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LutXml.cc
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1 // -*- C++ -*-
2 //
3 // Package: CaloOnlineTools/HcalOnlineDb
4 // Class : LutXml
5 //
6 // Implementation:
7 // <Notes on implementation>
8 //
9 // Original Author: Gena Kukartsev, kukarzev@fnal.gov
10 // Created: Tue Mar 18 14:30:20 CDT 2008
11 //
12 
13 #include <iostream>
14 #include <string>
15 #include <vector>
16 #include <sstream>
17 #include <iconv.h>
18 #include <sys/time.h>
19 
22 #include "md5.h"
27 
28 using namespace std;
30 
32  infotype = "LUT";
33  ieta = -1000;
34  iphi = -1000;
35  depth = -1;
36  crate = -1;
37  slot = -1;
38  topbottom = -1;
39  fiber = -1;
40  fiberchan = -1;
41  lut_type = -1;
42  creationtag = "default_tag";
43 
44  char timebuf[50];
45  time_t _time = time(nullptr);
46  strftime(timebuf, 50, "%Y-%m-%d %H:%M:%S", gmtime(&_time));
47  creationstamp = timebuf;
48 
49  formatrevision = "default_revision";
50  targetfirmware = "default_revision";
51  generalizedindex = -1;
52 }
53 
54 LutXml::LutXml() : XMLDOMBlock("CFGBrickSet", 1) { init(); }
55 
56 LutXml::LutXml(InputSource &_source) : XMLDOMBlock(_source) { init(); }
57 
59 
63 }
64 
65 void LutXml::init(void) {
66  root = XMLString::transcode("CFGBrickSet");
67  brick = XMLString::transcode("CFGBrick");
68  brickElem = nullptr;
69 }
70 
71 std::vector<unsigned int> *LutXml::getLutFast(uint32_t det_id) {
72  if (lut_map.find(det_id) != lut_map.end())
73  return &(lut_map)[det_id];
74  edm::LogError("LutXml") << "LUT not found, null pointer is returned";
75  return nullptr;
76 }
77 
78 // checksums_xml is 0 by default
79 void LutXml::addLut(LutXml::Config &_config, XMLDOMBlock *checksums_xml) {
80  DOMElement *rootElem = document->getDocumentElement();
81 
82  brickElem = document->createElement(XMLProcessor::_toXMLCh("CFGBrick"));
83  rootElem->appendChild(brickElem);
84 
85  addParameter("INFOTYPE", "string", _config.infotype);
86  addParameter("CREATIONTAG", "string", _config.creationtag);
87  addParameter("CREATIONSTAMP", "string", _config.creationstamp);
88  addParameter("FORMATREVISION", "string", _config.formatrevision);
89  addParameter("TARGETFIRMWARE", "string", _config.targetfirmware);
90  addParameter("GENERALIZEDINDEX", "int", _config.generalizedindex);
91  addParameter("CRATE", "int", _config.crate);
92  addParameter("SLOT", "int", _config.slot);
93 
94  if (checksums_xml) {
95  addParameter("CHECKSUM", "string", get_checksum(_config.lut));
96  }
97 
98  if (_config.lut_type == 1) { // linearizer LUT
99  addParameter("IETA", "int", _config.ieta);
100  addParameter("IPHI", "int", _config.iphi);
101  addParameter("TOPBOTTOM", "int", _config.topbottom);
102  addParameter("LUT_TYPE", "int", _config.lut_type);
103  addParameter("FIBER", "int", _config.fiber);
104  addParameter("FIBERCHAN", "int", _config.fiberchan);
105  addParameter("DEPTH", "int", _config.depth);
106  addData(to_string(_config.lut.size()), "hex", _config.lut);
107  } else if (_config.lut_type == 2 || _config.lut_type == 4) { // compression LUT or HE feature bit LUT
108  addParameter("IETA", "int", _config.ieta);
