osmo-bts-trx used to have its own (low-level) MS Power Control loop,
but recently it has been ripped out. Since [1], the process fails to
start if the configuration file still contains 'ms-power-control dsp'.
Let's be more tolerant: override 'dsp' by 'osmo' and print a warning.
[1] I49706926b1e962b18791174627bc3cc0cd0cd9d5
Change-Id: I4facd21bca3d8cb80d21e83ea267bc013e474533
It indicates whether BTS model supports managing an MS Power Control
Loop over HW/DSP instead of using the software based osmocom algorithm
present in osmo-bts.
osmo-bts-trx own loop implementation is considered to be a "DSP/HW" one
since it acts on lower layers and interferes with osmocom algorithm
since it controls the same end variable "lchan->ms_power_ctrl.current",
this way we make sure both aren't enabled at the same time.
Old behavior in kept: if common upper-layer algo is not enabled
explicitly in VTY (ms-power-control osmo) and bts-trx specific lower
layer algo is neither enabled (osmotrx ms-power-loop <xyz>), then no
power control is done at all.
Related: OS#1851
Change-Id: I49706926b1e962b18791174627bc3cc0cd0cd9d5
Make it clear that it contains the maximum MS power level (TS 05.05) and
not the one to be used. The one aimed at is in ms_power_ctrl.current.
Since it's used in related code, move it inside the ms_power_ctrl struct
too.
Related: OS#1851
Change-Id: Ib264ec7dac87355cef6415461ed74bd8e9c8ca52
Thies field is used to store and retrieve whether MS power needs to be
calculated and updated by osmo-bts software or autonomously by lower
layers. Previous name was not clear
and may have been understood as indicating whether MS Power Control loop
is done or not in general, and the responsible for that is located under
lchan's ms_power_ctrl.fixed.
Related: OS#1851
Change-Id: Ic690ab69866a7377f1597e24aa7b0214831c1cbe
Make it obvious for compilers and for coverity, that the sapi value used
to shift a bit for the sapi_mask is always <= 31. The sapi value is an
index of the value string l1sap_common_sapi_names, which has 24 entries.
Fixes: CID#205067, CID#205068
Change-Id: Id8be0ab67479b1f76a4f624bd3a5242e4fe59f4b
Change uint8_t sapi to int, so we can properly assert on errors from
get_string_value().
Fixes: CID#205066, CID#205069
Change-Id: I4d30afacfab93051868ae8f462cee9ad3dbc7fd0
Since March 15th 2017, libosmocore API logging_vty_add_cmds() had its
parameter removed (c65c5b4ea075ef6cef11fff9442ae0b15c1d6af7). However,
definition in C file doesn't contain "(void)", which means number of
parameters is undefined and thus compiler doesn't complain. Let's remove
parameters from all callers before enforcing "(void)" on it.
API osmo_stats_vty_add_cmds never had a param list but has seem problem
(no "void"), so some users decided to pass a parameter to it.
Change-Id: Ia4d1a7914308d1481fe31fe0986265ead339e61e
Related: OS#4138
The radio link quality is defined by C/I (Carrier-to-Interference
ratio), which is computed from the training sequence of each
received burst, by comparing the "ideal" training sequence with
the actual (received) one.
Link quality measurements are used by L1SAP to filter out "ghost"
Access Bursts, and by the link quality adaptation algorithms. One
can define minimum link quality values using the VTY interface.
On the VTY interface we expect integer C/I values in centiBels
(cB, 10e-2 B), while the internal structures are using float
values in deciBels (dB, 10e-1 B). Some PHYs (sysmo, octphy,
oc2g, and litecell15) expose C/I measurements in deciBels,
while on the L1SAP interface we finally send then in centiBels.
Let's avoid this confusion and stick to a single format, that
will be used by the internal logic of OsmoBTS - integer values
(int16_t) in centiBels. This will give us the range of:
-32768 .. 32767 centiBels, or
-3276.8 .. 3276.7 deciBels,
which is certainly sufficient.
Change-Id: If624d6fdc0270e6813af8700d95f1345903c8a01
Let's keep some statistics about the min/max/average frame number
advance that we're observing above L1SAP when comparing the time in the
PH-RTS.ind and the frame number we observe in PH-DATA.ind of data
that was received on the uplink.
The statistics are currently only shown in the VTY, but this is a
precursor to using them to correctly advance the LAPDm timers in a
follow-up patch.
Change-Id: I8f739fdb808a614f080afbc4654641ec3df19eb2
Related: OS#2294
Related: OS#3906
This adds the final missing part to full CBCH support:
* keep a tab on the current queue length for basic + extended CBCH
* keep rate counters about the number of sent / transmitted SMSCB
* send CBCH LOAD information via RSL to the BSC
Change-Id: I7068c7937a60a900c40439115bb84dc3ee0d061f
The logic for Extended CBCH are the same as for the Basic CBCH, we just
need to
* duplicate our related state
* parse the optional RSL_IE_SMSCB_CHAN_INDICATOR IE
* start to send data on the Extended CBCH (TB=4..7)
Change-Id: If2c6dc7da1e2185ab75fc957f8d305ad8db22429
Closes: OS#3535
A comma is needed to separate a command definition from its
description, not the parts of description. Let's fix this.
