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cmsHarvester Namespace Reference

Classes

class  CMSHarvester
 CMSHarvester class. More...
 
class  CMSHarvesterHelpFormatter
 Helper class: CMSHarvesterHelpFormatter. More...
 
class  DBSXMLHandler
 Helper class: DBSXMLHandler. More...
 
class  Error
 Helper class: Error exception. More...
 
class  Usage
 Helper class: Usage exception. More...
 

Functions

def build_dataset_ignore_list
 
def build_dataset_list
 def dbs_check_dataset_num_events(self, dataset_name): """Figure out the number of events in each run of this dataset. More...
 
def build_dataset_use_list
 
def build_datasets_information
 
def build_runs_ignore_list
 
def build_runs_list
 
def build_runs_use_list
 
def check_cmssw
 
def check_dataset_list
 
def check_dbs
 
def check_globaltag
 
def check_globaltag_contains_ref_hist_key
 
def check_globaltag_exists
 
def check_input_status
 
def check_ref_hist_mappings
 
def check_ref_hist_tag
 
def create_and_check_castor_dir
 
def create_and_check_castor_dirs
 
def create_castor_path_name_common
 
def create_castor_path_name_special
 
def create_config_file_name
 
def create_crab_config
 
def create_es_prefer_snippet
 
def create_harvesting_config
 
def create_harvesting_config_file_name
 
def create_harvesting_output_file_name
 
def create_me_extraction_config
 
More...
 
def create_me_summary_config_file_name
 
def create_me_summary_output_file_name
 
def create_multicrab_block_name
 
def create_multicrab_config
 
def create_output_file_name
 
def dbs_check_dataset_spread
 def dbs_resolve_dataset_number_of_sites(self, dataset_name): """Ask DBS across how many sites this dataset has been spread out. More...
 
def dbs_resolve_cmssw_version
 
def dbs_resolve_dataset_name
 
def dbs_resolve_datatype
 
def dbs_resolve_globaltag
 
def dbs_resolve_number_of_events
 
def dbs_resolve_runs
 def dbs_resolve_dataset_number_of_events(self, dataset_name): """Ask DBS across how many events this dataset has been spread out. More...
 
def escape_dataset_name
 
def load_ref_hist_mappings
 
def option_handler_caf_access
 
def option_handler_castor_dir
 def option_handler_dataset_name(self, option, opt_str, value, parser): """Specify the name(s) of the dataset(s) to be processed. More...
 
def option_handler_crab_submission
 
def option_handler_list_types
 
def option_handler_no_t1access
 
def option_handler_preferred_site
 
def option_handler_saveByLumiSection
 
def option_handler_sites
 
def parse_cmd_line_options
 
def pick_a_site
 
def process_dataset_ignore_list
 
def process_runs_use_and_ignore_lists
 
def ref_hist_mappings_needed
 
def run
 
def setup_dbs
 

Now we try to do a very simple DBS search.

More...
 
def setup_harvesting_info
 
def show_exit_message
 
def singlify_datasets
 
def write_crab_config
 def create_harvesting_config(self, dataset_name): """Create the Python harvesting configuration for a given job. More...
 
def write_harvesting_config
 
def write_me_extraction_config
 
def write_multicrab_config
 

Variables

string __author__ = "Jeroen Hegeman (jeroen.hegeman@cern.ch),"
 
string __version__ = "3.8.2p1"
 File : cmsHarvest.py Authors : Jeroen Hegeman (jeroe.nosp@m.n.he.nosp@m.geman.nosp@m.@cer.nosp@m.n.ch) Niklas Pietsch (nikla.nosp@m.s.pi.nosp@m.etsch.nosp@m.@des.nosp@m.y.de) Franseco Costanza (franc.nosp@m.esco.nosp@m..cost.nosp@m.anza.nosp@m.@desy.nosp@m..de) Last change: 20100308. More...
 
string action = "callback"
 
list all_file_names = files_info[run_number]
 
list all_t1
 
 caf_access
 
 callback = self.option_handler_input_Jsonrunfile,
 
 castor_base_dir
 
list castor_dir = self.datasets_information[dataset_name]
 

CRAB

More...
 
tuple castor_path_common = self.create_castor_path_name_common(dataset_name)
 

DEBUG DEBUG DEBUG

This is probably only useful to make sure we don't muck

things up, right?

Figure out across how many sites this sample has been spread.

More...
 
tuple castor_paths
 
 castor_prefix = self.castor_prefix
 
string cmd = "rfstat %s"
 self.logger.debug("Path is now `%s'" % \ path) More...
 
list cmssw_version = self.datasets_information[dataset_name]
 
list complete_sites
 site_names_ref = set(files_info[run_number].values()[0][1]) for site_names_tmp in files_info[run_number].values()[1:]: if set(site_names_tmp[1]) != site_names_ref: mirrored = False break More...
 
tuple config_builder = ConfigBuilder(config_options, with_input=True)
 
 config_contents = config_builder.pythonCfgCode
 

In case this file is the second step (the real harvesting

step) of the two-step harvesting we have to tell it to use

our local files.

More...
 
tuple config_file_name = self.create_me_summary_config_file_name(dataset_name)
 

Only add the alarming piece to the file name if this is

a spread-out dataset.

More...
 
list connect_name = self.frontier_connection_name["globaltag"]
 
dictionary country_codes
 
string crab_config = "\n"
 

CRAB

More...
 
 crab_submission
 
list customisations = [""]
 
tuple dataset_name_escaped = self.escape_dataset_name(dataset_name)
 
tuple dataset_names = self.datasets_to_use.keys()
 
 dataset_names_after_checks = dataset_names_after_checks_tmp
 
tuple dataset_names_after_checks_tmp = copy.deepcopy(dataset_names_after_checks)
 
 datasets_information
 
 datasets_to_ignore
 
 datasets_to_use
 
list datatype = self.datasets_information[dataset_name]
 
 dbs_api
 
tuple empty_runs = dict(tmp)
 
tuple es_prefer_snippet = self.create_es_prefer_snippet(dataset_name)
 
int exit_code = 1
 
list file_name = handler.results["file.name"]
 
list files_at_site
 
dictionary files_info = {}
 
list files_without_sites
 
list globaltag = self.datasets_information[dataset_name]
 
 harvesting_info
 
 harvesting_mode
 
 harvesting_type
 
string help = "Jsonfile containing dictionary of run/lumisections pairs. "
 
string index = "site_%02d"
 
 Jsonfilename
 
 Jsonlumi
 
int loop = 0
 

CMSSW

More...
 
string marker = "\n"
 
list marker_lines = []
 
string metavar = "JSONRUNFILE"
 
 mirrored = None
 
string msg = "Could not create directory `%s'"
 class Handler(xml.sax.handler.ContentHandler): def startElement(self, name, attrs): if name == "result": site_name = str(attrs["STORAGEELEMENT_SENAME"])

TODO TODO TODO

Ugly hack to get around cases like this:

$ dbs search –query="find dataset, site, file.count where dataset=/RelValQCD_Pt_3000_3500/CMSSW_3_3_0_pre1-STARTUP31X_V4-v1/GEN-SIM-RECO"

Using DBS instance at: http://cmsdbsprod.cern.ch/cms_dbs_prod_global/servlet/DBSServlet

Processing ...

More...
 
tuple multicrab_block_name
 
string multicrab_config = "\n"
 
list multicrab_config_lines = []
 
tuple nevents = int(handler.results["file.numevents"][index])
 
 non_t1access
 
 nr_max_sites
 
dictionary num_events_catalog = {}
 
tuple num_events_dataset = sum(tmp)
 
tuple num_sites
 
               if self.datasets_information[dataset_name]["num_events"][run_number] != 0:
                   pdb.set_trace()

DEBUG DEBUG DEBUG end More...

 
int number_max_sites = self.nr_max_sites+1
 
 option_parser
 
 output_file_name = self.\
 
tuple path = os.path.join(path, piece)
 else:

Piece not in the list, fine.

More...
 
tuple permissions = extract_permissions(output)
 
list permissions_new = []
 
string permissions_target = "775"
 
 preferred_site
 
 ref_hist_mappings_file_name
 
tuple run_number = int(handler.results["run.number"][index])
 
list runs = self.datasets_to_use[dataset_name]
 
 runs_to_ignore
 
 runs_to_use
 
 saveByLumiSection
 
tuple se_name = choice(t1_sites)
 
string sep = "#"
 
 site_name = None
 
tuple site_names = list(set([j for i in files_info[run_number].values() for j in i[1]]))
 
list sites = [self.preferred_site]
 
list sites_forbidden = []
 
list sites_with_complete_copies = []
 
 skip_this_path_piece = True
 self.logger.debug("Checking CASTOR path piece `%s'" % \ piece) More...
 
list t1_sites = []
 
list tmp
 

TODO TODO TODO

Need to think about where this should go, but

somewhere we have to move over the fact that we want

to process all runs for each dataset that we're

considering.

More...
 
tuple traceback_string = traceback.format_exc()
 
string twiki_url = "https://twiki.cern.ch/twiki/bin/view/CMS/CmsHarvester"
 
string type = "string"
 
tuple use_es_prefer = (self.harvesting_type == "RelVal")
 
 use_refs = use_es_preferor\
 
 UserName = output
 
 workflow_name = dataset_name
 

Function Documentation

def cmsHarvester.build_dataset_ignore_list (   self)
Build a list of datasets to ignore.

NOTE: We should always have a list of datasets to process, but
it may be that we don't have a list of datasets to ignore.

Definition at line 3444 of file cmsHarvester.py.

3445  def build_dataset_ignore_list(self):
3446  """Build a list of datasets to ignore.
3447 
3448  NOTE: We should always have a list of datasets to process, but
3449  it may be that we don't have a list of datasets to ignore.
3450 
3451  """
3452 
3453  self.logger.info("Building list of datasets to ignore...")
3454 
3455  input_method = self.input_method["datasets"]["ignore"]
3456  input_name = self.input_name["datasets"]["ignore"]
3457  dataset_names = self.build_dataset_list(input_method,
3458  input_name)
3459  self.datasets_to_ignore = dict(zip(dataset_names,
3460  [None] * len(dataset_names)))
3461 
3462  self.logger.info(" found %d dataset(s) to ignore:" % \
3463  len(dataset_names))
3464  for dataset in dataset_names:
3465  self.logger.info(" `%s'" % dataset)
3466 
3467  # End of build_dataset_ignore_list.
def build_dataset_ignore_list
def cmsHarvester.build_dataset_list (   self,
  input_method,
  input_name 
)

def dbs_check_dataset_num_events(self, dataset_name): """Figure out the number of events in each run of this dataset.

     This is a more efficient way of doing this than calling
    dbs_resolve_number_of_events for each run.         # BUG BUG BUG

This might very well not work at all for spread-out samples. (?)

BUG BUG BUG end

""" # DEBUG DEBUG DEBUG

If we get here DBS should have been set up already.

assert not self.dbs_api is None

DEBUG DEBUG DEBUG end

api = self.dbs_api dbs_query = "find run.number, file.name, file.numevents where dataset = %s " \ "and dataset.status = VALID" % \ dataset_name try: api_result = api.executeQuery(dbs_query) except DbsApiException: msg = "ERROR: Could not execute DBS query" self.logger.fatal(msg) raise Error(msg) try: files_info = {} class Handler(xml.sax.handler.ContentHandler): def startElement(self, name, attrs): if name == "result": run_number = int(attrs["RUNS_RUNNUMBER"]) file_name = str(attrs["FILES_LOGICALFILENAME"]) nevents = int(attrs["FILES_NUMBEROFEVENTS"]) try: files_info[run_number][file_name] = nevents except KeyError: files_info[run_number] = {file_name: nevents} xml.sax.parseString(api_result, Handler()) except SAXParseException: msg = "ERROR: Could not parse DBS server output" self.logger.fatal(msg) raise Error(msg) num_events_catalog = {} for run_number in files_info.keys(): num_events_catalog[run_number] = sum(files_info[run_number].values()) # End of dbs_check_dataset_num_events. return num_events_catalog End of old version.

Build a list of all datasets to be processed.

Definition at line 3357 of file cmsHarvester.py.

References dbs_resolve_dataset_name(), and list().

3358  def build_dataset_list(self, input_method, input_name):
3359  """Build a list of all datasets to be processed.
3360 
3361  """
3362 
3363  dataset_names = []
3364 
3365  # It may be, but only for the list of datasets to ignore, that
3366  # the input method and name are None because nothing was
3367  # specified. In that case just an empty list is returned.
3368  if input_method is None:
3369  pass
3370  elif input_method == "dataset":
3371  # Input comes from a dataset name directly on the command
3372  # line. But, this can also contain wildcards so we need
3373  # DBS to translate it conclusively into a list of explicit
3374  # dataset names.
3375  self.logger.info("Asking DBS for dataset names")
3376  dataset_names = self.dbs_resolve_dataset_name(input_name)
3377  elif input_method == "datasetfile":
3378  # In this case a file containing a list of dataset names
3379  # is specified. Still, each line may contain wildcards so
3380  # this step also needs help from DBS.
3381  # NOTE: Lines starting with a `#' are ignored.
3382  self.logger.info("Reading input from list file `%s'" % \
3383  input_name)
3384  try:
3385  listfile = open("/afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/harvesting/bin/%s" %input_name, "r")
3386  print "open listfile"
3387  for dataset in listfile:
3388  # Skip empty lines.
3389  dataset_stripped = dataset.strip()
3390  if len(dataset_stripped) < 1:
3391  continue
3392  # Skip lines starting with a `#'.
3393  if dataset_stripped[0] != "#":
3394  dataset_names.extend(self. \
3395  dbs_resolve_dataset_name(dataset_stripped))
3396  listfile.close()
3397  except IOError:
3398  msg = "ERROR: Could not open input list file `%s'" % \
3399  input_name
3400  self.logger.fatal(msg)
3401  raise Error(msg)
3402  else:
3403  # DEBUG DEBUG DEBUG
3404  # We should never get here.
3405  assert False, "Unknown input method `%s'" % input_method
3406  # DEBUG DEBUG DEBUG end
3407 
3408  # Remove duplicates from the dataset list.
3409  # NOTE: There should not be any duplicates in any list coming
3410  # from DBS, but maybe the user provided a list file with less
3411  # care.
3412  dataset_names = list(set(dataset_names))
3413 
3414  # Store for later use.
3415  dataset_names.sort()
3416 
3417  # End of build_dataset_list.
3418  return dataset_names
Helper class: Error exception.
def build_dataset_list
def dbs_check_dataset_num_events(self, dataset_name): &quot;&quot;"Figure out the number of events in each run ...
def dbs_resolve_dataset_name
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
def cmsHarvester.build_dataset_use_list (   self)
Build a list of datasets to process.

Definition at line 3421 of file cmsHarvester.py.

3422  def build_dataset_use_list(self):
3423  """Build a list of datasets to process.
3424 
3425  """
3426 
3427  self.logger.info("Building list of datasets to consider...")
3428 
3429  input_method = self.input_method["datasets"]["use"]
3430  input_name = self.input_name["datasets"]["use"]
3431  dataset_names = self.build_dataset_list(input_method,
3432  input_name)
3433  self.datasets_to_use = dict(zip(dataset_names,
3434  [None] * len(dataset_names)))
3435 
3436  self.logger.info(" found %d dataset(s) to process:" % \
3437  len(dataset_names))
3438  for dataset in dataset_names:
3439  self.logger.info(" `%s'" % dataset)
3440 
3441  # End of build_dataset_use_list.
def build_dataset_use_list
def cmsHarvester.build_datasets_information (   self)
Obtain all information on the datasets that we need to run.

Use DBS to figure out all required information on our
datasets, like the run numbers and the GlobalTag. All
information is stored in the datasets_information member
variable.

Definition at line 5322 of file cmsHarvester.py.

