Extacting the OCDB in a separate module. The detectors have write permission in the...
[u/mrichter/AliRoot.git] / HLT / MUON / utils / dHLTdumpraw.cxx
CommitLineData
3dad52b0 1/**************************************************************************
2 * Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. *
3 * *
4 * Author: *
5 * Contributors are mentioned in the code where appropriate. *
6 * *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
15
16/* $Id$ */
17
18/**
19 * @file dHLTdumpraw.cxx
20 * @author Artur Szostak <artursz@iafrica.com>,
21 * Seforo Mohlalisi <seforomohlalisi@yahoo.co.uk>
887a669c 22 * @date 1 July 2007
3dad52b0 23 * @brief Command line utility to dump dHLT's internal raw data blocks.
24 */
25
26// We define NDEBUG for the AliHLTMUONDataBlockReader.h header file since this
27// program by definition handles corrupt data. So we do not need the assertions
28// in the AliHLTMUONDataBlockReader class to be checked.
9c234d7b 29#ifndef NDEBUG
3dad52b0 30#define NDEBUG
9c234d7b 31#endif
3dad52b0 32#include "AliHLTMUONDataBlockReader.h"
9c234d7b 33#if defined(DEBUG) && defined(NDEBUG)
3dad52b0 34#undef NDEBUG
9c234d7b 35#endif
36
3dad52b0 37#include "AliHLTMUONUtils.h"
887a669c 38#include "AliHLTMUONConstants.h"
39#include "Rtypes.h"
40#include "AliRawDataHeader.h"
41#include "AliMUONTrackerDDLDecoder.h"
42#include "AliMUONTriggerDDLDecoder.h"
43#include "AliHLTSystem.h"
44#include "AliHLTConfiguration.h"
45#include "AliLog.h"
46#include "TClassTable.h"
47#include "TString.h"
48#include "TRegexp.h"
3dad52b0 49
b09247a2 50#include <cstring>
fdee2dad 51#include <cstdlib>
887a669c 52#include <cstdio>
3dad52b0 53#include <cassert>
54#include <new>
55#include <fstream>
56
57#include <iostream>
58using std::cout;
59using std::cerr;
60using std::endl;
61using std::showbase;
62using std::noshowbase;
63using std::hex;
64using std::dec;
65
66#include <iomanip>
67using std::setw;
68using std::left;
887a669c 69using std::right;
3dad52b0 70using std::internal;
71
72
73#define CMDLINE_ERROR 1
74#define PARSE_ERROR 2
75#define SYSTEM_ERROR 3
76#define FATAL_ERROR 4
887a669c 77#define HLTSYSTEM_ERROR 5
78
79
80// Adding enum types for extending AliHLTMUONDataBlockType with the
81// raw DDL data types.
82enum AliHLTMUONDDLRawDataType
83{
84 kTrackerDDLRawData = 10,
85 kTriggerDDLRawData = 11
86};
3dad52b0 87
88
89void PrintRubbishData(AliHLTUInt32_t offset, const char* padByte, AliHLTUInt32_t padCount)
90{
91 if (padCount == 0) return;
92
93 cerr << "ERROR: Found the following unexpected rubbish data at the"
94 " end of the data block:" << endl;
95 cerr << "Byte #\tValue\tCharacter" << endl;
96 for (AliHLTUInt32_t i = 0; i < padCount; i++)
97 {
98 short value = short(padByte[i]) & 0xFF;
99 char character = padByte[i];
100 cerr << offset + i + 1 << "\t"
101 << noshowbase << hex << "0x" << value << dec << "\t"
102 << character << endl;
103 }
104}
105
106
a090ff22 107void PrintBitPattern(AliHLTUInt32_t value, int bitcount = 32)
108{
109 // Prints a bit pattern to cout.
110
111 for (int i = bitcount-1; i >= 0; i--)
112 {
113 if ( ((value >> i) & 0x1) == 1 )
114 cout << "1";
115 else
116 cout << "0";
117 }
118}
119
120
3dad52b0 121template <typename FieldType>
122int CheckHeaderField(
123 FieldType& field, const char* buffer, unsigned long bufferSize,
124 bool continueParse
125 )
126{
127 const char* fieldptr = reinterpret_cast<const char*>(&field);
128 const char* endptr = buffer + bufferSize;
129 AliHLTUInt32_t bufferRemaining = endptr > fieldptr ? endptr - fieldptr : 0;
130
131 if (bufferRemaining < sizeof(field))
132 {
133 cout << "..." << endl; // We may be half way through printing a line so end it.
134 cerr << "ERROR: The data block is too short. The header is corrupt." << endl;
135 if (continueParse)
136 {
137 AliHLTUInt32_t offset = fieldptr - buffer;
138 PrintRubbishData(offset, fieldptr, bufferRemaining);
139 }
140 return PARSE_ERROR;
141 }
142 return EXIT_SUCCESS;
143}
144
145
146template <typename FieldType>
147int CheckField(
148 FieldType& field, const char* buffer, unsigned long bufferSize,
149 bool continueParse
150 )
151{
152 const char* fieldptr = reinterpret_cast<const char*>(&field);
153 const char* endptr = buffer + bufferSize;
154 AliHLTUInt32_t bufferRemaining = endptr > fieldptr ? endptr - fieldptr : 0;
155
156 if (bufferRemaining < sizeof(field))
157 {
158 cout << "..." << endl; // We may be half way through printing a line so end it.
159 cerr << "ERROR: The data block is too short. The data is corrupt." << endl;
160 if (continueParse)
161 {
162 AliHLTUInt32_t offset = fieldptr - buffer;
163 PrintRubbishData(offset, fieldptr, bufferRemaining);
164 }
165 return PARSE_ERROR;
166 }
167 return EXIT_SUCCESS;
168}
169
170
171template <typename BlockType>
172int CheckCommonHeader(
63ae97e0 173 BlockType& block, const char* /*buffer*/, unsigned long bufferSize,
3dad52b0 174 bool continueParse
175 )
176{
177 int result = EXIT_SUCCESS;
178
179 // Check the fRecordWidth field in the common header.
180 if (block.CommonBlockHeader().fRecordWidth !=
181 sizeof(typename BlockType::ElementType))
182 {
183 cerr << "ERROR: The record width found in the header is incorrect."
184 " Found a record width of "
185 << block.CommonBlockHeader().fRecordWidth << " bytes, but expected"
186 " a value of " << sizeof(typename BlockType::ElementType)
187 << " bytes." << endl;
188 result = PARSE_ERROR;
189 if (not continueParse) return result;
190 }
191
192 if (not block.BufferSizeOk())
193 {
194 cerr << "ERROR: The size of the file is incorrect. It is "
195 << bufferSize << " bytes big, but according"
196 " to the data block header it should be " << block.BytesUsed()
197 << " bytes." << endl;
198 result = PARSE_ERROR;
199 if (not continueParse) return result;
200 }
201
202 return result;
203}
204
205
206template <typename BlockType>
207AliHLTUInt32_t CalculateNEntries(BlockType& block, unsigned long bufferSize)
208{
209 // Calculate how many entries we can display. If the buffer size is correct
210 // we just use the number of entries the block specifies. Otherwise we need
211 // to calculate it from the buffer size.
212 AliHLTUInt32_t nentries;
213 if (block.BytesUsed() == bufferSize)
214 {
215 nentries = block.Nentries();
216 }
217 else
218 {
219 AliHLTInt32_t dataSize = bufferSize
220 - sizeof(typename BlockType::HeaderType);
221 nentries = dataSize / sizeof(typename BlockType::ElementType);
222 if (dataSize % sizeof(typename BlockType::ElementType) > 0)
223 nentries++;
224 }
225 return nentries;
226}
227
228
887a669c 229namespace
230{
231 /**
232 * Common methods for DDL decoder event handlers.
233 */
234 class AliDecoderHandler
235 {
236 public:
237 AliDecoderHandler() :
238 fBufferStart(NULL),
239 fDumpStart(NULL),
240 fDumpData(false)
241 {
242 }
243
244 virtual ~AliDecoderHandler() {}
245
246 protected:
247
248 // Do not allow copying of this class.
249 AliDecoderHandler(const AliDecoderHandler& obj);
250 AliDecoderHandler& operator = (const AliDecoderHandler& obj);
251
252 void HandleError(
253 const char* errorMessage, int errorCode,
254 const char* errorCodeString, const void* location
a090ff22 255 );
887a669c 256
a090ff22 257 void TryDumpCorruptData(const void* dumpEnd);
887a669c 258
259 const void* fBufferStart; ///< Start location of buffer.
260 const void* fDumpStart; ///< Start location of corrupt data to dump.
261 bool fDumpData; ///< Flag indicating if fDumpStart points to corrupt data and should be dumped.
262 };
a090ff22 263
264
265 void AliDecoderHandler::HandleError(
266 const char* errorMessage, int errorCode,
267 const char* errorCodeString, const void* location
268 )
269 {
270 unsigned long offset = (unsigned long)location - (unsigned long)fBufferStart
271 + sizeof(AliRawDataHeader);
272
273 cerr << "ERROR: " << errorMessage
274 << " [Error code = " << errorCode << " ("
275 << errorCodeString << "), at byte "
276 << offset << " (" << noshowbase << hex << "0x"
277 << offset << dec << ")]" << endl;
278
279 if (fDumpStart == NULL) fDumpStart = location;
280 fDumpData = true;
281 }
282
283
284 void AliDecoderHandler::TryDumpCorruptData(const void* dumpEnd)
285 {
286 if (dumpEnd < fDumpStart) return;
287 if (not fDumpData) return;
288
289 unsigned long startOffset = (unsigned long)fDumpStart - (unsigned long)fBufferStart
290 + sizeof(AliRawDataHeader);
291 unsigned long endOffset = (unsigned long)dumpEnd - (unsigned long)fBufferStart
292 + sizeof(AliRawDataHeader);
293 if (endOffset - startOffset > 264)
294 {
295 endOffset = startOffset + 264;
296 dumpEnd = reinterpret_cast<const char*>(fBufferStart) + endOffset;
297 }
298 cerr << "Dumping corrupt data words from byte " << startOffset
299 << " (" << noshowbase << hex << "0x" << startOffset
300 << dec << "), to byte " << endOffset << " (" << noshowbase
301 << hex << "0x" << endOffset << dec << "):" << endl;
302 const UInt_t* start = reinterpret_cast<const UInt_t*>(fDumpStart);
303 const UInt_t* end = reinterpret_cast<const UInt_t*>(dumpEnd);
304 cerr << " Start byte | Data words" << endl;
305 for (const UInt_t* current = start; current < end; current++)
306 {
307 unsigned long currentByte = (unsigned long)current
308 - (unsigned long)fBufferStart + sizeof(AliRawDataHeader);
309 cerr << right << setw(9) << dec << currentByte << setw(0)
310 << " 0x" << left << setw(7) << noshowbase << hex
311 << currentByte << setw(0) << right << " | ";
312 char fillChar = cerr.fill();
313 cerr.fill('0');
314 for (int i = 0; i < 4 and current < end; i++, current++)
315 {
316 cerr << noshowbase << hex << "0x" << setw(8)
317 << (*current) << setw(0) << dec << " ";
318 }
319 cerr.fill(fillChar);
320 cerr << endl;
321 }
322 fDumpStart = NULL;
323 fDumpData = false;
324 }
887a669c 325
326 /**
327 * Event handler for the tracker DDL decoder.
328 * It simply prints the structure to standard output.
329 */
330 class AliTrackerDecoderHandler :
331 public AliMUONTrackerDDLDecoderEventHandler, public AliDecoderHandler
332 {
333 public:
334 AliTrackerDecoderHandler() :
335 AliMUONTrackerDDLDecoderEventHandler(),
a090ff22 336 AliDecoderHandler(),
337 fBlockNum(0),
338 fDSPNum(0),
339 fBusPatchNum(0)
887a669c 340 {}
341
342 virtual ~AliTrackerDecoderHandler() {}
343
344 void OnNewBuffer(const void* buffer, UInt_t /*bufferSize*/)
345 {
346 fBufferStart = buffer;
a090ff22 347 fBlockNum = fDSPNum = fBusPatchNum = 0;
887a669c 348 }
349
350 void OnEndOfBuffer(const void* buffer, UInt_t bufferSize)
351 {
352 const char* bufferEnd =
353 reinterpret_cast<const char*>(buffer) + bufferSize;
354 TryDumpCorruptData(bufferEnd);
355 }
356
a090ff22 357 void OnNewBlock(const AliMUONBlockHeaderStruct* header, const void* /*data*/);
887a669c 358
a090ff22 359 void OnNewDSP(const AliMUONDSPHeaderStruct* header, const void* /*data*/);
360
361 void OnNewBusPatch(const AliMUONBusPatchHeaderStruct* header, const void* /*data*/);
362
363 void OnData(UInt_t data, bool parityError);
364
365 void OnError(ErrorCode error, const void* location);
887a669c 366
a090ff22 367 private:
368
369 UInt_t fBlockNum; ///< Number of block being processed [1..maxBlock].
370 UInt_t fDSPNum; ///< Number of DSP being processed [1..maxDSP].
371 UInt_t fBusPatchNum; ///< Number of bus patch being processed [1..maxBusPatch].
372 };
373
374
375 void AliTrackerDecoderHandler::OnNewBlock(const AliMUONBlockHeaderStruct* header, const void* /*data*/)
376 {
377 TryDumpCorruptData(header);
378 fBlockNum++;
379 char fillChar = cout.fill(); // store current fill char to restore it.
380 cout << "================================ Block header "
381 << setw(3) << fBlockNum << setw(0)
382 << " ================================" << endl;
383 cout << " Data key word for block : 0x" << noshowbase << setw(8) << setfill('0')
384 << hex << header->fDataKey << dec << setfill(fillChar) << setw(0) << endl;
385 cout << " Total Length of block : " << header->fTotalLength << endl;
386 cout << " Length of raw data : " << header->fLength << endl;
387 cout << " DSP ID : " << header->fDSPId << endl;
388 cout << " L0 trigger word : " << header->fL0Trigger << " (0x"
389 << noshowbase << setw(8) << setfill('0') << hex << header->fL0Trigger
390 << dec << setw(0) << setfill(fillChar) << ")" << endl;
391 cout << " Mini event ID : " << header->fMiniEventId << " (0x"
392 << noshowbase << setw(8) << setfill('0') << hex << header->fMiniEventId
393 << dec << setw(0) << setfill(fillChar) << ")" << endl;
394 cout << "Event ID In Bunch Crossing : " << header->fEventId1 << " (0x"
395 << noshowbase << setw(8) << setfill('0') << hex << header->fEventId1
396 << dec << setw(0) << setfill(fillChar) << ")" << endl;
397 cout << " Event ID In Orbit Number : " << header->fEventId2 << " (0x"
398 << noshowbase << setw(8) << setfill('0') << hex << header->fEventId2
399 << dec << setw(0) << setfill(fillChar) << ")" << endl;
400 }
401
402
403 void AliTrackerDecoderHandler::OnNewDSP(const AliMUONDSPHeaderStruct* header, const void* /*data*/)
404 {
405 TryDumpCorruptData(header);
406 fDSPNum++;
407 char fillChar = cout.fill(); // store current fill char to restore it.
408 cout << "================================= DSP header "
409 << setw(3) << fDSPNum << setw(0)
410 << " =================================" << endl;
411 cout << " Data key word for FRT : 0x" << noshowbase
412 << setw(8) << setfill('0') << hex << header->fDataKey << dec
413 << setfill(fillChar) << setw(0) << endl;
414 cout << " Total length of structure : " << header->fTotalLength << endl;
415 cout << " Length of raw data : " << header->fLength << endl;
416 cout << " DSP ID : " << header->fDSPId << endl;
417 cout << " L1 accept in block Structure (CRT) : " << header->fBlkL1ATrigger
418 << " (0x" << noshowbase << setw(8) << setfill('0') << hex
419 << header->fBlkL1ATrigger << dec << setw(0) << setfill(fillChar) << ")" << endl;
420 cout << " Mini event ID in bunch crossing : " << header->fMiniEventId
421 << " (0x" << noshowbase << setw(8) << setfill('0') << hex
422 << header->fMiniEventId << dec << setw(0) << setfill(fillChar) << ")" << endl;
423 cout << "Number of L1 accept in DSP Structure (FRT) : " << header->fL1ATrigger << endl;
424 cout << "Number of L1 reject in DSP Structure (FRT) : " << header->fL1RTrigger << endl;
425 const char* paddingWordValue = ") (INVALID)";
426 if (header->fPaddingWord == 0) paddingWordValue = ") (false)";
427 if (header->fPaddingWord == 1) paddingWordValue = ") (true)";
428 cout << " Padding word set for 64 bits transfer : " << header->fPaddingWord
429 << " (0x" << noshowbase << setw(8) << setfill('0') << hex
430 << header->fPaddingWord << setw(0) << setfill(fillChar) << dec
431 << paddingWordValue << endl;
432 cout << " Error word : " << header->fErrorWord
433 << " (" << noshowbase << setw(8) << setfill('0') << hex
434 << header->fErrorWord << setw(0) << setfill(fillChar)
435 << dec << ")" << endl;
436 }
437
438
439 void AliTrackerDecoderHandler::OnNewBusPatch(const AliMUONBusPatchHeaderStruct* header, const void* /*data*/)
440 {
441 TryDumpCorruptData(header);
442 fBusPatchNum++;
443 char fillChar = cout.fill(); // store current fill char to restore it.