109  addParameter("IPHI", "int", _config.iphi);
110  addParameter("TOPBOTTOM", "int", _config.topbottom);
111  addParameter("LUT_TYPE", "int", _config.lut_type);
112  addParameter("SLB", "int", _config.fiber);
113  addParameter("SLBCHAN", "int", _config.fiberchan);
114  addData(to_string(_config.lut.size()), "hex", _config.lut);
115  } else if (_config.lut_type == 5) { // channel masks
116  addParameter("MASK_TYPE", "string", "TRIGGERCHANMASK");
117  addData(to_string(_config.mask.size()), "hex", _config.mask);
118  } else if (_config.lut_type == 6) { // adc threshold for tdc mask
119  addParameter("THRESH_TYPE", "string", "TRIGINTIME");
120  addData(to_string(_config.mask.size()), "hex", _config.mask);
121  } else if (_config.lut_type == 7) { // tdc mask
122  addParameter("TDCMAP_TYPE", "string", "TRIGINTIME");
123  addData(to_string(_config.mask.size()), "hex", _config.mask);
124  } else {
125  edm::LogError("LutXml") << "Unknown LUT type...produced XML will be incorrect";
126  }
127 
128  if (checksums_xml) {
129  add_checksum(checksums_xml->getDocument(), _config);
130  }
131 }
132 
133 template <typename T>
134 DOMElement *LutXml::addData(std::string _elements, std::string _encoding, const T &_lut) {
135  DOMElement *child = document->createElement(XMLProcessor::_toXMLCh("Data"));
136  child->setAttribute(XMLProcessor::_toXMLCh("elements"), XMLProcessor::_toXMLCh(_elements));
137  child->setAttribute(XMLProcessor::_toXMLCh("encoding"), XMLProcessor::_toXMLCh(_encoding));
138 
139  std::stringstream buf;
140 
141  for (const auto &iter : _lut) {
142  char buf2[16];
143  sprintf(buf2, "%lx", uint64_t(iter));
144  buf << buf2 << " ";
145  }
146 
147  std::string _value = buf.str();
148 
149  DOMText *data_value = document->createTextNode(XMLProcessor::_toXMLCh(_value));
150  child->appendChild(data_value);
151 
152  brickElem->appendChild(child);
153 
154  return child;
155 }
156 
157 DOMElement *LutXml::add_checksum(DOMDocument *parent, Config &config) {
158  DOMElement *child = parent->createElement(XMLProcessor::_toXMLCh("Data"));
159  child->setAttribute(XMLProcessor::_toXMLCh("crate"), XMLProcessor::_toXMLCh(config.crate));
160  child->setAttribute(XMLProcessor::_toXMLCh("slot"), XMLProcessor::_toXMLCh(config.slot));
161  child->setAttribute(XMLProcessor::_toXMLCh("fpga"), XMLProcessor::_toXMLCh(config.topbottom));
162  child->setAttribute(XMLProcessor::_toXMLCh("fiber"), XMLProcessor::_toXMLCh(config.fiber));
163  child->setAttribute(XMLProcessor::_toXMLCh("fiberchan"), XMLProcessor::_toXMLCh(config.fiberchan));
164  child->setAttribute(XMLProcessor::_toXMLCh("luttype"), XMLProcessor::_toXMLCh(config.lut_type));
165  child->setAttribute(XMLProcessor::_toXMLCh("elements"), XMLProcessor::_toXMLCh("1"));
166  child->setAttribute(XMLProcessor::_toXMLCh("encoding"), XMLProcessor::_toXMLCh("hex"));
167  DOMText *checksum_value = parent->createTextNode(XMLProcessor::_toXMLCh(get_checksum(config.lut)));
168  child->appendChild(checksum_value);
169 
170  parent->getDocumentElement()->appendChild(child);
171 
172  return child;
173 }
174 
175 DOMElement *LutXml::addParameter(std::string _name, std::string _type, std::string _value) {
