Starting and using TDUControl » History » Version 19
- Table of contents
- Getting help
- Communication with the TDU
- List of commands
- List of TDU IP addresses
- Using the NOvA GUI (TDUControl) - OLD & BROKEN
Email Tom Dealtry - firstname.lastname@example.org
The following are instructions on how to communicate with the NOvA timing distrubution unit (TDU). The TDU distributes timing information throughout the system, handles synchronisation between boards, and includes automatic propagation delay calculation & compensation. For a full list of functions, check the TDU FPGA Firmware Guide
There are a couple of ways to communicate with the TDU:
- Booting up an xmlrpc server & commuicating through this (preferred)
- Communicating with the TDU directly
Communication with the TDU¶
Source the lbnerc code (up to date instructions at Running_DAQ_Interface)
cd /data/lbnedaq/daqarea source fireup
In the following, $LBNERCROOT refers to the root path of your lbnerc install (it's not actually a variable that's set!)
Using the xmlrpc server is preferred, since the TDU can only handle a single connection at a time (using the xmlrpc server is a good way to prevent problems if multiple processes attempt to control the TDU at the same time).
It should also be noted the the default values of host and ports of the TDU and XMLRPC server in the scripts here are what is shown here, therefore, in most circumstances, you can run without providing these options.
Communication via xmlrpc server¶
The first step is to initialise the xmlrpc server (if it hasn't been already). The options -T and -P refer to the TDU host & port respectively (the master in this example). The optiosn -H and -r refer to the host & port the xmlrpc server is being created on.
tdu -T 192.168.100.201 -P 10001 -H localhost -r 50008
Next, you can use call the xmlrpc server to communicate with the TDU.
python rc/tdu/testing_scripts/tdu_control_via_xmlrpcserver.py -T localhost -p 50008
This will print out a list of commands and exit. To actually do something, add one (or more) switches
Note that you can use multiple switches in a single call, and operations are performed in the order listed above.
If you want to do something else, then you can either add in a new option, or write a new script based on tdu_control_via_xmlrpcserver.py
To kill the xmlrpc server, pass the
-k argument to
Communication with TDU directly¶
python rc/tdu/testing_scripts/tdu_control_via_client.py -T 192.168.100.201 -P 10001
By default this will
do_ping(), and if successful
A couple of switches allow you to do more:
If you want to do something else, then you can either add in a new option, or write a new script based on tdu_control_via_client.py
Running an emulator¶
If you don't have access to the hardware, you can run on a (very basic) emulator.
python $LBNERCROOT/rc/tdu/testing_scripts/tdu_emulator.py -T localhost -P 50007
List of commands¶
All 'get', 'do', and 'read' commands return an error code with a common numbering scheme ("0" means success). 'get' commands also return additional information.
Returns [error_code, ready_to_do]. When ready_to_do is True, the control register can be modified (i.e. a 'do' command can be performed)
Returns [error_code, nova_time]. nova_time is a 64-bit integer.
do_time_sync()must have been called since the last power cycle (TOCHECK: or immediately prior to this operation?), or you need to pass a value init_nova_time=True to force an update without the time sync (TOCHECK: does this update the correct register?)
All 'do' commands should be run on the master
ping the TDU
Perform a time synchronisation (this calls
Perform a propagation delay calculation (this calls
Send a sync pulse (this calls
Write the control register to perform a none standard operation (this calls
Read out the TDU version & ID numbers
Read out the TDU's current operating conditions (current, voltage, temperature, fan status, FPGA status)
Read out the GPS status (faults, timeouts, sat count, etc. + current UTC time)
Read out the error registers
Read out the control register
Read out all the registers. Also comes with some hints on what the 'default' for normal operating conditions is.
Safely close the connection to the TDU
close_socket(), and then performs
ntriesattempts to reconnect to the TDU (with 10 second sleeps)
0 Success! 100-119 Wrong number of bytes received 120-139 Zero bytes received - connection to the TDU has probably been lost, try resending command to find out 140-159 Connection to TDU was lost, but has been recovered. Resend your command -200/-201 Invalid register/data on receive +200/+201 Invalid register/data on send 300 Cannot perform a 'do' command (get_status() returns ready_to_do=False after 10 attempts including 2 seconds of sleep) 301 Not ready to sync (TDU status error) 302 Not ready to sync (GPS status error) 400 Error found in error registers 500 Propagation delay calculation failure
List of TDU IP addresses¶
- Master: 192.168.100.201
- Slave: 192.168.100.202
- ... (to be expanded)
The port is ALWAYS 10001 (unless you're communciating with an emulator)
All 'do' commands should be run on the master.
Using the NOvA GUI (TDUControl) - OLD & BROKEN¶
To start TDUControl, use the following steps:
- log into the
- enter the IP address of the Master TDU into the GUI (192.168.100.201)
Alternatively for steps 3 & 4, you can run
TDUControl -m -t 192.168.100.201