5323  def build_datasets_information(self):
5324  """Obtain all information on the datasets that we need to run.
5325 
5326  Use DBS to figure out all required information on our
5327  datasets, like the run numbers and the GlobalTag. All
5328  information is stored in the datasets_information member
5329  variable.
5330 
5331  """
5332 
5333  # Get a list of runs in the dataset.
5334  # NOTE: The harvesting has to be done run-by-run, so we
5335  # split up datasets based on the run numbers. Strictly
5336  # speaking this is not (yet?) necessary for Monte Carlo
5337  # since all those samples use run number 1. Still, this
5338  # general approach should work for all samples.
5339 
5340  # Now loop over all datasets in the list and process them.
5341  # NOTE: This processing has been split into several loops
5342  # to be easier to follow, sacrificing a bit of efficiency.
5343  self.datasets_information = {}
5344  self.logger.info("Collecting information for all datasets to process")
5345  dataset_names = self.datasets_to_use.keys()
5346  dataset_names.sort()
5347  for dataset_name in dataset_names:
5348 
5349  # Tell the user which dataset: nice with many datasets.
5350  sep_line = "-" * 30
5351  self.logger.info(sep_line)
5352  self.logger.info(" `%s'" % dataset_name)
5353  self.logger.info(sep_line)
5354 
5355  runs = self.dbs_resolve_runs(dataset_name)
5356  self.logger.info(" found %d run(s)" % len(runs))
5357  if len(runs) > 0:
5358  self.logger.debug(" run number(s): %s" % \
5359  ", ".join([str(i) for i in runs]))
5360  else:
5361  # DEBUG DEBUG DEBUG
5362  # This should never happen after the DBS checks.
5363  self.logger.warning(" --> skipping dataset "
5364  "without any runs")
5365  assert False, "Panic: found a dataset without runs " \
5366  "after DBS checks!"
5367  # DEBUG DEBUG DEBUG end
5368 
5369  cmssw_version = self.dbs_resolve_cmssw_version(dataset_name)
5370  self.logger.info(" found CMSSW version `%s'" % cmssw_version)
5371 
5372  # Figure out if this is data or MC.
5373  datatype = self.dbs_resolve_datatype(dataset_name)
5374  self.logger.info(" sample is data or MC? --> %s" % \
5375  datatype)
5376 
5377  ###
5378 
5379  # Try and figure out the GlobalTag to be used.
5380  if self.globaltag is None:
5381  globaltag = self.dbs_resolve_globaltag(dataset_name)
5382  else:
5383  globaltag = self.globaltag
5384 
5385  self.logger.info(" found GlobalTag `%s'" % globaltag)
5386 
5387  # DEBUG DEBUG DEBUG
5388  if globaltag == "":
5389  # Actually we should not even reach this point, after
5390  # our dataset sanity checks.
5391  assert datatype == "data", \
5392  "ERROR Empty GlobalTag for MC dataset!!!"
5393  # DEBUG DEBUG DEBUG end
5394 
5395  ###
5396 
5397  # DEBUG DEBUG DEBUG
5398  #tmp = self.dbs_check_dataset_spread_old(dataset_name)
5399  # DEBUG DEBUG DEBUG end
5400  sites_catalog = self.dbs_check_dataset_spread(dataset_name)
5401 
5402  # Extract the total event counts.
5403  num_events = {}
5404  for run_number in sites_catalog.keys():
5405  num_events[run_number] = sites_catalog \
5406  [run_number]["all_sites"]
5407  del sites_catalog[run_number]["all_sites"]
5408 
5409  # Extract the information about whether or not datasets
5410  # are mirrored.
5411  mirror_catalog = {}
5412  for run_number in sites_catalog.keys():
5413  mirror_catalog[run_number] = sites_catalog \
5414  [run_number]["mirrored"]
5415  del sites_catalog[run_number]["mirrored"]
5416 
5417  # BUG BUG BUG
5418  # I think I could now get rid of that and just fill the
5419  # "sites" entry with the `inverse' of this
5420  # num_events_catalog(?).
5421  #num_sites = self.dbs_resolve_dataset_number_of_sites(dataset_name)
5422  #sites_catalog = self.dbs_check_dataset_spread(dataset_name)
5423  #sites_catalog = dict(zip(num_events_catalog.keys(),
5424  # [[j for i in num_events_catalog.values() for j in i.keys()]]))
5425  # BUG BUG BUG end
def build_datasets_information
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def cmsHarvester.build_runs_ignore_list (   self)
Build a list of runs to ignore.

NOTE: We should always have a list of runs to process, but
it may be that we don't have a list of runs to ignore.

Definition at line 3542 of file cmsHarvester.py.

3543  def build_runs_ignore_list(self):
3544  """Build a list of runs to ignore.
3545 
3546  NOTE: We should always have a list of runs to process, but
3547  it may be that we don't have a list of runs to ignore.
3548 
3549  """
3550 
3551  self.logger.info("Building list of runs to ignore...")
3552 
3553  input_method = self.input_method["runs"]["ignore"]
3554  input_name = self.input_name["runs"]["ignore"]
3555  runs = self.build_runs_list(input_method, input_name)
3556  self.runs_to_ignore = dict(zip(runs, [None] * len(runs)))
3557 
3558  self.logger.info(" found %d run(s) to ignore:" % \
3559  len(runs))
3560  if len(runs) > 0:
3561  self.logger.info(" %s" % ", ".join([str(i) for i in runs]))
3562 
3563  # End of build_runs_ignore_list().
def build_runs_ignore_list
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def cmsHarvester.build_runs_list (   self,
  input_method,
  input_name 
)

Definition at line 3470 of file cmsHarvester.py.

References list().

3471  def build_runs_list(self, input_method, input_name):
3472 
3473  runs = []
3474 
3475  # A list of runs (either to use or to ignore) is not
3476  # required. This protects against `empty cases.'
3477  if input_method is None:
3478  pass
3479  elif input_method == "runs":
3480  # A list of runs was specified directly from the command
3481  # line.
3482  self.logger.info("Reading list of runs from the " \
3483  "command line")
3484  runs.extend([int(i.strip()) \
3485  for i in input_name.split(",") \
3486  if len(i.strip()) > 0])
3487  elif input_method == "runslistfile":
3488  # We were passed a file containing a list of runs.
3489  self.logger.info("Reading list of runs from file `%s'" % \
3490  input_name)
3491  try:
3492  listfile = open(input_name, "r")
3493  for run in listfile:
3494  # Skip empty lines.
3495  run_stripped = run.strip()
3496  if len(run_stripped) < 1:
3497  continue
3498  # Skip lines starting with a `#'.
3499  if run_stripped[0] != "#":
3500  runs.append(int(run_stripped))
3501  listfile.close()
3502  except IOError:
3503  msg = "ERROR: Could not open input list file `%s'" % \
3504  input_name
3505  self.logger.fatal(msg)
3506  raise Error(msg)
3507 
3508  else:
3509  # DEBUG DEBUG DEBUG
3510  # We should never get here.
3511  assert False, "Unknown input method `%s'" % input_method
3512  # DEBUG DEBUG DEBUG end
3513 
3514  # Remove duplicates, sort and done.
3515  runs = list(set(runs))
3516 
3517  # End of build_runs_list().
3518  return runs
Helper class: Error exception.
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
def cmsHarvester.build_runs_use_list (   self)
Build a list of runs to process.

Definition at line 3521 of file cmsHarvester.py.

3522  def build_runs_use_list(self):
3523  """Build a list of runs to process.
3524 
3525  """
3526 
3527  self.logger.info("Building list of runs to consider...")
3528 
3529  input_method = self.input_method["runs"]["use"]
3530  input_name = self.input_name["runs"]["use"]
3531  runs = self.build_runs_list(input_method, input_name)
3532  self.runs_to_use = dict(zip(runs, [None] * len(runs)))
3533 
3534  self.logger.info(" found %d run(s) to process:" % \
3535  len(runs))
3536  if len(runs) > 0:
3537  self.logger.info(" %s" % ", ".join([str(i) for i in runs]))
3538 
3539  # End of build_runs_list().
def build_runs_use_list
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def cmsHarvester.check_cmssw (   self)
Check if CMSSW is setup.

Definition at line 2332 of file cmsHarvester.py.

2333  def check_cmssw(self):
2334  """Check if CMSSW is setup.
2335 
2336  """
2337 
2338  # Try to access the CMSSW_VERSION environment variable. If
2339  # it's something useful we consider CMSSW to be set up
2340  # properly. Otherwise we raise an error.
2341  cmssw_version = os.getenv("CMSSW_VERSION")
2342  if cmssw_version is None:
2343  self.logger.fatal("It seems CMSSW is not setup...")
2344  self.logger.fatal("($CMSSW_VERSION is empty)")
2345  raise Error("ERROR: CMSSW needs to be setup first!")
2346 
2347  self.cmssw_version = cmssw_version
2348  self.logger.info("Found CMSSW version %s properly set up" % \
2349  self.cmssw_version)
2350 
2351  # End of check_cmsssw.
2352  return True
Helper class: Error exception.
def cmsHarvester.check_dataset_list (   self)
Check list of dataset names for impossible ones.

Two kinds of checks are done:
- Checks for things that do not make sense. These lead to
  errors and skipped datasets.
- Sanity checks. For these warnings are issued but the user is
  considered to be the authoritative expert.

Checks performed:
- The CMSSW version encoded in the dataset name should match
  self.cmssw_version. This is critical.
- There should be some events in the dataset/run. This is
  critical in the sense that CRAB refuses to create jobs for
  zero events. And yes, this does happen in practice. E.g. the
  reprocessed CRAFT08 datasets contain runs with zero events.
- A cursory check is performed to see if the harvesting type
  makes sense for the data type. This should prevent the user
  from inadvertently running RelVal for data.
- It is not possible to run single-step harvesting jobs on
  samples that are not fully contained at a single site.
- Each dataset/run has to be available at at least one site.

Definition at line 3795 of file cmsHarvester.py.

3796  def check_dataset_list(self):
3797  """Check list of dataset names for impossible ones.
3798 
3799  Two kinds of checks are done:
3800  - Checks for things that do not make sense. These lead to
3801  errors and skipped datasets.
3802  - Sanity checks. For these warnings are issued but the user is
3803  considered to be the authoritative expert.
3804 
3805  Checks performed:
3806  - The CMSSW version encoded in the dataset name should match
3807  self.cmssw_version. This is critical.
3808  - There should be some events in the dataset/run. This is
3809  critical in the sense that CRAB refuses to create jobs for
3810  zero events. And yes, this does happen in practice. E.g. the
3811  reprocessed CRAFT08 datasets contain runs with zero events.
3812  - A cursory check is performed to see if the harvesting type
3813  makes sense for the data type. This should prevent the user
3814  from inadvertently running RelVal for data.
3815  - It is not possible to run single-step harvesting jobs on
3816  samples that are not fully contained at a single site.
3817  - Each dataset/run has to be available at at least one site.
3818 
3819  """
3820 
3821  self.logger.info("Performing sanity checks on dataset list...")
3822 
3823  dataset_names_after_checks = copy.deepcopy(self.datasets_to_use)
3824 
3825  for dataset_name in self.datasets_to_use.keys():
3826 
3827  # Check CMSSW version.
3828  version_from_dataset = self.datasets_information[dataset_name] \
3829  ["cmssw_version"]
3830  if version_from_dataset != self.cmssw_version:
3831  msg = " CMSSW version mismatch for dataset `%s' " \
3832  "(%s vs. %s)" % \
3833  (dataset_name,
3834  self.cmssw_version, version_from_dataset)
3835  if self.force_running:
3836  # Expert mode: just warn, then continue.
3837  self.logger.warning("%s " \
3838  "--> `force mode' active: " \
3839  "run anyway" % msg)
3840  else:
3841  del dataset_names_after_checks[dataset_name]
3842  self.logger.warning("%s " \
3843  "--> skipping" % msg)
3844  continue
3845 
3846  ###
3847 
3848  # Check that the harvesting type makes sense for the
3849  # sample. E.g. normally one would not run the DQMOffline
3850  # harvesting on Monte Carlo.
3851  # TODO TODO TODO
3852  # This should be further refined.
3853  suspicious = False
3854  datatype = self.datasets_information[dataset_name]["datatype"]
3855  if datatype == "data":
3856  # Normally only DQM harvesting is run on data.
3857  if self.harvesting_type != "DQMOffline":
3858  suspicious = True
3859  elif datatype == "mc":
3860  if self.harvesting_type == "DQMOffline":
3861  suspicious = True
3862  else:
3863  # Doh!
3864  assert False, "ERROR Impossible data type `%s' " \
3865  "for dataset `%s'" % \
3866  (datatype, dataset_name)
3867  if suspicious:
3868  msg = " Normally one does not run `%s' harvesting " \
3869  "on %s samples, are you sure?" % \
3870  (self.harvesting_type, datatype)
3871  if self.force_running:
3872  self.logger.warning("%s " \
3873  "--> `force mode' active: " \
3874  "run anyway" % msg)
3875  else:
3876  del dataset_names_after_checks[dataset_name]
3877  self.logger.warning("%s " \
3878  "--> skipping" % msg)
3879  continue
3880 
3881  # TODO TODO TODO end
3882 
3883  ###
3884 
3885  # BUG BUG BUG
3886  # For the moment, due to a problem with DBS, I cannot
3887  # figure out the GlobalTag for data by myself. (For MC
3888  # it's no problem.) This means that unless a GlobalTag was
3889  # specified from the command line, we will have to skip
3890  # any data datasets.
3891 
3892  if datatype == "data":
3893  if self.globaltag is None:
3894  msg = "For data datasets (like `%s') " \
3895  "we need a GlobalTag" % \
3896  dataset_name
3897  del dataset_names_after_checks[dataset_name]
3898  self.logger.warning("%s " \
3899  "--> skipping" % msg)
3900  continue
3901 
3902  # BUG BUG BUG end
3903 
3904  ###
3905 
3906  # Check if the GlobalTag exists and (if we're using
3907  # reference histograms) if it's ready to be used with
3908  # reference histograms.
3909  globaltag = self.datasets_information[dataset_name]["globaltag"]
3910  if not globaltag in self.globaltag_check_cache:
3911  if self.check_globaltag(globaltag):
3912  self.globaltag_check_cache.append(globaltag)
3913  else:
3914  msg = "Something is wrong with GlobalTag `%s' " \
3915  "used by dataset `%s'!" % \
3916  (globaltag, dataset_name)
3917  if self.use_ref_hists:
3918  msg += "\n(Either it does not exist or it " \
3919  "does not contain the required key to " \
3920  "be used with reference histograms.)"
3921  else:
3922  msg += "\n(It probably just does not exist.)"
3923  self.logger.fatal(msg)
3924  raise Usage(msg)
3925 
3926  ###
3927 
3928  # Require that each run is available at least somewhere.
3929  runs_without_sites = [i for (i, j) in \
3930  self.datasets_information[dataset_name] \
3931  ["sites"].items() \
3932  if len(j) < 1 and \
3933  i in self.datasets_to_use[dataset_name]]
3934  if len(runs_without_sites) > 0:
3935  for run_without_sites in runs_without_sites:
3936  try:
3937  dataset_names_after_checks[dataset_name].remove(run_without_sites)
3938  except KeyError:
3939  pass
3940  self.logger.warning(" removed %d unavailable run(s) " \
3941  "from dataset `%s'" % \
3942  (len(runs_without_sites), dataset_name))
3943  self.logger.debug(" (%s)" % \
3944  ", ".join([str(i) for i in \
3945  runs_without_sites]))
3946 
3947  ###
3948 
3949  # Unless we're running two-step harvesting: only allow
3950  # samples located on a single site.
3951  if not self.harvesting_mode == "two-step":
3952  for run_number in self.datasets_to_use[dataset_name]:
# DEBUG DEBUG DEBUG
def check_dataset_list
Helper class: Usage exception.
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def cmsHarvester.check_dbs (   self)
Check if DBS is setup.

Definition at line 2355 of file cmsHarvester.py.

2356  def check_dbs(self):
2357  """Check if DBS is setup.
2358 
2359  """
2360 
2361  # Try to access the DBSCMD_HOME environment variable. If this
2362  # looks useful we consider DBS to be set up
2363  # properly. Otherwise we raise an error.
2364  dbs_home = os.getenv("DBSCMD_HOME")
2365  if dbs_home is None:
2366  self.logger.fatal("It seems DBS is not setup...")
2367  self.logger.fatal(" $DBSCMD_HOME is empty")
2368  raise Error("ERROR: DBS needs to be setup first!")
Helper class: Error exception.
def cmsHarvester.check_globaltag (   self,
  globaltag = None 
)
Check if globaltag exists.