444 cout << "============================== Bus patch header "
445 << setw(3) << fBusPatchNum << setw(0)
446 << " ==============================" << endl;
447 cout << "Data key word for bus patch : 0x" << noshowbase << setw(8)
448 << setfill('0') << hex << header->fDataKey << dec
449 << setfill(fillChar) << setw(0) << endl;
450 cout << " Total length of structure : " << header->fTotalLength << endl;
451 cout << " Length of raw data : " << header->fLength << endl;
452 cout << " Bus patch ID : " << header->fBusPatchId << endl;
453 if (header->fLength > 0)
887a669c 454 {
a090ff22 455 cout << " Raw bits | Manu ID | Manu channel | ADC Signal" << endl;
456 cout << "----------------------------------------------------------" << endl;
887a669c 457 }
a090ff22 458 }
459
460
461 void AliTrackerDecoderHandler::OnData(UInt_t data, bool parityError)
462 {
463 UShort_t manuId, adc;
464 UChar_t manuChannel;
465 UnpackADC(data, manuId, manuChannel, adc);
466 char fillChar = cout.fill(); // store current fill char to restore it.
467 cout << noshowbase << " 0x" << setfill('0') << hex << setw(8) << data
468 << setw(0) << dec << setfill(fillChar) << " "
469 << setw(12) << manuId << setw(0) << " "
470 << setw(12) << (UInt_t)manuChannel << setw(0) << " "
471 << setw(12) << adc << setw(0);
472 if (parityError)
887a669c 473 {
a090ff22 474 cout << " <= WARNING: Raw data word with parity error!" << endl;
887a669c 475 }
a090ff22 476 else
887a669c 477 {
a090ff22 478 cout << endl;
887a669c 479 }
a090ff22 480 }
481
482
483 void AliTrackerDecoderHandler::OnError(ErrorCode error, const void* location)
484 {
485 TryDumpCorruptData(location);
486 HandleError(
487 ErrorCodeToMessage(error), error,
488 ErrorCodeToString(error), location
489 );
490 }
887a669c 491
492 /**
493 * Event handler for the trigger DDL decoder.
494 * It simply prints the structure to standard output.
495 */
496 class AliTriggerDecoderHandler :
497 public AliMUONTriggerDDLDecoderEventHandler, public AliDecoderHandler
498 {
499 public:
500 AliTriggerDecoderHandler() :
501 AliMUONTriggerDDLDecoderEventHandler(),
a090ff22 502 AliDecoderHandler(),
503 fRegNum(0),
504 fLocNum(0)
887a669c 505 {}
506
507 virtual ~AliTriggerDecoderHandler() {}
508
509 void OnNewBuffer(const void* buffer, UInt_t /*bufferSize*/)
510 {
511 fBufferStart = buffer;
a090ff22 512 fRegNum = fLocNum = 0;
887a669c 513 }
514
515 void OnEndOfBuffer(const void* buffer, UInt_t bufferSize)
516 {
517 const char* bufferEnd =
518 reinterpret_cast<const char*>(buffer) + bufferSize;
519 TryDumpCorruptData(bufferEnd);
520 }
521
a090ff22 522 const char* EventTypeToString(UInt_t type);
523
524 const char* DarcTypeToString(UInt_t type);
525
887a669c 526 void OnDarcHeader(
527 UInt_t header,
528 const AliMUONDarcScalarsStruct* scalars,
529 const void* data
a090ff22 530 );
887a669c 531
532 void OnGlobalHeader(
533 const AliMUONGlobalHeaderStruct* header,
a090ff22 534 const AliMUONGlobalScalarsStruct* scalars,
887a669c 535 const void* /*data*/
a090ff22 536 );
887a669c 537
538 void OnNewRegionalStruct(
539 const AliMUONRegionalHeaderStruct* regionalStruct,
a090ff22 540 const AliMUONRegionalScalarsStruct* scalars,
887a669c 541 const void* /*data*/
a090ff22 542 );
887a669c 543
544 void OnLocalStruct(
545 const AliMUONLocalInfoStruct* localStruct,
a090ff22 546 const AliMUONLocalScalarsStruct* scalars
547 );
548
549 void OnError(ErrorCode error, const void* location);
550
551 private:
552
553 UInt_t fRegNum; ///< Number of block being processed [1..maxReg].
554 UInt_t fLocNum; ///< Number of DSP being processed [1..maxLoc].
555 };
556
557
558 const char* AliTriggerDecoderHandler::EventTypeToString(UInt_t type)
559 {
560 switch (type)
887a669c 561 {
a090ff22 562 case 0: return "Other software trigger";
563 case 1: return "Physics";
564 case 2: return "Start of run";
565 case 3: return "End of run";
566 default: return "UNKNOWN";
887a669c 567 }
a090ff22 568 }
569
570
571 const char* AliTriggerDecoderHandler::DarcTypeToString(UInt_t type)
572 {
573 typedef AliMUONTriggerDDLDecoder<AliMUONTriggerDDLDecoderEventHandler> AliDec;
574 if (type == AliDec::DarcDefaultType()) return "Default";
575 if (type == AliDec::DarcVadorhType()) return "Vadorh";
576 return "UNKNOWN";
577 }
578
579
580 void AliTriggerDecoderHandler::OnDarcHeader(
581 UInt_t header,
582 const AliMUONDarcScalarsStruct* scalars,
583 const void* data
584 )
585 {
586 if (scalars != NULL)
587 TryDumpCorruptData(scalars);
588 else
589 TryDumpCorruptData(data);
887a669c 590
a090ff22 591 cout << "================================ DARC header =====================================" << endl;
592 char fillChar = cout.fill(); // store current fill char to restore it.
593 cout << noshowbase << " Header bit pattern : 0x" << setfill('0') << hex << setw(8)
594 << header << setw(0) << dec << setfill(fillChar) << endl;
595 UInt_t eventType = GetDarcEventType(header);
596 cout << " Event type : " << eventType << " ("
597 << EventTypeToString(eventType) << ")" << endl;
598 cout << " Application type : " << ((header >> 27) & 0x7) << endl;
599 UInt_t darcType = GetDarcType(header);
600 cout << " DARC type : " << darcType << " ("
601 << DarcTypeToString(darcType) << ")" << endl;
602 cout << " Serial number : " << (UInt_t)GetDarcSerialNb(header) << endl;
603 cout << " Version : " << (UInt_t)GetDarcVersion(header) << endl;
604 cout << " VME trigger used : " << boolalpha << GetDarcVMETrig(header) << endl;
605 cout << "Global card data occurrence : " << boolalpha << GetDarcGlobalFlag(header) << endl;
606 cout << " CTP or LTU interfaced : " << boolalpha << GetDarcCTPTrig(header) << endl;
607 cout << " DAQ interfaced : " << boolalpha << GetDarcDAQFlag(header) << endl;
608 cout << " Regional cards occurrence : 0x" << noshowbase << hex << setw(2) << setfill('0')
609 << (UInt_t)GetDarcRegPattern(header) << dec << setfill(fillChar) << setw(0)
610 << " [bits: ";
611 PrintBitPattern(((UInt_t)GetDarcRegPattern(header) >> 4) & 0xF, 4); cout << " ";
612 PrintBitPattern(((UInt_t)GetDarcRegPattern(header) >> 0) & 0xF, 4);
613 cout << "]" << endl;
614
615 cout << "================================ DARC scalars ====================================" << endl;
616 if (scalars != NULL)
887a669c 617 {
a090ff22 618 cout << " Trigger | Received | Used" << endl;
619 cout << "----------------------------------" << endl;
620 cout << " L0 " << setw(8) << ((scalars->fL0R >> 16) & 0xFFFF) << setw(0)
621 << " " << setw(8) << ((scalars->fL0R >> 0) & 0xFFFF) << setw(0) << endl;
622 cout << " L1 physics " << setw(8) << ((scalars->fL1P >> 16) & 0xFFFF) << setw(0)
623 << " " << setw(8) << ((scalars->fL1P >> 0) & 0xFFFF) << setw(0) << endl;
624 cout << "L1 software " << setw(8) << ((scalars->fL1S >> 16) & 0xFFFF) << setw(0)
625 << " " << setw(8) << ((scalars->fL1S >> 0) & 0xFFFF) << setw(0) << endl;
626 cout << " L2 accept " << setw(8) << ((scalars->fL2A >> 16) & 0xFFFF) << setw(0)
627 << " " << setw(8) << ((scalars->fL2A >> 0) & 0xFFFF) << setw(0) << endl;
628 cout << " L2 reject " << setw(8) << ((scalars->fL2R >> 16) & 0xFFFF) << setw(0)
629 << " " << setw(8) << ((scalars->fL2R >> 0) & 0xFFFF) << setw(0) << endl;
630 cout << " Clock : " << scalars->fClk << endl;
631 cout << "Hold (dead time) : " << scalars->fHold << endl;
632 cout << " Spare word : " << scalars->fSpare << " (0x"
633 << setw(8) << setfill('0') << hex << scalars->fSpare <<
634 setw(0) << setfill(fillChar) << dec << ")" << endl;
887a669c 635 }
a090ff22 636 else
637 {
638 cout << "(None found)" << endl;
639 }
640 }
641
642
643 void AliTriggerDecoderHandler::OnGlobalHeader(
644 const AliMUONGlobalHeaderStruct* header,
645 const AliMUONGlobalScalarsStruct* scalars,
646 const void* /*data*/
647 )
648 {
649 TryDumpCorruptData(header);
650
651 cout << "=============================== Global header ====================================" << endl;
652 cout << "Global input from regional controllers:" << endl;
653 cout << " | | High pT | Low pT " << endl;
654 cout << " | Bit pattern | Single mu | mu pair | Single mu | mu pair " << endl;
655 cout << "Input | Hex | Binary | -ve | +ve | unlike | like | -ve | +ve | unlike | like" << endl;
656 cout << "--------------------------------------------------------------------------------" << endl;
657 char fillChar = cout.fill(); // store current fill char to restore it.
658 for (int i = 0; i < 4; i++)
659 {
660 union
661 {
662 UInt_t fWord;
663 UChar_t fByte[4];
664 } input;
665 input.fWord = header->fInput[i];
666 for (int j = 0; j < 4; j++)
667 {
668 cout << setw(5) << (i*4+j) << " 0x" << noshowbase << setw(2)
669 << setfill('0') << hex << (UInt_t)input.fByte[j] << setw(0)
670 << setfill(fillChar) << dec << " ";
671 PrintBitPattern(input.fByte[j], 8);
672 cout << ((((input.fByte[j] >> 7) & 0x1) == 1) ? " yes" : " no");
673 cout << ((((input.fByte[j] >> 6) & 0x1) == 1) ? " yes" : " no");
674 cout << ((((input.fByte[j] >> 5) & 0x1) == 1) ? " yes " : " no ");
675 cout << ((((input.fByte[j] >> 4) & 0x1) == 1) ? " yes" : " no");
676 cout << ((((input.fByte[j] >> 3) & 0x1) == 1) ? " yes" : " no");
677 cout << ((((input.fByte[j] >> 2) & 0x1) == 1) ? " yes" : " no");
678 cout << ((((input.fByte[j] >> 1) & 0x1) == 1) ? " yes " : " no ");
679 cout << ((((input.fByte[j] >> 0) & 0x1) == 1) ? " yes" : " no");
680 cout << endl;
681 }
682 }
683 cout << " Global ouput : 0x" << noshowbase << setw(2) << setfill('0') << hex
684 << (UInt_t)GetGlobalOutput(header) << setw(0) << setfill(fillChar) << dec << " [Bits: ";
685 PrintBitPattern(((UInt_t)GetGlobalOutput(header) >> 4) & 0xF, 4); cout << " ";
686 PrintBitPattern(((UInt_t)GetGlobalOutput(header) >> 0) & 0xF, 4);
687 cout << "]" << endl;
688 cout << " [ unlike sign | like sign | single muon ]" << endl;
689 cout << " [ high | low | high | low | high | low ]" << endl;
690 cout << " [-----------------------------------------]" << endl;
691 cout << " [ ";
692 cout << ((((GetGlobalOutput(header) >> 5) & 0x1) == 1) ? " yes" : " no");
693 cout << ((((GetGlobalOutput(header) >> 4) & 0x1) == 1) ? " yes" : " no");
694 cout << ((((GetGlobalOutput(header) >> 3) & 0x1) == 1) ? " yes" : " no");
695 cout << ((((GetGlobalOutput(header) >> 2) & 0x1) == 1) ? " yes" : " no");
696 cout << ((((GetGlobalOutput(header) >> 1) & 0x1) == 1) ? " yes" : " no");
697 cout << ((((GetGlobalOutput(header) >> 0) & 0x1) == 1) ? " yes" : " no");
698 cout << " ]" << endl;
699 cout << "Global configuration : 0x" << noshowbase << setw(4) << setfill('0') << hex
700 << GetGlobalConfig(header) << setw(0) << setfill(fillChar) << dec << " [Bits: ";
701 PrintBitPattern(((UInt_t)GetGlobalConfig(header) >> 12) & 0xF, 4); cout << " ";
702 PrintBitPattern(((UInt_t)GetGlobalConfig(header) >> 8) & 0xF, 4); cout << " ";
703 PrintBitPattern(((UInt_t)GetGlobalConfig(header) >> 4) & 0xF, 4); cout << " ";
704 PrintBitPattern(((UInt_t)GetGlobalConfig(header) >> 0) & 0xF, 4);
705 cout << "]" << endl;
706
707 cout << "=============================== Global scalars ===================================" << endl;
708 if (scalars != NULL)
709 {
710 cout << " Number of L0 triggers : " << scalars->fL0 << endl;
711 cout << " Number of clock cycles : " << scalars->fClk << endl;
712 cout << " Number of unlike mu pair low pT : " << scalars->fScaler[0] << endl;
713 cout << "Number of unlike mu pair high pT : " << scalars->fScaler[1] << endl;
714 cout << " Number of like mu pair low pT : " << scalars->fScaler[2] << endl;
715 cout << " Number of like mu pair high pT : " << scalars->fScaler[3] << endl;
716 cout << " Number of single mu low pT : " << scalars->fScaler[4] << endl;
717 cout << " Number of single mu high pT : " << scalars->fScaler[5] << endl;
718 cout << " Hold (dead time) : " << scalars->fHold << endl;
719 cout << " Spare word : " << scalars->fSpare << " (0x"
720 << setw(8) << setfill('0') << hex << scalars->fSpare <<
721 setw(0) << setfill(fillChar) << dec << ")" << endl;
722 }
723 else
724 {
725 cout << "(None found)" << endl;
726 }
727 }
728
729
730 void AliTriggerDecoderHandler::OnNewRegionalStruct(
731 const AliMUONRegionalHeaderStruct* regionalStruct,
732 const AliMUONRegionalScalarsStruct* scalars,
733 const void* /*data*/
734 )
735 {
736 TryDumpCorruptData(regionalStruct);
737
738 fRegNum++;
739 cout << "========================= Regional structure header "
740 << setw(3) << fRegNum << setw(0)
741 << " ==========================" << endl;
742 char fillChar = cout.fill(); // store current fill char to restore it.
