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To support segmented SI2quater as per 3GPP TS 44.018 we'll have to
support multiple SI messages (up to 16 for SI2q) for a given type in
contrast to existing 1:1 mapping:
* expand storage space to hold up to 16 SI messages (spec limit)
* add assertions for budget calculations
* generate multiple SI2q messages
* adjust SI2q-related tests
* use precise check for number of SIq messages instead of approximate
estimation
Change-Id: Ic516ec9f0b821557d9461ae9f1c0afdd786f3b05
Related: OS#1660
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* move SI2quater related defines to shared header
* add define from OsmoBTS which checks for presence of a given SI
message in gsm_bts struct. Rename it to avoid conflicts with OsmoBTS
code and to match naming conventions of similar macros.
Change-Id: I11432c93c772d1ead6d45a7bb0f1d13d492c82f1
Related: OS#1660
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Previously only the existance of bts->si_common.si2quater_neigh_list was
checked but not the actual number of EARFCNs in it. Fix it by using
si2q_earfcn_count() and adjust tests accordingly. While at it - reformat
tests to include extra information.
The correctness was checked manually by inspecting GSMTAP output.
Change-Id: Ic4fb2a9e870db66cac58b1e8d113587b30d64ce2
Related: RT#8792
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In preparation for extended SI2q messages:
* add SI2q-specific accessor macro
* add *_offset variables to gsm_bts struct
* internalize memory check while generating rest octets - introduce
budget concept (number of bits available in a given message)
* internalize *arfcn_size() functions as they are not needed outside of
si2q_num() anymore
* change rest octets generation to work with gsm_bts struct directly
* do not generate rest octets if no SI2q is necessary
* adjust unit tests accordingly (cosmetic changes only to avoid
regressions)
Requires: I92e12e91605bdab9916a3f665705287572434f74 in libosmocore
Change-Id: Ib554cf7ffc949a321571e1ae2ada1160e1b35fa6
Related: RT#8792
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Supporting SI2quater as per 3GPP TS 44.018 will require chnages to the
way System Information is stored because it uses 1:n instead of 1:1
mapping between SI type and generated SI content. This should not affect
other SI types though. To facilitate this transition:
* convert the code to always use GSM_BTS_SI helper instead of accessing
buffer directly
* make helper more robust by adding extra parenthesis
* add similar helper for gsm_lchan
* add function estimating number of SI2quater message to hold configured
number of (U|E)ARFCNs
* add SI2q index/count fields and pass them to rest_octets generator
explicitly
* internalize buffer access in generate_si* functions
Change-Id: I74e4e3cb86364cec869a1472a41b4a95af0d50dd
Related: RT#8792
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* add version string to gsm_bts
* add PCU version string to gsm_bts
* rename GSM_BTS_TYPE_OSMO_SYSMO -> GSM_BTS_OSMOBTS to avoid confusion
between BTS model and variant
* add variant enum to gsm_bts_model using enum with variants for each
hw vendor of OsmoBTS
* show connected PCU version (if available) in vty via 'show bts'
This will come in handy when logging details regarding particular BTS
reported via OML, see:
Related: OS#1614
Change-Id: I6710d53115f34634a7b70969cc05fd5c72ff8ab2
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The SI3 rest octests contain a flag that indicates if early classmark
sending is allowed in this cell or not. So far we always set this to
one, now it is configurable using the 'early-classmark-sending' command
at the VTY node.
Change-Id: Ia0b1cc5ab45673f3da70c59ae8917eba343f9862
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Support multiple UARFCNs with the same Scrambler Code.
Fixes: RT#7379
Change-Id: If1c32e8b547a28325180faaaddd21f80c37f7337
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* Explicitly check when ARFCN array split is impossible and return
gracefully instead of using negative index.
* Separate range encoding into generic function and use it for all
SI-related things.
* Propagate the error into that function and to its callers.
* Add separate test-case for the segfault previously triggered by this bug.
Change-Id: I3e049ab2d7c1c4d6c791b148f37e10636a8e43e0
Related: RT#7379
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* add missing spaces after comma and minus
* prevent useless recursion calls
* mark static functions as such
* name and explicitly use enum for ARFCN range
Change-Id: If5b717445c8b24668bad0e78fd5bb51f66c4d18e
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Use already defined GSM48_LEN2PLEN for computing SI length.
Change-Id: I2020417119c844b886f89e34dbfd75e716743dc4
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Add vty function to explicitly set use of 4xRACH type of ack message for
PACKET CONTROL ACKNOWLEDGMENT. Previous hardcoded value (use RLC/MAC
control block) is used as a default.
This is handy for debugging issues related to Timing Advance in context
of GPRS.