Check if globaltag exists as GlobalTag in the database given
by self.frontier_connection_name['globaltag']. If globaltag is
None, self.globaltag is used instead.

If we're going to use reference histograms this method also
checks for the existence of the required key in the GlobalTag.

Definition at line 4502 of file cmsHarvester.py.

4503  def check_globaltag(self, globaltag=None):
4504  """Check if globaltag exists.
4505 
4506  Check if globaltag exists as GlobalTag in the database given
4507  by self.frontier_connection_name['globaltag']. If globaltag is
4508  None, self.globaltag is used instead.
4509 
4510  If we're going to use reference histograms this method also
4511  checks for the existence of the required key in the GlobalTag.
4512 
4513  """
4514 
4515  if globaltag is None:
4516  globaltag = self.globaltag
4517 
4518  # All GlobalTags should end in `::All', right?
4519  if globaltag.endswith("::All"):
4520  globaltag = globaltag[:-5]
4521 
4522  connect_name = self.frontier_connection_name["globaltag"]
4523  # BUG BUG BUG
4524  # There is a bug in cmscond_tagtree_list: some magic is
4525  # missing from the implementation requiring one to specify
4526  # explicitly the name of the squid to connect to. Since the
4527  # cmsHarvester can only be run from the CERN network anyway,
4528  # cmsfrontier:8000 is hard-coded in here. Not nice but it
4529  # works.
4530  connect_name = connect_name.replace("frontier://",
4531  "frontier://cmsfrontier:8000/")
4532  # BUG BUG BUG end
4533  connect_name += self.db_account_name_cms_cond_globaltag()
4534 
4535  tag_exists = self.check_globaltag_exists(globaltag, connect_name)
4536 
4537  #----------
4538 
4539  tag_contains_ref_hist_key = False
4540  if self.use_ref_hists and tag_exists:
4541  # Check for the key required to use reference histograms.
4542  tag_contains_ref_hist_key = self.check_globaltag_contains_ref_hist_key(globaltag, connect_name)
4543 
4544  #----------
4545 
4546  if self.use_ref_hists:
4547  ret_val = tag_exists and tag_contains_ref_hist_key
4548  else:
4549  ret_val = tag_exists
4550 
4551  #----------
4552 
4553  # End of check_globaltag.
4554  return ret_val
def cmsHarvester.check_globaltag_contains_ref_hist_key (   self,
  globaltag,
  connect_name 
)
Check if globaltag contains the required RefHistos key.

Definition at line 4599 of file cmsHarvester.py.

4600  def check_globaltag_contains_ref_hist_key(self, globaltag, connect_name):
4601  """Check if globaltag contains the required RefHistos key.
4602 
4603  """
4604 
4605  # Check for the key required to use reference histograms.
4606  tag_contains_key = None
4607  ref_hist_key = "RefHistos"
4608  self.logger.info("Checking existence of reference " \
4609  "histogram key `%s' in GlobalTag `%s'" % \
4610  (ref_hist_key, globaltag))
4611  self.logger.debug(" (Using database connection `%s')" % \
4612  connect_name)
4613  cmd = "cmscond_tagtree_list -c %s -T %s -n %s" % \
4614  (connect_name, globaltag, ref_hist_key)
4615  (status, output) = commands.getstatusoutput(cmd)
4616  if status != 0 or \
4617  output.find("error") > -1:
4618  msg = "Could not check existence of key `%s'" % \
4619  (ref_hist_key, connect_name)
4620  self.logger.fatal(msg)
4621  self.logger.debug("Command used:")
4622  self.logger.debug(" %s" % cmd)
4623  self.logger.debug("Output received:")
4624  self.logger.debug(" %s" % output)
4625  raise Error(msg)
4626  if len(output) < 1:
4627  self.logger.debug("Required key for use of reference " \
4628  "histograms `%s' does not exist " \
4629  "in GlobalTag `%s':" % \
4630  (ref_hist_key, globaltag))
4631  self.logger.debug("Output received:")
4632  self.logger.debug(output)
4633  tag_contains_key = False
4634  else:
4635  tag_contains_key = True
4636 
4637  self.logger.info(" GlobalTag contains `%s' key? -> %s" % \
4638  (ref_hist_key, tag_contains_key))
4639 
4640  # End of check_globaltag_contains_ref_hist_key.
4641  return tag_contains_key
Helper class: Error exception.
def check_globaltag_contains_ref_hist_key
def cmsHarvester.check_globaltag_exists (   self,
  globaltag,
  connect_name 
)
Check if globaltag exists.

Definition at line 4557 of file cmsHarvester.py.

References split.

4558  def check_globaltag_exists(self, globaltag, connect_name):
4559  """Check if globaltag exists.
4560 
4561  """
4562 
4563  self.logger.info("Checking existence of GlobalTag `%s'" % \
4564  globaltag)
4565  self.logger.debug(" (Using database connection `%s')" % \
4566  connect_name)
4567 
4568  cmd = "cmscond_tagtree_list -c %s -T %s" % \
4569  (connect_name, globaltag)
4570  (status, output) = commands.getstatusoutput(cmd)
4571  if status != 0 or \
4572  output.find("error") > -1:
4573  msg = "Could not check existence of GlobalTag `%s' in `%s'" % \
4574  (globaltag, connect_name)
4575  if output.find(".ALL_TABLES not found") > -1:
4576  msg = "%s\n" \
4577  "Missing database account `%s'" % \
4578  (msg, output.split(".ALL_TABLES")[0].split()[-1])
4579  self.logger.fatal(msg)
4580  self.logger.debug("Command used:")
4581  self.logger.debug(" %s" % cmd)
4582  self.logger.debug("Output received:")
4583  self.logger.debug(output)
4584  raise Error(msg)
4585  if output.find("does not exist") > -1:
4586  self.logger.debug("GlobalTag `%s' does not exist in `%s':" % \
4587  (globaltag, connect_name))
4588  self.logger.debug("Output received:")
4589  self.logger.debug(output)
4590  tag_exists = False
4591  else:
4592  tag_exists = True
4593  self.logger.info(" GlobalTag exists? -> %s" % tag_exists)
4594 
4595  # End of check_globaltag_exists.
4596  return tag_exists
def check_globaltag_exists
Helper class: Error exception.
double split
Definition: MVATrainer.cc:139
def cmsHarvester.check_input_status (   self)
Check completeness and correctness of input information.

Check that all required information has been specified and
that, at least as far as can be easily checked, it makes
sense.

NOTE: This is also where any default values are applied.

Definition at line 2191 of file cmsHarvester.py.

References join().

2192  def check_input_status(self):
2193  """Check completeness and correctness of input information.
2194 
2195  Check that all required information has been specified and
2196  that, at least as far as can be easily checked, it makes
2197  sense.
2198 
2199  NOTE: This is also where any default values are applied.
2200 
2201  """
2202 
2203  self.logger.info("Checking completeness/correctness of input...")
2204 
2205  # The cmsHarvester does not take (i.e. understand) any
2206  # arguments so there should not be any.
2207  if len(self.args) > 0:
2208  msg = "Sorry but I don't understand `%s'" % \
2209  (" ".join(self.args))
2210  self.logger.fatal(msg)
2211  raise Usage(msg)
2212 
2213  # BUG BUG BUG
2214  # While we wait for some bugs left and right to get fixed, we
2215  # disable two-step.
2216  if self.harvesting_mode == "two-step":
2217  msg = "--------------------\n" \
2218  " Sorry, but for the moment (well, till it works)" \
2219  " the two-step mode has been disabled.\n" \
2220  "--------------------\n"
2221  self.logger.fatal(msg)
2222  raise Error(msg)
2223  # BUG BUG BUG end
2224 
2225  # We need a harvesting method to be specified
2226  if self.harvesting_type is None:
2227  msg = "Please specify a harvesting type"
2228  self.logger.fatal(msg)
2229  raise Usage(msg)
2230  # as well as a harvesting mode.
2231  if self.harvesting_mode is None:
2232  self.harvesting_mode = self.harvesting_mode_default
2233  msg = "No harvesting mode specified --> using default `%s'" % \
2234  self.harvesting_mode
2235  self.logger.warning(msg)
2236  #raise Usage(msg)
2237 
2238  ###
2239 
2240  # We need an input method so we can find the dataset name(s).
2241  if self.input_method["datasets"]["use"] is None:
2242  msg = "Please specify an input dataset name " \
2243  "or a list file name"
2244  self.logger.fatal(msg)
2245  raise Usage(msg)
2246 
2247  # DEBUG DEBUG DEBUG
2248  # If we get here, we should also have an input name.
2249  assert not self.input_name["datasets"]["use"] is None
2250  # DEBUG DEBUG DEBUG end
2251 
2252  ###
2253 
2254  # The same holds for the reference histogram mapping file (if
2255  # we're using references).
2256  if self.use_ref_hists:
2257  if self.ref_hist_mappings_file_name is None:
2258  self.ref_hist_mappings_file_name = self.ref_hist_mappings_file_name_default
2259  msg = "No reference histogram mapping file specified --> " \
2260  "using default `%s'" % \
2261  self.ref_hist_mappings_file_name
2262  self.logger.warning(msg)
2263 
2264  ###
2265 
2266  # We need to know where to put the stuff (okay, the results)
2267  # on CASTOR.
2268  if self.castor_base_dir is None:
2269  self.castor_base_dir = self.castor_base_dir_default
2270  msg = "No CASTOR area specified -> using default `%s'" % \
2271  self.castor_base_dir
2272  self.logger.warning(msg)
2273  #raise Usage(msg)
2274 
2275  # Only the CERN CASTOR area is supported.
2276  if not self.castor_base_dir.startswith(self.castor_prefix):
2277  msg = "CASTOR area does not start with `%s'" % \
2278  self.castor_prefix
2279  self.logger.fatal(msg)
2280  if self.castor_base_dir.find("castor") > -1 and \
2281  not self.castor_base_dir.find("cern.ch") > -1:
2282  self.logger.fatal("Only CERN CASTOR is supported")
2283  raise Usage(msg)
2284 
2285  ###
2286 
2287  # TODO TODO TODO
2288  # This should be removed in the future, once I find out how to
2289  # get the config file used to create a given dataset from DBS.
2290 
2291  # For data we need to have a GlobalTag. (For MC we can figure
2292  # it out by ourselves.)
2293  if self.globaltag is None:
2294  self.logger.warning("No GlobalTag specified. This means I cannot")
2295  self.logger.warning("run on data, only on MC.")
2296  self.logger.warning("I will skip all data datasets.")
2297 
2298  # TODO TODO TODO end
2299 
2300  # Make sure the GlobalTag ends with `::All'.
2301  if not self.globaltag is None:
2302  if not self.globaltag.endswith("::All"):
2303  self.logger.warning("Specified GlobalTag `%s' does " \
2304  "not end in `::All' --> " \
2305  "appending this missing piece" % \
2306  self.globaltag)
2307  self.globaltag = "%s::All" % self.globaltag
2308 
2309  ###
2310 
2311  # Dump some info about the Frontier connections used.
2312  for (key, value) in self.frontier_connection_name.iteritems():
2313  frontier_type_str = "unknown"
2314  if key == "globaltag":
2315  frontier_type_str = "the GlobalTag"
2316  elif key == "refhists":
2317  frontier_type_str = "the reference histograms"
2318  non_str = None
2319  if self.frontier_connection_overridden[key] == True:
2320  non_str = "non-"
2321  else:
2322  non_str = ""
2323  self.logger.info("Using %sdefault Frontier " \
2324  "connection for %s: `%s'" % \
2325  (non_str, frontier_type_str, value))
2326 
2327  ###
2328 
2329  # End of check_input_status.
def check_input_status
Helper class: Error exception.
Helper class: Usage exception.
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def cmsHarvester.check_ref_hist_mappings (   self)
Make sure all necessary reference histograms exist.

Check that for each of the datasets to be processed a
reference histogram is specified and that that histogram
exists in the database.

NOTE: There's a little complication here. Since this whole
thing was designed to allow (in principle) harvesting of both
data and MC datasets in one go, we need to be careful to check
the availability fof reference mappings only for those
datasets that need it.

Definition at line 5282 of file cmsHarvester.py.

5283  def check_ref_hist_mappings(self):
5284  """Make sure all necessary reference histograms exist.
5285 
5286  Check that for each of the datasets to be processed a
5287  reference histogram is specified and that that histogram
5288  exists in the database.
5289 
5290  NOTE: There's a little complication here. Since this whole
5291  thing was designed to allow (in principle) harvesting of both
5292  data and MC datasets in one go, we need to be careful to check
5293  the availability fof reference mappings only for those
5294  datasets that need it.
5295 
5296  """
5297 
5298  self.logger.info("Checking reference histogram mappings")
5299 
5300  for dataset_name in self.datasets_to_use:
5301  try:
5302  ref_hist_name = self.ref_hist_mappings[dataset_name]
5303  except KeyError:
5304  msg = "ERROR: No reference histogram mapping found " \
5305  "for dataset `%s'" % \
5306  dataset_name
5307  self.logger.fatal(msg)
5308  raise Error(msg)
5309 
5310  if not self.check_ref_hist_tag(ref_hist_name):
5311  msg = "Reference histogram tag `%s' " \
5312  "(used for dataset `%s') does not exist!" % \
5313  (ref_hist_name, dataset_name)
5314  self.logger.fatal(msg)
5315  raise Usage(msg)
5316 
5317  self.logger.info(" Done checking reference histogram mappings.")
5318 
5319  # End of check_ref_hist_mappings.
Helper class: Error exception.
Helper class: Usage exception.
def check_ref_hist_mappings
def cmsHarvester.check_ref_hist_tag (   self,
  tag_name 
)
Check the existence of tag_name in database connect_name.

Check if tag_name exists as a reference histogram tag in the
database given by self.frontier_connection_name['refhists'].

Definition at line 4644 of file cmsHarvester.py.

References join().

4645  def check_ref_hist_tag(self, tag_name):
4646  """Check the existence of tag_name in database connect_name.
4647 
4648  Check if tag_name exists as a reference histogram tag in the
4649  database given by self.frontier_connection_name['refhists'].
4650 
4651  """
4652 
4653  connect_name = self.frontier_connection_name["refhists"]
4654  connect_name += self.db_account_name_cms_cond_dqm_summary()
4655 
4656  self.logger.debug("Checking existence of reference " \
4657  "histogram tag `%s'" % \
4658  tag_name)
4659  self.logger.debug(" (Using database connection `%s')" % \
4660  connect_name)
4661 
4662  cmd = "cmscond_list_iov -c %s" % \
4663  connect_name
4664  (status, output) = commands.getstatusoutput(cmd)
4665  if status != 0:
4666  msg = "Could not check existence of tag `%s' in `%s'" % \
4667  (tag_name, connect_name)
4668  self.logger.fatal(msg)
4669  self.logger.debug("Command used:")
4670  self.logger.debug(" %s" % cmd)
4671  self.logger.debug("Output received:")
4672  self.logger.debug(output)
4673  raise Error(msg)
4674  if not tag_name in output.split():
4675  self.logger.debug("Reference histogram tag `%s' " \
4676  "does not exist in `%s'" % \
4677  (tag_name, connect_name))
4678  self.logger.debug(" Existing tags: `%s'" % \
4679  "', `".join(output.split()))
4680  tag_exists = False
4681  else:
4682  tag_exists = True
4683  self.logger.debug(" Reference histogram tag exists? " \
4684  "-> %s" % tag_exists)
4685 
4686  # End of check_ref_hist_tag.
4687  return tag_exists
Helper class: Error exception.
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def check_ref_hist_tag
def cmsHarvester.create_and_check_castor_dir (   self,
  castor_dir 
)
Check existence of the give CASTOR dir, if necessary create
it.

Some special care has to be taken with several things like
setting the correct permissions such that CRAB can store the
output results. Of course this means that things like
/castor/cern.ch/ and user/j/ have to be recognised and treated
properly.

NOTE: Only CERN CASTOR area (/castor/cern.ch/) supported for
the moment.

NOTE: This method uses some slightly tricky caching to make
sure we don't keep over and over checking the same base paths.

Definition at line 1488 of file cmsHarvester.py.

References spr.find().