743 cout << "Darc word bit pattern : 0x" << noshowbase << setw(8) << setfill('0')
744 << hex << regionalStruct->fDarcWord << setw(0)
745 << setfill(fillChar) << dec << endl;
746 UShort_t errBits = GetRegionalErrorBits(regionalStruct);
747 cout << " [ Error type : "
748 << (((errBits >> 7) & 0x1) == 1 ? "1 (Physics) " : "0 (Software)")
749 << " ]" << endl;
750 cout << " [ Regional error : " << ((errBits >> 6) & 0x1) << " ]" << endl;
751 cout << " [ Full error : " << ((errBits >> 6) & 0x1) << " ]" << endl;
752 cout << " [ Empty error : " << ((errBits >> 6) & 0x1) << " ]" << endl;
753 cout << " [ DARC L2 reject error : " << ((errBits >> 6) & 0x1) << " ]" << endl;
754 cout << " [ DARC L2 error : " << ((errBits >> 6) & 0x1) << " ]" << endl;
755 cout << " [ DARC L1 error : " << ((errBits >> 6) & 0x1) << " ]" << endl;
756 cout << " [ DARC L0 error : " << ((errBits >> 6) & 0x1) << " ]" << endl;
757
758 cout << " [ FPGA number in card : "
759 << (UInt_t)GetRegionalFPGANumber(regionalStruct) << " (";
760 PrintBitPattern((UInt_t)GetRegionalFPGANumber(regionalStruct), 3);
761 cout << "b) ]" << endl;
762
763 cout << " [ Physics trigger : " << setw(13) << boolalpha << left
764 << GetRegionalDarcPhysFlag(regionalStruct) << setw(0)
765 << right << "]" << endl;
766 cout << " [ Regional present : " << setw(13) << boolalpha << left
767 << GetRegionalPresentFlag(regionalStruct) << setw(0)
768 << right << "]" << endl;
769 cout << " [ RAM not full : " << setw(13) << boolalpha << left
770 << GetRegionalRamNotFullFlag(regionalStruct) << setw(0)
771 << right << "]" << endl;
772 cout << " [ RAM not empty : " << setw(13) << boolalpha << left
773 << GetRegionalRamNotEmptyFlag(regionalStruct) << setw(0)
774 << right << "]" << endl;
775 cout << " [ L2 rejected : " << setw(13) << boolalpha << left
776 << GetRegionalL2RejStatus(regionalStruct) << setw(0)
777 << right << "]" << endl;
778 cout << " [ L2 accepted : " << setw(13) << boolalpha << left
779 << GetRegionalL2AccStatus(regionalStruct) << setw(0)
780 << right << "]" << endl;
781 cout << " [ L1 found : " << setw(13) << boolalpha << left
782 << GetRegionalL1Status(regionalStruct) << setw(0)
783 << right << "]" << endl;
784 cout << " [ L0 found : " << setw(13) << boolalpha << left
785 << GetRegionalL0Status(regionalStruct) << setw(0)
786 << right << "]" << endl;
787 cout << " [ No. of events in RAM : " << setw(13) << left
788 << (UInt_t)GetRegionalEventInRam(regionalStruct) << setw(0)
789 << right << "]" << endl;
790 cout << " [ Busy word : 0x"
791 << (UInt_t)GetRegionalBusy(regionalStruct) << " (";
792 PrintBitPattern((UInt_t)GetRegionalBusy(regionalStruct), 4);
793 cout << "b) ]" << endl;
794
795 cout << "Regional word bit pattern : 0x" << noshowbase << setw(8) << setfill('0')
796 << hex << regionalStruct->fWord << setw(0)
797 << setfill(fillChar) << dec << endl;
798 cout << " [ Physics trigger occurred : " << setw(27) << boolalpha << left
799 << (UInt_t)GetRegionalPhysFlag(regionalStruct) << setw(0)
800 << right << "]" << endl;
801 cout << " [ Number of resets : " << setw(27) << left
802 << (UInt_t)GetRegionalResetNb(regionalStruct) << setw(0)
803 << right << "]" << endl;
804 cout << " [ Controller Serial number : " << setw(27) << left
805 << (UInt_t)GetRegionalSerialNb(regionalStruct) << setw(0)
806 << right << "]" << endl;
807 cout << " [ Regional crate ID : " << setw(27) << left
808 << (UInt_t)GetRegionalId(regionalStruct) << setw(0)
809 << right << "]" << endl;
810 cout << " [ FPGA software version : " << setw(27) << left
811 << (UInt_t)GetRegionalVersion(regionalStruct) << setw(0)
812 << right << "]" << endl;
813 UInt_t output = GetRegionalOutput(regionalStruct);
814 cout << " [ Regional output : 0x" << setw(2) << setfill('0') << hex
815 << output << dec << setw(0) << setfill(fillChar) << setw(0) << right << " (";
816 PrintBitPattern(output, 8);
817 cout << "b) ]" << endl;
818
819 cout << " [ High pT | Low pT ]" << endl;
820 cout << " [ Single mu | mu pair | Single mu | mu pair ]" << endl;
821 cout << " [ -ve | +ve | unlike | like | -ve | +ve | unlike | like ]" << endl;
822 cout << " [-------------------------------------------------------]" << endl;
823 cout << ((((output >> 7) & 0x1) == 1) ? " [ yes" : " [ no");
824 cout << ((((output >> 6) & 0x1) == 1) ? " yes" : " no");
825 cout << ((((output >> 5) & 0x1) == 1) ? " yes " : " no ");
826 cout << ((((output >> 4) & 0x1) == 1) ? " yes" : " no");
827 cout << ((((output >> 3) & 0x1) == 1) ? " yes" : " no");
828 cout << ((((output >> 2) & 0x1) == 1) ? " yes" : " no");
829 cout << ((((output >> 1) & 0x1) == 1) ? " yes " : " no ");
830 cout << ((((output >> 0) & 0x1) == 1) ? " yes ]" : " no ]");
831 cout << endl;
832
833 cout << "Regional input (low pT) bit pattern : 0x" << noshowbase << setw(8)
834 << setfill('0') << hex << regionalStruct->fInput[0]
835 << setw(0) << setfill(fillChar) << dec << endl;
836 cout << "Regional input (high pT) bit pattern : 0x" << noshowbase << setw(8)
837 << setfill('0') << hex << regionalStruct->fInput[1]
838 << setw(0) << setfill(fillChar) << dec << endl;
839 cout << "Regional input logical dump: " << endl;
840 cout << " Local | Local | low pT mu | high pT mu" << endl;
841 cout << "structure no. | board | -ve | +ve | -ve | +ve" << endl;
842 cout << "-----------------------------------------------" << endl;
843 for (int i = 15; i >= 0 ; i--)
844 {
845 cout << setw(13) << (fLocNum + 16 - i) << setw(0) << " ";
846 cout << setw(5) << (15 - i) << setw(0) << " ";
847 cout << ((((regionalStruct->fInput[0] >> (i*2+1)) & 0x1) == 1) ? "yes" : " no");
848 cout << ((((regionalStruct->fInput[0] >> (i*2+0)) & 0x1) == 1) ? " yes" : " no");
849 cout << ((((regionalStruct->fInput[1] >> (i*2+1)) & 0x1) == 1) ? " yes" : " no");
850 cout << ((((regionalStruct->fInput[1] >> (i*2+0)) & 0x1) == 1) ? " yes" : " no");
851 cout << endl;
852 }
853
854 UInt_t mask = GetRegionalMask(regionalStruct);
855 cout << "Local mask : 0x" << noshowbase << setw(4) << setfill('0') << hex
856 << mask << dec << setw(0) << setfill(fillChar) << " [Bits: ";
857 PrintBitPattern(mask >> 12, 4); cout << " ";
858 PrintBitPattern(mask >> 8, 4); cout << " ";
859 PrintBitPattern(mask >> 4, 4); cout << " ";
860 PrintBitPattern(mask >> 0, 4); cout << "]" << endl;
861
862 cout << "L0 counter : " << GetRegionalL0(regionalStruct) << endl;
863
864 cout << "========================= Regional structure scalars "
865 << setw(3) << fRegNum << setw(0)
866 << " =========================" << endl;
867 if (scalars != NULL)
868 {
869 cout << " Number of clock cycles : " << scalars->fClk << endl;
870 cout << " Number of high pT +ve single mu : " << scalars->fScaler[0] << endl;
871 cout << " Number of high pT -ve single mu : " << scalars->fScaler[1] << endl;
872 cout << "Number of high pT unlike sign pair : " << scalars->fScaler[2] << endl;
873 cout << " Number of high pT like sign pair : " << scalars->fScaler[3] << endl;
874 cout << " Number of low pT +ve single mu : " << scalars->fScaler[4] << endl;
875 cout << " Number of low pT -ve single mu : " << scalars->fScaler[5] << endl;
876 cout << " Number of low pT unlike sign pair : " << scalars->fScaler[6] << endl;
877 cout << " Number of low pT like sign pair : " << scalars->fScaler[7] << endl;
878 cout << " Hold (dead time) : " << scalars->fHold << endl;
879 }
880 else
881 {
882 cout << "(None found)" << endl;
883 }
884 }
885
886
887 void AliTriggerDecoderHandler::OnLocalStruct(
888 const AliMUONLocalInfoStruct* localStruct,
889 const AliMUONLocalScalarsStruct* scalars
890 )
891 {
892 TryDumpCorruptData(localStruct);
893
894 fLocNum++;
895 cout << "=========================== Local structure header "
896 << setw(3) << fLocNum << setw(0)
897 << " ===========================" << endl;
898 char fillChar = cout.fill(); // store current fill char to restore it.
899 cout << "L0 strip patterns:" << endl;
900 cout << "Chamber | X | Y " << endl;
901 cout << "----------------------------------------------" << endl;
902 cout << " 11 ";
903 PrintBitPattern(GetLocalX1(localStruct), 16);
904 cout << " ";
905 PrintBitPattern(GetLocalY1(localStruct), 16);
906 cout << endl;
907 cout << " 12 ";
908 PrintBitPattern(GetLocalX2(localStruct), 16);
909 cout << " ";
910 PrintBitPattern(GetLocalY2(localStruct), 16);
911 cout << endl;
912 cout << " 13 ";
913 PrintBitPattern(GetLocalX3(localStruct), 16);
914 cout << " ";
915 PrintBitPattern(GetLocalY3(localStruct), 16);
916 cout << endl;
7f62a2ea 917 cout << " 14 ";
a090ff22 918 PrintBitPattern(GetLocalX4(localStruct), 16);
919 cout << " ";
920 PrintBitPattern(GetLocalY4(localStruct), 16);
921 cout << endl;
922
923 cout << "L0 trigger bits: (word = ";
924 cout << showbase << hex << localStruct->fTriggerBits
925 << noshowbase << dec << ")" << endl;
926 cout << " ID | Dec | TrigY | YPos | Sign XDev | XDev | XPos " << endl;
927 cout << "----------------------------------------------------------------" << endl;
928 cout << "Decimal : " << setw(4) << (UInt_t)GetLocalId(localStruct) << setw(0) << " ";
929 cout << setw(4) << (UInt_t)GetLocalDec(localStruct) << setw(0) << " ";
930 cout << setw(3) << (UInt_t)GetLocalTrigY(localStruct) << setw(0) << " ";
931 cout << setw(4) << (UInt_t)GetLocalYPos(localStruct) << setw(0) << " ";
932 cout << setw(5) << (UInt_t)GetLocalSXDev(localStruct) << setw(0) << " ";
933 cout << setw(4) << (UInt_t)GetLocalXDev(localStruct) << setw(0) << " ";
934 cout << setw(4) << (UInt_t)GetLocalXPos(localStruct) << setw(0) << endl;
935 cout << " Binary : ";
936 PrintBitPattern(AliHLTUInt32_t(GetLocalId(localStruct)), 4);
937 cout << " ";
938 PrintBitPattern(AliHLTUInt32_t(GetLocalDec(localStruct)), 4);
939 cout << " ";
940 PrintBitPattern(AliHLTUInt32_t(GetLocalTrigY(localStruct)), 1);
941 cout << " ";
942 PrintBitPattern(AliHLTUInt32_t(GetLocalYPos(localStruct)), 4);
943 cout << " ";
944 PrintBitPattern(AliHLTUInt32_t(GetLocalSXDev(localStruct)), 1);
945 cout << " ";
946 PrintBitPattern(AliHLTUInt32_t(GetLocalXDev(localStruct)), 4);
947 cout << " ";
948 PrintBitPattern(AliHLTUInt32_t(GetLocalXPos(localStruct)), 5);
949 cout << endl;
950
951 cout << "L0 decision (Dec): [high pT: ";
952 PrintBitPattern((UInt_t)GetLocalHpt(localStruct), 2);
953 cout << "b (";
954 switch ((UInt_t)GetLocalHpt(localStruct))
955 {
956 case 0: cout << "No trigger"; break;
957 case 1: cout << "-ve particle"; break;
958 case 2: cout << "+ve particle"; break;
959 case 3: cout << "No deviation trigger"; break;
960 default: cout << "UNKNOWN"; break;
961 }
962 cout << "), low pT: ";
963 PrintBitPattern((UInt_t)GetLocalLpt(localStruct), 2);
964 cout << "b (";
965 switch ((UInt_t)GetLocalLpt(localStruct))
966 {
967 case 0: cout << "No trigger"; break;
968 case 1: cout << "-ve particle"; break;
969 case 2: cout << "+ve particle"; break;
970 case 3: cout << "No deviation trigger"; break;
971 default: cout << "UNKNOWN"; break;
972 }
973 cout << ")]" << endl;
974
975 cout << "=========================== Local structure scalars "
976 << setw(3) << fLocNum << setw(0)
977 << " ==========================" << endl;
978 if (scalars != NULL)
979 {
980 cout << " Number of L0 triggers : " << scalars->fL0 << endl;
981 cout << " Hold (dead time) : " << scalars->fHold << endl;
982 cout << " Number of clock cycles : " << scalars->fClk << endl;
983 cout << " Number of low pT no triggers : " << scalars->fLPtNTrig << endl;
984 cout << " Number of high pT no triggers : " << scalars->fHPtNTrig << endl;
985 cout << " Number of low pT right triggers : " << scalars->fLPtRTrig << endl;
986 cout << " Number of high pT right triggers : " << scalars->fHPtRTrig << endl;
987 cout << " Number of low pT left triggers : " << scalars->fLPtLTrig << endl;
988 cout << " Number of high pT left triggers : " << scalars->fHPtLTrig << endl;
989 cout << " Number of low pT straight triggers : " << scalars->fLPtSTrig << endl;
990 cout << "Number of high pT straight triggers : " << scalars->fHPtSTrig << endl;
991
992 UInt_t xoryflag = GetLocalComptXY(scalars);
993 if (xoryflag == 1)
994 {
995 cout << "Y strip counts:" << endl;
996 }
997 else
998 {
999 cout << "X strip counts:" << endl;
1000 }
1001 cout << " | Chamber " << endl;
1002 cout << "Strip | 11 | 12 | 13 | 14" << endl;
1003 cout << "------------------------------------------" << endl;
1004 for (int i = 0; i < 16; i++)
1005 {
1006 cout << setw(5) << i << setw(0) << " "
1007 << setw(6) << (UInt_t)GetLocalXY1(scalars, i) << setw(0) << " "
1008 << setw(6) << (UInt_t)GetLocalXY2(scalars, i) << setw(0) << " "
1009 << setw(6) << (UInt_t)GetLocalXY3(scalars, i) << setw(0) << " "
1010 << setw(6) << (UInt_t)GetLocalXY4(scalars, i) << setw(0) << endl;
1011 }
1012
1013 cout << " EOS word : 0x" << setw(8) << setfill('0')
1014 << hex << scalars->fEOS << setw(0) << setfill(fillChar) << dec << endl;
1015 cout << " [ Switches : 0x" << setw(3)
1016 << setfill('0') << hex << (UInt_t)GetLocalSwitch(scalars)
1017 << setw(0) << setfill(fillChar) << dec << " (";
1018 PrintBitPattern((UInt_t)GetLocalSwitch(scalars) >> 8, 2); cout << " ";
1019 PrintBitPattern((UInt_t)GetLocalSwitch(scalars) >> 4, 4); cout << " ";
1020 PrintBitPattern((UInt_t)GetLocalSwitch(scalars) >> 0, 4);
1021 cout << "b) ]" << endl;
1022 cout << " [ X or Y : " << xoryflag
1023 << ((xoryflag == 1) ? " (scalars for Y strips) ]" : " (scalars for X strips) ]")
1024 << endl;
1025
1026 cout << "Reset signal : " << scalars->fReset << endl;
1027 }
1028 else
1029 {
1030 cout << "(None found)" << endl;
1031 }
1032 }
1033
1034
1035 void AliTriggerDecoderHandler::OnError(ErrorCode error, const void* location)
1036 {
1037 TryDumpCorruptData(location);
1038 HandleError(
1039 ErrorCodeToMessage(error), error,
1040 ErrorCodeToString(error), location
1041 );
1042 }
887a669c 1043
1044} // end of namespace
1045
1046
a090ff22 1047int DumpRawDataHeader(
1048 const char* buffer, unsigned long bufferSize, const AliRawDataHeader* header,
1049 bool continueParse
1050 )
1051{
1052 cout << "*************************** Common DDL data header *******************************" << endl;
1053 char fillChar = cout.fill(); // remember fill char to set back to original later.