176  DOMElement *child = document->createElement(XMLProcessor::_toXMLCh("Parameter"));
177  child->setAttribute(XMLProcessor::_toXMLCh("name"), XMLProcessor::_toXMLCh(_name));
178  child->setAttribute(XMLProcessor::_toXMLCh("type"), XMLProcessor::_toXMLCh(_type));
179  DOMText *parameter_value = document->createTextNode(XMLProcessor::_toXMLCh(_value));
180  child->appendChild(parameter_value);
181 
182  brickElem->appendChild(child);
183 
184  return child;
185 }
186 
187 DOMElement *LutXml::addParameter(std::string _name, std::string _type, int _value) {
188  char buf[128];
189  sprintf(buf, "%d", _value);
190  std::string str_value = buf;
191  return addParameter(_name, _type, str_value);
192 }
193 
195 
196 // do MD5 checksum
197 std::string LutXml::get_checksum(std::vector<unsigned int> &lut) {
198  std::stringstream result;
199  md5_state_t md5er;
200  md5_byte_t digest[16];
201  md5_init(&md5er);
202  // linearizer LUT:
203  if (lut.size() == 128) {
204  unsigned char tool[2];
205  for (int i = 0; i < 128; i++) {
206  tool[0] = lut[i] & 0xFF;
207  tool[1] = (lut[i] >> 8) & 0xFF;
208  md5_append(&md5er, tool, 2);
209  }
210  } else if (lut.size() == 256) {
211  unsigned char tool[2];
212  for (int i = 0; i < 256; i++) {
213  tool[0] = lut[i] & 0xFF;
214  tool[1] = (lut[i] >> 8) & 0xFF;
215  md5_append(&md5er, tool, 2);
216  }
217  }
218  // compression LUT:
219  else if (lut.size() == 1024) {
220  unsigned char tool;
221  for (int i = 0; i < 1024; i++) {
222  tool = lut[i] & 0xFF;
223  md5_append(&md5er, &tool, 1);
224  }
225  } else if (lut.size() == 2048) {
226  unsigned char tool;
227  for (int i = 0; i < 2048; i++) {
228  tool = lut[i] & 0xFF;
229  md5_append(&md5er, &tool, 1);
230  }
231  }
232  // HE fine grain LUT
233  else if (lut.size() == 4096) {
234  unsigned char tool;
235  for (int i = 0; i < 4096; i++) {
236  tool = lut[i] & 0xFF;
237  md5_append(&md5er, &tool, 1);
238  }
239  } else {
240  edm::LogError("LutXml") << "Irregular LUT size, " << lut.size()
241  << " , do not know how to compute checksum, exiting...";
242  exit(-1);
243  }
244  md5_finish(&md5er, digest);
245  for (int i = 0; i < 16; i++)
246  result << std::hex << (((int)(digest[i])) & 0xFF);
247 
248  return result.str();
249 }
250 
252  edm::LogInfo("LutXml") << "Created map size: " << lut_map.size();
253 
254  struct timeval _t;
255  gettimeofday(&_t, nullptr);
256  double _time = (double)(_t.tv_sec) + (double)(_t.tv_usec) / 1000000.0;
257 
258  HcalEmap _emap("./backup/official_emap_v6.04_080905.txt");
259  std::vector<HcalEmap::HcalEmapRow> &_map = _emap.get_map();
260  edm::LogInfo("LutXml") << "HcalEmap contains " << _map.size() << " entries";
261 
262  int _counter = 0;
263  for (std::vector<HcalEmap::HcalEmapRow>::const_iterator row = _map.begin(); row != _map.end(); ++row) {
264  if (row->subdet == "HB") {
265  HcalDetId det_id(HcalBarrel, row->ieta, row->iphi, row->idepth);
266  uint32_t raw_id = det_id.rawId();
267  std::vector<unsigned int> *l = getLutFast(raw_id);
268  if (l)
269  _counter++;
270  }
271  if (row->subdet == "HE") {
272  HcalDetId det_id(HcalEndcap, row->ieta, row->iphi, row->idepth);