1489  def create_and_check_castor_dir(self, castor_dir):
1490  """Check existence of the give CASTOR dir, if necessary create
1491  it.
1492 
1493  Some special care has to be taken with several things like
1494  setting the correct permissions such that CRAB can store the
1495  output results. Of course this means that things like
1496  /castor/cern.ch/ and user/j/ have to be recognised and treated
1497  properly.
1498 
1499  NOTE: Only CERN CASTOR area (/castor/cern.ch/) supported for
1500  the moment.
1501 
1502  NOTE: This method uses some slightly tricky caching to make
1503  sure we don't keep over and over checking the same base paths.
1504 
1505  """
1506 
1507  ###
1508 
1509  # Local helper function to fully split a path into pieces.
1510  def split_completely(path):
1511  (parent_path, name) = os.path.split(path)
1512  if name == "":
1513  return (parent_path, )
1514  else:
1515  return split_completely(parent_path) + (name, )
1516 
1517  ###
1518 
1519  # Local helper function to check rfio (i.e. CASTOR)
1520  # directories.
1521  def extract_permissions(rfstat_output):
1522  """Parse the output from rfstat and return the
1523  5-digit permissions string."""
1524 
1525  permissions_line = [i for i in output.split("\n") \
1526  if i.lower().find("protection") > -1]
1527  regexp = re.compile(".*\(([0123456789]{5})\).*")
1528  match = regexp.search(rfstat_output)
1529  if not match or len(match.groups()) != 1:
1530  msg = "Could not extract permissions " \
1531  "from output: %s" % rfstat_output
1532  self.logger.fatal(msg)
1533  raise Error(msg)
1534  permissions = match.group(1)
1535 
1536  # End of extract_permissions.
1537  return permissions
1538 
1539  ###
1540 
1541  # These are the pieces of CASTOR directories that we do not
1542  # want to touch when modifying permissions.
1543 
1544  # NOTE: This is all a bit involved, basically driven by the
1545  # fact that one wants to treat the `j' directory of
1546  # `/castor/cern.ch/user/j/jhegeman/' specially.
1547  # BUG BUG BUG
1548  # This should be simplified, for example by comparing to the
1549  # CASTOR prefix or something like that.
1550  # BUG BUG BUG end
1551  castor_paths_dont_touch = {
1552  0: ["/", "castor", "cern.ch", "cms", "store", "temp",
1553  "dqm", "offline", "user"],
1554  -1: ["user", "store"]
1555  }
1556 
1557  self.logger.debug("Checking CASTOR path `%s'" % castor_dir)
1558 
1559  ###
1560 
1561  # First we take the full CASTOR path apart.
1562  castor_path_pieces = split_completely(castor_dir)
1563 
1564  # Now slowly rebuild the CASTOR path and see if a) all
1565  # permissions are set correctly and b) the final destination
1566  # exists.
1567  path = ""
1568  check_sizes = castor_paths_dont_touch.keys()
1569  check_sizes.sort()
1570  len_castor_path_pieces = len(castor_path_pieces)
1571  for piece_index in xrange (len_castor_path_pieces):
1572  skip_this_path_piece = False
piece = castor_path_pieces[piece_index]
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
Helper class: Error exception.
def create_and_check_castor_dir
def cmsHarvester.create_and_check_castor_dirs (   self)
Make sure all required CASTOR output dirs exist.

This checks the CASTOR base dir specified by the user as well
as all the subdirs required by the current set of jobs.

Definition at line 1428 of file cmsHarvester.py.

References list(), and bookConverter.max.

1429  def create_and_check_castor_dirs(self):
1430  """Make sure all required CASTOR output dirs exist.
1431 
1432  This checks the CASTOR base dir specified by the user as well
1433  as all the subdirs required by the current set of jobs.
1434 
1435  """
1436 
1437  self.logger.info("Checking (and if necessary creating) CASTOR " \
1438  "output area(s)...")
1439 
1440  # Call the real checker method for the base dir.
1441  self.create_and_check_castor_dir(self.castor_base_dir)
1442 
1443  # Now call the checker for all (unique) subdirs.
1444  castor_dirs = []
1445  for (dataset_name, runs) in self.datasets_to_use.iteritems():
1446 
1447  for run in runs:
1448  castor_dirs.append(self.datasets_information[dataset_name] \
1449  ["castor_path"][run])
1450  castor_dirs_unique = list(set(castor_dirs))
1451  castor_dirs_unique.sort()
1452  # This can take some time. E.g. CRAFT08 has > 300 runs, each
1453  # of which will get a new directory. So we show some (rough)
1454  # info in between.
1455  ndirs = len(castor_dirs_unique)
1456  step = max(ndirs / 10, 1)
1457  for (i, castor_dir) in enumerate(castor_dirs_unique):
1458  if (i + 1) % step == 0 or \
1459  (i + 1) == ndirs:
1460  self.logger.info(" %d/%d" % \
1461  (i + 1, ndirs))
1462  self.create_and_check_castor_dir(castor_dir)
1463 
1464  # Now check if the directory is empty. If (an old version
1465  # of) the output file already exists CRAB will run new
1466  # jobs but never copy the results back. We assume the user
1467  # knows what they are doing and only issue a warning in
1468  # case the directory is not empty.
1469  self.logger.debug("Checking if path `%s' is empty" % \
1470  castor_dir)
1471  cmd = "rfdir %s" % castor_dir
1472  (status, output) = commands.getstatusoutput(cmd)
1473  if status != 0:
1474  msg = "Could not access directory `%s'" \
1475  " !!! This is bad since I should have just" \
1476  " created it !!!" % castor_dir
1477  self.logger.fatal(msg)
1478  raise Error(msg)
1479  if len(output) > 0:
1480  self.logger.warning("Output directory `%s' is not empty:" \
1481  " new jobs will fail to" \
1482  " copy back output" % \
1483  castor_dir)
1484 
1485  # End of create_and_check_castor_dirs.
def create_and_check_castor_dirs
Helper class: Error exception.
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
def cmsHarvester.create_castor_path_name_common (   self,
  dataset_name 
)
Build the common part of the output path to be used on
CASTOR.

This consists of the CASTOR area base path specified by the
user and a piece depending on the data type (data vs. MC), the
harvesting type and the dataset name followed by a piece
containing the run number and event count. (See comments in
create_castor_path_name_special for details.) This method
creates the common part, without run number and event count.

Definition at line 1324 of file cmsHarvester.py.

References create_castor_path_name_special(), and python.rootplot.root2matplotlib.replace().

1325  def create_castor_path_name_common(self, dataset_name):
1326  """Build the common part of the output path to be used on
1327  CASTOR.
1328 
1329  This consists of the CASTOR area base path specified by the
1330  user and a piece depending on the data type (data vs. MC), the
1331  harvesting type and the dataset name followed by a piece
1332  containing the run number and event count. (See comments in
1333  create_castor_path_name_special for details.) This method
1334  creates the common part, without run number and event count.
1335 
1336  """
1337 
1338  castor_path = self.castor_base_dir
1339 
1340  ###
1341 
1342  # The data type: data vs. mc.
1343  datatype = self.datasets_information[dataset_name]["datatype"]
1344  datatype = datatype.lower()
1345  castor_path = os.path.join(castor_path, datatype)
1346 
1347  # The harvesting type.
1348  harvesting_type = self.harvesting_type
1349  harvesting_type = harvesting_type.lower()
1350  castor_path = os.path.join(castor_path, harvesting_type)
1351 
1352  # The CMSSW release version (only the `digits'). Note that the
1353  # CMSSW version used here is the version used for harvesting,
1354  # not the one from the dataset. This does make the results
1355  # slightly harder to find. On the other hand it solves
1356  # problems in case one re-harvests a given dataset with a
1357  # different CMSSW version, which would lead to ambiguous path
1358  # names. (Of course for many cases the harvesting is done with
1359  # the same CMSSW version the dataset was created with.)
1360  release_version = self.cmssw_version
1361  release_version = release_version.lower(). \
1362  replace("cmssw", ""). \
1363  strip("_")
1364  castor_path = os.path.join(castor_path, release_version)
1365 
1366  # The dataset name.
1367  dataset_name_escaped = self.escape_dataset_name(dataset_name)
1368  castor_path = os.path.join(castor_path, dataset_name_escaped)
1369 
1370  ###
1371 
1372  castor_path = os.path.normpath(castor_path)
1373 
1374  # End of create_castor_path_name_common.
1375  return castor_path
def create_castor_path_name_common
def cmsHarvester.create_castor_path_name_special (   self,
  dataset_name,
  run_number,
  castor_path_common 
)
Create the specialised part of the CASTOR output dir name.

NOTE: To avoid clashes with `incremental harvesting'
(re-harvesting when a dataset grows) we have to include the
event count in the path name. The underlying `problem' is that
CRAB does not overwrite existing output files so if the output
file already exists CRAB will fail to copy back the output.

NOTE: It's not possible to create different kinds of
harvesting jobs in a single call to this tool. However, in
principle it could be possible to create both data and MC jobs
in a single go.

NOTE: The number of events used in the path name is the
_total_ number of events in the dataset/run at the time of
harvesting. If we're doing partial harvesting the final
results will reflect lower statistics. This is a) the easiest
to code and b) the least likely to lead to confusion if
someone ever decides to swap/copy around file blocks between
sites.

Definition at line 1380 of file cmsHarvester.py.

Referenced by create_castor_path_name_common().

1381  castor_path_common):
1382  """Create the specialised part of the CASTOR output dir name.
1383 
1384  NOTE: To avoid clashes with `incremental harvesting'
1385  (re-harvesting when a dataset grows) we have to include the
1386  event count in the path name. The underlying `problem' is that
1387  CRAB does not overwrite existing output files so if the output
1388  file already exists CRAB will fail to copy back the output.
1389 
1390  NOTE: It's not possible to create different kinds of
1391  harvesting jobs in a single call to this tool. However, in
1392  principle it could be possible to create both data and MC jobs
1393  in a single go.
1394 
1395  NOTE: The number of events used in the path name is the
1396  _total_ number of events in the dataset/run at the time of
1397  harvesting. If we're doing partial harvesting the final
1398  results will reflect lower statistics. This is a) the easiest
1399  to code and b) the least likely to lead to confusion if
1400  someone ever decides to swap/copy around file blocks between
1401  sites.
1402 
1403  """
1404 
1405  castor_path = castor_path_common
1406 
1407  ###
1408 
1409  # The run number part.
1410  castor_path = os.path.join(castor_path, "run_%d" % run_number)
1411 
1412  ###
1413 
1414  # The event count (i.e. the number of events we currently see
1415  # for this dataset).
1416  #nevents = self.datasets_information[dataset_name] \
1417  # ["num_events"][run_number]
1418  castor_path = os.path.join(castor_path, "nevents")
1419 
1420  ###
1421 
1422  castor_path = os.path.normpath(castor_path)
1423 
1424  # End of create_castor_path_name_special.
1425  return castor_path
def cmsHarvester.create_config_file_name (   self,
  dataset_name,
  run_number 
)
Generate the name of the configuration file to be run by
CRAB.

Depending on the harvesting mode (single-step or two-step)
this is the name of the real harvesting configuration or the
name of the first-step ME summary extraction configuration.

Definition at line 4065 of file cmsHarvester.py.

4066  def create_config_file_name(self, dataset_name, run_number):
4067  """Generate the name of the configuration file to be run by
4068  CRAB.
4069 
4070  Depending on the harvesting mode (single-step or two-step)
4071  this is the name of the real harvesting configuration or the
4072  name of the first-step ME summary extraction configuration.
4073 
4074  """
4075 
4076  if self.harvesting_mode == "single-step":
4077  config_file_name = self.create_harvesting_config_file_name(dataset_name)
4078  elif self.harvesting_mode == "single-step-allow-partial":
config_file_name = self.create_harvesting_config_file_name(dataset_name)
def create_config_file_name
def cmsHarvester.create_crab_config (   self)
Create a CRAB configuration for a given job.

NOTE: This is _not_ a complete (as in: submittable) CRAB
configuration. It is used to store the common settings for the
multicrab configuration.

NOTE: Only CERN CASTOR area (/castor/cern.ch/) is supported.

NOTE: According to CRAB, you `Must define exactly two of
total_number_of_events, events_per_job, or
number_of_jobs.'. For single-step harvesting we force one job,
for the rest we don't really care.

# BUG BUG BUG
# With the current version of CRAB (2.6.1), in which Daniele
# fixed the behaviour of no_block_boundary for me, one _has to
# specify_ the total_number_of_events and one single site in
# the se_white_list.
# BUG BUG BUG end

Definition at line 4233 of file cmsHarvester.py.

4234  def create_crab_config(self):
4235  """Create a CRAB configuration for a given job.
4236 
4237  NOTE: This is _not_ a complete (as in: submittable) CRAB
4238  configuration. It is used to store the common settings for the
4239  multicrab configuration.
4240 
4241  NOTE: Only CERN CASTOR area (/castor/cern.ch/) is supported.
4242 
4243  NOTE: According to CRAB, you `Must define exactly two of
4244  total_number_of_events, events_per_job, or
4245  number_of_jobs.'. For single-step harvesting we force one job,
4246  for the rest we don't really care.
4247 
4248  # BUG BUG BUG
4249  # With the current version of CRAB (2.6.1), in which Daniele
4250  # fixed the behaviour of no_block_boundary for me, one _has to
4251  # specify_ the total_number_of_events and one single site in
4252  # the se_white_list.
4253  # BUG BUG BUG end
4254 
4255  """
4256 
4257  tmp = []
4258 
4259  # This is the stuff we will need to fill in.
4260  castor_prefix = self.castor_prefix
4261 
4262  tmp.append(self.config_file_header())
4263  tmp.append("")
def create_crab_config
def cmsHarvester.create_es_prefer_snippet (   self,
  dataset_name 
)
Build the es_prefer snippet for the reference histograms.

The building of the snippet is wrapped in some care-taking
code that figures out the name of the reference histogram set
and makes sure the corresponding tag exists.

Definition at line 4690 of file cmsHarvester.py.

References join().

4691  def create_es_prefer_snippet(self, dataset_name):
4692  """Build the es_prefer snippet for the reference histograms.
4693 
4694  The building of the snippet is wrapped in some care-taking
4695  code that figures out the name of the reference histogram set
4696  and makes sure the corresponding tag exists.
4697 
4698  """
4699 
4700  # Figure out the name of the reference histograms tag.
4701  # NOTE: The existence of these tags has already been checked.
4702  ref_hist_tag_name = self.ref_hist_mappings[dataset_name]
4703 
4704  connect_name = self.frontier_connection_name["refhists"]
4705  connect_name += self.db_account_name_cms_cond_dqm_summary()
4706  record_name = "DQMReferenceHistogramRootFileRcd"
4707 
4708  # Build up the code snippet.
4709  code_lines = []
4710  code_lines.append("from CondCore.DBCommon.CondDBSetup_cfi import *")
4711  code_lines.append("process.ref_hist_source = cms.ESSource(\"PoolDBESSource\", CondDBSetup,")
4712  code_lines.append(" connect = cms.string(\"%s\")," % connect_name)
4713  code_lines.append(" toGet = cms.VPSet(cms.PSet(record = cms.string(\"%s\")," % record_name)
4714  code_lines.append(" tag = cms.string(\"%s\"))," % ref_hist_tag_name)
4715  code_lines.append(" )")
4716  code_lines.append(" )")
4717  code_lines.append("process.es_prefer_ref_hist_source = cms.ESPrefer(\"PoolDBESSource\", \"ref_hist_source\")")
4718 
4719  snippet = "\n".join(code_lines)
4720 
4721  # End of create_es_prefer_snippet.
4722  return snippet
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def create_es_prefer_snippet
def cmsHarvester.create_harvesting_config (   self,
  dataset_name 
)
Create the Python harvesting configuration for harvesting.

The basic configuration is created by
Configuration.PyReleaseValidation.ConfigBuilder. (This mimics
what cmsDriver.py does.) After that we add some specials
ourselves.

NOTE: On one hand it may not be nice to circumvent
cmsDriver.py, on the other hand cmsDriver.py does not really
do anything itself. All the real work is done by the
ConfigBuilder so there is not much risk that we miss out on
essential developments of cmsDriver in the future.