1054 int result = CheckHeaderField(header->fSize, buffer, bufferSize, continueParse);
1055 if (result != EXIT_SUCCESS) return result;
1056 cout << "Size of the raw data in bytes : ";
1057 if (header->fSize != 0xFFFFFFFF)
1058 cout << header->fSize;
1059 else
1060 cout << "0xFFFFFFFF (unknown)";
1061 cout << endl;
1062
1063 result = CheckHeaderField(header->fWord2, buffer, bufferSize, continueParse);
1064 if (result != EXIT_SUCCESS) return result;
1065 cout << " Format version : " << UInt_t(header->GetVersion()) << endl;
1066 UInt_t l1msg = header->GetL1TriggerMessage();
1067 cout << " L1 trigger message : 0x"
1068 << noshowbase << hex << setfill('0') << setw(2) << l1msg
1069 << setw(0) << setfill(fillChar) << dec
1070 << " [Spare: " << ((l1msg >> 7) & 0x1)
1071 << ", ClT: " << ((l1msg >> 6) & 0x1)
1072 << ", RoC: 0x" << noshowbase << hex << ((l1msg >> 2) & 0x4) << dec
1073 << ", ESR: " << ((l1msg >> 1) & 0x1)
1074 << ", L1SwC: " << ((l1msg >> 0) & 0x1) << "]" << endl;
1075 cout << " Bunch crossing (Event ID1) : " << header->GetEventID1() << " (0x"
1076 << noshowbase << hex << setfill('0') << setw(3) << header->GetEventID1()
1077 << dec << setw(0) << setfill(fillChar) << ")" << endl;
1078
1079 result = CheckHeaderField(header->fEventID2, buffer, bufferSize, continueParse);
1080 if (result != EXIT_SUCCESS) return result;
1081 cout << " Orbit number (Event ID2) : " << header->fEventID2 << " (0x"
1082 << noshowbase << hex << setfill('0') << setw(6) << header->fEventID2
1083 << dec << setw(0) << setfill(fillChar) << ")" << endl;
1084
1085 result = CheckHeaderField(header->fAttributesSubDetectors, buffer, bufferSize, continueParse);
1086 if (result != EXIT_SUCCESS) return result;
1087 cout << " Block attributes : " << UInt_t(header->GetAttributes()) << " (0x"
1088 << noshowbase << hex << setfill('0') << setw(2) << UInt_t(header->GetAttributes())
1089 << dec << setw(0) << setfill(fillChar) << ")" << endl;
1090 cout << " Participating sub-detectors : 0x" << noshowbase << hex
1091 << setfill('0') << setw(6) << header->GetSubDetectors() << dec
1092 << setw(0) << setfill(fillChar) << " [Bits: ";
1093 for (int i = 5; i >= 0; i--)
1094 {
1095 PrintBitPattern(header->GetSubDetectors() >> (i*4), 4);
1096 if (i != 0)
1097 cout << " ";
1098 else
1099 cout << "]" << endl;
1100 }
1101
1102 result = CheckHeaderField(header->fStatusMiniEventID, buffer, bufferSize, continueParse);
1103 if (result != EXIT_SUCCESS) return result;
1104 UInt_t statusBits = header->GetStatus();
1105 cout << " Status & error bits : 0x" << noshowbase << hex
1106 << setfill('0') << setw(4) << statusBits << setw(0) << setfill(fillChar)
1107 << dec << endl;
1108 cout << " [ Reserved : " << ((statusBits >> 15) & 0x1) << " ]" << endl;
1109 cout << " [ Multi-event buffer error : " << ((statusBits >> 14) & 0x1) << " ]" << endl;
1110 cout << " [ Trigger L1 missing error : " << ((statusBits >> 13) & 0x1) << " ]" << endl;
1111 cout << " [ Trigger error (other) : " << ((statusBits >> 12) & 0x1) << " ]" << endl;
1112 cout << " [ Pre-pulse error : " << ((statusBits >> 11) & 0x1) << " ]" << endl;
1113 cout << " [ Trigger L2 time violation : " << ((statusBits >> 10) & 0x1) << " ]" << endl;
1114 cout << " [ Trigger L1 time violation : " << ((statusBits >> 9) & 0x1) << " ]" << endl;
1115 cout << " [ DDG payload flag : " << ((statusBits >> 8) & 0x1) << " ]" << endl;
1116 cout << " [ HLT payload flag : " << ((statusBits >> 7) & 0x1) << " ]" << endl;
1117 cout << " [ HLT decision flag : " << ((statusBits >> 6) & 0x1) << " ]" << endl;
1118 cout << " [ FEE error : " << ((statusBits >> 5) & 0x1) << " ]" << endl;
1119 cout << " [ Trigger information unavailable : " << ((statusBits >> 4) & 0x1) << " ]" << endl;
1120 cout << " [ Control parity error : " << ((statusBits >> 3) & 0x1) << " ]" << endl;
1121 cout << " [ Data parity error : " << ((statusBits >> 2) & 0x1) << " ]" << endl;
1122 cout << " [ Trigger missing error : " << ((statusBits >> 1) & 0x1) << " ]" << endl;
1123 cout << " [ Trigger overlap error : " << ((statusBits >> 0) & 0x1) << " ]" << endl;
1124 cout << " Mini event ID : " << header->GetMiniEventID() << " (0x"
1125 << noshowbase << hex << setfill('0') << setw(3) << header->GetMiniEventID()
1126 << dec << setw(0) << setfill(fillChar) << ")" << endl;
1127
1128 result = CheckHeaderField(header->fTriggerClassLow, buffer, bufferSize, continueParse);
1129 if (result != EXIT_SUCCESS) return result;
1130 result = CheckHeaderField(header->fROILowTriggerClassHigh, buffer, bufferSize, continueParse);
1131 if (result != EXIT_SUCCESS) return result;
1132 ULong64_t triggerClasses = header->GetTriggerClasses();
1133 cout << " Trigger classes : 0x" << noshowbase << hex << setw(13)
1134 << setfill('0') << triggerClasses << setw(0) << setfill(fillChar)
1135 << dec << endl;
1136 cout << " [Bits: ";
1137 PrintBitPattern(triggerClasses >> (12*4), 2);
1138 cout << " ";
1139 for (int i = 11; i >= 0; i--)
1140 {
1141 PrintBitPattern(triggerClasses >> (i*4), 4);
1142 if (i != 0)
1143 cout << " ";
1144 else
1145 cout << "]" << endl;
1146 }
1147
1148 result = CheckHeaderField(header->fROIHigh, buffer, bufferSize, continueParse);
1149 if (result != EXIT_SUCCESS) return result;
1150 ULong64_t roiBits = header->GetROI();
1151 cout << " Region of interest : 0x" << noshowbase << hex << setw(9)
1152 << setfill('0') << roiBits << setw(0) << setfill(fillChar)
1153 << dec << endl;
1154 cout << " [Bits: ";
1155 for (int i = 8; i >= 0; i--)
1156 {
1157 PrintBitPattern(roiBits >> (i*4), 4);
1158 if (i != 0)
1159 cout << " ";
1160 else
1161 cout << "]" << endl;
1162 }
1163 cout << "**********************************************************************************" <<endl;
1164 return EXIT_SUCCESS;
1165}
1166
1167
887a669c 1168int DumpTrackerDDLRawStream(
1169 const char* buffer, unsigned long bufferSize,
1170 bool continueParse
1171 )
1172{
a090ff22 1173 const AliRawDataHeader* header =
1174 reinterpret_cast<const AliRawDataHeader*>(buffer);
1175 int result = DumpRawDataHeader(buffer, bufferSize, header, continueParse);
1176 if (result != EXIT_SUCCESS) return result;
887a669c 1177
1178 // Setup the decoder for the DDL payload.
1179 AliMUONTrackerDDLDecoder<AliTrackerDecoderHandler> decoder;
1180 decoder.ExitOnError(not continueParse);
a090ff22 1181 decoder.SendDataOnParityError(true);
887a669c 1182 decoder.TryRecover(false);
1183 decoder.AutoDetectTrailer(true);
1184 decoder.CheckForTrailer(true);
1185 const char* payload = buffer + sizeof(AliRawDataHeader);
1186 UInt_t payloadSize = bufferSize - sizeof(AliRawDataHeader);
1187 if (decoder.Decode(payload, payloadSize))
1188 {
1189 return EXIT_SUCCESS;
1190 }
1191 else
1192 {
1193 return PARSE_ERROR;
1194 }
1195}
1196
1197
1198int DumpTriggerDDLRawStream(
1199 const char* buffer, unsigned long bufferSize,
1200 bool continueParse
1201 )
1202{
887a669c 1203 const AliRawDataHeader* header =
1204 reinterpret_cast<const AliRawDataHeader*>(buffer);
a090ff22 1205 int result = DumpRawDataHeader(buffer, bufferSize, header, continueParse);
1206 if(result != EXIT_SUCCESS) return result;
1207 bool scalarEvent = ((header->GetL1TriggerMessage() & 0x1) == 0x1);
887a669c 1208
1209 AliMUONTriggerDDLDecoder<AliTriggerDecoderHandler> decoder;
1210 decoder.ExitOnError(not continueParse);
1211 decoder.TryRecover(false);
1212 decoder.AutoDetectScalars(false);
1213 const char* payload = buffer + sizeof(AliRawDataHeader);
1214 UInt_t payloadSize = bufferSize - sizeof(AliRawDataHeader);
1215 if (decoder.Decode(payload, payloadSize, scalarEvent))
1216 {
1217 return EXIT_SUCCESS;
1218 }
1219 else
1220 {
1221 return PARSE_ERROR;
1222 }
1223}
1224
1225
a68bc1e6 1226int DumpRecHitStruct(
3dad52b0 1227 const char* buffer, unsigned long bufferSize,
a68bc1e6 1228 const AliHLTMUONRecHitStruct* hit,
3dad52b0 1229 bool continueParse
1230 )
1231{
a68bc1e6 1232 // Step through the fields trying to print them.
1233 // At each step check if we have not overflowed the buffer. If we have
1234 // not, then we can print the field, otherwise we print the left over
1235 // bytes assumed to be corrupted rubbish.
a090ff22 1236
1237 int result = CheckField(hit->fFlags, buffer, bufferSize, continueParse);
1238 if (result != EXIT_SUCCESS) return result;
1239 AliHLTUInt8_t chamber = 0xFF;
1240 AliHLTUInt16_t detElemId = 0xFFFF;
1241 AliHLTMUONUtils::UnpackRecHitFlags(hit->fFlags, chamber, detElemId);
1242 if (chamber == 0 and detElemId == 0)
1243 {
1244 cout << setw(10) << left << (int)(chamber) << setw(0);
1245 cout << setw(12) << left << (int)detElemId << setw(0);
1246 }
1247 else
1248 {
1249 cout << setw(10) << left << (int)(chamber+1) << setw(0);
1250 cout << setw(12) << left << (int)detElemId << setw(0);
1251 }
1252
1253 result = CheckField(hit->fX, buffer, bufferSize, continueParse);
a68bc1e6 1254 if (result != EXIT_SUCCESS) return result;
1255 cout << setw(13) << left << hit->fX << setw(0);
1256
1257 result = CheckField(hit->fY, buffer, bufferSize, continueParse);
1258 if (result != EXIT_SUCCESS) return result;
1259 cout << setw(13) << left << hit->fY << setw(0);
1260
1261 result = CheckField(hit->fZ, buffer, bufferSize, continueParse);
1262 if (result != EXIT_SUCCESS) return result;
1263 cout << hit->fZ << setw(0) << endl;
1264
1265 return result;
3dad52b0 1266}
1267
1268
a68bc1e6 1269int DumpRecHitsBlock(
3dad52b0 1270 const char* buffer, unsigned long bufferSize,
1271 bool continueParse
1272 )
1273{
a68bc1e6 1274 int result = EXIT_SUCCESS;
1275 AliHLTMUONRecHitsBlockReader block(buffer, bufferSize);
1276
1277 result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1278 if (result != EXIT_SUCCESS and not continueParse) return result;
1279
1280 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1281
1282 // Print the data block record entries.
a090ff22 1283 cout << "Chamber | DetElemID | X (cm) | Y (cm) | Z (cm)" << endl;
1284 cout << "-----------------------------------------------------------" << endl;
a68bc1e6 1285 const AliHLTMUONRecHitStruct* entry = block.GetArray();
1286 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1287 {
1288 int subResult = DumpRecHitStruct(buffer, bufferSize, entry++, continueParse);
1289 if (subResult != EXIT_SUCCESS) return subResult;
1290 }
1291
1292 return result;
3dad52b0 1293}
1294
1295
a68bc1e6 1296int DumpTriggerRecordStruct(
dba14d7d 1297 const char* buffer, unsigned long bufferSize,
1298 const AliHLTMUONTriggerRecordStruct* record,
1299 bool continueParse
1300 )
a68bc1e6 1301{
1302 // Step through the fields trying to print them.
1303 // At each step check if we have not overflowed the buffer. If we have
1304 // not, then we can print the field, otherwise we print the left over
1305 // bytes assumed to be corrupted rubbish.
1306 int result = CheckField(record->fId, buffer, bufferSize, continueParse);
1307 if (result != EXIT_SUCCESS) return result;
1308 cout << "Trigger Record ID: " << record->fId <<endl;
1309
1310 result = CheckField(record->fFlags, buffer, bufferSize, continueParse);
1311 if (result != EXIT_SUCCESS) return result;
1312 cout << "Flags: " << showbase << hex << record->fFlags << dec;
1313
1314 // Print the individual trigger bits.
1315 AliHLTMUONParticleSign sign;
1316 bool hitset[4];
1317 AliHLTMUONUtils::UnpackTriggerRecordFlags(record->fFlags, sign, hitset);
1318 cout << " [Sign: " << sign << ", Hits set on chambers: ";
1319 bool first = true;
1320 for (AliHLTUInt32_t i = 0; i < 4; i++)
1321 {
1322 if (hitset[i])
1323 {
1324 cout << (first ? "" : ", ") << i+11;
1325 first = false;
1326 }
1327 }
1328 cout << (first ? "none]" : "]") << endl;
1329
1330 result = CheckField(record->fPx, buffer, bufferSize, continueParse);
1331 if (result != EXIT_SUCCESS) return result;
1332 cout << "Momentum: (px = " << record->fPx << ", ";
1333
1334 result = CheckField(record->fPy, buffer, bufferSize, continueParse);
1335 if (result != EXIT_SUCCESS) return result;
1336 cout << "py = " << record->fPy << ", ";
1337
1338 result = CheckField(record->fPz, buffer, bufferSize, continueParse);
1339 if (result != EXIT_SUCCESS) return result;
1340 cout << "pz = " << record->fPz << ") GeV/c"<<endl;
1341
a090ff22 1342 cout << "Hits on chambers:" << endl;
1343 cout << "Chamber | DetElemID | X (cm) | Y (cm) | Z (cm)" << endl;
1344 cout << "-----------------------------------------------------------" << endl;
a68bc1e6 1345 const AliHLTMUONRecHitStruct* hit = &record->fHit[0];
1346 for(AliHLTUInt32_t ch = 0; ch < 4; ch++)
1347 {
a68bc1e6 1348 result = DumpRecHitStruct(buffer, bufferSize, hit++, continueParse);
1349 if (result != EXIT_SUCCESS) return result;
1350 }
1351
1352 return result;
1353
1354}
1355
1356
1357int DumpTriggerRecordsBlock(
3dad52b0 1358 const char* buffer, unsigned long bufferSize,
1359 bool continueParse
1360 )
1361{
a68bc1e6 1362 AliHLTMUONTriggerRecordsBlockReader block(buffer, bufferSize);
1363
1364 int result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1365 if (result != EXIT_SUCCESS and not continueParse) return result;
1366
1367 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1368
1369 // Print the data block record entries.
1370 const AliHLTMUONTriggerRecordStruct* entry = block.GetArray();
1371 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1372 {
1373 cout << "============================== Trigger Record number " << i+1
1374 << " of " << nentries << " ==============================" << endl;
1375 int subResult = DumpTriggerRecordStruct(buffer, bufferSize, entry++, continueParse);
1376 if (subResult != EXIT_SUCCESS) return subResult;
1377 }
1378
3dad52b0 1379 return EXIT_SUCCESS;
1380}
1381
1382
dba14d7d 1383int DumpTrigRecInfoStruct(
1384 const char* buffer, unsigned long bufferSize,
1385 const AliHLTMUONTrigRecInfoStruct* debuginfo,
1386 bool continueParse
1387 )
a68bc1e6 1388{
1389 // Step through the fields trying to print them.