273  uint32_t raw_id = det_id.rawId();
274  std::vector<unsigned int> *l = getLutFast(raw_id);
275  if (l)
276  _counter++;
277  }
278  if (row->subdet == "HF") {
279  HcalDetId det_id(HcalForward, row->ieta, row->iphi, row->idepth);
280  uint32_t raw_id = det_id.rawId();
281  std::vector<unsigned int> *l = getLutFast(raw_id);
282  if (l)
283  _counter++;
284  }
285  if (row->subdet == "HO") {
286  HcalDetId det_id(HcalOuter, row->ieta, row->iphi, row->idepth);
287  uint32_t raw_id = det_id.rawId();
288  std::vector<unsigned int> *l = getLutFast(raw_id);
289  if (l)
290  _counter++;
291  }
292  }
293  gettimeofday(&_t, nullptr);
294  edm::LogInfo("LutXml") << "access to " << _counter
295  << " HCAL channels took: " << (double)(_t.tv_sec) + (double)(_t.tv_usec) / 1000000.0 - _time
296  << "sec";
297 
298  return 0;
299 }
300 
301 HcalSubdetector LutXml::subdet_from_crate(int crate_, int slot, int fiber) {
302  // HBHE: 0,1,4,5,10,11,14,15,17 (+20)
303  // HF: 2,9,12 (+20)
304  // HO: 3,6,7,13,18 (+20)
305  int crate = crate_ < 20 ? crate_ : crate_ - 20;
306  if (crate == 2 || crate == 9 || crate == 12)
307  return HcalForward;
308  else if (crate == 3 || crate == 6 || crate == 7 || crate == 13 || crate == 18)
309  return HcalOuter;
310  else if (crate == 0 || crate == 1 || crate == 4 || crate == 5 || crate == 10 || crate == 11 || crate == 14 ||
311  crate == 15 || crate == 17) {
312  if (slot % 3 == 1)
313  return HcalBarrel;
314  else if (slot % 3 == 0)
315  return HcalEndcap;
316  else if (fiber < 12)
317  return HcalBarrel;
318  else
319  return HcalEndcap;
320  }
321  edm::LogWarning("LutXml::subdet_from_crate") << "crate " << crate_ << " is not accounted for";
322  return HcalEmpty;
323 }
324 
325 int LutXml::a_to_i(char *inbuf) {
326  int result;
327  sscanf(inbuf, "%d", &result);
328  return result;
329 }
330 
331 // organize all LUTs in XML into a map for fast access
332 //
333 // FIXME: uses hardcoded CRATE-to-subdetector mapping
334 // FIXME: it would be better to use some official map
335 //
337  //delete lut_map;
338  lut_map.clear();
339  //lut_map = new std::map<uint32_t,std::vector<unsigned int> >();
340 
341  if (document) {
342  //DOMElement * rootElem =
343  DOMNodeList *brick_list = document->getDocumentElement()->getElementsByTagName(brick);
344  int n_of_bricks = brick_list->getLength();
345  for (int i = 0; i != n_of_bricks; i++) {
346  DOMElement *aBrick = (DOMElement *)(brick_list->item(i));
347  DOMNodeList *par_list = aBrick->getElementsByTagName(XMLString::transcode("Parameter"));
348  int n_of_par = par_list->getLength();
349  int ieta = -99;
350  int iphi = -99;
351  int depth = -99;
352  int crate = -99;
353  int slot = -99;
354  int fiber = -99;
355  int lut_type = -99;
356  int slb = -99;
357  HcalSubdetector subdet;
358  for (int j = 0; j != n_of_par; j++) {
359  DOMElement *aPar = (DOMElement *)(par_list->item(j));
360  char *aName = XMLString::transcode(aPar->getAttribute(XMLProcessor::_toXMLCh("name")));
361  if (strcmp(aName, "IETA") == 0)
362  ieta = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
363  if (strcmp(aName, "IPHI") == 0)
