There's no need for each test case to carry their own log_info and
filter function. They can simply use the global gprs_log_info and
configure the stderr log verbosity according to their needs.
Change-Id: I8706a624e5d06e062d1198711aa197fbd0860769
Add cycle to mark multiple allocated UL slots similar to the way we
count DL slots in AllocTest. Until multislot UL allocation is
implemented it does not affect test output.
Change-Id: I2705405119421da3066c6c6bdd5830df4c133a36
Related: OS#2282
* introduce enum describing poll kind and use it in set_polling()
* move state change into set_polling()
* move logging into set_polling() and unify output
* move duplicated code into static function
* adjust tests to match unified logging output
Change-Id: I14074207f8bbc18b3ebd60875bb99a0a3a4b399d
Related: OS#1524
The 'verify' flag is useless, we always want to verify everything. Replace
'verify' with 'expect_rc', expecting a specific decoding result per test set.
When an error code was returned, cut short the loop and skip printing expected
vs. decoded bits.
This uncovers the fact that the first test marked as "invalid inputs" does not
seem to be invalid after all, or at least does not produce an error to be
returned. For now, only uncover this fact, the fix shall be submitted later.
Change-Id: Icf815a8f1acb0e275463408450171df046879847
Before this, the expected data had seemingly random bits set after the end of
the expected decoding result. Make the test expect these extra bits as zero,
matching with the buffer initialization to zero.
In result_matches(), compare the full length of bytes instead of masking the
bits after the end of the decoded data (which caused us to not catch the wrong
expectation until now).
This fixes the underlying issues found in
http://lists.osmocom.org/pipermail/osmocom-net-gprs/2017-March/000876.html
[osmo-pcu 0.2.896-0a8f] testsuite: 4 failed
from: Arnaud ZANETTI
on: Fri Mar 24 09:53:53 UTC 2017
Change-Id: I2501208e2f8b4f709efbcadbd1057c086472c9e6
The test wants to write multiline results, so it should use printf instead of
the logging system.
Split logs to only one hexdump per printf(). One cannot use osmo_hexdump twice
in one printf(); before this, one of the two hexdumps won, both dumps would
show as the same. Very bad for a regression test!
This uncovers a discrepancy between expected and produced results, proving that
the expected stderr output was not capable of uncovering test failures. The
test's check_result() function *has* always verified the decoded data, but only
up to the last decoded bit. Our expected data contains seemingly random bits
after the end of the decoded bits, but check_result() never compares those,
hence we don't catch that error. The extra bits should definitely be zero,
because the destination buffer is pre-initialized to zero -- fixed in a
subsequent patch.
This should cosmetically fix the build failure found in:
http://lists.osmocom.org/pipermail/osmocom-net-gprs/2017-March/000876.html
[osmo-pcu 0.2.896-0a8f] testsuite: 4 failed
from: Arnaud ZANETTI
on: Fri Mar 24 09:53:53 UTC 2017
The real fix will follow.
Change-Id: I24fc32eb55baaf22f9c6fdda917bfb8395d02b1c
In order to understand what the bitcomp test is logging, cosmetically rearrange
the code:
- memset bits_data before assigning to destination bitvec.
- use macro CEIL_DIV_8 to clarify what (x+7)/8 does.
- rename check_result() to result_matches() and return a bool,
also constify result_matches() args and pass a bitvec reference instead of
copying the bitvec struct.
- rearrange logging lines to make readable what is going on there.
- drop unused 'init_flag'
There are obviously errors like double hexdumps per log line, multiple newlines
in a LOGP statement and so forth: these shall be fixed by subsequent patches.
Change-Id: Id0da9d9b67f4713d3a67e3532ed44b8cb1bd1d08
In addition to .h files from src/ add include/ as well: some headers are
now public and reside in separate directory.
Change-Id: I09c02a171fb3b2f2791ce938725db7d4ff397e95
The implementation of the method rcv_rach() in class BTS, restores
the absolute frame number of the incoming RACH-Request by using
the relative frame number (RFn = Fn mod 42432) from the rach
request and the already known internal absolute frame number
m_cur_fn, which is continusly updated by the CCU interface.
In some rare cases, a RACH request might be received by the BTS,
a very short time before the frame number wraps in its 42432.
Depending on the PCU location, RACH request might be received
by the BSC, which forwards it to the PCU. It is then likely
that, while the RACH request is being forwarded to the PCU, the
PCU internal absolute frame number wraps before the RACH
can be processed. The relative frame number from the rach
request would then be interpreted as if it were received after
the wrapping of the internal frame number modulos.
