Build files shared by osmo-sgsn, osmo-gbpy and osmo-gtphub into a .la
library, so we can later split each application into its own subdir and
clearly identify what's used by who.
Due to a dependency error with .Po files, I cannot depend on the specific
.o files directly in LDADD for each binary, but it works fine on follow up
commits when binaries are splitted into different makefiles, so it will be
done later.
Change-Id: Ib7665c530c086a5f3135c395bb8bf19ed4a882b6
Implement TS 23.060 6.1.2 Mobility Management States (Iu mode) using
osmocom FSM and drop old implementation.
Most of the logic on each state is still kept in gprs_gmm.c, will be
inserted into the FSM later.
Change-Id: I4c9cf8c27194817c56e8949af0205e1cc14af317
Implement TS 23.060 6.1.1 Mobility Management States (A/Gb mode) using
osmocom FSM and drop old implementation.
Most of the logic on each state is still kept in gprs_gmm.c, will be
inserted into the FSM later.
Change-Id: I04004423e993107374d5a3549b8a93ac169251dd
INET(6)_ADDRSTRLEN already contains the required extra null byte at the
end, no need to add +1 to it.
Change-Id: I5a16659e007c6883fe21582cce5dac544e6d4bb9
inet_ntop manual states:
"inet_ntoa(3) is now considered to be deprecated in favor of
inet_ntop()".
Change-Id: I0c708d047122f349acf46797a9e5973040e7ae04
This way it's easier to add new common functionalitites without
forgetting to add it on both sides, and simplifies the code.
Change-Id: Ib6c0427ac7b35295cf1caf2f28cb2a5c155b9d9c
Those two state sets are not part of the same state machine, and are
used in different scenarios, so let's split them and handle them in Gb
and Iu specific parts of struct sgsn_mm_ctx. This is required in order
to improve related code (for instance, use osmocom fsm).
Change-Id: I6100d607da316da0595886c6968704dd9ccfbde9
Now that we have RANAP/Iu handling specificities in its own file, let's
have also Gb specific glue code for messages coming from llc up to MM/SM
layer in its own file. This way same entry points in gprs_gmm.c are used
by Gb and Iu: gsm0408_rcv_gmm() (for MM) and gsm0408_rcv_gsm() (for SM).
Change-Id: Iaf57922a0970c1d03f6f1d6337d27ae3d4aaf32c
RANAP related functionalities were splitted among several files
(gprs_gmm.c, gprs_sgsn.c and sgsn_libgtp.c). Let's move it into its own
file to shrink complexity/size of existing files.
It also allows to keep a lot of conditionally enabled code (BUILD_IU)
and its dependencies (osmo-iuh) together.
Change-Id: I549042aaff045a378de77d657cc396ee08f22f33
There's no real need to use -1 to indicate echo timer as disabled, since
0 can also be used (it doesn't make sense to have a timer timeout of 0).
This way code is simplified.
Change-Id: I689034887188a53590eddeffda781629694eb5ed
When a MS MM state is READY its exact location is known (PCU).
On Gb, T3314 (aka TS 23.060 "READY timer") sets the MM state from
READY to STANDBY, where only the RA is known.
Introduce a second set of timer variables, because state timer
can run while another packet state timer is timing out.
Related: OS#1941
Change-Id: I4ce23ebe50d141076c20c9c56990b7103cd25e55
Add a few commands to make sure it's working fine, and print all
available timers with default values.
Change-Id: Ifd092b9561d49be1f62769d95ba49f6e4aeb4066
FSM doesn't expect receiving event names containing spaces (log lines
generated are confusing).
Similar for enums, it's better using code names to match easily and make
log lines more clear.
Change-Id: I16ede8bf8352b09bc772fd7b43fad2c2274b3ec1
For new readers it's very confusing why PMM states and MM states are in
the same enum, but handled with different functions, and sometimes
called one right after the other with different enums. Calling them when
on a different ran_type makes the function early return, so let's better
conditionally call the function to make it clear in the flow when the
function is expected to do something.
Change-Id: I65ad9e180177bc9fc7c4a037cd85cfe33b161f73
Implementation of osmo_sccp_simple_client() API internally uses ss7 id
1, which is confusing since there's no 0 in use in osmo-sgsn. Let's
explicitly use the 0 one so it is configured by "cs7 instance 0" in the
VTY.
Related: OS#4157
Change-Id: I0e23a6a76ebcba0b1b424e3d3b20d06c1da44cbe
This may well be the culprit of OS#3957, were already freed llme is accessed from
mmctx context later on, upon some timer is triggered in mmctx.
Related: OS#3957
Change-Id: I8e1eaeb9b3ebee8e45704b4fe007190c7db609e4
Recent commit added an assert to make sure unexpected conditions were
happening in sgsn_mm_ctx_cleanup_free(). Old code was passing
mm->gb.tlli to gprs_llgmm_assign with "new tlli" being all-1's (aka
unassign mm->gb.tlli).
The commit changed the code to use gprs_llgmm_unassign, which uses
llme->tlli instead of mm->gb.tlli, and the assert was used to make sure
no behavior change occured with the commit.
It seems TTCN3 test TC_attach_auth_id_timeout triggers that assert, and
after closer debug it seems mm->gb.tlli == llme->old_tlli, which makes
sense since there's a mm->gb.tlli_new which is expected to be
llme->tlli.
When TLLI changes in GMM (Attach Request or RA Update), it is stored
into mm->gb.tlli_new and assigned on the LLC layer using gprs_llgm_assign(),
and upon completion signalling from MS, (after handling response to initial request)
it is assigned to mm->gb.tlli (and value kept in mm->gb.tlli_new).
So mm->gb.tlli and mm->gb.tlli_new usually contain the same value unless
a new TLLI is allocated, and during the span of
Request->Response->Complete it is kept different, the LLC layer having assigned
the value of mm->gb.tlli_new.
So, old code (before the commit adding the assert) was wrongly using
mm->gb.tlli instead of mm->gb.tlli_new at the moment of unassigning (but
not really problematic in practice since behavior is the same as long as
"old TLLI" value is not all-1's.
So we are fine and correct using gprs_llgm_unassign() (which passes llme->tlli
as "old TLLI") instead of what used to be done before.
In any case, the expected behavior is to free the llme object and get
rid of everything...
Fixes: 788863cda53298c24110d0fe0f8cd3309cdec747
Change-Id: I482acdbdf05ce0cb0a5804206672512854067f5b
TS 04.64 sec 7.2.1.1 LLGMM-ASSIGN specifies:
"""
If TLLI Old all 1's and TLLI New all 1's then TLLI Old and TLLI New are assigned, and TLLI New shall
be used when (re-)transmitting LLC frames. Both TLLI Old and TLLI New shall be accepted when received
from the peer. It shall be treated as a TLLI change according to subclause 8.3.2.
"""
Change-Id: I3a17715bf2dba7b03c1335ad106307eb4d5f564a
May be useful to detect unexpected conditions which could end up in
memory leaks.
Related: OS#3957
Change-Id: I0d175501083ce458ff1c07ad38761d2cbf4ea470