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When libosmo-netif and/or libosmo-abis are installed in distinct
prefixes, the build failed with non-found headers.
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Allow ARFCN 0 to be used in GSM900 band.
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There was no context for the SCCP CREF message and this means
that the msc_con was a plain NULL pointer that was dereferenced
and the application would crash.
Use the new API to pass the incoming MSC Connection which sould
be used for the SCCP CREF message as context. The code has not
been fed with an actual SCCP CR message.
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The loop was used to print all returned addresses but we can
simply pick the first one. This is fixing a coverity issue that
the loop will be executed eaxactly once (and that was on
purpose).
Simplify the code and just take the first element (which might
be NULL).
Fixes: Coverity CID#1302852
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The subscriber might simply not be allowed to use the APN
that was specified. So selected_apn_str might very well be
NULL.
Fixes: Coverity CID#1302853
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We can't do much in case the fd is failing to be registered.
There should be a timeout that is catching this and it might
be able to repair it self.
Fixes: Coverity CID#1302854
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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...]
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In case the query for "hostname" will fail c-ares will append the
domain name of /etc/resolv.conf and query again. We don't want that
so claim we provide a list of domain names and then don't provide
any.
I didn't intend to have pushed the c-ares code to master yet.
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succeeded
setup_trig_pag_evt function can receive parameter conn = NULL, if T3113 expires.
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This was noticed as I started to use UINT32_MAX for
dynamically created GGSNs.
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If no server is specified the default list will be used. This
allows to separate the servers for the local network and GRX
from each other.
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For real networks we need to check if the requested APN string
is allowed and then resolve the GGSN address through DNS. There
are countries with two or three digit MNCs and one could either
try to keep a list of countries that have two/three digits or
just try both of them. I have opted for the later for the ease
of the implementation.
C-Ares doesn't allow to cancel a request so we will need to
have the MMCTX and the Lookup have different lifetimes. We simply
set ->mmctx to NULL in case the MMCTX dies more early.
The selected and verified apn_str will be copied into the out
parameter. In case no static APN/GGSN config is present and the
dynamic mode is enabled a request will be made.
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c-ares is an asynchronous DNS resolver and we need it to
resolve the GGSN address. This is integrating the library
into our infrastructure. We will create and maintain a list
of registered FDs (c-ares is currently only using one of
them) and (re-)schedule the timer after events occurred.
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When needing to do an asynchronous DNS query we need
to keep the TLV data around. So create a wrapper that
takes a copy of it and frees it after the call. I can
change the code to add an out parameter to decide if
the msgb should be freed or not.
Pick network failure in case the msgb could not be
cloned in the hope the MS will retry then.
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A real SGSN will dynamically resolve the APN name into the
GGSN IP Address. This means that after we have collected all
information we need to start to resolve the GGSN and then
can continue.
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In case no static ggsn is configured the code would crash
with the assumption that there is always such a GGSN.
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This is a left-over from the initial system where no PDP
was provided by the system. For now if there is a subscr
attached and no PDP context provisioned. He is not allowed
to have a data connection.
Update the testcase to create the pdp list entry more
early with a wildcard and then change it to a specific
match.
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Include the hlr-Number of the subscriber in the CDR. This is useful
for debugging and understanding which equipment was used during the
test. In contrast to the MSISDN the '+' is emitted as the number
must be in international format already.
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Copy the hlr-Number into the sgsn_data and use it during
the purgeMS. There is no unit test that looks at the data
we send so I manually verified this by looking at the output.
Below is the output of the test that purges the subscriber.
<000f> gprs_subscriber.c:170 SUBSCR(123456789012345) Sending GSUP, will send: 0c 01 08 21 43 65 87 09 21 43 f5 09 07 91 83 61 26 31 23 f3
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Implement it similar to the msisdn_enc/msisdn_enc_len and
extend the testcase to include it as well.
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We have verified/selected the APN. Either based on the subscriber
data, a global APN match. But at least this SGSN has looked at
what the MS has asked for and then selected a matching GGSN.