This commit adds logic to detect and resolve this race condition.
Also a unit test is added to check some cornercases.
Change-Id: I74f00c11e5739d49f370ce6c357149e81d9aa759
Numerous calls assign a return value without asserting its value. Add
assertions and thus also eliminate compiler warnings about unused values.
Change-Id: I7f14198cfd747dae68b8aaa3b8d6ff7fc49ab824
The rach request contains a relative frame number (Fn % 42432),
while BTS::rcv_rach() accepts the full frame number only.
Since the BTS is always aware of the full frame number this is
not a problem. But for BSC co-located PCU schemes it is a problem
since the rach request only contains the relative frame number
as mentioned above.
The pcu continusly receives frame number updates with the GSM time
indication message. It is simple to re-calculate the full frame
number from that information.
This patch makes BTS::rcv_rach() compatible with relative frame
numbers, while not breaking the compatibility for full frame
numbers
Change-Id: Iaa182d8d29c6a0f5fa06064c2eb48b21b1ba2775
When Packet resource request is received, PCU will generate the
packet access reject if no resources are present. The encoding is done
based on section 7.1.3.2.1 and 8.1.2.5 of 44.060 version 7.27.0 Release 7.
This patch also includes the test case to validate the generated
packet access reject message.
This patch is integration tested on Osmo-trx setup with Ettus B210 board
and LG F70 MS with some simulation code changes in Osmo-pcu.
Change-Id: I05ff25124b58905586caa0c0c37023d69724f121
This test case is for testing generation of
EGPRS PUAN. Corresponding log files .ok and .err
are modified.
Change-Id: I18e6d4a9e90fd6453fe14187beab27dfeae8dbe9
This adds compression of bitmap in PUAN. The compressed bitmap
is used only if the number of bits in the bitmap does not fit in
the message and there is a gain after compression.
The algorithm is part of libosmocore and so there is dependency
on the libosmocore for compilation.
The algorithm is tested on integration setup by forcing compression.
Change-Id: Id2eec4b5eb6da0ebd24054b541b09b700b9b40ba
Add value_string describing UL and DL TBF states and use it for logging
errors while freeing TBFs.
Change-Id: I292ec81ab602c65ef86e6e3e85740182b63474b6
When PDAN/EPDAN with channel description is received, PCU will generate the
packet access reject if no resources are present. The encoding is done
based on section 7.1.3.2.1 and 8.1.2.5 of 44.060 version 7.27.0 Release 7.
This patch also includes the test case to validate the generated
packet access reject message.
This patch is integration tested on Osmo-trx setup with Ettus B210 board
and LG F70 MS with some simulation code changes in Osmo-pcu.
Change-Id: I096a3bb44a65533b9e9b091925dd5f70a8696d6
When RACH is received, PCU will generate the Immediate assignment reject
message if no resources are present. The encoding is done based on section
9.1.20 of 44.018 version 11.7.0 Release 11. This patch also includes the
test case to validate the generated Immediate assignment reject message.
This patch is integration tested on Osmo-trx setup with Ettus B210 board
and LG F70 MS with some simulation code changes in Osmo-pcu.
Change-Id: I3d33e2b9746fa4f338fad0e6b63b1c5f07de6f9b
Fix alignment of EPDAN outside the RLC transmit window,
according to section 9.1.8.2.4 in 44.060 version 7.27.0 Release 7.
The specification explains that a bit within the uncompressed bitmap
whose corresponding BSN is not within the transmit window shall be
ignored. Without this fix PCU was dropping the EPDAN message and not
updating the status of BSNs which are inside the RLC window. This patch
updates the status of the BSNs which are inside the window and ignores
the remaining bits.
Related: OS#1789
Change-Id: Id07d178970f168f5389016c1eea31eb6b82057b6
This patch adds a test case test_tbf_epdan_out_of_rx_window,
which expects a current bug with EPDAN for interpretation of the
bitmap explained in section 9.1.8.2.4 in 44.060 version 7.27.0
Release 7. The specification explains that a bit within the
uncompressed bitmap whose corresponding BSN is not within the
transmit window shall be ignored. But current PCU implementation
drops the EPDAN and does not update status of the BSN which are
inside the window. The test's expectation is corrected along with
the bug fix in a subsequent commit.
Related: OS#1789
Change-Id: If32b67f5c05707155281128b776a90a1e3d587b2
This reverts commit f1a7b8fc66.