1390 // At each step check if we have not overflowed the buffer. If we have
1391 // not, then we can print the field, otherwise we print the left over
1392 // bytes assumed to be corrupted rubbish.
a090ff22 1393
a68bc1e6 1394 int result = CheckField(debuginfo->fTrigRecId, buffer, bufferSize, continueParse);
1395 if (result != EXIT_SUCCESS) return result;
a090ff22 1396 cout << "Trigger Record ID: " << debuginfo->fTrigRecId << endl;
a68bc1e6 1397
a090ff22 1398 cout << "Detector element IDs:" << endl;
1399 cout << " Chamber : 11 | 12 | 13 | 14" << endl;
1400 cout << " ID : ";
1401 for (int i = 0; i < 4; i++)
1402 {
1403 result = CheckField(debuginfo->fDetElemId[i], buffer, bufferSize, continueParse);
1404 if (result != EXIT_SUCCESS) return result;
1405 cout << setw(12) << right << debuginfo->fDetElemId[i] << setw(0);
1406 if (i != 3) cout << " | ";
1407 }
1408 cout << endl;
1409
1410 cout << "Momentum estimation parameters:" << endl;
1411 cout << " Parameter : Z_middle coordinate (cm) | Integrated magnetic field (T.m)" << endl;
1412 cout << " Value : ";
a68bc1e6 1413 result = CheckField(debuginfo->fZmiddle, buffer, bufferSize, continueParse);
1414 if(result != EXIT_SUCCESS) return result;
a090ff22 1415 cout << setw(24) << right << debuginfo->fZmiddle << setw(0) << " | ";
1416
a68bc1e6 1417 result = CheckField(debuginfo->fBl, buffer, bufferSize, continueParse);
1418 if (result != EXIT_SUCCESS) return result;
a090ff22 1419 cout << setw(31) << right << debuginfo->fBl << setw(0) << endl;
1420
1421 typedef AliMUONTriggerDDLDecoderEventHandler AliH;
1422
1423 cout << "L0 strip patterns:" << endl;
1424 cout << "Chamber | X | Y " << endl;
1425 cout << "----------------------------------------------" << endl;
1426 result = CheckField(debuginfo->fL0Struct.fX2X1, buffer, bufferSize, continueParse);
1427 if (result != EXIT_SUCCESS) return result;
1428 cout << " 11 ";
1429 PrintBitPattern(AliH::GetLocalX1(&debuginfo->fL0Struct), 16);
1430 result = CheckField(debuginfo->fL0Struct.fY2Y1, buffer, bufferSize, continueParse);
1431 if (result != EXIT_SUCCESS) return result;
1432 cout << " ";
1433 PrintBitPattern(AliH::GetLocalY1(&debuginfo->fL0Struct), 16);
1434 cout << endl;
1435 cout << " 12 ";
1436 PrintBitPattern(AliH::GetLocalX2(&debuginfo->fL0Struct), 16);
1437 cout << " ";
1438 PrintBitPattern(AliH::GetLocalY2(&debuginfo->fL0Struct), 16);
1439 cout << endl;
1440
1441 result = CheckField(debuginfo->fL0Struct.fX4X3, buffer, bufferSize, continueParse);
1442 if (result != EXIT_SUCCESS) return result;
1443 cout << " 13 ";
1444 PrintBitPattern(AliH::GetLocalX3(&debuginfo->fL0Struct), 16);
1445 result = CheckField(debuginfo->fL0Struct.fY4Y3, buffer, bufferSize, continueParse);
1446 if (result != EXIT_SUCCESS) return result;
1447 cout << " ";
1448 PrintBitPattern(AliH::GetLocalY3(&debuginfo->fL0Struct), 16);
1449 cout << endl;
1450 cout << " 12 ";
1451 PrintBitPattern(AliH::GetLocalX4(&debuginfo->fL0Struct), 16);
1452 cout << " ";
1453 PrintBitPattern(AliH::GetLocalY4(&debuginfo->fL0Struct), 16);
1454 cout << endl;
1455
1456 cout << "L0 trigger bits: (word = ";
1457 result = CheckField(debuginfo->fL0Struct.fTriggerBits, buffer, bufferSize, continueParse);
1458 if (result != EXIT_SUCCESS) return result;
1459 cout << showbase << hex << debuginfo->fL0Struct.fTriggerBits
1460 << noshowbase << dec << ")" << endl;
1461 cout << " ID | Dec | TrigY | YPos | Sign XDev | XDev | XPos " << endl;
1462 cout << "------------------------------------------------------" << endl;
1463 PrintBitPattern(AliHLTUInt32_t(AliH::GetLocalId(&debuginfo->fL0Struct)), 4);
1464 cout << " ";
1465 PrintBitPattern(AliHLTUInt32_t(AliH::GetLocalDec(&debuginfo->fL0Struct)), 4);
1466 cout << " ";
1467 PrintBitPattern(AliHLTUInt32_t(AliH::GetLocalTrigY(&debuginfo->fL0Struct)), 1);
1468 cout << " ";
1469 PrintBitPattern(AliHLTUInt32_t(AliH::GetLocalYPos(&debuginfo->fL0Struct)), 4);
1470 cout << " ";
1471 PrintBitPattern(AliHLTUInt32_t(AliH::GetLocalSXDev(&debuginfo->fL0Struct)), 1);
1472 cout << " ";
1473 PrintBitPattern(AliHLTUInt32_t(AliH::GetLocalXDev(&debuginfo->fL0Struct)), 4);
1474 cout << " ";
1475 PrintBitPattern(AliHLTUInt32_t(AliH::GetLocalXPos(&debuginfo->fL0Struct)), 5);
1476 cout << endl;
1477
a68bc1e6 1478 return result;
1479}
1480
1481
1482int DumpTrigRecsDebugBlock(
3dad52b0 1483 const char* buffer, unsigned long bufferSize,
3dad52b0 1484 bool continueParse
1485 )
1486{
a68bc1e6 1487 AliHLTMUONTrigRecsDebugBlockReader block(buffer, bufferSize);
1488
1489 int result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1490 if (result != EXIT_SUCCESS and not continueParse) return result;
1491
1492 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1493
1494 // Print the data block record entries.
a68bc1e6 1495 const AliHLTMUONTrigRecInfoStruct* entry = block.GetArray();
1496 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1497 {
a090ff22 1498 cout << "============================== Trigger Record debug data " << i+1
1499 << " of " << nentries << " ==============================" << endl;
a68bc1e6 1500 int subResult = DumpTrigRecInfoStruct(buffer, bufferSize, entry++, continueParse);
1501 if (subResult != EXIT_SUCCESS) return subResult;
1502 }
1503
1504 return EXIT_SUCCESS;
1505}
1506
1507
a68bc1e6 1508int DumpClusterStruct(
dba14d7d 1509 const char* buffer, unsigned long bufferSize,
1510 const AliHLTMUONClusterStruct* cluster,
1511 bool continueParse
1512 )
a68bc1e6 1513{
1514 // Step through the fields trying to print them.
1515 // At each step check if we have not overflowed the buffer. If we have
1516 // not, then we can print the field, otherwise we print the left over
1517 // bytes assumed to be corrupted rubbish.
1518 int result = CheckField(cluster->fId, buffer, bufferSize, continueParse);
1519 if (result != EXIT_SUCCESS) return result;
a090ff22 1520 cout << " Cluster ID: " << cluster->fId << endl;
a68bc1e6 1521
1522 result = CheckField(cluster->fDetElemId, buffer, bufferSize, continueParse);
1523 if (result != EXIT_SUCCESS) return result;
a090ff22 1524 cout << "Detector Element ID: " << cluster->fDetElemId << endl;
a68bc1e6 1525
1526 result = CheckField(cluster->fNchannels, buffer, bufferSize, continueParse);
1527 if(result != EXIT_SUCCESS) return result;
a090ff22 1528 cout << " Number of channels: " << cluster->fNchannels << endl;
a68bc1e6 1529
a090ff22 1530 cout << "Corresponding Hit: "<< endl;
1531 cout << "Chamber | DetElemID | X (cm) | Y (cm) | Z (cm)" << endl;
1532 cout << "-----------------------------------------------------------" << endl;
1533 result = DumpRecHitStruct(buffer, bufferSize, &cluster->fHit, continueParse);
a68bc1e6 1534
3dad52b0 1535 return result;
1536}
1537
1538
1539int DumpClustersBlock(
1540 const char* buffer, unsigned long bufferSize,
1541 bool continueParse
1542 )
1543{
a68bc1e6 1544 int result = EXIT_SUCCESS;
3dad52b0 1545 AliHLTMUONClustersBlockReader block(buffer, bufferSize);
a68bc1e6 1546
1547 result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1548 if (result != EXIT_SUCCESS and not continueParse) return result;
1549
1550 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1551
1552 // Print the data block record entries.
1553 const AliHLTMUONClusterStruct* entry = block.GetArray();
1554 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1555 {
1556 cout << " ===================================================== Cluster Number "
1557 << i+1 << "==================================================" << endl;
1558 int subResult = DumpClusterStruct(buffer, bufferSize, entry++, continueParse);
1559 if (subResult != EXIT_SUCCESS) return subResult;
1560 }
1561
1562 return result;
1563}
1564
1565
1566int DumpChannelStruct(
dba14d7d 1567 const char* buffer, unsigned long bufferSize,
1568 const AliHLTMUONChannelStruct* channel,
1569 bool continueParse
1570 )
a68bc1e6 1571{
1572 // Step through the fields trying to print them.
1573 // At each step check if we have not overflowed the buffer. If we have
1574 // not, then we can print the field, otherwise we print the left over
1575 // bytes assumed to be corrupted rubbish.
1576 int result = CheckField(channel->fClusterId, buffer, bufferSize, continueParse);
1577 if (result != EXIT_SUCCESS) return result;
1578 cout << setw(16) << left << channel->fClusterId << setw(0);
1579
dba14d7d 1580 result = CheckField(channel->fBusPatch, buffer, bufferSize, continueParse);
1581 if (result != EXIT_SUCCESS) return result;
1582 cout << setw(16) << left << channel->fBusPatch << setw(0);
1583
a68bc1e6 1584 result = CheckField(channel->fManu, buffer, bufferSize, continueParse);
1585 if (result != EXIT_SUCCESS) return result;
1586 cout << setw(16) << left << channel->fManu << setw(0);
1587
1588 result = CheckField(channel->fChannelAddress, buffer, bufferSize, continueParse);
1589 if (result != EXIT_SUCCESS) return result;
dba14d7d 1590 cout << setw(16) << left << channel->fChannelAddress << setw(0);
a68bc1e6 1591
1592 result = CheckField(channel->fSignal, buffer, bufferSize, continueParse);
1593 if(result != EXIT_SUCCESS) return result;
1594 cout << setw(16) << left << channel->fSignal << setw(0);
1595
1596 result = CheckField(channel->fRawDataWord, buffer, bufferSize, continueParse);
1597 if(result != EXIT_SUCCESS) return result;
1598 cout << showbase << hex << channel->fRawDataWord << dec << setw(0) <<endl;
1599
1600 return result;
3dad52b0 1601}
1602
1603
1604int DumpChannelsBlock(
1605 const char* buffer, unsigned long bufferSize,
1606 bool continueParse
1607 )
1608{
a68bc1e6 1609 int result = EXIT_SUCCESS;
3dad52b0 1610 AliHLTMUONChannelsBlockReader block(buffer, bufferSize);
a68bc1e6 1611
1612 result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1613 if (result != EXIT_SUCCESS and not continueParse) return result;
1614
1615 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1616
1617 // Print the data block record entries.
a090ff22 1618 cout << "Cluster ID | Bus Patch | Manu Address | Channel Addr | Signal Value | Raw Data Word " << endl;
dba14d7d 1619 cout << "----------------------------------------------------------------------------------------------" << endl;
a68bc1e6 1620 const AliHLTMUONChannelStruct* entry = block.GetArray();
1621 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1622 {
1623 int subResult = DumpChannelStruct(buffer, bufferSize, entry++, continueParse);
1624 if (subResult != EXIT_SUCCESS) return subResult;
1625 }
3dad52b0 1626 return EXIT_SUCCESS;
1627}
1628
1629
1630int DumpMansoTrackStruct(
1631 const char* buffer, unsigned long bufferSize,
1632 const AliHLTMUONMansoTrackStruct* track,
1633 bool continueParse
1634 )
1635{
1636 // Step through the fields trying to print them.
1637 // At each step check if we have not overflowed the buffer. If we have
1638 // not, then we can print the field, otherwise we print the left over
1639 // bytes assumed to be corrupted rubbish.
1640 int result = CheckField(track->fId, buffer, bufferSize, continueParse);
1641 if (result != EXIT_SUCCESS) return result;
1642 cout << "Track ID: " << track->fId << "\t";
1643
1644 result = CheckField(track->fTrigRec, buffer, bufferSize, continueParse);
1645 if (result != EXIT_SUCCESS) return result;
1646 cout << "Trigger Record ID: " << track->fTrigRec << endl;
1647
1648 result = CheckField(track->fFlags, buffer, bufferSize, continueParse);
1649 if (result != EXIT_SUCCESS) return result;
1650 cout << "Flags: " << showbase << hex << track->fFlags << dec;
a68bc1e6 1651
3dad52b0 1652 // Print the individual trigger bits.
1653 AliHLTMUONParticleSign sign;
1654 bool hitset[4];
1655 AliHLTMUONUtils::UnpackMansoTrackFlags(track->fFlags, sign, hitset);
1656 cout << " [Sign: " << sign << ", Hits set on chambers: ";
1657 bool first = true;
1658 for (AliHLTUInt32_t i = 0; i < 4; i++)
1659 {
1660 if (hitset[i])
1661 {
1662 cout << (first ? "" : ", ") << i+7;
1663 first = false;
1664 }
1665 }
1666 cout << (first ? "none]" : "]") << endl;
1667
1668 result = CheckField(track->fPx, buffer, bufferSize, continueParse);
1669 if (result != EXIT_SUCCESS) return result;
1670 cout << "Momentum: (px = " << track->fPx << ", ";
1671
1672 result = CheckField(track->fPy, buffer, bufferSize, continueParse);
1673 if (result != EXIT_SUCCESS) return result;
1674 cout << "py = " << track->fPy << ", ";
1675
1676 result = CheckField(track->fPz, buffer, bufferSize, continueParse);
1677 if (result != EXIT_SUCCESS) return result;
1678 cout << "pz = " << track->fPz << ") GeV/c\t";
1679
1680 result = CheckField(track->fChi2, buffer, bufferSize, continueParse);
1681 if (result != EXIT_SUCCESS) return result;
1682 cout << "Chi squared fit: " << track->fChi2 << endl;
1683
1684 cout << "Track hits:" << endl;
a090ff22 1685 cout << "Chamber | DetElemID | X (cm) | Y (cm) | Z (cm)" << endl;
1686 cout << "-----------------------------------------------------------" << endl;
3dad52b0 1687 const AliHLTMUONRecHitStruct* hit = &track->fHit[0];
1688 for(AliHLTUInt32_t ch = 0; ch < 4; ch++)
1689 {
3dad52b0 1690 result = DumpRecHitStruct(buffer, bufferSize, hit++, continueParse);
1691 if (result != EXIT_SUCCESS) return result;
1692 }
1693
1694 return result;
1695}
1696
1697
1698int DumpMansoTracksBlock(
1699 const char* buffer, unsigned long bufferSize,
1700 bool continueParse
1701 )
1702{
1703 int result = EXIT_SUCCESS;
1704 AliHLTMUONMansoTracksBlockReader block(buffer, bufferSize);
1705
1706 result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1707 if (result != EXIT_SUCCESS and not continueParse) return result;
1708
1709 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1710
1711 // Print the data block record entries.
1712 const AliHLTMUONMansoTrackStruct* entry = block.GetArray();
1713 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1714 {
1715 cout << "============================== Manso track number " << i+1
1716 << " of " << nentries << " ==============================" << endl;
1717 int subResult = DumpMansoTrackStruct(buffer, bufferSize, entry++, continueParse);
1718 if (subResult != EXIT_SUCCESS) return subResult;
1719 }
1720
1721 return result;
1722}
1723
1724
1725int DumpMansoRoIStruct(
1726 const char* buffer, unsigned long bufferSize,
1727 const AliHLTMUONMansoRoIStruct* roi,
1728 bool continueParse
1729 )
1730{
1731 // Step through the fields trying to print them.