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Bits 3 to 8 are spare bits and should be set to 1 in etsi
specifications. Do that.
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Signed-off-by: Max <max.suraev@fairwaves.co>
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Clear LAC/RAC with pre-defined value in the RAI.
3GPP 29.060 v7.17.0 section 7.3.1 page 23:
"The SGSN may include the Routeing Area Identity (RAI) of the
SGSN where the MS is registered. The MCC and MNC components shall
be populated with the MCC and MNC, respectively, of the SGSN
where the MS is registered. The LAC and RAC components shall be
populated by the SGSN with the value of 'FFFE' and 'FF',
respectively.”
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Most SGSNs pass the IMEI(SV). We currently only enquire about
the IMEI and then pad the 'SV' with 1111b (thanks to the encoding
routine). Sadly it insists on always writing the length which
means we have to memmove the data around by a single octet.
Manually verified using the pcu-emu and looking at the trace
using wireshark.
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Give the GGSN another opportunity to determine which tarif
to apply for the SGSN/subscriber. This code assumes tha the
RAN is a GERAN system but the assumption has been made in
other places as well.
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For PDP context creation we always want to include the RAI
for the current mmctx. This might help commercial GGSNs to
determine which charging to apply.
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The charging_id is provided by the GGSN. Copy it into the CDR
part of the data structure so it will remain present until after
the pdp context has been deleted.
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Make it possible to set a filename to use for the CDR. By
default no CDR will be generated. Forbid to set the interval
of 0 seconds as this will cause a lot of work. Add a very
basic VTY test.
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This is consuming the new signals and allows to install several
different CDR/observing/event/audit modules in the future. For
getting the bytes in/out the code would have had to undo what the
rate counter is doing and at the same time adding a "total" to
the ratecounter didn't look like a good idea, the same went for
making it a plain counter.
Begin writing the values one by one and open/closing a new FILE
for every log messages. This is not efficient but easily deals
with external truncation/rotation of the file (no fstat for and
checking the links and size). As usual we will wait and see if
this is an issue.
Add some new members to our PDP context structure to see what it
is about.
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In case there is a subscr attached to the MM context and there
is an encoded MSISDN we will attempt to decode it and in case
of an international number prepend a '+'. Assume that the array
size of gsm_mmcc_called->number is as big as ctx->msisdn for the
strncpy.
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All calls should and do go through the
sgsn_mm_ctx_cleanup_free function.
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If QoS is only three bytes it does not include the allocation/
retention policy. Otherwise it does. Copy it depending on that.
We should have a macro for the clamping to reduce code duplication.
The insanity does come from the MAP data and this seems to be
the easiest in terms of complexity. It is an array of bytes that
is transported from MAPProxy to the SGSN and then simply forwarded.
The case of more than three bytes is neither unit nor manually
tested so far.
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sgsn_create_pdp_ctx should use the subscribed QoS. When selecting
the PDP context we inject the QoS to be used into the TLV structure
and use it during the request. Assume a "qos-Subscribed" structure
only with three bytes and prepend the Allocation/Retention policy
to the request.
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The MSISDN should be present for "security" reasons in the first
activation of a PDP context. Take the encoded MSISDN, store it for
future use and then put it into the PDP activation request.
The MM Context contains a field for a decoded MSISDN already. As
we need to forward the data to the GGSN I want to avoid having to
store TON and NPI in another place. Simply store the data in the
encoded form.
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Add roundtrip test for the new QoS IE. It will be consumed in
later commits.
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Extract the new MSISDN IE from the GSUP message and verify that
it is read/written to the message.
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In case we filter the request and it was a Location Updating
Procedure we should reject it.
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It is a bit arbitary to decide which one is the global
and which one is the local one. We might change it around.
I don't think we want to introduce it based on BTS.
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Remove the last occurence of NAT datastructures in the filtering
module and add the ctx to the filter request structure.
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With the "local" and "global" list name we might pick the
wrong argument. Avoid it by passing them as a struct.
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Push back the parameters we need to pass. auth_imsi doesn't
know anything about the nat now.
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