Conflicts:
tests/tbf/TbfTest.err
The commit broke GPRS service at least for osmo-bts-sysmo on a SysmoBTS 1002
with current master of osmo-bts (ef30f50d5d6d5f863fc147d05ccdceb89284934e).
The error observed is the following log output (was viewing both osmo-bts-sysmo
and osmo-pcu logs interleaved):
<0002> tbf.cpp:874 TBF(TFI=0 TLLI=0x00000000 DIR=UL STATE=WAIT ASSIGN) T3169 timeout during transsmission
<0002> tbf.cpp:893 - Assignment was on CCCH
<0002> tbf.cpp:899 - No uplink data received yet
<0007> l1sap.c:904 RACH for packet access
<0001> pcu_l1_if.cpp:311 RACH request received: sapi=1 qta=0, ra=121, fn=13653
[repeat]
When removing this single commit from current osmo-pcu master, GPRS service
works well on SysmoBTS, with current osmo-bts master.
The TbfTest.err expected output needed adjustment after the revert.
Disclaimer: I am not aware of adverse effects this commit may have. I have no
idea what the WAIT_ASSIGN state is used for -- further review is required.
Change-Id: I1532f8e93194368cdc1e3846f82afa6d68cd5fbd
Implemented tree based algorithm to decode compressed bitmap in EPDAN
as described in section 9.1.10 of 3GPP 44.060.
This algorithm intends to improve the performance over existing method.
New Regression test is added under bitcomp directory.
Test case is added to validate decompressed result of the bitmap
Present in EPDAN.
Test is done for multiple bitmaps of varying length.
Invalid inputs are also part of the test vector.
Change-Id: Ieae1992ed4b02bb1e09eec2d3de1a030eabd16ce
Earlier there was no handling for recalculation of DL window
size during tbf update. Which has been fixed in this patch.
Related: OS#1808
Change-Id: I41aa807068520460fd665a55e3529e60f6bbb630
row 4 of Table 10.4.14a.1 of Spec 44.060 version 7.27.0 Release 7. Says
"The previous RLC data block contains a Upper Layer PDU, or a part of it,
that fills precisely the previous data block and for which there is no
length indicator in that RLC data block.
The current RLC data block contains a Upper Layer PDU that either fills
the current RLC data block precisely or continues in the next RLC data block."
So when we receive block with 1st LI: value=0 and Value of E bit in the
same octet as 1, we expect 2 chunks with 1st chunk as length as 0 and complete
and 2nd chunk as length non zero. But with this bug we see only 1 chunk causing
incorrect assembling
This issue has been fixed in this patch.
Related: OS#1811
Change-Id: I2cd0fca3ed28a553ede3f4b8a7d3267284dd2c9b
This patch adds a test case test_tbf_li_decoding which
expects a current bug with LI decoding for row 4 of Table 10.4.14a.1
in 44.060 version 7.27.0 Release 7.
The test's expectation is corrected along with the bug
fix in a subsequent commit
Related: OS#1811
Change-Id: Ida410dab1aa4b0cf3e15b2090586377eb19b2469
This patch adds a test case test_2_consecutive_dl_tbfs which
expects a current bug with TS allocation for 2nd DL TBF.
The test's expectation is corrected along with the bug fix in a
subsequent commit
Related: OS#1792
Change-Id: I890e4fbb2b64037e051433e70082a197e2a929a6
Fix attempted read past vector boundaries in case of a starting bit offset !=
0, so that the last amount of bits read should be < 8. In the case of
CSN_LEFT_ALIGNED_VAR_BMP, the mod-8 calculation was flawed, and in the final
step, 8 bits were read instead of the remainder < 8. This lead to -EINVAL being
returned by bitvec_get_bit_pos() and bogus resulting data.
Instead, read 8 bits only as long as at least 8 bits remain, and read any
remaining bits < 8 in a final step. Drop unneeded nB1 variable and an obvious
comment.
Adjust the unit test assertion in testCsnLeftAlignedVarBmpBounds() in
RLCMACTest.cpp.
Based on a fix by Aravind Sirsikar <Arvind.Sirsikar@radisys.com>, but
implemented differently.
Related: OS#1805
Change-Id: I490498c8da6b531f54acb673379379f7b10907c0
CSN1 decoding currently contains an attempted read past vector boundaries in
case of a starting bit offset != 0, so that the last amount of bits read should
be < 8. In the case of CSN_LEFT_ALIGNED_VAR_BMP, the mod-8 calculation is
flawed, and in what should be the final step of reading n < 8 bits, 8 bits are
read instead of n (with an extraneous read of n bits following after that).