Definition at line 4725 of file cmsHarvester.py.

4726  def create_harvesting_config(self, dataset_name):
4727  """Create the Python harvesting configuration for harvesting.
4728 
4729  The basic configuration is created by
4730  Configuration.PyReleaseValidation.ConfigBuilder. (This mimics
4731  what cmsDriver.py does.) After that we add some specials
4732  ourselves.
4733 
4734  NOTE: On one hand it may not be nice to circumvent
4735  cmsDriver.py, on the other hand cmsDriver.py does not really
4736  do anything itself. All the real work is done by the
4737  ConfigBuilder so there is not much risk that we miss out on
4738  essential developments of cmsDriver in the future.
4739 
4740  """
4741 
4742  # Setup some options needed by the ConfigBuilder.
4743  config_options = defaultOptions
4744 
4745  # These are fixed for all kinds of harvesting jobs. Some of
4746  # them are not needed for the harvesting config, but to keep
4747  # the ConfigBuilder happy.
4748  config_options.name = "harvesting"
4749  config_options.scenario = "pp"
4750  config_options.number = 1
4751  config_options.arguments = self.ident_string()
4752  config_options.evt_type = config_options.name
4753  config_options.customisation_file = None
4754  config_options.filein = "dummy_value"
4755  config_options.filetype = "EDM"
4756  # This seems to be new in CMSSW 3.3.X, no clue what it does.
4757  config_options.gflash = "dummy_value"
4758  # This seems to be new in CMSSW 3.3.0.pre6, no clue what it
4759  # does.
#config_options.himix = "dummy_value"
def create_harvesting_config
def cmsHarvester.create_harvesting_config_file_name (   self,
  dataset_name 
)

Definition at line 4097 of file cmsHarvester.py.

Referenced by write_harvesting_config().

4098  def create_harvesting_config_file_name(self, dataset_name):
4099  "Generate the name to be used for the harvesting config file."
4100 
4101  file_name_base = "harvesting.py"
4102  dataset_name_escaped = self.escape_dataset_name(dataset_name)
4103  config_file_name = file_name_base.replace(".py",
4104  "_%s.py" % \
4105  dataset_name_escaped)
4106 
4107  # End of create_harvesting_config_file_name.
4108  return config_file_name
def create_harvesting_config_file_name
def cmsHarvester.create_harvesting_output_file_name (   self,
  dataset_name,
  run_number 
)
Generate the name to be used for the harvesting output file.

This harvesting output file is the _final_ ROOT output file
containing the harvesting results. In case of two-step
harvesting there is an intermediate ME output file as well.

Definition at line 4169 of file cmsHarvester.py.

4170  def create_harvesting_output_file_name(self, dataset_name, run_number):
4171  """Generate the name to be used for the harvesting output file.
4172 
4173  This harvesting output file is the _final_ ROOT output file
4174  containing the harvesting results. In case of two-step
4175  harvesting there is an intermediate ME output file as well.
4176 
4177  """
4178 
4179  dataset_name_escaped = self.escape_dataset_name(dataset_name)
4180 
4181  # Hmmm, looking at the code for the DQMFileSaver this might
4182  # actually be the place where the first part of this file
4183  # naming scheme comes from.
4184  # NOTE: It looks like the `V0001' comes from the DQM
4185  # version. This is something that cannot be looked up from
4186  # here, so let's hope it does not change too often.
4187  output_file_name = "DQM_V0001_R%09d__%s.root" % \
4188  (run_number, dataset_name_escaped)
4189  if self.harvesting_mode.find("partial") > -1:
4190  # Only add the alarming piece to the file name if this is
4191  # a spread-out dataset.
4192  if self.datasets_information[dataset_name] \
4193  ["mirrored"][run_number] == False:
4194  output_file_name = output_file_name.replace(".root", \
4195  "_partial.root")
4196 
4197  # End of create_harvesting_output_file_name.
4198  return output_file_name
def create_harvesting_output_file_name
def cmsHarvester.create_me_extraction_config (   self,
  dataset_name 
)

def create_harvesting_config_two_step(self, dataset_name):
    """Create the Python harvesting configuration for two-step
    harvesting.         """         # BUG BUG BUG
    config_contents = self.create_harvesting_config_single_step(dataset_name)

BUG BUG BUG end

End of create_harvesting_config_two_step.

return config_contents

 

Definition at line 4951 of file cmsHarvester.py.

References create_output_file_name(), and join().

4952  def create_me_extraction_config(self, dataset_name):
4953  """
4954 
4955  """
4956 
4957  # Big chunk of hard-coded Python. Not such a big deal since
4958  # this does not do much and is not likely to break.
4959  tmp = []
4960  tmp.append(self.config_file_header())
4961  tmp.append("")
4962  tmp.append("import FWCore.ParameterSet.Config as cms")
4963  tmp.append("")
4964  tmp.append("process = cms.Process(\"ME2EDM\")")
4965  tmp.append("")
4966  tmp.append("# Import of standard configurations")
4967  tmp.append("process.load(\"Configuration/EventContent/EventContent_cff\")")
4968  tmp.append("")
4969  tmp.append("# We don't really process any events, just keep this set to one to")
4970  tmp.append("# make sure things work.")
4971  tmp.append("process.maxEvents = cms.untracked.PSet(")
4972  tmp.append(" input = cms.untracked.int32(1)")
4973  tmp.append(" )")
4974  tmp.append("")
4975  tmp.append("process.options = cms.untracked.PSet(")
4976  tmp.append(" Rethrow = cms.untracked.vstring(\"ProductNotFound\")")
4977  tmp.append(" )")
4978  tmp.append("")
4979  tmp.append("process.source = cms.Source(\"PoolSource\",")
4980  tmp.append(" processingMode = \\")
4981  tmp.append(" cms.untracked.string(\"RunsAndLumis\"),")
4982  tmp.append(" fileNames = \\")
4983  tmp.append(" cms.untracked.vstring(\"no_file_specified\")")
4984  tmp.append(" )")
4985  tmp.append("")
4986  tmp.append("# Output definition: drop everything except for the monitoring.")
4987  tmp.append("process.output = cms.OutputModule(")
4988  tmp.append(" \"PoolOutputModule\",")
4989  tmp.append(" outputCommands = \\")
4990  tmp.append(" cms.untracked.vstring(\"drop *\", \\")
4991  tmp.append(" \"keep *_MEtoEDMConverter_*_*\"),")
4992  output_file_name = self. \
4993  create_output_file_name(dataset_name)
4994  tmp.append(" fileName = \\")
4995  tmp.append(" cms.untracked.string(\"%s\")," % output_file_name)
4996  tmp.append(" dataset = cms.untracked.PSet(")
4997  tmp.append(" dataTier = cms.untracked.string(\"RECO\"),")
4998  tmp.append(" filterName = cms.untracked.string(\"\")")
4999  tmp.append(" )")
5000  tmp.append(" )")
5001  tmp.append("")
5002  tmp.append("# Additional output definition")
5003  tmp.append("process.out_step = cms.EndPath(process.output)")
5004  tmp.append("")
5005  tmp.append("# Schedule definition")
5006  tmp.append("process.schedule = cms.Schedule(process.out_step)")
5007  tmp.append("")
5008 
5009  config_contents = "\n".join(tmp)
5010 
5011  # End of create_me_extraction_config.
5012  return config_contents
def create_me_extraction_config
def create_output_file_name
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def cmsHarvester.create_me_summary_config_file_name (   self,
  dataset_name 
)

Definition at line 4111 of file cmsHarvester.py.

Referenced by write_me_extraction_config().

4112  def create_me_summary_config_file_name(self, dataset_name):
4113  "Generate the name of the ME summary extraction config file."
4114 
4115  file_name_base = "me_extraction.py"
4116  dataset_name_escaped = self.escape_dataset_name(dataset_name)
4117  config_file_name = file_name_base.replace(".py",
4118  "_%s.py" % \
4119  dataset_name_escaped)
4120 
4121  # End of create_me_summary_config_file_name.
4122  return config_file_name
def create_me_summary_config_file_name
def cmsHarvester.create_me_summary_output_file_name (   self,
  dataset_name 
)
Generate the name of the intermediate ME file name to be
used in two-step harvesting.

Definition at line 4201 of file cmsHarvester.py.

4202  def create_me_summary_output_file_name(self, dataset_name):
4203  """Generate the name of the intermediate ME file name to be
4204  used in two-step harvesting.
4205 
4206  """
4207 
4208  dataset_name_escaped = self.escape_dataset_name(dataset_name)
4209  output_file_name = "me_summary_%s.root" % \
4210  dataset_name_escaped
4211 
4212  # End of create_me_summary_output_file_name.
4213  return output_file_name
def create_me_summary_output_file_name
def cmsHarvester.create_multicrab_block_name (   self,
  dataset_name,
  run_number,
  index 
)
Create the block name to use for this dataset/run number.

This is what appears in the brackets `[]' in multicrab.cfg. It
is used as the name of the job and to create output
directories.

Definition at line 4216 of file cmsHarvester.py.

4217  def create_multicrab_block_name(self, dataset_name, run_number, index):
4218  """Create the block name to use for this dataset/run number.
4219 
4220  This is what appears in the brackets `[]' in multicrab.cfg. It
4221  is used as the name of the job and to create output
4222  directories.
4223 
4224  """
4225 
4226  dataset_name_escaped = self.escape_dataset_name(dataset_name)
4227  block_name = "%s_%09d_%s" % (dataset_name_escaped, run_number, index)
4228 
4229  # End of create_multicrab_block_name.
4230  return block_name
def create_multicrab_block_name
def cmsHarvester.create_multicrab_config (   self)
Create a multicrab.cfg file for all samples.

This creates the contents for a multicrab.cfg file that uses
the crab.cfg file (generated elsewhere) for the basic settings
and contains blocks for each run of each dataset.

# BUG BUG BUG
# The fact that it's necessary to specify the se_white_list
# and the total_number_of_events is due to our use of CRAB
# version 2.6.1. This should no longer be necessary in the
# future.
# BUG BUG BUG end

Definition at line 4313 of file cmsHarvester.py.

4314  def create_multicrab_config(self):
4315  """Create a multicrab.cfg file for all samples.
4316 
4317  This creates the contents for a multicrab.cfg file that uses
4318  the crab.cfg file (generated elsewhere) for the basic settings
4319  and contains blocks for each run of each dataset.
4320 
4321  # BUG BUG BUG
4322  # The fact that it's necessary to specify the se_white_list
4323  # and the total_number_of_events is due to our use of CRAB
4324  # version 2.6.1. This should no longer be necessary in the
4325  # future.
4326  # BUG BUG BUG end
4327 
4328  """
def create_multicrab_config
def cmsHarvester.create_output_file_name (   self,
  dataset_name,
  run_number = None 
)
Create the name of the output file name to be used.

This is the name of the output file of the `first step'. In
the case of single-step harvesting this is already the final
harvesting output ROOT file. In the case of two-step
harvesting it is the name of the intermediary ME summary
file.

Definition at line 4125 of file cmsHarvester.py.

Referenced by create_me_extraction_config().

4126  def create_output_file_name(self, dataset_name, run_number=None):
4127  """Create the name of the output file name to be used.
4128 
4129  This is the name of the output file of the `first step'. In
4130  the case of single-step harvesting this is already the final
4131  harvesting output ROOT file. In the case of two-step
4132  harvesting it is the name of the intermediary ME summary
4133  file.
4134 
4135  """
4136 
4137  # BUG BUG BUG
4138  # This method has become a bit of a mess. Originally it was
4139  # nice to have one entry point for both single- and two-step
4140  # output file names. However, now the former needs the run
4141  # number, while the latter does not even know about run
4142  # numbers. This should be fixed up a bit.
4143  # BUG BUG BUG end
4144 
4145  if self.harvesting_mode == "single-step":
4146  # DEBUG DEBUG DEBUG
4147  assert not run_number is None
4148  # DEBUG DEBUG DEBUG end
4149  output_file_name = self.create_harvesting_output_file_name(dataset_name, run_number)
4150  elif self.harvesting_mode == "single-step-allow-partial":
4151  # DEBUG DEBUG DEBUG
4152  assert not run_number is None
4153  # DEBUG DEBUG DEBUG end
4154  output_file_name = self.create_harvesting_output_file_name(dataset_name, run_number)
4155  elif self.harvesting_mode == "two-step":
4156  # DEBUG DEBUG DEBUG
4157  assert run_number is None
4158  # DEBUG DEBUG DEBUG end
4159  output_file_name = self.create_me_summary_output_file_name(dataset_name)
4160  else:
4161  # This should not be possible, but hey...
4162  assert False, "ERROR Unknown harvesting mode `%s'" % \
4163  self.harvesting_mode
4164 
4165  # End of create_harvesting_output_file_name.
4166  return output_file_name
def create_output_file_name
def cmsHarvester.dbs_check_dataset_spread (   self,
  dataset_name 
)

def dbs_resolve_dataset_number_of_sites(self, dataset_name): """Ask DBS across how many sites this dataset has been spread out.

     This is especially useful to check that we do not submit a job
    supposed to run on a complete sample that is not contained at
    a single site.         """         # DEBUG DEBUG DEBUG

If we get here DBS should have been set up already.

assert not self.dbs_api is None

DEBUG DEBUG DEBUG end

api = self.dbs_api dbs_query = "find count(site) where dataset = %s " \ "and dataset.status = VALID" % \ dataset_name try: api_result = api.executeQuery(dbs_query) except DbsApiException: raise Error("ERROR: Could not execute DBS query") try: num_sites = [] class Handler(xml.sax.handler.ContentHandler): def startElement(self, name, attrs): if name == "result": num_sites.append(str(attrs["COUNT_STORAGEELEMENT"])) xml.sax.parseString(api_result, Handler()) except SAXParseException: raise Error("ERROR: Could not parse DBS server output") # DEBUG DEBUG DEBUG assert len(num_sites) == 1

DEBUG DEBUG DEBUG end

num_sites = int(num_sites[0]) # End of dbs_resolve_dataset_number_of_sites. return num_sites def dbs_check_dataset_spread(self, dataset_name): """Figure out across how many sites this dataset is spread. NOTE: This is something we need to figure out per run, since we want to submit harvesting jobs per run. Basically three things can happen with a given dataset:

assert not self.dbs_api is None

DEBUG DEBUG DEBUG end

api = self.dbs_api dbs_query = "find run, run.numevents, site, file.count " \ "where dataset = %s " \ "and dataset.status = VALID" % \ dataset_name try: api_result = api.executeQuery(dbs_query) except DbsApiException: msg = "ERROR: Could not execute DBS query" self.logger.fatal(msg) raise Error(msg) # Index things by run number. No cross-check is done to make

sure we get results for each and every run in the

dataset. I'm not sure this would make sense since we'd be

cross-checking DBS info with DBS info anyway. Note that we

use the file count per site to see if we're dealing with an

incomplete vs. a mirrored dataset.

sample_info = {} try: class Handler(xml.sax.handler.ContentHandler): def startElement(self, name, attrs): if name == "result": run_number = int(attrs["RUNS_RUNNUMBER"]) site_name = str(attrs["STORAGEELEMENT_SENAME"]) file_count = int(attrs["COUNT_FILES"])

BUG BUG BUG

Doh! For some reason DBS never returns any other

event count than zero.

event_count = int(attrs["RUNS_NUMBEROFEVENTS"])

BUG BUG BUG end

info = (site_name, file_count, event_count) try: sample_info[run_number].append(info) except KeyError: sample_info[run_number] = [info] xml.sax.parseString(api_result, Handler()) except SAXParseException: msg = "ERROR: Could not parse DBS server output" self.logger.fatal(msg) raise Error(msg) # Now translate this into a slightly more usable mapping. sites = {} for (run_number, site_info) in sample_info.iteritems():

Quick-n-dirty trick to see if all file counts are the

same.

unique_file_counts = set([i[1] for i in site_info]) if len(unique_file_counts) == 1:

Okay, so this must be a mirrored dataset.