Before this patch:
OsmoBTS# configure terminal
OsmoBTS(config)# phy 0
OsmoBTS(phy)# no?
no PHY Instance number
OsmoBTS(phy)# no ?
instance
osmotrx OsmoTRX Transceiver configuration
After this patch:
OsmoBTS# configure terminal
OsmoBTS(config)# phy 0
OsmoBTS(phy)# no?
no Negate a command or set its defaults
OsmoBTS(phy)# no ?
instance Select a PHY instance to remove
osmotrx OsmoTRX Transceiver configuration
Change-Id: If10d85abc6506118ba08c37e8101f423d6f838ea
TRX0 is allocated in a different place than other TRX.
Commit that introduced the bug added an initialization step
(bts_trx_init) applied in VTY cmd "trx <0-254>", where TRX are allocated
since same commit, but doesn't initialize TRX0 for reasons explained in
first paragraph.
As a result, some parameters were not applied to TRX0, like
power ramping increment step, which prevented MS from finding the network in
osmo-gsm-tester tests.
Fixes: eebb6a4216 ("bts: Allocate TRX for BTS dynamically, deprecate -t")
Change-Id: I5afd66548634ff53e2af24dc7055d408ca8ca4e3
No need to pass -t num_trx anymore to specify number of TRX to use. It
is calculated based on dynamic allocation from VTY config.
Using parameter -t is flagged as deprecated and is transformed into a
NOOP por backward compatibility.
As a result, TRX now are allocated after the BTS is allocated and
initial config (pre-VTY) is applied.
A new function bts_trx_init() is added, to set default config on each
TRX during allocation and before setting VTY config on it.
A new per BTS model function bts_model_trx_init() is added, to allow
per model specific default configuration of each TRX.
Change-Id: Iab1a754ab12a626759f9f90aa66f87bdce65ac9c
The command implementation says "deprecated", so then the vty command attribute
should also be DEPRECATED. It will be hidden from online docs and vty
reference.
Change-Id: I23e620f1b947e129989fe69c6380c91b9abf7021
The current implementation does not allow the user to specify a port
range in which the BTS is allowed to allocate a local RTP port. Also
the ports the BTS picks do not match the policy described in RFC3550.
An RTP Port must be at an even port number and the matching RTCP
port must be at the following (odd) port number. The BTS currently
picks random port numbers for both.
- Add a VTY command to specify a port range in which the BTS may
assign local ports.
- Pick ports as described in RFC3550.
Change-Id: Id75f1dfaf898ed8750d28b1c4840e188f4cfdc87
Related: OS#2825 OS#2635
gsm_bts_role_bts was introduced at a time when we still shared
gsm_data_shared.[ch] between BSC and BTS, and where we then subsequently
needed a BTS-private structure. Since that sharing was abandoned quite
some time ago, we can merge gsm_bts_role_bts into gsm_bts and do away
with the bts/btsb dualism in a lot of the code.
Change-Id: I4fdd601ea873d9697f89a748cc77bcf7c978fa3e
Rathert han have 11 direct members of gsm_bts_role_bts, group them
into a sub-struct as ew do for other parts like interference, laod, ...
Change-Id: Iefecf4b70c1b11c650913f2ae3783718ffb8a36c
PCU_SOCK_DEFAULT is defined in the pcu counterpart of the file pcuif_proto.h
To be consistent with the pcu move the definition pcuif_proto.h
The pcuif_proto.h will be exact the same in the pcu repo and bts repo.
Change-Id: I67f8ec036e219994cc296d0ed5409da7f3ec681e
Normal Abis RSL MEasurement Results contain only the "MS Timing Offset
IE" in units of full symbols. In some use cases it is important to have
higher-accuracy timing information exposed to the BSC.
We do this by adding the average timing offset value during the last
measurement interval in 1/256th symbol accuracy to the "Supplementary
MEasuremen Information" part of the TS 48.058 9.3.25 Uplink Measurements
IE.
In order to avoid any compatibility issues, this feature is only enabled
if the new vty config command "supp-meas-info toa256" at the bts node
is enabled.
Change-Id: Ie85e53b47d4041cc4e6d7b78406ae8b79b2d9397
When decoding RACH bursts, we should use a BER threshold in order to
help distinguish 'ghost' RACH bursts from real RACH bursts.
The theoretical ideal threshold according to some papers is 7 out of 41
bits qhich aquals to Eb/N0 of 0 dB = 0.1707 (17.07%)
We add a new 'ber10k' parameter to the RACH indication l1sap primitive
(needs separate change for libosmocore), and then fill this value from
osmo-bts-{sysmo,lc15,trx,octphy}. The common part above L1SAP then
applies the threshold, which can be changed from vty using the
"max-ber10k-rach <0-10000>"
command available at the BTS node. The unit is BER in 1/10000, i.e. a
value of 100 equals 1% bit error rate.
Change-Id: Ic41c11f6312a36baa2738547e8dcec80829457f8
The VTY command show bts does not display the bts specific
features yet.