Change-Id: Ie869ac0a82055110f1e3b875e246750c4e113336
Related: OS#1526
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System Information 13 field EGPRS PACKET CHANNEL REQUEST is
modified to support 11 bit RACH. Further VTY configuration is added
to enable/disable 11 bit RACH support in EGPRS. By default 11 bit
RACH support is disabled.
Change-Id: I51357bec936c28a26ab9ff5d59e0e30ca3363297
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Previously si2quater SI messages were always scheduled. Check for
neighbor configuration and only schedule si2q when necessary. Add
corresponding unit test.
Change-Id: Ibe997803ffb894133fd4d838410fe735791d414f
Fixes: OS#1727
Reviewed-on: https://gerrit.osmocom.org/81
Tested-by: Jenkins Builder
Reviewed-by: Holger Freyther <holger@freyther.de>
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In GSM R99 SI6 has mandatory SI6 rest octets and so far we did
not include them. Add minimal support to generate the right band
indicator.
Target a slightly older version of the SI6 rest octets as we neither
support MBMS nor Random bit stream but should include the band
indicator.
Change-Id: I417a40eb91f42a3416b4e07bb9fb4d7a01aaa36b
Fixes: OS#1698
Related: OS#1725
Reviewed-on: https://gerrit.osmocom.org/71
Tested-by: Jenkins Builder
Reviewed-by: Max <msuraev@sysmocom.de>
Reviewed-by: Holger Freyther <holger@freyther.de>
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Fix error which prevented enabling DTX for half-rate channels.
Change-Id: I7d41df0068783c8fb33ddeeab1d1dcf63c2c259f
Reviewed-on: https://gerrit.osmocom.org/101
Tested-by: Jenkins Builder
Reviewed-by: Holger Freyther <holger@freyther.de>
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* Add per-BTS DTX settings
* Configure Uplink and Downlink DTX separately
* Deprecate global DTX option (it was never tested/used anyway)
* Use libosmocore function for DTX indicator in System
Information (previously it was incorrectly assigned for half-rate
channels)
Related: OS#22
Change-Id: I3d55168475ad47044b6238b55846ea22bdd518a4
Reviewed-on: https://gerrit.osmocom.org/40
Tested-by: Jenkins Builder
Reviewed-by: Holger Freyther <holger@freyther.de>
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Explicitly check if added (U|E)ARFCN will fit into available si2quater
message.
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* add data structures, generation functions
* vty interface for neightbor UARFCNs specific to SI2quater
* vty test
* unit test
Fixes: OS#1666
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* support for sending arbitrary static SI2quater.
* vty interface for neightbor EARFCNs specific to SI2quater.
* dynamic generation of SI2quater messages.
* unit test for SI2quater messages.
Fixes: OS#1630
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Move define to header file.
Use inline functions where appropriate.
Change int variables which are used as boolean into actual bool to make
code easier to follow.
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Advertise SI2 quater presence and location (if available) using SI3
according to 3GPP TS 44.018 § 10.5.2.34
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In the 1900 MHz PCS band, we always generated neighbor cell lists
consisting of only a single neighbor cell, rather than al the
configured BTSs.
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Pass the number of bytes the rest octet for si4 should
fill.
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CBCH enabled
==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
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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.
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Store the BCCH change mark inside the BTS structure. This will
allow us increment the number and re-generate the SIs.
Related: SYS#739
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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
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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
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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.
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In order to enable GPRS downlink measurements at mobile, the
network-control-order must be set to nc1.
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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.
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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.
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This makes reading the condition more easy and allows me to fix it
for GSM1900 more easily and I can remove one level of indention.
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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.
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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'.
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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.
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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).
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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.
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Signed-off-by: Sylvain Munaut <tnt@246tNt.com>
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This includes the MetroSite, but also other Nokia BTS models.
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This brings openbsc in sync with the following libosmocore commit:
b5503136fa234690d5493b19a8aee3a4ef74190d
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Summary of changes:
s/bcd2char/osmo_bcd2char/g
s/char2bcd/osmo_char2bcd/g
s/hexparse/osmo_hexparse/g
s/hexdump/osmo_hexdump/g
s/hexdump_nospc/osmo_hexdump_nospc/g
s/ubit_dump/osmo_ubit_dump/g
s/static_assert/osmo_static_assert/g
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These are not needed any more. We used them for u_int
types but we now use uint which comes from stdint.h
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This was done with sed on the files.
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libosmogsm is a new library that is distributed in the libosmocore.
Now, openbsc depends on it. This patch gets openbsc with this
change.
This patch also rewrites all include path to the new
osmocom/[gsm|core]
Signed-off-by: Pablo Neira Ayuso <pablo@gnumonks.org>
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