We have to pick one but we have to be careful. We

cannot submit to things like a T0, a T1, or CAF.

site_names = [self.pick_a_site([i[0] for i in site_info])] nevents = [site_info[0][2]] else:

Looks like this is a spread-out sample.

site_names = [i[0] for i in site_info] nevents = [i[2] for i in site_info] sites[run_number] = zip(site_names, nevents) self.logger.debug("Sample `%s' spread is:" % dataset_name) run_numbers = sites.keys() run_numbers.sort() for run_number in run_numbers: self.logger.debug(" run # %6d: %d sites (%s)" % \ (run_number, len(sites[run_number]), ", ".join([i[0] for i in sites[run_number]]))) # End of dbs_check_dataset_spread. return sites # DEBUG DEBUG DEBUG

Just kept for debugging now.

def dbs_check_dataset_spread_old(self, dataset_name): """Figure out across how many sites this dataset is spread. NOTE: This is something we need to figure out per run, since we want to submit harvesting jobs per run. Basically three things can happen with a given dataset:

assert not self.dbs_api is None

DEBUG DEBUG DEBUG end

api = self.dbs_api dbs_query = "find run, run.numevents, site, file.count " \ "where dataset = %s " \ "and dataset.status = VALID" % \ dataset_name try: api_result = api.executeQuery(dbs_query) except DbsApiException: msg = "ERROR: Could not execute DBS query" self.logger.fatal(msg) raise Error(msg) # Index things by run number. No cross-check is done to make

sure we get results for each and every run in the

dataset. I'm not sure this would make sense since we'd be

cross-checking DBS info with DBS info anyway. Note that we

use the file count per site to see if we're dealing with an

incomplete vs. a mirrored dataset.

sample_info = {} try: class Handler(xml.sax.handler.ContentHandler): def startElement(self, name, attrs): if name == "result": run_number = int(attrs["RUNS_RUNNUMBER"]) site_name = str(attrs["STORAGEELEMENT_SENAME"]) file_count = int(attrs["COUNT_FILES"])

BUG BUG BUG

Doh! For some reason DBS never returns any other

event count than zero.

event_count = int(attrs["RUNS_NUMBEROFEVENTS"])

BUG BUG BUG end

info = (site_name, file_count, event_count) try: sample_info[run_number].append(info) except KeyError: sample_info[run_number] = [info] xml.sax.parseString(api_result, Handler()) except SAXParseException: msg = "ERROR: Could not parse DBS server output" self.logger.fatal(msg) raise Error(msg) # Now translate this into a slightly more usable mapping. sites = {} for (run_number, site_info) in sample_info.iteritems():

Quick-n-dirty trick to see if all file counts are the

same.

unique_file_counts = set([i[1] for i in site_info]) if len(unique_file_counts) == 1:

Okay, so this must be a mirrored dataset.

We have to pick one but we have to be careful. We

cannot submit to things like a T0, a T1, or CAF.

site_names = [self.pick_a_site([i[0] for i in site_info])] nevents = [site_info[0][2]] else:

Looks like this is a spread-out sample.

site_names = [i[0] for i in site_info] nevents = [i[2] for i in site_info] sites[run_number] = zip(site_names, nevents) self.logger.debug("Sample `%s' spread is:" % dataset_name) run_numbers = sites.keys() run_numbers.sort() for run_number in run_numbers: self.logger.debug(" run # %6d: %d site(s) (%s)" % \ (run_number, len(sites[run_number]), ", ".join([i[0] for i in sites[run_number]]))) # End of dbs_check_dataset_spread_old. return sites

DEBUG DEBUG DEBUG end

Figure out the number of events in each run of this dataset.

This is a more efficient way of doing this than calling
dbs_resolve_number_of_events for each run.

Definition at line 3076 of file cmsHarvester.py.

References assert().

3077  def dbs_check_dataset_spread(self, dataset_name):
3078  """Figure out the number of events in each run of this dataset.
3079 
3080  This is a more efficient way of doing this than calling
3081  dbs_resolve_number_of_events for each run.
3082 
3083  """
3084 
3085  self.logger.debug("Checking spread of dataset `%s'" % dataset_name)
3086 
3087  # DEBUG DEBUG DEBUG
3088  # If we get here DBS should have been set up already.
3089  assert not self.dbs_api is None
3090  # DEBUG DEBUG DEBUG end
3091 
3092  api = self.dbs_api
3093  dbs_query = "find run.number, site, file.name, file.numevents " \
3094  "where dataset = %s " \
3095  "and dataset.status = VALID" % \
3096  dataset_name
3097  try:
3098  api_result = api.executeQuery(dbs_query)
3099  except DBSAPI.dbsApiException.DbsApiException:
3100  msg = "ERROR: Could not execute DBS query"
3101  self.logger.fatal(msg)
3102  raise Error(msg)
3103 
3104  handler = DBSXMLHandler(["run.number", "site", "file.name", "file.numevents"])
3105  parser = xml.sax.make_parser()
3106  parser.setContentHandler(handler)
3107 
3108  try:
# OBSOLETE OBSOLETE OBSOLETE
Helper class: Error exception.
Helper class: DBSXMLHandler.
def dbs_check_dataset_spread
def dbs_resolve_dataset_number_of_sites(self, dataset_name): &quot;&quot;"Ask DBS across how many sites this da...
def cmsHarvester.dbs_resolve_cmssw_version (   self,
  dataset_name 
)
Ask DBS for the CMSSW version used to create this dataset.

Definition at line 2474 of file cmsHarvester.py.

References assert().

2475  def dbs_resolve_cmssw_version(self, dataset_name):
2476  """Ask DBS for the CMSSW version used to create this dataset.
2477 
2478  """
2479 
2480  # DEBUG DEBUG DEBUG
2481  # If we get here DBS should have been set up already.
2482  assert not self.dbs_api is None
2483  # DEBUG DEBUG DEBUG end
2484 
2485  api = self.dbs_api
2486  dbs_query = "find algo.version where dataset = %s " \
2487  "and dataset.status = VALID" % \
2488  dataset_name
2489  try:
2490  api_result = api.executeQuery(dbs_query)
2491  except DBSAPI.dbsApiException.DbsApiException:
2492  msg = "ERROR: Could not execute DBS query"
2493  self.logger.fatal(msg)
2494  raise Error(msg)
2495 
2496  handler = DBSXMLHandler(["algo.version"])
2497  parser = xml.sax.make_parser()
2498  parser.setContentHandler(handler)
2499 
2500  try:
2501  xml.sax.parseString(api_result, handler)
2502  except SAXParseException:
2503  msg = "ERROR: Could not parse DBS server output"
2504  self.logger.fatal(msg)
2505  raise Error(msg)
2506 
2507  # DEBUG DEBUG DEBUG
2508  assert(handler.check_results_validity()), "ERROR The DBSXMLHandler screwed something up!"
2509  # DEBUG DEBUG DEBUG end
2510 
2511  cmssw_version = handler.results.values()[0]
2512 
2513  # DEBUG DEBUG DEBUG
2514  assert len(cmssw_version) == 1
2515  # DEBUG DEBUG DEBUG end
2516 
2517  cmssw_version = cmssw_version[0]
2518 
2519  # End of dbs_resolve_cmssw_version.
2520  return cmssw_version
assert(m_qm.get())
Helper class: Error exception.
Helper class: DBSXMLHandler.
def dbs_resolve_cmssw_version
def cmsHarvester.dbs_resolve_dataset_name (   self,
  dataset_name 
)
Use DBS to resolve a wildcarded dataset name.

Definition at line 2418 of file cmsHarvester.py.

References assert().

Referenced by build_dataset_list().

2419  def dbs_resolve_dataset_name(self, dataset_name):
2420  """Use DBS to resolve a wildcarded dataset name.
2421 
2422  """
2423 
2424  # DEBUG DEBUG DEBUG
2425  # If we get here DBS should have been set up already.
2426  assert not self.dbs_api is None
2427  # DEBUG DEBUG DEBUG end
2428 
2429  # Some minor checking to make sure that whatever we've been
2430  # given as dataset name actually sounds like a dataset name.
2431  if not (dataset_name.startswith("/") and \
2432  dataset_name.endswith("RECO")):
2433  self.logger.warning("Dataset name `%s' does not sound " \
2434  "like a valid dataset name!" % \
2435  dataset_name)
2436 
2437  #----------
2438 
2439  api = self.dbs_api
2440  dbs_query = "find dataset where dataset like %s " \
2441  "and dataset.status = VALID" % \
2442  dataset_name
2443  try:
2444  api_result = api.executeQuery(dbs_query)
2445  except DBSAPI.dbsApiException.DbsApiException:
2446  msg = "ERROR: Could not execute DBS query"
2447  self.logger.fatal(msg)
2448  raise Error(msg)
2449 
2450  # Setup parsing.
2451  handler = DBSXMLHandler(["dataset"])
2452  parser = xml.sax.make_parser()
2453  parser.setContentHandler(handler)
2454 
2455  # Parse.
2456  try:
2457  xml.sax.parseString(api_result, handler)
2458  except SAXParseException:
2459  msg = "ERROR: Could not parse DBS server output"
2460  self.logger.fatal(msg)
2461  raise Error(msg)
2462 
2463  # DEBUG DEBUG DEBUG
2464  assert(handler.check_results_validity()), "ERROR The DBSXMLHandler screwed something up!"
2465  # DEBUG DEBUG DEBUG end
2466 
2467  # Extract the results.
2468  datasets = handler.results.values()[0]
2469 
2470  # End of dbs_resolve_dataset_name.
2471  return datasets
assert(m_qm.get())
Helper class: Error exception.
Helper class: DBSXMLHandler.
def dbs_resolve_dataset_name
def cmsHarvester.dbs_resolve_datatype (   self,
  dataset_name 
)
Ask DBS for the the data type (data or mc) of a given
dataset.

Definition at line 2682 of file cmsHarvester.py.

References assert().

2683  def dbs_resolve_datatype(self, dataset_name):
2684  """Ask DBS for the the data type (data or mc) of a given
2685  dataset.
2686 
2687  """
2688 
2689  # DEBUG DEBUG DEBUG
2690  # If we get here DBS should have been set up already.
2691  assert not self.dbs_api is None
2692  # DEBUG DEBUG DEBUG end
2693 
2694  api = self.dbs_api
2695  dbs_query = "find datatype.type where dataset = %s " \
2696  "and dataset.status = VALID" % \
2697  dataset_name
2698  try:
2699  api_result = api.executeQuery(dbs_query)
2700  except DBSAPI.dbsApiException.DbsApiException:
2701  msg = "ERROR: Could not execute DBS query"
2702  self.logger.fatal(msg)
2703  raise Error(msg)
2704 
2705  handler = DBSXMLHandler(["datatype.type"])
2706  parser = xml.sax.make_parser()
2707  parser.setContentHandler(handler)
2708 
2709  try:
2710  xml.sax.parseString(api_result, handler)
2711  except SAXParseException:
2712  msg = "ERROR: Could not parse DBS server output"
2713  self.logger.fatal(msg)
2714  raise Error(msg)
2715 
2716  # DEBUG DEBUG DEBUG
2717  assert(handler.check_results_validity()), "ERROR The DBSXMLHandler screwed something up!"
2718  # DEBUG DEBUG DEBUG end
2719 
2720  datatype = handler.results.values()[0]
2721 
2722  # DEBUG DEBUG DEBUG
2723  assert len(datatype) == 1
2724  # DEBUG DEBUG DEBUG end
2725 
2726  datatype = datatype[0]
2727 
2728  # End of dbs_resolve_datatype.
2729  return datatype
assert(m_qm.get())
Helper class: Error exception.
Helper class: DBSXMLHandler.
def dbs_resolve_datatype
def cmsHarvester.dbs_resolve_globaltag (   self,
  dataset_name 
)
Ask DBS for the globaltag corresponding to a given dataset.

# BUG BUG BUG
# This does not seem to work for data datasets? E.g. for
# /Cosmics/Commissioning08_CRAFT0831X_V1_311_ReReco_FromSuperPointing_v1/RAW-RECO
# Probaly due to the fact that the GlobalTag changed during
# datataking...
BUG BUG BUG end

Definition at line 2626 of file cmsHarvester.py.

References assert().

2627  def dbs_resolve_globaltag(self, dataset_name):
2628  """Ask DBS for the globaltag corresponding to a given dataset.
2629 
2630  # BUG BUG BUG
2631  # This does not seem to work for data datasets? E.g. for
2632  # /Cosmics/Commissioning08_CRAFT0831X_V1_311_ReReco_FromSuperPointing_v1/RAW-RECO
2633  # Probaly due to the fact that the GlobalTag changed during
2634  # datataking...
2635  BUG BUG BUG end
2636 
2637  """
2638 
2639  # DEBUG DEBUG DEBUG
2640  # If we get here DBS should have been set up already.
2641  assert not self.dbs_api is None
2642  # DEBUG DEBUG DEBUG end
2643 
2644  api = self.dbs_api
2645  dbs_query = "find dataset.tag where dataset = %s " \
2646  "and dataset.status = VALID" % \
2647  dataset_name
2648  try:
2649  api_result = api.executeQuery(dbs_query)
2650  except DBSAPI.dbsApiException.DbsApiException:
2651  msg = "ERROR: Could not execute DBS query"
2652  self.logger.fatal(msg)
2653  raise Error(msg)
2654 
2655  handler = DBSXMLHandler(["dataset.tag"])
2656  parser = xml.sax.make_parser()
2657  parser.setContentHandler(parser)
2658 
2659  try:
2660  xml.sax.parseString(api_result, handler)
2661  except SAXParseException:
2662  msg = "ERROR: Could not parse DBS server output"
2663  self.logger.fatal(msg)
2664  raise Error(msg)
2665 
2666  # DEBUG DEBUG DEBUG
2667  assert(handler.check_results_validity()), "ERROR The DBSXMLHandler screwed something up!"
2668  # DEBUG DEBUG DEBUG end
2669 
2670  globaltag = handler.results.values()[0]
2671 
2672  # DEBUG DEBUG DEBUG
2673  assert len(globaltag) == 1
2674  # DEBUG DEBUG DEBUG end
2675 
2676  globaltag = globaltag[0]
2677 
2678  # End of dbs_resolve_globaltag.
2679  return globaltag
assert(m_qm.get())
def dbs_resolve_globaltag
Helper class: Error exception.
Helper class: DBSXMLHandler.
def cmsHarvester.dbs_resolve_number_of_events (   self,
  dataset_name,
  run_number = None 
)
Determine the number of events in a given dataset (and run).

Ask DBS for the number of events in a dataset. If a run number
is specified the number of events returned is that in that run
of that dataset. If problems occur we throw an exception.

# BUG BUG BUG
# Since DBS does not return the number of events correctly,
# neither for runs nor for whole datasets, we have to work
# around that a bit...
# BUG BUG BUG end

Definition at line 2735 of file cmsHarvester.py.

References assert().

2736  def dbs_resolve_number_of_events(self, dataset_name, run_number=None):
2737  """Determine the number of events in a given dataset (and run).
2738 
2739  Ask DBS for the number of events in a dataset. If a run number
2740  is specified the number of events returned is that in that run
2741  of that dataset. If problems occur we throw an exception.
2742 
2743  # BUG BUG BUG
2744  # Since DBS does not return the number of events correctly,
2745  # neither for runs nor for whole datasets, we have to work
2746  # around that a bit...
2747  # BUG BUG BUG end
2748 
2749  """
2750 
2751  # DEBUG DEBUG DEBUG
2752  # If we get here DBS should have been set up already.
2753  assert not self.dbs_api is None
2754  # DEBUG DEBUG DEBUG end
2755 
2756  api = self.dbs_api
2757  dbs_query = "find file.name, file.numevents where dataset = %s " \
2758  "and dataset.status = VALID" % \
2759  dataset_name
2760  if not run_number is None:
2761  dbs_query = dbq_query + (" and run = %d" % run_number)
2762  try:
2763  api_result = api.executeQuery(dbs_query)
2764  except DBSAPI.dbsApiException.DbsApiException:
2765  msg = "ERROR: Could not execute DBS query"
2766  self.logger.fatal(msg)
2767  raise Error(msg)
2768 
2769  handler = DBSXMLHandler(["file.name", "file.numevents"])
2770  parser = xml.sax.make_parser()
2771  parser.setContentHandler(handler)
2772 
2773  try:
2774  xml.sax.parseString(api_result, handler)
2775  except SAXParseException:
2776  msg = "ERROR: Could not parse DBS server output"
2777  self.logger.fatal(msg)
2778  raise Error(msg)
2779 
2780  # DEBUG DEBUG DEBUG
2781  assert(handler.check_results_validity()), "ERROR The DBSXMLHandler screwed something up!"
2782  # DEBUG DEBUG DEBUG end
2783 
2784  num_events = sum(handler.results["file.numevents"])
2785 
2786  # End of dbs_resolve_number_of_events.
2787  return num_events
assert(m_qm.get())
Helper class: Error exception.
Helper class: DBSXMLHandler.
def dbs_resolve_number_of_events
def cmsHarvester.dbs_resolve_runs (   self,
  dataset_name 
)

def dbs_resolve_dataset_number_of_events(self, dataset_name): """Ask DBS across how many events this dataset has been spread out.