364  iphi = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
365  if (strcmp(aName, "DEPTH") == 0)
366  depth = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
367  if (strcmp(aName, "CRATE") == 0)
368  crate = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
369  if (strcmp(aName, "SLOT") == 0)
370  slot = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
371  if (strcmp(aName, "FIBER") == 0)
372  fiber = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
373  if (strcmp(aName, "LUT_TYPE") == 0)
374  lut_type = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
375  if (strcmp(aName, "SLB") == 0)
376  slb = a_to_i(XMLString::transcode(aPar->getFirstChild()->getNodeValue()));
377  }
378  subdet = subdet_from_crate(crate, slot, fiber);
379  DOMElement *_data = (DOMElement *)(aBrick->getElementsByTagName(XMLString::transcode("Data"))->item(0));
380  char *_str = XMLString::transcode(_data->getFirstChild()->getNodeValue());
381 
382  // get the LUT vector
383  int _string_length = strlen(_str);
384  std::vector<unsigned int> _lut;
385  unsigned int _base = 16;
386  unsigned int _item = 0;
387  for (int i = 0; i != _string_length; i++) {
388  bool _range = false;
389  char ch_cur = _str[i];
390  if (_base == 16)
391  _range = (ch_cur >= '0' and ch_cur <= '9') || (ch_cur >= 'a' and ch_cur <= 'f') ||
392  (ch_cur >= 'A' and ch_cur <= 'F');
393  else if (_base == 10)
394  _range = (ch_cur >= '0' and ch_cur <= '9');
395  if (_range) {
396  if (ch_cur >= 'a' and ch_cur <= 'f')
397  ch_cur += 10 - 'a';
398  else if (ch_cur >= 'A' and ch_cur <= 'F')
399  ch_cur += 10 - 'A';
400  else if (ch_cur >= '0' and ch_cur <= '9')
401  ch_cur += -'0';
402  _item = _item * _base;
403  _item += ch_cur;
404  bool last_digit = false;
405  if ((i + 1) == _string_length)
406  last_digit = true;
407  else {
408  char ch_next = _str[i + 1];
409  bool _range_next = false;
410  if (_base == 16)
411  _range_next = (ch_next >= '0' and ch_next <= '9') || (ch_next >= 'a' and ch_next <= 'f') ||
412  (ch_next >= 'A' and ch_next <= 'F');
413  else if (_base == 10)
414  _range_next = (ch_next >= '0' and ch_next <= '9');
415  if (!_range_next)
416  last_digit = true;
417  }
418  if (last_digit) {
419  _lut.push_back(_item);
420  _item = 0;
421  }
422  }
423  }
424  // filling the map
425  uint32_t _key = 0;
426  if (lut_type == 1) {
427  HcalDetId _id(subdet, ieta, iphi, depth);
428  _key = _id.rawId();
429  } else if (lut_type == 2) {
430  int version = (abs(ieta) > 29 && slb != 12 && crate > 20) ? 1 : 0;
431  HcalTrigTowerDetId _id(ieta, iphi, 10 * version);
432  _key = _id.rawId();
433  } else
434  continue;
435  lut_map.insert(std::pair<uint32_t, std::vector<unsigned int> >(_key, _lut));
436  }
437  } else {
438  edm::LogError("LutXml") << "XML file with LUTs is not loaded, cannot create map!";
439  }
440 
441  return 0;
442 }
443 
444 LutXml::const_iterator LutXml::begin() const { return lut_map.begin(); }
445 
446 LutXml::const_iterator LutXml::end() const { return lut_map.end(); }
447 
448 LutXml::const_iterator LutXml::find(uint32_t id) const { return lut_map.find(id); }
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