- Also display the feature list in snow-bts
Change-Id: I509f2a7bbfa96c70bdfea4ff2488ee371e914620
This adds printing of remote RTP IP/Port, LAPDm SAPI information,
MS Timing offset, propagation delay, encryption algorithm+state,
loopback status and radio link failure counter to the "show lchan"
command. It also adds TODO comments fro those bits that are not yet
printed but which would make sense to print.
Change-Id: Ic4bc47638b7b402aee9344dc912745a9929c37f4
This is more or less a 1:1 import from the BSC side commands. Having
the commands on the BTS side will allow us to expose information that's
not visible to the BSC [in upcoming, separate patches].
Change-Id: I2a596938849a9c84fe6fedcac5d7f71ee97af575
This warning was included in commit
6d7b78bde1 from 2011, and nowadays I only
see this command used in osmo-bts, so I think we most probably drop it
as it doesn't make sense anymore.
Change-Id: Ie277dce00292c8f403b9a2b405efe4429e6af86a
vty_install_default() and install_default() will soon be deprecated.
Depends: I5021c64a787b63314e0f2f1cba0b8fc7bff4f09b
Change-Id: I5e8e9d7989ee20fe722bdd3109965d5bce9519fb
When printing BTS via 'show bts ..' let's also print each TRX, which phy
number and version it uses and its description. It's helpful in
troubleshooting low-level issues as it allows vendor-specific code to
easily expose firmware version.
Related: SYS#3884
Change-Id: Iabcc862566b40a9314f3e1d17fda61d8ab24a3cd
* remove leftover from copy-paste of corresponding OpenBSC code
* print OML link state
* print paging load
Change-Id: Ia5e3dc10efe2b5ab212cab1518a10d36b20b8bb2
OsmoBTS won't run without being connected to a BSC. The BTS wouldn't
start to transmit if the BSC doesn't properly initialize it. So if we
want to activate some channels manually for testing, we should do so
from the BSC, and not inside the BTS code. Doing this in the BTS means
that the BSC is not aware of it and might want to use that channel for
something else meanwhile.
Osmo{BSC,NITB} has gained ability to manually activate a channel from
the VTY in Change-Id I44fc3904678eb48bd3ab1a3da8c0c265fa082e0d as can be
seen at https://gerrit.osmocom.org/2759
So let's remove the old/obsoleted code here.
Change-Id: I7ba0301b55cc283aa6a441899f84357e28a97321
Making use of the multi-trx feature requires to tell osmo-bts that
more than one transceiver are available. Otherwise it will complain
that not enough transceivers are available. This can be quite
confusing, even a correct config file will fail to parse if it
specifies more transcrivers than available.
This patch adds a hint to the error message so that the user knows
that he should check the -t commandline option
Change-Id: Ifbeacd9d43f7c6cd74a1e1b33288e66828fe843f
The vty write for phy/inst is broken, leading to a written-out config being
unparsable; fix all of these:
- in common/vty.c, actually call bts_model_config_write_phy_inst().
- in sysmo and lc15 write the phy instance elements in
bts_model_config_write_phy_inst() and not in bts_model_config_write_phy(),
which lead to writing the members above their parent 'instance'.
- sysmo, lc15 and oct omit the bts_model_config_write_phy_inst()
implementation. This did not cause a compilation problem because it
was in fact never called.
- sysmo writes 'clock-source None' when clk_src is zero, leading to unparsable
config (related: OS#1944). Instead omit the 'clock-source' when zero.
- osmo-bts-trx seems to be the only part that lacks nothing, yet it
also didn't work properly because bts_model_config_write_phy_inst()
was never called.
This problem existed since commit d784e50747
"Introduce new phy_link and phy_instance abstraction"
Change-Id: Icc54fa70045c8fa58e78cf9f788c21a437edfbd4
* add vty option to manually enable adaptive RTP jitter
buffering (disabled by default) on per-bts level
* use this setting on per-lchan level when setting jitter parameters via
vty at runtime
* check and log result of osmo_rtp_socket_set_param()
* note: older libosmo-abis will ignore this setting which will be
properly detected via return value
* if jitter buffer is disabled by configuring "rtp jitter-buffer 0" than
adaptive buffering is disabled as well but it will be used if jitter
buffer is set to different value for a givel lchan via vty
Change-Id: I489f3c419039f40b57c2ef0641c176478b8d3566
Typically, our VTY prompts have space after the '#', but some of the osmo-bts
VTY prompts don't:
OsmoBTS# configure terminal
OsmoBTS(config)# bts 0
OsmoBTS(bts)#gsmtap-sapi ccch
Add spaces after the '#' to yield e.g.
OsmoBTS(bts)# gsmtap-sapi ccch
Change-Id: If0591a359e77f01abb76c4113181af7a7733ddd4
This is the easiest way I found to make BTS level loopback to work.
Another way to implement this is to have BSC/NITB to send the OML command, but
it's a longer path with no clear benefits.
Note, that the current code hardcodes the channel to be TCH/F with v1 speech,
which is what we need for the basic BER testing. We may want to extend this
later to support more channel types.
Change-Id: Ia2734afeff023e5b3d6b934c7e8b1ed95a071b72