- Author
- Dr Terry Barnaby
- Version
- 2.0.0
- Date
- 2013-02-01
Introduction
This document covers the BEAM LibTms software API for the CERN trajectory measurement system. This API provides the ability to control and receive data from the TMS System. The API is an object orientated API implemented in 'C++' with a number of object classes. The API operates over a network type interface using an RPC type mechanism.
The LibTms API makes use of the BEAM standard class library. The BEAM standard class library provides a small set of low level 'C++' classes for strings, lists and system interface functions. There is some brief information on the BEAM class library later on in this page.
Overview
Generally users of the system are only concerned with the top level, System Controller API. This is the API that control and data gathering clients use to control and gather data from the system. The System Controller API (TmsApi) is implemented using a simple, object orientated, RPC mechanism. Two main objects, the Tms::TmsControl and Tms::TmsProcess objects, provide the full API.
The TmsApi has been developed using the BOAP (BEAM Object Access Protocol). This provides a simple but powerful Object Orientated RPC mechanism. The TmsApi is written in a high level interface definition language (IDL). The bidl tool generates the client and server side 'C++' interface and implementation files for the API. These are then provided as a set of 'C++' header files and a binary library file for the clients to link to. The BOAP system employs a simple BOAP name server process that provides a translation between object names and IPAddress/Socket numbers. The BOAP name server runs on the System Controller. More information on the BOAP system can be found in the libBeam documentation.
There are two main Objects that are used by clients of the TMS API. They are the Tms::TmsControl and the Tms::TmsProcess objects. The Tms::TmsControl object is used for system configuration, testing and diagnostics. The Tms::TmsProcess object is used for normal clients for Proton Synchrotron (PS) Cycle information configuration and data access. There is some example client code in the tmsExamples of the source code and displayed later on this page. These objects communicate through a network connection with the TmsServer process running on the TMS System Controller. The TMS System Controller operates as a multi-threaded process and can communicate with multiple clients simultaneously.
The TMS system takes most of its system timing signals from digital timing lines connected to the TMS rack hardware. The only timing information that external software needs to supply is the next cycle number and cycle type information. The cycle number is a 32bit unsigned number identifying the next Proton Synchrotron (PS) machine cycle. The cycle type is and ASCII string defining the type of BEAM present in the PS machine. The cycle type defines a set of state/phase tables to be loaded in order to measure the BEAM in the machine. The CERN client software needs to provide this information by calling the setNextCycle() function before the next PS cycle is initiated.
The TMS system keeps a library of state/phase tables indexed by the cycle type. These are loaded into the individual PUPE engines FPGA's during the CYCLE_STOP to CYCLE_START period. The API provides the setControlInfo and delControlInfo calls to maintain this database.
A client would generally use the Tms::TmsProcess object for its interface to the TMS system. It would use call getData() to fetch the required data from the system. There is also an event based data interface implemented using the requestData() call and dataEvent() event call.
Each of the TMS API calls return an error object. If there is an error, an appropriate error number will be given together with an ASCII string describing the error.
BEAM class library
The BEAM class library implements some basic low level classes and is used by the TMS API implementation itself. The main class functionaly includes:
- BString - A simple string class
- BList - A templated list class
- BArray - A templated array class
- BError - An error return class containg an integer and string
- BSocket - A Network socket access class
- BThread - A thread implementation class
- BPoll - A file descriptor event polling class
- BMutex - A mutex lock
- BRWLock - A read/write lock
- BSema - A semaphore
- BCondInt - An integer condition class
- BFile - A simple file access class
- BDir - A simple directory access class
- BEntry - A name/value pair list class
- BNameValue - A name/value pair class
- BRtc - A realtime clock
- BTimer - A simple timer class
- BUrl - URL access class
Examples
There are some examples of client applications using the TmsApi in the tmsExamples directory of the source code. A simple Data Access client example is listed bellow:
#include <iostream>
#include <stdio.h>
using namespace std;
}
printf("Getting data for cycles starting at cycle: %u\n", cn);
for(; ; cn++){
printf("GetData: Cycle Number: %u\n", cn);
if(err = tmsProcess.
getData(dataInfo, data)){
}
printf(
"Data: NumValues: %d\n", data.
numValues);
}
return err;
}
int main(
int argc,
char** argv){
if(argc == 2)
host = argv[1];
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
if(err = tmsTest(tmsProcess)){
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
return 0;
}
uint32_t BUInt32
Definition BTypes.h:21
This file contains the TmsAPi class definitions.
Error return class.