1732 // At each step check if we have not overflowed the buffer. If we have
1733 // not, then we can print the field, otherwise we print the left over
1734 // bytes assumed to be corrupted rubbish.
1735 int result = CheckField(roi->fX, buffer, bufferSize, continueParse);
1736 if (result != EXIT_SUCCESS) return result;
1737 cout << setw(13) << left << roi->fX << setw(0);
1738
1739 result = CheckField(roi->fY, buffer, bufferSize, continueParse);
1740 if (result != EXIT_SUCCESS) return result;
1741 cout << setw(13) << left << roi->fY << setw(0);
1742
1743 result = CheckField(roi->fZ, buffer, bufferSize, continueParse);
1744 if (result != EXIT_SUCCESS) return result;
1745 cout << setw(13) << left << roi->fZ << setw(0);
1746
1747 result = CheckField(roi->fRadius, buffer, bufferSize, continueParse);
1748 if (result != EXIT_SUCCESS) return result;
1749 cout << roi->fRadius << setw(0) << endl;
1750
1751 return result;
1752}
1753
1754
1755int DumpMansoCandidateStruct(
1756 const char* buffer, unsigned long bufferSize,
1757 const AliHLTMUONMansoCandidateStruct* candidate,
1758 bool continueParse
1759 )
1760{
1761 int result = DumpMansoTrackStruct(buffer, bufferSize, &candidate->fTrack, continueParse);
1762 if (result != EXIT_SUCCESS) return result;
1763
1764 cout << "Regions of interest:" << endl;
1765 cout << "Chamber | X (cm) | Y (cm) | Z (cm) | Radius (cm)" << endl;
1766 cout << "-------------------------------------------------------------" << endl;
1767 const AliHLTMUONMansoRoIStruct* roi = &candidate->fRoI[0];
1768 for(AliHLTUInt32_t ch = 0; ch < 4; ch++)
1769 {
1770 cout << setw(10) << ch + 7;
1771 result = DumpMansoRoIStruct(buffer, bufferSize, roi++, continueParse);
1772 if (result != EXIT_SUCCESS) return result;
1773 }
a090ff22 1774
1775 cout << "Momentum estimation parameters:" << endl;
1776 cout << " Parameter : Z_middle coordinate (cm) | Integrated magnetic field (T.m)" << endl;
1777 cout << " Value : ";
1778 result = CheckField(candidate->fZmiddle, buffer, bufferSize, continueParse);
1779 if(result != EXIT_SUCCESS) return result;
1780 cout << setw(24) << right << candidate->fZmiddle << setw(0) << " | ";
1781
1782 result = CheckField(candidate->fBl, buffer, bufferSize, continueParse);
1783 if (result != EXIT_SUCCESS) return result;
1784 cout << setw(31) << right << candidate->fBl << setw(0) << endl;
1785
3dad52b0 1786 return result;
1787}
1788
1789
1790int DumpMansoCandidatesBlock(
1791 const char* buffer, unsigned long bufferSize,
1792 bool continueParse
1793 )
1794{
1795 int result = EXIT_SUCCESS;
1796 AliHLTMUONMansoCandidatesBlockReader block(buffer, bufferSize);
1797
1798 result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1799 if (result != EXIT_SUCCESS and not continueParse) return result;
1800
1801 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1802
1803 // Print the data block record entries.
1804 const AliHLTMUONMansoCandidateStruct* entry = block.GetArray();
1805 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1806 {
1807 cout << "=========================== Manso track candidate number " << i+1
1808 << " of " << nentries << " ===========================" << endl;
1809 int subResult = DumpMansoCandidateStruct(buffer, bufferSize, entry++, continueParse);
1810 if (subResult != EXIT_SUCCESS) return subResult;
1811 }
1812
1813 return result;
1814}
1815
1816
1817int DumpSinglesDecisionBlockHeader(
1818 const char* buffer, unsigned long bufferSize,
1819 const AliHLTMUONSinglesDecisionBlockStruct* header,
1820 bool continueParse
1821 )
1822{
1823 // Step through the header fields trying to print them.
1824 // At each step check if we have not overflowed the buffer, if we have
1825 // not then we can print the field, otherwise we print the left over
1826 // bytes assumed to be corrupted rubbish.
1827 int result = CheckHeaderField(header->fNlowPt, buffer, bufferSize, continueParse);
1828 if (result != EXIT_SUCCESS) return result;
1829 cout << " Number of low pt triggers: " << header->fNlowPt << endl;
1830
1831 result = CheckHeaderField(header->fNhighPt, buffer, bufferSize, continueParse);
1832 if (result != EXIT_SUCCESS) return result;
1833 cout << "Number of high pt triggers: " << header->fNhighPt << endl;
1834
1835 return result;
1836}
1837
1838
1839int DumpTrackDecisionStruct(
1840 const char* buffer, unsigned long bufferSize,
1841 const AliHLTMUONTrackDecisionStruct* decision,
1842 bool continueParse
1843 )
1844{
1845 // Step through the fields trying to print them.
1846 // At each step check if we have not overflowed the buffer. If we have
1847 // not, then we can print the field, otherwise we print the left over
1848 // bytes assumed to be corrupted rubbish.
1849 int result = CheckField(decision->fTrackId, buffer, bufferSize, continueParse);
1850 if (result != EXIT_SUCCESS) return result;
1851 cout << setw(13) << left << decision->fTrackId << setw(0);
1852
1853 result = CheckField(decision->fTriggerBits, buffer, bufferSize, continueParse);
1854 if (result != EXIT_SUCCESS) return result;
1855 cout << setw(12) << left << showbase << hex << decision->fTriggerBits
1856 << setw(0) << dec;
1857
1858 // Print the individual trigger bits.
1859 bool highPt, lowPt;
1860 AliHLTMUONUtils::UnpackTrackDecisionBits(decision->fTriggerBits, highPt, lowPt);
1861 cout << setw(7) << left << (highPt ? "yes" : "no");
1862 cout << setw(8) << left << (lowPt ? "yes" : "no");
c9537879 1863
1864 result = CheckField(decision->fPt, buffer, bufferSize, continueParse);
1865 if (result != EXIT_SUCCESS) return result;
1866 cout << setw(0) << decision->fPt << endl;
3dad52b0 1867
1868 return result;
1869}
1870
1871
1872int DumpSinglesDecisionBlock(
1873 const char* buffer, unsigned long bufferSize,
1874 bool continueParse
1875 )
1876{
1877 int result = EXIT_SUCCESS;
1878 AliHLTMUONSinglesDecisionBlockReader block(buffer, bufferSize);
1879
1880 result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
1881 if (result != EXIT_SUCCESS and not continueParse) return result;
1882
1883 // Dump the rest of the block header.
1884 const AliHLTMUONSinglesDecisionBlockStruct* header = &block.BlockHeader();
1885 int subResult = DumpSinglesDecisionBlockHeader(buffer, bufferSize, header, continueParse);
1886 if (subResult != EXIT_SUCCESS) return subResult;
1887
1888 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
1889
1890 // Print the data block record entries.
c9537879 1891 cout << " | Trigger Bits |" << endl;
1892 cout << "Track ID | Raw HighPt LowPt | pT" << endl;
1893 cout << "----------------------------------------------------" << endl;
3dad52b0 1894 const AliHLTMUONTrackDecisionStruct* entry = block.GetArray();
1895 for(AliHLTUInt32_t i = 0; i < nentries; i++)
1896 {
1897 subResult = DumpTrackDecisionStruct(buffer, bufferSize, entry++, continueParse);
1898 if (subResult != EXIT_SUCCESS) return subResult;
1899 }
1900
1901 return result;
1902}
1903
1904
1905int DumpPairsDecisionBlockHeader(
1906 const char* buffer, unsigned long bufferSize,
1907 const AliHLTMUONPairsDecisionBlockStruct* header,
1908 bool continueParse
1909 )
1910{
1911 // Step through the header fields trying to print them.
1912 // At each step check if we have not overflowed the buffer, if we have
1913 // not then we can print the field, otherwise we print the left over
1914 // bytes assumed to be corrupted rubbish.
1915 int result = CheckHeaderField(header->fNunlikeAnyPt, buffer, bufferSize, continueParse);
1916 if (result != EXIT_SUCCESS) return result;
1917 cout << " Number of unlike all pt triggers: " << header->fNunlikeAnyPt << endl;
1918
1919 result = CheckHeaderField(header->fNunlikeLowPt, buffer, bufferSize, continueParse);
1920 if (result != EXIT_SUCCESS) return result;
1921 cout << " Number of unlike low pt triggers: " << header->fNunlikeLowPt << endl;
1922
1923 result = CheckHeaderField(header->fNunlikeHighPt, buffer, bufferSize, continueParse);
1924 if (result != EXIT_SUCCESS) return result;
1925 cout << " Number of unlike high pt triggers: " << header->fNunlikeHighPt << endl;
1926
1927 result = CheckHeaderField(header->fNlikeAnyPt, buffer, bufferSize, continueParse);
1928 if (result != EXIT_SUCCESS) return result;
1929 cout << " Number of like any pt triggers: " << header->fNlikeAnyPt << endl;
1930
1931 result = CheckHeaderField(header->fNlikeLowPt, buffer, bufferSize, continueParse);
1932 if (result != EXIT_SUCCESS) return result;
1933 cout << " Number of like low pt triggers: " << header->fNlikeLowPt << endl;
1934
1935 result = CheckHeaderField(header->fNlikeHighPt, buffer, bufferSize, continueParse);
1936 if (result != EXIT_SUCCESS) return result;
1937 cout << " Number of like high pt triggers: " << header->fNlikeHighPt << endl;
1938
1939 result = CheckHeaderField(header->fNmassAny, buffer, bufferSize, continueParse);
1940 if (result != EXIT_SUCCESS) return result;
1941 cout << " Number of all invariant mass triggers: " << header->fNmassAny << endl;
1942
1943 result = CheckHeaderField(header->fNmassLow, buffer, bufferSize, continueParse);
1944 if (result != EXIT_SUCCESS) return result;
1945 cout << " Number of low invariant mass triggers: " << header->fNmassLow << endl;
1946
1947 result = CheckHeaderField(header->fNmassHigh, buffer, bufferSize, continueParse);
1948 if (result != EXIT_SUCCESS) return result;
1949 cout << "Number of high invariant mass triggers: " << header->fNmassHigh << endl;
1950
1951 return result;
1952}
1953
1954
1955int DumpPairDecisionStruct(
1956 const char* buffer, unsigned long bufferSize,
1957 const AliHLTMUONPairDecisionStruct* decision,
1958 bool continueParse
1959 )
1960{
1961 // Step through the fields trying to print them.
1962 // At each step check if we have not overflowed the buffer. If we have
1963 // not, then we can print the field, otherwise we print the left over
1964 // bytes assumed to be corrupted rubbish.
1965 int result = CheckField(decision->fTrackAId, buffer, bufferSize, continueParse);
1966 if (result != EXIT_SUCCESS) return result;
1967 cout << setw(13) << left << decision->fTrackAId << setw(0);
1968
1969 result = CheckField(decision->fTrackBId, buffer, bufferSize, continueParse);
1970 if (result != EXIT_SUCCESS) return result;
1971 cout << setw(13) << left << decision->fTrackBId << setw(0);
1972
1973 result = CheckField(decision->fTriggerBits, buffer, bufferSize, continueParse);
1974 if (result != EXIT_SUCCESS) return result;
1975 cout << setw(12) << left << showbase << hex << decision->fTriggerBits
1976 << setw(0) << dec;
1977
1978 // Print the individual trigger bits.
1979 bool highMass, lowMass, unlike;
1980 AliHLTUInt8_t highPtCount, lowPtCount;
1981 AliHLTMUONUtils::UnpackPairDecisionBits(
1982 decision->fTriggerBits,
1983 highMass, lowMass, unlike, highPtCount, lowPtCount
1984 );
1985 cout << setw(7) << left << (highMass ? "yes" : "no");
1986 cout << setw(7) << left << (lowMass ? "yes" : "no");
1987 cout << setw(7) << left << (unlike ? "yes" : "no");
1988 cout << setw(6) << left << AliHLTUInt16_t(highPtCount);
1989 cout << setw(8) << left << AliHLTUInt16_t(lowPtCount);
1990 cout << setw(0);
1991
1992 result = CheckField(decision->fInvMass, buffer, bufferSize, continueParse);
1993 if (result != EXIT_SUCCESS) return result;
1994 cout << decision->fInvMass << endl;
1995
1996 return EXIT_SUCCESS;
1997}
1998
1999
2000int DumpPairsDecisionBlock(
2001 const char* buffer, unsigned long bufferSize,
2002 bool continueParse
2003 )
2004{
2005 int result = EXIT_SUCCESS;
2006 AliHLTMUONPairsDecisionBlockReader block(buffer, bufferSize);
2007
2008 result = CheckCommonHeader(block, buffer, bufferSize, continueParse);
2009 if (result != EXIT_SUCCESS and not continueParse) return result;
2010
2011 // Dump the rest of the block header.
2012 const AliHLTMUONPairsDecisionBlockStruct* header = &block.BlockHeader();
2013 int subResult = DumpPairsDecisionBlockHeader(buffer, bufferSize, header, continueParse);
2014 if (subResult != EXIT_SUCCESS) return subResult;
2015
2016 AliHLTUInt32_t nentries = CalculateNEntries(block, bufferSize);
2017
2018 // Print the data block record entries.
2019 cout << " | | Trigger Bits |" << endl;
2020 cout << "Track A ID | Track B ID | Raw HiMass LoMass Unlike HiPt# LoPt# | Invariant mass" << endl;
2021 cout << "----------------------------------------------------------------------------------------" << endl;
2022 const AliHLTMUONPairDecisionStruct* entry = block.GetArray();
2023 for(AliHLTUInt32_t i = 0; i < nentries; i++)
2024 {
2025 subResult = DumpPairDecisionStruct(buffer, bufferSize, entry++, continueParse);
2026 if (subResult != EXIT_SUCCESS) return subResult;
2027 }
2028
2029 return result;
2030}
2031
2032
2033int DumpCommonHeader(
2034 const char* buffer, unsigned long bufferSize,
2035 const AliHLTMUONDataBlockHeader* header, bool continueParse
2036 )
2037{
2038 // Step through the header fields trying to print them.
2039 // At each step check if we have not overflowed the buffer, if we have
2040 // not then we can print the field, otherwise we print the left over
2041 // bytes assumed to be corrupted rubbish.
2042 int result = CheckHeaderField(header->fType, buffer, bufferSize, continueParse);
2043 if (result != EXIT_SUCCESS) return result;
2044 AliHLTMUONDataBlockType type = AliHLTMUONDataBlockType(header->fType);
2045 cout << " Block type: " << type << endl;
2046
2047 result = CheckHeaderField(header->fRecordWidth, buffer, bufferSize, continueParse);
2048 if (result != EXIT_SUCCESS) return result;
2049 cout << " Record width: " << header->fRecordWidth << endl;
2050
2051 result = CheckHeaderField(header->fNrecords, buffer, bufferSize, continueParse);
2052 if (result != EXIT_SUCCESS) return result;
2053 cout << "Number of entries: " << header->fNrecords << endl;
2054
2055 return result;
2056}
2057
887a669c 2058/**
2059 * Method to look for a certain data word key in the buffer.
2060 * \param buffer The start location in the buffer to search.
2061 * \param end The end of the buffer.
2062 * \returns the pointer position just past the word found or
2063 * NULL if the word was not found in the buffer.
2064 */
2065const char* FindDataWord(const char* buffer, const char* end, UInt_t word)
2066{
2067 for (const char* current = buffer; (current+1) <= end; current += sizeof(UInt_t))
2068 {
2069 const UInt_t* currentWord = reinterpret_cast<const UInt_t*>(current);
2070 if (*currentWord == word) return current + sizeof(UInt_t);
2071 }
2072 return NULL;
2073}
2074
2075/**
2076 * Method to check if the data buffer is really a raw DDL stream.
2077 * \returns kUnknownDataBlock if this does not look like a raw DDL stream.
2078 * kTrackerDDLRawData if this looks like a raw DDL stream from the tracker.
2079 * kTriggerDDLRawData if this looks like a raw DDL stream from the trigger.
2080 */
2081int CheckIfDDLStream(const char* buffer, unsigned long bufferSize)
2082{
2083 if (bufferSize < sizeof(AliRawDataHeader)) return kUnknownDataBlock;
2084
2085 const AliRawDataHeader* cdhHeader =
2086 reinterpret_cast<const AliRawDataHeader*>(buffer);
2087
2088 // Keep scores of indicators / tests that show this is a raw DDL stream
2089 // either from the trigger or tracker. We will decide if the stream is
2090 // indeed a raw DDL stream if the largest of the two scores is above a
2091 // minimum threshold.
