The current code tries to recover from dropped connections and resets the
pcu state so it can keep running. However, this never worked correctly
which is why the -e option is used. This option exits the pcu as soon as
the internal state needs to be reset.
This patch removes this option and makes this behaviour default.
Ticket: SYS#390
Sponsored-by: On-Waves ehf
This is required by C++11
csn1.cpp:1147:44: error: invalid suffix on literal; C++11 requires a space between literal and identifier [-Wreserved-user-defined-literal]
LOGPC(DCSN1, LOGL_NOTICE, "%"PRIu64"|", bitvec_read_field(vector, readIndex, bits_to_handle));
Sponsored-by: On-Waves ehf
The current code keeps a reference to all tbfs in the bts and another
reference in the pdch. This allows for the possibility of both lists to
go out of sync.
This patch removes the pdch-specific list of ul and dl tbfs and uses the
lists in the bts to lookup tbfs everywhere.
Performance for going through the global list is not an issue yet. We
can optimize this later and in a better way.
Sponsored-by: On-Waves ehf
The current code would only ever assign one PDCH for the initial
assignment (from CCCH). Only if reuse_tbf is called the algorithm would
actually use multiple DL PDCHs if possible.
This patch introduced a tbf attribute upgrade_to_multislot that is set
if we have multiple PDCH configured, and support multislot assignment,
but can only assign a single PDCH (alloc_algorithm_b, parameter single
is set). In this case after the assignment completes (and the MS is
listening on a PDCH) we resend a DL assignment though the PACCH and this
time we can assign multiple timeslots.
The current code does not properly distinguish between DL assignments to
reuse a tbf (after it was put in state WAIT_RELEASE) and DL assignments
for an active tbf to change the allocation of the PDCH timeslots.
This patch introduces a new variable was_releasing which remembers if
trigger_dl_ass() was called with a tbf in state WAIT_RELEASE. In that
case we have to set the CONTROL_ACK field in the download assignment.
This should allow us to send DL assignments to change PDCH TS allocation
of a tbf before we enter FLOW state.
Counter j must be wrapped to prevent beeing negative, when it is
initialized. This wrapping happens, if TS 0 is used for PDCH in
combination with regular GPRS phones (MS class 12 or similar).
Move functions resend_needed(), mark_for_resend(), update(),
move_window(), state(), count_unacked() out of v_b directly into the UL
window and provide a function get_state in v_b to access the v_b
elements.
When cross-compiling osmo-bts/osmo-pcu one can not easily
execute the testsuite. By adding the OSMO_QEMU variable in
front of the normal execution we can execute the tests. This
should work for native and cross builds.
$ OSMO_QEMU="qemu-arm -L /opt/poky/1.1.2/sysroots/armv5te-poky-linux-gnueabi/" make check
Merge the refactorings we did at sysmocom and the new test cases that
test the easy success cases of the allocation algorithm. Include the
multislot fixes from Andreas.
After reduce_rx_window() and update_rx_win_max() was called, one or more TS
might be removed. tx_win_min and tx_win_max must be adjusted to the new range
of allocated slots.
Make a crazy test that will test each possible PDCH configuration
and MS Class and verify that the UL/DL assignments work and that
they are on the same first_common_ts.
The algorithm does not support more than 5 TS on downlink for type 1 MS.
Supporting more than 5 TS would require adding more complexity to this
algorithm. MS that support more than 4 (or 5) TS on downlink are rare,
if they really exist.
Create a select_ul_slots which is very (95%) similar to the
select_dl_slots handling. This needs to be refactored and the
todo for multiple uplink slots should be handled too.
Add a warning about a potential failure on a busy PCU.
The naming of RX/TX still looks fishy and it should use DL/UL instead.
Work on pointers right now. We could introduce a struct with the window
min and max and pass this struct. The usage of 'D' appears wrong in the
ul_usage..