to patch some SMS messages too.
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The idea that MCC and MNC is enough to classify a subscriber
turns out to be wrong. Certain operatos license a number range
of IMSIs to others. When we see a '^' in the MCC field we treat
it as a regexp. The code now turns the MCC/MNC into a regexp
for the IMSI. It is not using extended POSIX regexp to match
the behavior of the access list.
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Remove the arteficial limitation of the number format
of an unknown number.
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Separate the code to patch the code and the code to find a
new number based on the old number. This will allow to add
multiple targets for number changing.
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Summary of changes:
s/msg_entry_parse/osmo_config_list_parse/g
s/msg_entry/osmo_config_entry/g
s/msg_entries/osmo_config_list/g
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Summary of changes:
s/struct counter/struct osmo_counter/g
s/counter_inc/osmo_counter_inc/g
s/counter_get/osmo_counter_get/g
s/counter_reset/osmo_counter_reset/g
s/counter_alloc/osmo_counter_alloc/g
s/counter_free/osmo_counter_free
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Summary of changes:
s/struct write_queue/struct osmo_wqueue/g
s/write_queue_init/osmo_wqueue_init/g
s/write_queue_clear/osmo_wqueue_clear/g
s/write_queue_enqueue/osmo_wqueue_enqueue/g
s/write_queue_bfd_cb/osmo_wqueue_bfd_cb/g
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Summary of changes:
s/struct bsc_fd/struct osmo_fd/g
s/bsc_register_fd/osmo_fd_register/g
s/bsc_unregister_fd/osmo_fd_unregister/g
s/bsc_select_main/osmo_select_main/g
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Introduce a paging group that a BSC can refer to and is used
during the LAC lookup. This way paging can be flooded through
the network and just filtered at the last element in the core.
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A paging group is a list of LACs, different BSCs can point
to a paging group and use it for the LAC lookup.
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The current code tries to find _one_ bsc for a paging message
and then continues. The new code will try to find multiple BSCs
for each LAC. This is done in preparation of having two BSCs
handle the same LAC. This code right now is O(m*n) but it will
be worse once paging groups are landed.
The code to test the function was reduced to just test the lac
lookup code as the other part can not be tested in a standalone
setup anymore.
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Be able to configure a list of destinations (duplicates allowed)
that will be tried in a round robin fashion. The change is in
the bsc_msc_connection to operate on a list. We achieve the
round robin nature with the same trick used in the paging code
to delete and append the current entry. The nat code was updated
to compile but one can only configure one destination.
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