Definition BError.h:36
BString getString() const
Get error message.
Definition BError.cpp:39
BError & set(int errNo, BString errStr="")
Set error number and message.
Definition BError.cpp:23
BError connectService(BString name)
Connects to the named service.
Definition Boap.cpp:128
This class defines the data to be acquired and/or fetched.
Definition TmsD.h:69
BUInt32 function
The data processing function to perform or performed. (0 normal data)
Definition TmsD.h:79
BUInt32 cyclePeriod
The cycle period the data is from.
Definition TmsD.h:75
BUInt32 orbitNumber
The starting orbit number (starting from 0)
Definition TmsD.h:77
BInt32 beyondPeriod
If set allows reads of data beyond the end of the period.
Definition TmsD.h:82
BUInt32 numValues
The total number of data points to return.
Definition TmsD.h:81
BUInt32 channel
The pick-up channel number.
Definition TmsD.h:74
BUInt32 bunchNumber
The Bunch number (starting from 1 (0 is all bunches))
Definition TmsD.h:78
BUInt32 cycleNumber
The PS Cycle number.
Definition TmsD.h:73
BUInt32 argument
The Argument to the data processing function.
Definition TmsD.h:80
BUInt32 startTime
The start time in milli-seconds in the cycle period (starting from 0)
Definition TmsD.h:76
This class stores the raw data.
Definition TmsD.h:97
BUInt32 numValues
The total number of data samples.
Definition TmsD.h:101
This interface provides functions to capture data from the TMS as a whole.
Definition TmsC.h:109
BError getData(DataInfo dataInfo, Data &data)
This function returns a set of data from the data present in the data cache or directly from the Pick...
Definition TmsC.cc:1854
BError getCycleInfo(BUInt32 &cycleNumber, BString &cycleType)
Gets the current cycle number and type.
Definition TmsC.cc:1733
int main()
Definition test1.cpp:32
A simple Control client example is listed below:
#include <iostream>
#include <stdio.h>
using namespace std;
}
cout << "Version: " << version << "\n";
if(err = tmsControl.
init()){
}
if(err = tmsControl.
test(errorList)){
}
cout << "Warning: " << errorList[i].getString() << "\n";
}
}
cout << nvList[i].name << ":\t" << nvList[i].value << "\n";
}
return err;
}
int main(
int argc,
char** argv){
if(argc == 2)
host = argv[1];
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
if(err = tmsInit(tmsControl)){
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
return 0;
}
Iterator for BList.
Definition BList.h:18
Template based list class.
Definition BList.h:30
void next(BIter &i) const
Iterator for next item in list.
Definition BList_func.h:48
int isEnd(BIter &i) const
True if iterator refers to last item.
Definition BList_func.h:91
void start(BIter &i) const
Iterator to start of list.
Definition BList_func.h:31
This class describes the configuration of the TMS.
Definition TmsD.h:61
This interface provides functions to control, test and get statistics from the TMS as a whole.
Definition TmsC.h:77
BError getStatus(BList< NameValue > &statusList)
Returns the current status of the system. This information includes the number of Pick-Up's present a...
Definition TmsC.cc:1278
BError getVersion(BString &version)
Gets the software version.
Definition TmsC.cc:840
BError init()
Initialises the system including resetting all of the PUPE engines firmware. The call will return an ...
Definition TmsC.cc:898
BError test(BList< BError > &errors)
Performs a basic test of the system returning a list of errors. The call will return an error object ...
Definition TmsC.cc:1240
A simple Control client to set the next cycle information example is listed below:
#include <iostream>
#include <stdio.h>
#include <unistd.h>
using namespace std;
while(1){
usleep(1200000);
cn = cn + 1;
ct = "Beam3";
printf("SendNextCycle\n");
cerr <<
"Error: " << err.
getString() <<
"\n";
}
}
return err;
}
int main(
int argc,
char** argv){
if(argc == 2)
host = argv[1];
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
if(err = tmsControlLoop(tmsControl)){
cerr <<
"Error: " << err.
getString() <<
"\n";
return 1;
}
return 0;
}
@ PriorityHigh
Definition BSocket.h:76
BError setPriority(Priority priority)
Definition BSocket.cpp:519
BError setNextCycle(BUInt32 cycleNumber, BString cycleType)
Sets the cycle number and type for the next processing cycle. The call will return an error object in...
Definition TmsC.cc:1210
BError setProcessPriority(BUInt32 priority)
Sets the priority of the process servicing this service.
Definition TmsC.cc:869
1.9.7