     This is especially useful to check that we do not submit a job
    supposed to run on a complete sample that is not contained at
    a single site.         """         # DEBUG DEBUG DEBUG

If we get here DBS should have been set up already.

assert not self.dbs_api is None

DEBUG DEBUG DEBUG end

api = self.dbs_api dbs_query = "find count(site) where dataset = %s " \ "and dataset.status = VALID" % \ dataset_name try: api_result = api.executeQuery(dbs_query) except DbsApiException: raise Error("ERROR: Could not execute DBS query") try: num_events = [] class Handler(xml.sax.handler.ContentHandler): def startElement(self, name, attrs): if name == "result": num_events.append(str(attrs["COUNT_STORAGEELEMENT"])) xml.sax.parseString(api_result, Handler()) except SAXParseException: raise Error("ERROR: Could not parse DBS server output") # DEBUG DEBUG DEBUG assert len(num_events) == 1

DEBUG DEBUG DEBUG end

num_events = int(num_events[0]) # End of dbs_resolve_dataset_number_of_events. return num_events

Ask DBS for the list of runs in a given dataset.

# NOTE: This does not (yet?) skip/remove empty runs. There is
# a bug in the DBS entry run.numevents (i.e. it always returns
# zero) which should be fixed in the `next DBS release'.
# See also:
#   https://savannah.cern.ch/bugs/?53452
#   https://savannah.cern.ch/bugs/?53711

Definition at line 2568 of file cmsHarvester.py.

References assert().

2569  def dbs_resolve_runs(self, dataset_name):
2570  """Ask DBS for the list of runs in a given dataset.
2571 
2572  # NOTE: This does not (yet?) skip/remove empty runs. There is
2573  # a bug in the DBS entry run.numevents (i.e. it always returns
2574  # zero) which should be fixed in the `next DBS release'.
2575  # See also:
2576  # https://savannah.cern.ch/bugs/?53452
2577  # https://savannah.cern.ch/bugs/?53711
2578 
2579  """
2580 
2581  # TODO TODO TODO
2582  # We should remove empty runs as soon as the above mentioned
2583  # bug is fixed.
2584  # TODO TODO TODO end
2585 
2586  # DEBUG DEBUG DEBUG
2587  # If we get here DBS should have been set up already.
2588  assert not self.dbs_api is None
2589  # DEBUG DEBUG DEBUG end
2590 
2591  api = self.dbs_api
2592  dbs_query = "find run where dataset = %s " \
2593  "and dataset.status = VALID" % \
2594  dataset_name
2595  try:
2596  api_result = api.executeQuery(dbs_query)
2597  except DBSAPI.dbsApiException.DbsApiException:
2598  msg = "ERROR: Could not execute DBS query"
2599  self.logger.fatal(msg)
2600  raise Error(msg)
2601 
2602  handler = DBSXMLHandler(["run"])
2603  parser = xml.sax.make_parser()
2604  parser.setContentHandler(handler)
2605 
2606  try:
2607  xml.sax.parseString(api_result, handler)
2608  except SAXParseException:
2609  msg = "ERROR: Could not parse DBS server output"
2610  self.logger.fatal(msg)
2611  raise Error(msg)
2612 
2613  # DEBUG DEBUG DEBUG
2614  assert(handler.check_results_validity()), "ERROR The DBSXMLHandler screwed something up!"
2615  # DEBUG DEBUG DEBUG end
2616 
2617  runs = handler.results.values()[0]
2618  # Turn strings into integers.
2619  runs = [int(i) for i in runs]
2620  runs.sort()
2621 
2622  # End of dbs_resolve_runs.
2623  return runs
assert(m_qm.get())
Helper class: Error exception.
Helper class: DBSXMLHandler.
def dbs_resolve_runs
def dbs_resolve_dataset_number_of_events(self, dataset_name): &quot;&quot;"Ask DBS across how many events this ...
def cmsHarvester.escape_dataset_name (   self,
  dataset_name 
)
Escape a DBS dataset name.

Escape a DBS dataset name such that it does not cause trouble
with the file system. This means turning each `/' into `__',
except for the first one which is just removed.

Definition at line 4046 of file cmsHarvester.py.

4047  def escape_dataset_name(self, dataset_name):
4048  """Escape a DBS dataset name.
4049 
4050  Escape a DBS dataset name such that it does not cause trouble
4051  with the file system. This means turning each `/' into `__',
4052  except for the first one which is just removed.
4053 
4054  """
4055 
4056  escaped_dataset_name = dataset_name
4057  escaped_dataset_name = escaped_dataset_name.strip("/")
4058  escaped_dataset_name = escaped_dataset_name.replace("/", "__")
4059 
4060  return escaped_dataset_name
def escape_dataset_name
def cmsHarvester.load_ref_hist_mappings (   self)
Load the reference histogram mappings from file.

The dataset name to reference histogram name mappings are read
from a text file specified in self.ref_hist_mappings_file_name.

Definition at line 5206 of file cmsHarvester.py.

References mergeVDriftHistosByStation.file, and bookConverter.max.

5207  def load_ref_hist_mappings(self):
5208  """Load the reference histogram mappings from file.
5209 
5210  The dataset name to reference histogram name mappings are read
5211  from a text file specified in self.ref_hist_mappings_file_name.
5212 
5213  """
5214 
5215  # DEBUG DEBUG DEBUG
5216  assert len(self.ref_hist_mappings) < 1, \
5217  "ERROR Should not be RE-loading " \
5218  "reference histogram mappings!"
5219  # DEBUG DEBUG DEBUG end
5220 
5221  self.logger.info("Loading reference histogram mappings " \
5222  "from file `%s'" % \
5223  self.ref_hist_mappings_file_name)
5224 
5225  mappings_lines = None
5226  try:
5227  mappings_file = file(self.ref_hist_mappings_file_name, "r")
5228  mappings_lines = mappings_file.readlines()
5229  mappings_file.close()
5230  except IOError:
5231  msg = "ERROR: Could not open reference histogram mapping "\
5232  "file `%s'" % self.ref_hist_mappings_file_name
5233  self.logger.fatal(msg)
5234  raise Error(msg)
5235 
5236  ##########
5237 
5238  # The format we expect is: two white-space separated pieces
5239  # per line. The first the dataset name for which the reference
5240  # should be used, the second one the name of the reference
5241  # histogram in the database.
5242 
5243  for mapping in mappings_lines:
5244  # Skip comment lines.
5245  if not mapping.startswith("#"):
5246  mapping = mapping.strip()
5247  if len(mapping) > 0:
5248  mapping_pieces = mapping.split()
5249  if len(mapping_pieces) != 2:
5250  msg = "ERROR: The reference histogram mapping " \
5251  "file contains a line I don't " \
5252  "understand:\n %s" % mapping
5253  self.logger.fatal(msg)
5254  raise Error(msg)
5255  dataset_name = mapping_pieces[0].strip()
5256  ref_hist_name = mapping_pieces[1].strip()
5257  # We don't want people to accidentally specify
5258  # multiple mappings for the same dataset. Just
5259  # don't accept those cases.
5260  if self.ref_hist_mappings.has_key(dataset_name):
5261  msg = "ERROR: The reference histogram mapping " \
5262  "file contains multiple mappings for " \
5263  "dataset `%s'."
5264  self.logger.fatal(msg)
5265  raise Error(msg)
5266 
5267  # All is well that ends well.
5268  self.ref_hist_mappings[dataset_name] = ref_hist_name
5269 
5270  ##########
5271 
5272  self.logger.info(" Successfully loaded %d mapping(s)" % \
5273  len(self.ref_hist_mappings))
5274  max_len = max([len(i) for i in self.ref_hist_mappings.keys()])
5275  for (map_from, map_to) in self.ref_hist_mappings.iteritems():
5276  self.logger.info(" %-*s -> %s" % \
5277  (max_len, map_from, map_to))
5278 
5279  # End of load_ref_hist_mappings.
def load_ref_hist_mappings
Helper class: Error exception.
def cmsHarvester.option_handler_caf_access (   self,
  option,
  opt_str,
  value,
  parser 
)
Set the self.caf_access flag to try and create jobs that
run on the CAF.

Definition at line 1100 of file cmsHarvester.py.

1101  def option_handler_caf_access(self, option, opt_str, value, parser):
1102  """Set the self.caf_access flag to try and create jobs that
1103  run on the CAF.
1104 
1105  """
1106  self.caf_access = True
1107 
1108  self.logger.warning("Running in `caf_access' mode. " \
1109  "Will try to create jobs that run " \
1110  "on CAF but no" \
1111  "further promises...")
1112 
1113  # End of option_handler_caf_access.
def option_handler_caf_access
def cmsHarvester.option_handler_castor_dir (   self,
  option,
  opt_str,
  value,
  parser 
)

def option_handler_dataset_name(self, option, opt_str, value, parser): """Specify the name(s) of the dataset(s) to be processed.

     It is checked to make sure that no dataset name or listfile
    names are given yet. If all is well (i.e. we still have a
    clean slate) the dataset name is stored for later use,
    otherwise a Usage exception is raised.         """         if not self.input_method is None:
        if self.input_method == "dataset":
            raise Usage("Please only feed me one dataset specification")
        elif self.input_method == "listfile":
            raise Usage("Cannot specify both dataset and input list file")
        else:
            assert False, "Unknown input method `%s'" % self.input_method
    self.input_method = "dataset"
    self.input_name = value
    self.logger.info("Input method used: %s" % self.input_method)         # End of option_handler_dataset_name.     ##########     def option_handler_listfile_name(self, option, opt_str, value, parser):
    """Specify the input list file containing datasets to be processed.         It is checked to make sure that no dataset name or listfile
    names are given yet. If all is well (i.e. we still have a
    clean slate) the listfile name is stored for later use,
    otherwise a Usage exception is raised.         """         if not self.input_method is None:
        if self.input_method == "listfile":
            raise Usage("Please only feed me one list file")
        elif self.input_method == "dataset":
            raise Usage("Cannot specify both dataset and input list file")
        else:
            assert False, "Unknown input method `%s'" % self.input_method
    self.input_method = "listfile"
    self.input_name = value
    self.logger.info("Input method used: %s" % self.input_method)         # End of option_handler_listfile_name. @verbatim Specify where on CASTOR the output should go.

At the moment only output to CERN CASTOR is supported. Eventually the harvested results should go into the central place for DQM on CASTOR anyway.

Definition at line 1058 of file cmsHarvester.py.

1059  def option_handler_castor_dir(self, option, opt_str, value, parser):
1060  """Specify where on CASTOR the output should go.
1061 
1062  At the moment only output to CERN CASTOR is
1063  supported. Eventually the harvested results should go into the
1064  central place for DQM on CASTOR anyway.
1065 
1066  """
1067 
1068  # Check format of specified CASTOR area.
1069  castor_dir = value
1070  #castor_dir = castor_dir.lstrip(os.path.sep)
1071  castor_prefix = self.castor_prefix
1072 
1073  # Add a leading slash if necessary and clean up the path.
1074  castor_dir = os.path.join(os.path.sep, castor_dir)
1075  self.castor_base_dir = os.path.normpath(castor_dir)
1076 
1077  self.logger.info("CASTOR (base) area to be used: `%s'" % \
1078  self.castor_base_dir)
1079 
1080  # End of option_handler_castor_dir.
def option_handler_castor_dir
def option_handler_dataset_name(self, option, opt_str, value, parser): &quot;&quot;"Specify the name(s) of the ...
def cmsHarvester.option_handler_crab_submission (   self,
  option,
  opt_str,
  value,
  parser 
)
Crab jobs are not created and
    "submitted automatically",

Definition at line 1128 of file cmsHarvester.py.

1129  def option_handler_crab_submission(self, option, opt_str, value, parser):
1130  """Crab jobs are not created and
1131  "submitted automatically",
1132  """
1133  self.crab_submission = True
1134 
1135  # End of option_handler_crab_submission.
def option_handler_crab_submission
def cmsHarvester.option_handler_list_types (   self,
  option,
  opt_str,
  value,
  parser 
)
List all harvesting types and their mappings.

This lists all implemented harvesting types with their
corresponding mappings to sequence names. This had to be
separated out from the help since it depends on the CMSSW
version and was making things a bit of a mess.

NOTE: There is no way (at least not that I could come up with)
to code this in a neat generic way that can be read both by
this method and by setup_harvesting_info(). Please try hard to
keep these two methods in sync!

Definition at line 1150 of file cmsHarvester.py.

1151  def option_handler_list_types(self, option, opt_str, value, parser):
1152  """List all harvesting types and their mappings.
1153 
1154  This lists all implemented harvesting types with their
1155  corresponding mappings to sequence names. This had to be
1156  separated out from the help since it depends on the CMSSW
1157  version and was making things a bit of a mess.
1158 
1159  NOTE: There is no way (at least not that I could come up with)
1160  to code this in a neat generic way that can be read both by
1161  this method and by setup_harvesting_info(). Please try hard to
1162  keep these two methods in sync!
1163 
1164  """
1165 
1166  sep_line = "-" * 50
1167  sep_line_short = "-" * 20
1168 
1169  print sep_line
1170  print "The following harvesting types are available:"
1171  print sep_line
1172 
1173  print "`RelVal' maps to:"
1174  print " pre-3_3_0 : HARVESTING:validationHarvesting"
1175  print " 3_4_0_pre2 and later: HARVESTING:validationHarvesting+dqmHarvesting"
1176  print " Exceptions:"
1177  print " 3_3_0_pre1-4 : HARVESTING:validationHarvesting"
1178  print " 3_3_0_pre6 : HARVESTING:validationHarvesting"
1179  print " 3_4_0_pre1 : HARVESTING:validationHarvesting"
1180 
1181  print sep_line_short
1182 
1183  print "`RelValFS' maps to:"
1184  print " always : HARVESTING:validationHarvestingFS"
1185 
1186  print sep_line_short
1187 
1188  print "`MC' maps to:"
1189  print " always : HARVESTING:validationprodHarvesting"
1190 
1191  print sep_line_short
1192 
1193  print "`DQMOffline' maps to:"
1194  print " always : HARVESTING:dqmHarvesting"
1195 
1196  print sep_line
1197 
1198  # We're done, let's quit. (This is the same thing optparse
1199  # does after printing the help.)
1200  raise SystemExit
1201 
1202  # End of option_handler_list_types.
def option_handler_list_types
def cmsHarvester.option_handler_no_t1access (   self,
  option,
  opt_str,
  value,
  parser 
)
Set the self.no_t1access flag to try and create jobs that
run without special `t1access' role.

Definition at line 1083 of file cmsHarvester.py.

1084  def option_handler_no_t1access(self, option, opt_str, value, parser):
1085  """Set the self.no_t1access flag to try and create jobs that
1086  run without special `t1access' role.
1087 
1088  """
1090  self.non_t1access = True
1091 
1092  self.logger.warning("Running in `non-t1access' mode. " \
1093  "Will try to create jobs that run " \
1094  "without special rights but no " \
1095  "further promises...")
1096 
1097  # End of option_handler_no_t1access.
def option_handler_no_t1access
def cmsHarvester.option_handler_preferred_site (   self,
  option,
  opt_str,
  value,
  parser 
)

Definition at line 1144 of file cmsHarvester.py.