This leads to -EINVAL being returned by bitvec_get_bit_pos() and bogus
resulting data.
Add testCsnLeftAlignedVarBmpBounds() in RLCMACTest.cpp to show and expect this
bug. The test's expectation shall be corrected along with the bug fix in a
subsequent commit.
Related: OS#1805
Tweaked-by: Neels Hofmeyr <nhofmeyr@sysmocom.de>
Change-Id: I4641f5d1d49f66cb1a5cd813befb3a2a266001b0
The test failure was introduced by 9bbe1600cc
"Fix Timing Advance handling": between patch build checking and patch
submission, a new section was added to TbfTest.cpp which also needs adjustment.
Tweaked-by: Neels Hofmeyr <nhofmeyr@sysmocom.de>
Change-Id: If077da5f21fd5cba54556f1dead05a1bc4ea5540
* initialize with invalid TA instead of making assumption that phone is
located within 550 meters (TA=0)
* only set valid TA
Change-Id: Idfc40ff0c11bdac13d9e28fbfa4e95dfc6b735b0
Related: OS#1526
Earlier there was an incorrect encoding of BSN status in GPRS PUAN message.
This was a bottle neck for GPRS performance testing for UL. Which has been fixed
in this patch.
Related: OS#1806
Change-Id: I98e586aa5cb9200cf03e092556304211d4d459aa
This patch adds a test case which expects a current bug with
GPRS PUAN encoding. The test's expectation
is corrected along with the bug fix in a subsequent commit
Related: OS#1806
Change-Id: Ied0f1dd3037d8fac6a772f4e097defb72634f955
This patch adds a test case test_tbf_update_ws. Which expects a
current bug with DL window size calculation. The test's expectation
is corrected along with the bug fix in a subsequent commit
Related: OS#1808
Change-Id: I4659494c6f93ae89e4cc4ac79fff5fcaf2d23699
Interface structure between osmo-bts and osmo-pcu is updated with
the parameters to differentiate the type of RACH and further
support 11 bit RACH. The function prototype and definitions are
changed accordingly. Interface version number is increased.
Change-Id: I265c2d92d36d6cbcbeee60cdd8407dafe1da06a4
Earlier there was an incorrect encoding of PUAN when VQ is not equal
VR case for EGPRS UL RLC window. The PCU was encoding the same PUAN
message always irrespective of radio condition. This was a bottle neck
for performance testing. Which has been fixed in this patch.
Related: OS#1793
unit test assertion in the previous commit is fixed in this patch.
Change-Id: Iba7b1995028bd81749ffb080616b2ad5f2540d57
This patch adds a test case which expects a current bug with EGPRS PUAN
encoding when VQ != VR. The test's expectation is corrected along with
the bugfix in a subsequent commit
Adds test_tbf_puan_urbb_len to describe the following bug:
EGPRS PUAN encoding disregards the urbb_len, leading to identical PUAN
messages regardless of the urbb_len.
Related: OS#1793
Change-Id: I00662a564f64c0c83627401ae8f7bfef0f0a5de8
Modify the EGPRS DL TBF flow to support Split block during
Retx. This patch will also Upgrade the test suite with test cases
to validate the EGPRS Downlink SPB for Retransmission
Scenarios like MCS6->MCS3, MCS4->MCS1, MCS5->MCS2, MCS9->MCS3
MCS7->MCS2, MCS8->MCS3 have been simulated and Integration tested
in NuRAN 1.0 hardware thoroughly.
Change-Id: I242afdd8ae7622dec8593b26382ad66bad5b9516
This patch will modify the EGPRS UL TBF flow to support Split block
handling. This patch also contains test suite modification for SPB UL.
Scenarios like MCS6->MCS3, MCS4->MCS1, MCS5->MCS2, MCS9->MCS3
MCS7->MCS2, MCS8->MCS3 have been simulated and Integration tested
in NuRAN 1.0 hardware thoroughly. The scope of Unit testing is limited.
Change-Id: I39ca53218b6e0982abc2ab9c703c24c8bf0a09c0
ARFCN is already part of TRX struct so there's no need to supply it
explicitly in a separate parameter. I've tested and those are the same
anyway.
Change-Id: I8e975c52cbc819427880093b1e5371fe1f8ce460