2092 int trackerScore = 0;
2093 int triggerScore = 0;
2094
2095 if (cdhHeader->fSize == UInt_t(-1) or cdhHeader->fSize == bufferSize)
2096 {
2097 trackerScore++;
2098 triggerScore++;
2099 }
2100
2101 if (cdhHeader->GetVersion() == 2)
2102 {
2103 trackerScore++;
2104 triggerScore++;
2105 }
2106
2107 const char* payload = buffer + sizeof(AliRawDataHeader);
2108 const char* payloadEnd = buffer + bufferSize;
2109
2110 typedef AliMUONTrackerDDLDecoder<AliMUONTrackerDDLDecoderEventHandler> AliTrkDecoder;
2111 typedef AliMUONTriggerDDLDecoder<AliMUONTriggerDDLDecoderEventHandler> AliTrgDecoder;
2112
2113 // See if the DDL data has a payload with data word keys as expected by
2114 // AliMUONTrackerDDLDecoder.
2115 const char* current = payload;
2116 while ( (current = FindDataWord(current, payloadEnd, AliTrkDecoder::BlockDataKeyWord())) != NULL )
2117 {
2118 trackerScore++;
2119 }
2120 current = payload;
2121 while ( (current = FindDataWord(current, payloadEnd, AliTrkDecoder::DspDataKeyWord())) != NULL )
2122 {
2123 trackerScore++;
2124 }
2125 current = payload;
2126 while ( (current = FindDataWord(current, payloadEnd, AliTrkDecoder::BusPatchDataKeyWord())) != NULL )
2127 {
2128 trackerScore++;
2129 }
2130 current = payload;
2131 while ( (current = FindDataWord(current, payloadEnd, AliTrkDecoder::EndOfDDLWord())) != NULL )
2132 {
2133 trackerScore++;
2134 }
2135
2136 // See if the DDL data has a payload with data word keys as expected by
2137 // AliMUONTriggerDDLDecoder.
2138 current = payload;
2139 while ( (current = FindDataWord(current, payloadEnd, AliTrgDecoder::EndOfDarcWord())) != NULL )
2140 {
2141 triggerScore++;
2142 }
2143 current = payload;
2144 while ( (current = FindDataWord(current, payloadEnd, AliTrgDecoder::EndOfGlobalWord())) != NULL )
2145 {
2146 triggerScore++;
2147 }
2148 current = payload;
2149 while ( (current = FindDataWord(current, payloadEnd, AliTrgDecoder::EndOfRegionalWord())) != NULL )
2150 {
2151 triggerScore++;
2152 }
2153 current = payload;
2154 while ( (current = FindDataWord(current, payloadEnd, AliTrgDecoder::EndOfLocalWord())) != NULL )
2155 {
2156 triggerScore++;
2157 }
2158
2159 if (triggerScore > trackerScore)
2160 {
2161 if (triggerScore >= 6) return kTriggerDDLRawData;
2162 }
2163 else
2164 {
2165 if (trackerScore >= 6) return kTrackerDDLRawData;
2166 }
2167 return kUnknownDataBlock;
2168}
3dad52b0 2169
887a669c 2170/**
2171 * Parses the buffer and prints the contents to screen.
2172 * [in] \param buffer The pointer to the buffer to parse.
2173 * [in] \param bufferSize The size of the buffer in bytes.
2174 * [in] \param continueParse If specified then the we try to continue parsing the
2175 * buffer as much as possible.
2176 * [in/out] \param type Initialy this should indicate the type of the data block
2177 * or kUnknownDataBlock if not known. On exit it will be filled with
2178 * the type of the data block as discovered by this routine if type
2179 * initially contained kUnknownDataBlock.
2180 * \returns The error code indicating the problem. EXIT_SUCCESS is returned
2181 * on success.
2182 */
3dad52b0 2183int ParseBuffer(
2184 const char* buffer, unsigned long bufferSize,
887a669c 2185 bool continueParse, int& type
3dad52b0 2186 )
2187{
2188 assert( buffer != NULL );
2189 int result = EXIT_SUCCESS;
887a669c 2190 int subResult = EXIT_FAILURE;
3dad52b0 2191
887a669c 2192 // If the -type|-t option was not used in the command line then we need to
2193 // figure out what type of data block this is from the data itself.
2194 bool ddlStream = false;
2195 if (type == kUnknownDataBlock)
3dad52b0 2196 {
887a669c 2197 // First check if this is a raw DDL stream, if not then assume it is
2198 // some kind of internal dHLT raw data block.
2199 int streamType = CheckIfDDLStream(buffer, bufferSize);
2200 if (streamType == kTrackerDDLRawData or streamType == kTriggerDDLRawData)
2201 {
2202 type = streamType;
2203 ddlStream = true;
2204 }
3dad52b0 2205 }
887a669c 2206 else if (type == kTrackerDDLRawData or type == kTriggerDDLRawData)
3dad52b0 2207 {
887a669c 2208 ddlStream = true;
3dad52b0 2209 }
887a669c 2210
2211 if (not ddlStream)
3dad52b0 2212 {
887a669c 2213 if (bufferSize < sizeof(AliHLTMUONDataBlockHeader))
2214 {
2215 cerr << "ERROR: The size of the file is too small to contain a"
2216 " valid data block." << endl;
2217 result = PARSE_ERROR;
2218 if (not continueParse) return result;
2219 }
2220 const AliHLTMUONDataBlockHeader* header =
2221 reinterpret_cast<const AliHLTMUONDataBlockHeader*>(buffer);
2222
2223 subResult = DumpCommonHeader(buffer, bufferSize, header, continueParse);
2224 if (subResult != EXIT_SUCCESS) return subResult;
2225
2226
2227 // Check if the block type in the header corresponds to the type given
2228 // by the '-type' command line parameter. If they do not then print an
2229 // error or big fat warning message and force interpretation of the data
2230 // block with the type given by '-type'.
2231 AliHLTMUONDataBlockType headerType = AliHLTMUONDataBlockType(header->fType);
2232
2233 if (type == kUnknownDataBlock)
2234 {
2235 // -type not used in the command line so just use what is given
2236 // by the data block header.
2237 type = headerType;
2238 }
2239 else if (type != headerType)
2240 {
2241 cerr << "WARNING: The data block header indicates a type"
2242 " different from what was specified on the command line."
2243 " The data could be corrupt."
2244 << endl;
2245 cerr << "WARNING: The type value in the file is "
2246 << showbase << hex << header->fType
2247 << " (" << headerType << "), but on the command line it is "
2248 << showbase << hex << int(type) << dec
2249 << " (" << type << ")."
2250 << endl;
2251 cerr << "WARNING: Will force the interpretation of the data block"
2252 " with a type of " << type << "." << endl;
2253 }
3dad52b0 2254 }
2255
887a669c 2256 // Now we know what type the data block is supposed to be, so we can
3dad52b0 2257 // dump it to screen with the appropriate dump routine.
2258 switch (type)
2259 {
887a669c 2260 case kTrackerDDLRawData:
2261 subResult = DumpTrackerDDLRawStream(buffer, bufferSize, continueParse);
2262 if (subResult != EXIT_SUCCESS) result = subResult;
2263 break;
2264 case kTriggerDDLRawData:
2265 subResult = DumpTriggerDDLRawStream(buffer, bufferSize, continueParse);
2266 if (subResult != EXIT_SUCCESS) result = subResult;
2267 break;
3dad52b0 2268 case kTriggerRecordsDataBlock:
2269 subResult = DumpTriggerRecordsBlock(buffer, bufferSize, continueParse);
2270 if (subResult != EXIT_SUCCESS) result = subResult;
2271 break;
2272 case kTrigRecsDebugDataBlock:
2273 subResult = DumpTrigRecsDebugBlock(buffer, bufferSize, continueParse);
2274 if (subResult != EXIT_SUCCESS) result = subResult;
2275 break;
3dad52b0 2276 case kRecHitsDataBlock:
2277 subResult = DumpRecHitsBlock(buffer, bufferSize, continueParse);
2278 if (subResult != EXIT_SUCCESS) result = subResult;
2279 break;
2280 case kClustersDataBlock:
2281 subResult = DumpClustersBlock(buffer, bufferSize, continueParse);
2282 if (subResult != EXIT_SUCCESS) result = subResult;
2283 break;
2284 case kChannelsDataBlock:
2285 return DumpChannelsBlock(buffer, bufferSize, continueParse);
2286 if (subResult != EXIT_SUCCESS) result = subResult;
2287 break;
2288 case kMansoTracksDataBlock:
2289 subResult = DumpMansoTracksBlock(buffer, bufferSize, continueParse);
2290 if (subResult != EXIT_SUCCESS) result = subResult;
2291 break;
2292 case kMansoCandidatesDataBlock:
2293 subResult = DumpMansoCandidatesBlock(buffer, bufferSize, continueParse);
2294 if (subResult != EXIT_SUCCESS) result = subResult;
2295 break;
2296 case kSinglesDecisionDataBlock:
2297 subResult = DumpSinglesDecisionBlock(buffer, bufferSize, continueParse);
2298 if (subResult != EXIT_SUCCESS) result = subResult;
2299 break;
2300 case kPairsDecisionDataBlock:
2301 return DumpPairsDecisionBlock(buffer, bufferSize, continueParse);
2302 if (subResult != EXIT_SUCCESS) result = subResult;
2303 break;
2304 default :
2305 cout << "ERROR: Unknown data block type. Found a type number of "
2306 << showbase << hex << int(type) << dec
2307 << " (" << int(type) << ")." << endl;
2308 result = PARSE_ERROR;
2309 }
2310
2311 return result;
2312}
2313
887a669c 2314/**
2315 * Convert the type code to a string.
2316 */
2317const char* TypeToString(int type)
2318{
2319 if (type == kTrackerDDLRawData or type == kTriggerDDLRawData)
2320 {
2321 static char str[kAliHLTComponentDataTypefIDsize+1];
2322 AliHLTComponentDataType t = AliHLTMUONConstants::DDLRawDataType();
2323 memcpy(&str, &t.fID, kAliHLTComponentDataTypefIDsize);
2324 // Must insert the NULL character to make this an ANSI C string.
2325 str[kAliHLTComponentDataTypefIDsize] = '\0';
2326 return &str[0];
2327 }
2328 else
2329 {
2330 return AliHLTMUONUtils::DataBlockTypeToString(AliHLTMUONDataBlockType(type));
2331 }
2332}
2333
2334/**
2335 * Find the data specification from the filename and return it in string format.
2336 */
2337const char* TryDecodeDataSpec(const char* filename)
2338{
2339 TString name = filename;
2340
2341 TRegexp re1("MUONTR[GK]_[0123456789]+\\.ddl$");
2342 Ssiz_t length = 0;
2343 Ssiz_t pos = re1.Index(name, &length);
2344 if (pos != kNPOS)
2345 {
2346 TString substr;
2347 for (Ssiz_t i = 0; i < length; i++)
2348 substr += name[pos+i];
2349 TRegexp re("[0123456789]+");
2350 pos = re.Index(substr, &length);
2351 TString num;
2352 for (Ssiz_t i = 0; i < length; i++)
2353 num += substr[pos+i];
2354 AliHLTUInt32_t spec = AliHLTMUONUtils::EquipIdToSpec(num.Atoi());
2355 static char strbuf[32];
2356 sprintf(&strbuf[0], "0x%8.8X", spec);
2357 return &strbuf[0];
2358 }
2359
2360 TRegexp re2("_MUON\\:.+_0x[0123456789abscefABCDEF]+\\.dat$");
2361 pos = re2.Index(name, &length);
2362 if (pos != kNPOS)
2363 {
2364 TString substr;
2365 for (Ssiz_t i = 0; i < length; i++)
2366 substr += name[pos+i];
2367 TRegexp re("0x[0123456789abscefABCDEF]+");
2368 pos = re.Index(substr, &length);
2369 TString num;
2370 for (Ssiz_t i = 0; i < length; i++)
2371 num += substr[pos+i];
2372 static TString result = num;
2373 return result.Data();
2374 }
2375
2376 return NULL;
2377}
2378
ffb64d3e 2379namespace
2380{
2381 // CDB path and run number to use.
162637e4 2382 const char* gCDBPath = "local://$ALICE_ROOT/OCDB";
ffb64d3e 2383 Int_t gRunNumber = 0;
2384}
2385
887a669c 2386/**
2387 * Performs basic data integrity checks of the data block using the
2388 * AliHLTMUONDataCheckerComponent.
2389 * [in] \param sys The HLT system framework.
2390 * [in] \param filename The name of the file containing the data block to check.
2391 * [in] \param type Must indicate the type of the data block.
2392 * [in] \param dataspec The data specification of the data block. NULL if none.
2393 * [in] \param maxLogging If set to true then full logging is turned on for AliHLTSystem.
2394 * \returns The error code indicating the problem. EXIT_SUCCESS is returned
2395 * on success.
2396 */
2397int CheckDataIntegrity(
2398 AliHLTSystem& sys, const char* filename, int type,
2399 const char* dataspec, bool maxLogging
2400 )
2401{
2402 if (maxLogging)
2403 {
2404 AliLog::SetGlobalLogLevel(AliLog::kMaxType);
2405 sys.SetGlobalLoggingLevel(kHLTLogAll);
2406 }
2407 else
2408 {
2409 AliLog::SetGlobalLogLevel(AliLog::kWarning);
2410 int level = kHLTLogWarning | kHLTLogError | kHLTLogFatal;
2411 sys.SetGlobalLoggingLevel(AliHLTComponentLogSeverity(level));
2412 }
2413
ffb64d3e 2414 sys.LoadComponentLibraries("libAliHLTUtil.so");
2415 sys.LoadComponentLibraries("libAliHLTMUON.so");
887a669c 2416
2417 // Setup the component parameter lists and then the components.
ffb64d3e 2418 TString dcparams = "-return_error -warn_on_unexpected_block -no_global_check -cdbpath ";
2419 dcparams += gCDBPath;
2420 dcparams += " -run ";
2421 dcparams += gRunNumber;
887a669c 2422 TString fpparams = "-datatype '";
2423 fpparams += TypeToString(type);
2424 fpparams += "' 'MUON'";
2425 if (dataspec != NULL)
2426 {
2427 fpparams += " -dataspec ";
2428 fpparams += dataspec;
2429 }
2430 else
2431 {
2432 const char* spec = TryDecodeDataSpec(filename);
2433 if (spec != NULL)
2434 {
2435 fpparams += " -dataspec ";
2436 fpparams += spec;
2437 }
2438 else
2439 {
2440 dcparams += " -ignorespec";
2441 }
2442 }
2443 fpparams += " -datafile ";
2444 fpparams += filename;
2445 TString fpname = "filePublisher_";
2446 fpname += filename;
2447 TString dcname = "checker_";
2448 dcname += filename;
2449
2450 if (maxLogging)
2451 {
2452 cout << "DEBUG: Using the following flags for FilePublisher: \""
2453 << fpparams.Data() << "\""<< endl;
2454 cout << "DEBUG: Using the following flags for "
2455 << AliHLTMUONConstants::DataCheckerComponentId()
2456 << ": \"" << dcparams.Data() << "\""<< endl;
2457 }
2458
2459 AliHLTConfiguration(fpname.Data(), "FilePublisher", NULL, fpparams.Data());
2460 AliHLTConfiguration checker(
2461 dcname.Data(), AliHLTMUONConstants::DataCheckerComponentId(),
2462 fpname.Data(), dcparams.Data()
2463 );
2464
2465 // Build and run the HLT tasks.
2466 if (sys.BuildTaskList(dcname.Data()) != 0) return HLTSYSTEM_ERROR;
2467 if (maxLogging) sys.PrintTaskList();
2468 if (sys.Run() != 1) return HLTSYSTEM_ERROR;
2469
2470 // Now clean up.
2471 if (sys.CleanTaskList() != 0) return HLTSYSTEM_ERROR;
2472
2473 return EXIT_SUCCESS;
2474}
2475
3dad52b0 2476
2477/**
2478 * The caller is responsible for freeing memory allocated for buffer with a call
2479 * to delete [] buffer.
2480 */
2481int ReadFile(const char* filename, char*& buffer, unsigned long& bufferSize)
2482{
2483 assert( filename != NULL );
2484
2485 // Open the file and find its size.
2486 fstream file;
2487 file.open(filename, ios::in);
2488 if (not file)
2489 {
2490 cerr << "ERROR: Could not open the file: " << filename << endl;
2491 return SYSTEM_ERROR;
2492 }
2493 file.seekg(0, ios::end);
2494 if (not file)
2495 {
2496 cerr << "ERROR: Could not seek in the file: " << filename << endl;
2497 return SYSTEM_ERROR;
2498 }
2499 bufferSize = file.tellg();
2500 if (not file)
2501 {
2502 cerr << "ERROR: Could not get file size for the file: " <<
2503 filename << endl;
2504 return SYSTEM_ERROR;
2505 }
2506 file.seekg(0, ios::beg);
2507 if (not file)
2508 {
2509 cerr << "ERROR: Could not seek in the file: " << filename << endl;
2510 return SYSTEM_ERROR;
2511 }
2512
2513 // Allocate the memory for the file.
2514 try
2515 {
2516 buffer = new char[bufferSize];
2517 }
2518 catch (const std::bad_alloc&)
2519 {
2520 cerr << "ERROR: Out of memory. Tried to allocate " << bufferSize
2521 << " bytes." << endl;
2522 return SYSTEM_ERROR;
2523 }
2524
2525 file.read(buffer, bufferSize);
2526 if (not file)
2527 {
2528 delete [] buffer;
2529 buffer = NULL;
2530 bufferSize = 0;
2531 cerr << "ERROR: Could not read from file: " << filename << endl;
2532 return SYSTEM_ERROR;
2533 }
2534
2535 file.close();
2536 if (not file)
2537 {
2538 delete [] buffer;
2539 buffer = NULL;
2540 bufferSize = 0;
2541 cerr << "ERROR: Could not close the file: " << filename << endl;
2542 return SYSTEM_ERROR;
2543 }
2544
2545 return EXIT_SUCCESS;
2546}
2547
2548/**
2549 * Prints the command line usage of this program to standard error.
2550 */
c9537879 2551void PrintUsage(bool asError = true)
3dad52b0 2552{
c9537879 2553 std::ostream& os = asError ? cerr : cout;
887a669c 2554 os << "Usage: dHLTdumpraw [-help|-h] [-continue|-c] [-type|-t <typename>] [-check|-k]" << endl;
ffb64d3e 2555 os << " [-debug|-d] [-dataspec|-s <number>] [-cdbpath|-p <url>] [-run|-r <number>]" << endl;
2556 os << " <filename> [<filename> ...]" << endl;
c9537879 2557 os << "Where <filename> is the name of a file containing a raw data block." << endl;
2558 os << "Options:" << endl;
2559 os << " -help | -h" << endl;
2560 os << " Displays this message." << endl;
f68b4e0e 2561 os << " -continue | -c" << endl;
c9537879 2562 os << " If specified, the program will try to continue parsing the data block" << endl;
2563 os << " as much as possible rather than stopping at the first error." << endl;
f68b4e0e 2564 os << " -type | -t <typename>" << endl;
c9537879 2565 os << " Forces the contents of the subsequent files specified on the command" << endl;
2566 os << " line to be interpreted as a specific type of data block." << endl;
2567 os << " Where <typename> can be one of:" << endl;
887a669c 2568 os << " rawtracker - raw DDL stream from tracker chambers." << endl;
2569 os << " rawtrigger - raw DDL stream from trigger chambers." << endl;
c9537879 2570 os << " trigrecs - trigger records data." << endl;
2571 os << " trigrecsdebug - debugging information about trigger records." << endl;
c9537879 2572 os << " rechits - reconstructed hits data." << endl;
2573 os << " channels - channel debugging information from hit reconstruction." << endl;
2574 os << " clusters - cluster debugging information from hit reconstruction." << endl;
2575 os << " mansotracks - partial tracks from Manso algorithm." << endl;
2576 os << " mansocandidates - track candidates considered in the Manso algorithm." << endl;
2577 os << " singlesdecision - trigger decisions for single tracks." << endl;
2578 os << " pairsdecision - trigger decisions for track pairs." << endl;
2579 os << " autodetect - the type of the data block will be automatically" << endl;
2580 os << " detected." << endl;
887a669c 2581 os << " -check | -k" << endl;
2582 os << " If specified then data integrity checks are performed on the raw data." << endl;
2583 os << " Warnings and errors are printed as problems are found with the data, but" << endl;
2584 os << " the data will still be converted into ROOT objects as best as possible." << endl;
2585 os << " -debug | -d" << endl;
2586 os << " If specified, then the all debug messages are printed by the AliHLTSystem." << endl;
2587 os << " This is only useful if experiencing problems with the -check|-k option." << endl;
2588 os << " -dataspec | -s <number>" << endl;
2589 os << " When specified, then <number> is used as the data specification for the" << endl;
2590 os << " data file that follows. This option is only useful with the -check|-k option." << endl;
ffb64d3e 2591 os << " -cdbpath | -p <url>" << endl;
2592 os << " The path to the CDB to use when running with the -check | -k option." << endl;
2593 os << " -run | -r <number>" << endl;
2594 os << " The run number to use when running with the -check | -k option." << endl;
3dad52b0 2595}
2596
2597/**
3dad52b0 2598 * Parses the command line.
2599 * @param argc Number of arguments as given in main().
2600 * @param argv Array of arguments as given in main().
c9537879 2601 * @param filenames Pointer to buffer storing file name strings.
c9537879 2602 * @param filetypes Array that receives the type of the data block expected, i.e.
2603 * the value of the -type flag for the corresponding file.
887a669c 2604 * @param dataspecs Data specifications to use for the data files.
2605 * @param numOfFiles Receives the number of file name strings that were found
2606 * and added to 'filenames'.
2607 * @param continueParse Set to true if the user requested to continue to parse
2608 * after errors.
2609 * @param checkData Set to true if data integrity checking was requested.
2610 * @param maxLogging Set to true if maximal logging was requested.
3dad52b0 2611 * @return A status flag suitable for returning from main(), containing either
2612 * EXIT_SUCCESS or CMDLINE_ERROR.
2613 */
2614int ParseCommandLine(
c9537879 2615 int argc,
2616 const char** argv,
2617 const char** filenames,
887a669c 2618 int* filetypes,
2619 const char** dataspecs,
c9537879 2620 int& numOfFiles,
2621 bool& continueParse,
887a669c 2622 bool& checkData,
2623 bool& maxLogging
3dad52b0 2624 )
2625{
c9537879 2626 numOfFiles = 0;
3dad52b0 2627 continueParse = false;
887a669c 2628 maxLogging = false;
2629 checkData = false;
2630 int currentType = kUnknownDataBlock;
2631 const char* currentDataSpec = NULL;
ffb64d3e 2632 bool pathSet = false;
2633 bool runSet = false;
3dad52b0 2634
2635 // Parse the command line.
2636 for (int i = 1; i < argc; i++)
2637 {
f68b4e0e 2638 if (strcmp(argv[i], "-help") == 0 or strcmp(argv[i], "-h") == 0)
3dad52b0 2639 {
c9537879 2640 PrintUsage(false);
3dad52b0 2641 return EXIT_SUCCESS;
2642 }
f68b4e0e 2643 else if (strcmp(argv[i], "-continue") == 0 or strcmp(argv[i], "-c") == 0)
3dad52b0 2644 {
2645 continueParse = true;
2646 }
f68b4e0e 2647 else if (strcmp(argv[i], "-type") == 0 or strcmp(argv[i], "-t") == 0)
3dad52b0 2648 {
c9537879 2649 if (++i >= argc)
3dad52b0 2650 {
887a669c 2651 cerr << "ERROR: Missing a type specifier." << endl << endl;
3dad52b0 2652 PrintUsage();
2653 return CMDLINE_ERROR;
2654 }
c9537879 2655 // Now we need to parse the typename in the command line.
2656 if (strcmp(argv[i], "autodetect") == 0)
2657 {
2658 currentType = kUnknownDataBlock;
2659 }
887a669c 2660 else if (strcmp(argv[i], "rawtracker") == 0)
2661 {
2662 currentType = kTrackerDDLRawData;
2663 }
2664 else if (strcmp(argv[i], "rawtrigger") == 0)
2665 {
2666 currentType = kTriggerDDLRawData;
2667 }
3dad52b0 2668 else
c9537879 2669 {
f68b4e0e 2670 currentType = AliHLTMUONUtils::ParseCommandLineTypeString(argv[i]);
2671 if (currentType == kUnknownDataBlock)
2672 {
2673 cerr << "ERROR: Invalid type name '" << argv[i]
2674 << "' specified for argument " << argv[i-1]
2675 << "." << endl << endl;
2676 PrintUsage();
2677 return CMDLINE_ERROR;
2678 }
c9537879 2679 }
2680 }
887a669c 2681 else if (strcmp(argv[i], "-debug") == 0 or strcmp(argv[i], "-d") == 0)
2682 {
2683 maxLogging = true;
2684 }
2685 else if (strcmp(argv[i], "-check") == 0 or strcmp(argv[i], "-k") == 0)
2686 {
2687 checkData = true;
2688 }
2689 else if (strcmp(argv[i], "-dataspec") == 0 or strcmp(argv[i], "-s") == 0)
2690 {
2691 if (++i >= argc)
2692 {
2693 cerr << "ERROR: Missing a specification number." << endl << endl;
2694 PrintUsage();
2695 return CMDLINE_ERROR;
2696 }
2697
2698 char* errPos = NULL;
2699 unsigned long num = strtoul(argv[i], &errPos, 0);
2700 if (errPos == NULL or *errPos != '\0')
2701 {
2702 cerr << "ERROR: Cannot convert '%s' to a data specification number."
2703 << argv[i] << endl;
2704 return CMDLINE_ERROR;
2705 }
2706 if (not AliHLTMUONUtils::IsSpecValid(num))
2707 {
2708 cerr << "ERROR: The data specification number is not a valid format."
2709 << endl;
2710 return CMDLINE_ERROR;
2711 }
2712 currentDataSpec = argv[i];
2713 }
ffb64d3e 2714 else if (strcmp(argv[i], "-cdbpath") == 0 or strcmp(argv[i], "-p") == 0)
2715 {
2716 if (pathSet)
2717 {
2718 cerr << "WARNING: Already used -cdbpath|-p with '" << gCDBPath
2719 << "' before. Will override it with the last value specified with -cdbpath|-p."
2720 << endl;
2721 }
2722 if (++i >= argc)
2723 {
2724 cerr << "ERROR: Missing the URL for the CDB path." << endl << endl;
2725 PrintUsage();
2726 return CMDLINE_ERROR;
2727 }
2728 gCDBPath = argv[i];
2729 pathSet = true;
2730 }
2731 else if (strcmp(argv[i], "-run") == 0 or strcmp(argv[i], "-r") == 0)
2732 {
2733 if (runSet)
2734 {
2735 cerr << "WARNING: Already used -run|-r with " << gRunNumber
2736 << " before. Will override it with the last value specified with -run|-r."
2737 << endl;
2738 }
2739 if (++i >= argc)
2740 {
2741 cerr << "ERROR: Missing the run number." << endl << endl;
2742 PrintUsage();
2743 return CMDLINE_ERROR;
2744 }
2745
2746 char* cpErr = NULL;
2747 Int_t run = Int_t( strtol(argv[i], &cpErr, 0) );
2748 if (cpErr == NULL or *cpErr != '\0' or run < 0)
2749 {
2750 cerr << "ERROR: Cannot convert '" << argv[i] << "' to a valid run number."
2751 " Expected a positive integer value." << endl;
2752 return CMDLINE_ERROR;
2753 }
2754
2755 gRunNumber = run;
2756 runSet = true;
2757 }
c9537879 2758 else
2759 {
2760 assert( numOfFiles < argc );
2761 filenames[numOfFiles] = argv[i];
2762 filetypes[numOfFiles] = currentType;
887a669c 2763 dataspecs[numOfFiles] = currentDataSpec;
2764 currentDataSpec = NULL; // Reset because '-dataspec' option is only valid for one file.
c9537879 2765 numOfFiles++;
3dad52b0 2766 }
2767 }
2768
c9537879 2769 // Now check that we have at least one filename and all the flags we need.
2770 if (numOfFiles == 0)
3dad52b0 2771 {
c9537879 2772 cerr << "ERROR: Missing a file name. You must specify at least one file to process."
3dad52b0 2773 << endl << endl;
2774 PrintUsage();
2775 return CMDLINE_ERROR;
2776 }
2777
2778 return EXIT_SUCCESS;
2779}
2780
2781
2782int main(int argc, const char** argv)
2783{
1120d5de 2784 // Test endianess of this machine during runtime and print warning if it is not
2785 // little endian.
2786 union
2787 {
2788 int dword;
2789 char byte[4];
2790 } endianTest;
2791 endianTest.dword = 0x1;
2792 if (endianTest.byte[0] != 0x1)
2793 {
2794 cerr << "!!!! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !!!!!" << endl;
2795 cerr << "!!!! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !!!!!" << endl;
2796 cerr << "!! !!" << endl;
2797 cerr << "!! This is not a little endian machine, but dHLT raw data is normally !!" << endl;
2798 cerr << "!! generated in little endian format. Unless you are looking at localy !!" << endl;
2799 cerr << "!! created simulated data, then this program will not show you correct !!" << endl;
2800 cerr << "!! output. !!" << endl;
2801 cerr << "!! !!" << endl;
2802 cerr << "!!!! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !!!!!" << endl;
2803 cerr << "!!!! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !! WARNING !!!!!" << endl;
2804 cerr << endl;
2805 }
2806
2807
c9537879 2808 int numOfFiles = 0;
3dad52b0 2809 bool continueParse = false;
887a669c 2810 bool checkData = false;
2811 bool maxLogging = false;
3dad52b0 2812 int returnCode = EXIT_SUCCESS;
3dad52b0 2813 char* buffer = NULL;
887a669c 2814 const char** filename = NULL;
2815 int* filetype = NULL;
2816 const char** dataspec = NULL;
3dad52b0 2817
2818 try
2819 {
887a669c 2820 // Reduce logging now to get rid of informationals from AliHLTSystem constructor.
2821 AliLog::SetGlobalLogLevel(AliLog::kWarning);
2822 AliHLTSystem sys;
2823
c9537879 2824 // There will be at least 'argc' number of filenames.
2825 typedef const char* AnsiString;
887a669c 2826 filename = new AnsiString[argc];
2827 filetype = new int[argc];
2828 dataspec = new AnsiString[argc];
c9537879 2829
887a669c 2830 returnCode = ParseCommandLine(
2831 argc, argv, filename, filetype, dataspec, numOfFiles,
2832 continueParse, checkData, maxLogging
2833 );
3dad52b0 2834
c9537879 2835 if (returnCode == EXIT_SUCCESS)
3dad52b0 2836 {
c9537879 2837 for (int i = 0; i < numOfFiles; i++)
2838 {
2839 unsigned long bufferSize = 0;
2840 returnCode = ReadFile(filename[i], buffer, bufferSize);
2841 if (returnCode != EXIT_SUCCESS) break;
a2be583d 2842 if (numOfFiles > 1)
2843 {
887a669c 2844 cout << "########## Start of dump for file: "
2845 << filename[i] << " ##########" << endl;
a2be583d 2846 }
c9537879 2847 int result = ParseBuffer(buffer, bufferSize, continueParse, filetype[i]);
2848 if (buffer != NULL) delete [] buffer;
2849 if (result != EXIT_SUCCESS)
2850 {
2851 returnCode = result;
2852 if (not continueParse) break;
2853 }
887a669c 2854 if (checkData)
2855 {
2856 result = CheckDataIntegrity(
2857 sys, filename[i], filetype[i],
2858 dataspec[i], maxLogging
2859 );
2860 if (result != EXIT_SUCCESS)
2861 {
2862 returnCode = result;
2863 if (not continueParse) break;
2864 }
2865 }
a2be583d 2866 if (numOfFiles > 1)
2867 {
887a669c 2868 cout << "########## End of dump for file: " <<
2869 filename[i] << " ##########" << endl;
a2be583d 2870 }
c9537879 2871 }
3dad52b0 2872 }
2873
c9537879 2874 delete [] filename;
2875 delete [] filetype;
887a669c 2876 delete [] dataspec;
3dad52b0 2877 }
2878 catch (...)
2879 {
2880 cerr << "FATAL ERROR: An unknown exception occurred!" << endl << endl;
2881 returnCode = FATAL_ERROR;
2882 if (buffer != NULL) delete [] buffer;
887a669c 2883 if (filename != NULL) delete [] filename;
2884 if (filetype != NULL) delete [] filetype;
2885 if (dataspec != NULL) delete [] dataspec;
3dad52b0 2886 }
c9537879 2887
3dad52b0 2888 return returnCode;
2889}