1145  def option_handler_preferred_site(self, option, opt_str, value, parser):
1147  self.preferred_site = value
def option_handler_preferred_site
def cmsHarvester.option_handler_saveByLumiSection (   self,
  option,
  opt_str,
  value,
  parser 
)
Set process.dqmSaver.saveByLumiSectiont=1 in cfg harvesting file

Definition at line 1116 of file cmsHarvester.py.

1117  def option_handler_saveByLumiSection(self, option, opt_str, value, parser):
1118  """Set process.dqmSaver.saveByLumiSectiont=1 in cfg harvesting file
1119  """
1120  self.saveByLumiSection = True
1121 
1122  self.logger.warning("waning concerning saveByLumiSection option")
1123 
1124  # End of option_handler_saveByLumiSection.
1125 
def option_handler_saveByLumiSection
def cmsHarvester.option_handler_sites (   self,
  option,
  opt_str,
  value,
  parser 
)

Definition at line 1138 of file cmsHarvester.py.

1139  def option_handler_sites(self, option, opt_str, value, parser):
1141  self.nr_max_sites = value
def option_handler_sites
def cmsHarvester.parse_cmd_line_options (   self)

Definition at line 1869 of file cmsHarvester.py.

1870  def parse_cmd_line_options(self):
1871 
1872  # Set up the command line parser. Note that we fix up the help
1873  # formatter so that we can add some text pointing people to
1874  # the Twiki etc.
1875  parser = optparse.OptionParser(version="%s %s" % \
1876  ("%prog", self.version),
1877  formatter=CMSHarvesterHelpFormatter())
1879  self.option_parser = parser
1880 
1881  # The debug switch.
1882  parser.add_option("-d", "--debug",
1883  help="Switch on debug mode",
1884  action="callback",
1885  callback=self.option_handler_debug)
1886 
1887  # The quiet switch.
1888  parser.add_option("-q", "--quiet",
1889  help="Be less verbose",
1890  action="callback",
1891  callback=self.option_handler_quiet)
1892 
1893  # The force switch. If this switch is used sanity checks are
1894  # performed but failures do not lead to aborts. Use with care.
1895  parser.add_option("", "--force",
1896  help="Force mode. Do not abort on sanity check "
1897  "failures",
1898  action="callback",
1899  callback=self.option_handler_force)
1900 
1901  # Choose between the different kinds of harvesting.
1902  parser.add_option("", "--harvesting_type",
1903  help="Harvesting type: %s" % \
1904  ", ".join(self.harvesting_types),
1905  action="callback",
1906  callback=self.option_handler_harvesting_type,
1907  type="string",
1908  metavar="HARVESTING_TYPE")
1909 
1910  # Choose between single-step and two-step mode.
1911  parser.add_option("", "--harvesting_mode",
1912  help="Harvesting mode: %s (default = %s)" % \
1913  (", ".join(self.harvesting_modes),
1914  self.harvesting_mode_default),
1915  action="callback",
1916  callback=self.option_handler_harvesting_mode,
1917  type="string",
1918  metavar="HARVESTING_MODE")
1919 
1920  # Override the GlobalTag chosen by the cmsHarvester.
1921  parser.add_option("", "--globaltag",
1922  help="GlobalTag to use. Default is the ones " \
1923  "the dataset was created with for MC, for data" \
1924  "a GlobalTag has to be specified.",
1925  action="callback",
1926  callback=self.option_handler_globaltag,
1927  type="string",
1928  metavar="GLOBALTAG")
1929 
1930  # Allow switching off of reference histograms.
1931  parser.add_option("", "--no-ref-hists",
1932  help="Don't use any reference histograms",
1933  action="callback",
1934  callback=self.option_handler_no_ref_hists)
1935 
1936  # Allow the default (i.e. the one that should be used)
1937  # Frontier connection to be overridden.
1938  parser.add_option("", "--frontier-connection",
1939  help="Use this Frontier connection to find " \
1940  "GlobalTags and LocalTags (for reference " \
1941  "histograms).\nPlease only use this for " \
1942  "testing.",
1943  action="callback",
1944  callback=self.option_handler_frontier_connection,
1945  type="string",
1946  metavar="FRONTIER")
1947 
1948  # Similar to the above but specific to the Frontier connection
1949  # to be used for the GlobalTag.
1950  parser.add_option("", "--frontier-connection-for-globaltag",
1951  help="Use this Frontier connection to find " \
1952  "GlobalTags.\nPlease only use this for " \
1953  "testing.",
1954  action="callback",
1955  callback=self.option_handler_frontier_connection,
1956  type="string",
1957  metavar="FRONTIER")
1958 
1959  # Similar to the above but specific to the Frontier connection
1960  # to be used for the reference histograms.
1961  parser.add_option("", "--frontier-connection-for-refhists",
1962  help="Use this Frontier connection to find " \
1963  "LocalTags (for reference " \
1964  "histograms).\nPlease only use this for " \
1965  "testing.",
1966  action="callback",
1967  callback=self.option_handler_frontier_connection,
1968  type="string",
1969  metavar="FRONTIER")
1970 
1971  # Option to specify the name (or a regexp) of the dataset(s)
1972  # to be used.
1973  parser.add_option("", "--dataset",
1974  help="Name (or regexp) of dataset(s) to process",
1975  action="callback",
1976  #callback=self.option_handler_dataset_name,
1977  callback=self.option_handler_input_spec,
1978  type="string",
1979  #dest="self.input_name",
1980  metavar="DATASET")
1981 
1982  # Option to specify the name (or a regexp) of the dataset(s)
1983  # to be ignored.
1984  parser.add_option("", "--dataset-ignore",
1985  help="Name (or regexp) of dataset(s) to ignore",
1986  action="callback",
1987  callback=self.option_handler_input_spec,
1988  type="string",
1989  metavar="DATASET-IGNORE")
1990 
1991  # Option to specify the name (or a regexp) of the run(s)
1992  # to be used.
1993  parser.add_option("", "--runs",
1994  help="Run number(s) to process",
1995  action="callback",
1996  callback=self.option_handler_input_spec,
1997  type="string",
1998  metavar="RUNS")
1999 
2000  # Option to specify the name (or a regexp) of the run(s)
2001  # to be ignored.
2002  parser.add_option("", "--runs-ignore",
2003  help="Run number(s) to ignore",
2004  action="callback",
2005  callback=self.option_handler_input_spec,
2006  type="string",
2007  metavar="RUNS-IGNORE")
2008 
2009  # Option to specify a file containing a list of dataset names
2010  # (or regexps) to be used.
2011  parser.add_option("", "--datasetfile",
2012  help="File containing list of dataset names " \
2013  "(or regexps) to process",
2014  action="callback",
2015  #callback=self.option_handler_listfile_name,
2016  callback=self.option_handler_input_spec,
2017  type="string",
2018  #dest="self.input_name",
2019  metavar="DATASETFILE")
2020 
2021  # Option to specify a file containing a list of dataset names
2022  # (or regexps) to be ignored.
2023  parser.add_option("", "--datasetfile-ignore",
2024  help="File containing list of dataset names " \
2025  "(or regexps) to ignore",
2026  action="callback",
2027  callback=self.option_handler_input_spec,
2028  type="string",
2029  metavar="DATASETFILE-IGNORE")
2030 
2031  # Option to specify a file containing a list of runs to be
2032  # used.
2033  parser.add_option("", "--runslistfile",
2034  help="File containing list of run numbers " \
2035  "to process",
2036  action="callback",
2037  callback=self.option_handler_input_spec,
2038  type="string",
2039  metavar="RUNSLISTFILE")
2040 
2041  # Option to specify a file containing a list of runs
2042  # to be ignored.
2043  parser.add_option("", "--runslistfile-ignore",
2044  help="File containing list of run numbers " \
2045  "to ignore",
2046  action="callback",
2047  callback=self.option_handler_input_spec,
2048  type="string",
2049  metavar="RUNSLISTFILE-IGNORE")
2050 
# Option to specify a Jsonfile contaning a list of runs
def parse_cmd_line_options
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
Helper class: CMSHarvesterHelpFormatter.
def cmsHarvester.pick_a_site (   self,
  sites,
  cmssw_version 
)

Definition at line 1705 of file cmsHarvester.py.

1706  def pick_a_site(self, sites, cmssw_version):
def cmsHarvester.process_dataset_ignore_list (   self)
Update the list of datasets taking into account the ones to
ignore.

Both lists have been generated before from DBS and both are
assumed to be unique.

NOTE: The advantage of creating the ignore list from DBS (in
case a regexp is given) and matching that instead of directly
matching the ignore criterion against the list of datasets (to
consider) built from DBS is that in the former case we're sure
that all regexps are treated exactly as DBS would have done
without the cmsHarvester.

NOTE: This only removes complete samples. Exclusion of single
runs is done by the book keeping. So the assumption is that a
user never wants to harvest just part (i.e. n out of N runs)
of a sample.

Definition at line 3566 of file cmsHarvester.py.

3567  def process_dataset_ignore_list(self):
3568  """Update the list of datasets taking into account the ones to
3569  ignore.
3570 
3571  Both lists have been generated before from DBS and both are
3572  assumed to be unique.
3573 
3574  NOTE: The advantage of creating the ignore list from DBS (in
3575  case a regexp is given) and matching that instead of directly
3576  matching the ignore criterion against the list of datasets (to
3577  consider) built from DBS is that in the former case we're sure
3578  that all regexps are treated exactly as DBS would have done
3579  without the cmsHarvester.
3580 
3581  NOTE: This only removes complete samples. Exclusion of single
3582  runs is done by the book keeping. So the assumption is that a
3583  user never wants to harvest just part (i.e. n out of N runs)
3584  of a sample.
3585 
3586  """
3587 
3588  self.logger.info("Processing list of datasets to ignore...")
3589 
3590  self.logger.debug("Before processing ignore list there are %d " \
3591  "datasets in the list to be processed" % \
3592  len(self.datasets_to_use))
3593 
3594  # Simple approach: just loop and search.
3595  dataset_names_filtered = copy.deepcopy(self.datasets_to_use)
3596  for dataset_name in self.datasets_to_use.keys():
3597  if dataset_name in self.datasets_to_ignore.keys():
3598  del dataset_names_filtered[dataset_name]
3599 
3600  self.logger.info(" --> Removed %d dataset(s)" % \
3601  (len(self.datasets_to_use) -
3602  len(dataset_names_filtered)))
3603 
3604  self.datasets_to_use = dataset_names_filtered
3605 
3606  self.logger.debug("After processing ignore list there are %d " \
3607  "datasets in the list to be processed" % \
3608  len(self.datasets_to_use))
def process_dataset_ignore_list
def cmsHarvester.process_runs_use_and_ignore_lists (   self)

Definition at line 3613 of file cmsHarvester.py.

3615 
3616  self.logger.info("Processing list of runs to use and ignore...")
3617 
3618  # This basically adds all runs in a dataset to be processed,
3619  # except for any runs that are not specified in the `to use'
3620  # list and any runs that are specified in the `to ignore'
3621  # list.
3622 
3623  # NOTE: It is assumed that those lists make sense. The input
3624  # should be checked against e.g. overlapping `use' and
3625  # `ignore' lists.
3626 
3627  runs_to_use = self.runs_to_use
3628  runs_to_ignore = self.runs_to_ignore
3629 
3630  for dataset_name in self.datasets_to_use:
3631  runs_in_dataset = self.datasets_information[dataset_name]["runs"]
3632 
3633  # First some sanity checks.
3634  runs_to_use_tmp = []
3635  for run in runs_to_use:
3636  if not run in runs_in_dataset:
3637  self.logger.warning("Dataset `%s' does not contain " \
3638  "requested run %d " \
3639  "--> ignoring `use' of this run" % \
3640  (dataset_name, run))
3641  else:
3642  runs_to_use_tmp.append(run)
3643 
3644  if len(runs_to_use) > 0:
3645  runs = runs_to_use_tmp
3646  self.logger.info("Using %d out of %d runs " \
3647  "of dataset `%s'" % \
3648  (len(runs), len(runs_in_dataset),
3649  dataset_name))
3650  else:
3651  runs = runs_in_dataset
3652 
3653  if len(runs_to_ignore) > 0:
3654  runs_tmp = []
3655  for run in runs:
3656  if not run in runs_to_ignore:
3657  runs_tmp.append(run)
3658  self.logger.info("Ignoring %d out of %d runs " \
3659  "of dataset `%s'" % \
3660  (len(runs)- len(runs_tmp),
3661  len(runs_in_dataset),
3662  dataset_name))
3663  runs = runs_tmp
3664 
3665  if self.todofile != "YourToDofile.txt":
3666  runs_todo = []
3667  print "Reading runs from file /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/harvesting/%s" %self.todofile
3668  cmd="grep %s /afs/cern.ch/cms/CAF/CMSCOMM/COMM_DQM/harvesting/%s | cut -f5 -d' '" %(dataset_name,self.todofile)
3669  (status, output)=commands.getstatusoutput(cmd)
3670  for run in runs:
3671  run_str="%s" %run
3672  if run_str in output:
3673  runs_todo.append(run)
3674  self.logger.info("Using %d runs " \
3675  "of dataset `%s'" % \
3676  (len(runs_todo),
3677  dataset_name))
3678  runs=runs_todo
3679 
3680  Json_runs = []
3681  if self.Jsonfilename != "YourJSON.txt":
3682  good_runs = []
3683  self.Jsonlumi = True
3684  # We were passed a Jsonfile containing a dictionary of
3685  # run/lunisection-pairs
3686  self.logger.info("Reading runs and lumisections from file `%s'" % \
3687  self.Jsonfilename)
3688  try:
3689  Jsonfile = open(self.Jsonfilename, "r")
3690  for names in Jsonfile:
3691  dictNames= eval(str(names))
3692  for key in dictNames:
3693  intkey=int(key)
3694  Json_runs.append(intkey)
3695  Jsonfile.close()
3696  except IOError:
3697  msg = "ERROR: Could not open Jsonfile `%s'" % \
3698  input_name
3699  self.logger.fatal(msg)
3700  raise Error(msg)
3701  for run in runs:
3702  if run in Json_runs:
3703  good_runs.append(run)
3704  self.logger.info("Using %d runs " \
3705  "of dataset `%s'" % \
3706  (len(good_runs),
3707  dataset_name))
3708  runs=good_runs
3709  if (self.Jsonrunfilename != "YourJSON.txt") and (self.Jsonfilename == "YourJSON.txt"):
3710  good_runs = []
3711  # We were passed a Jsonfile containing a dictionary of
3712  # run/lunisection-pairs
3713  self.logger.info("Reading runs from file `%s'" % \
3714  self.Jsonrunfilename)
3715  try:
3716  Jsonfile = open(self.Jsonrunfilename, "r")
3717  for names in Jsonfile:
3718  dictNames= eval(str(names))
3719  for key in dictNames:
3720  intkey=int(key)
3721  Json_runs.append(intkey)
3722  Jsonfile.close()
3723  except IOError:
3724  msg = "ERROR: Could not open Jsonfile `%s'" % \
3725  input_name
3726  self.logger.fatal(msg)
3727  raise Error(msg)
3728  for run in runs:
3729  if run in Json_runs:
3730  good_runs.append(run)
3731  self.logger.info("Using %d runs " \
3732  "of dataset `%s'" % \
3733  (len(good_runs),
3734  dataset_name))
3735  runs=good_runs
3736 
3737  self.datasets_to_use[dataset_name] = runs
3738 
3739  # End of process_runs_use_and_ignore_lists().
Helper class: Error exception.
def process_runs_use_and_ignore_lists
def cmsHarvester.ref_hist_mappings_needed (   self,
  dataset_name = None 
)
Check if we need to load and check the reference mappings.

For data the reference histograms should be taken
automatically from the GlobalTag, so we don't need any
mappings. For RelVals we need to know a mapping to be used in
the es_prefer code snippet (different references for each of
the datasets.)

WARNING: This implementation is a bit convoluted.

Definition at line 5172 of file cmsHarvester.py.

5173  def ref_hist_mappings_needed(self, dataset_name=None):
5174  """Check if we need to load and check the reference mappings.
5175 
5176  For data the reference histograms should be taken
5177  automatically from the GlobalTag, so we don't need any
5178  mappings. For RelVals we need to know a mapping to be used in
5179  the es_prefer code snippet (different references for each of
5180  the datasets.)
5181 
5182  WARNING: This implementation is a bit convoluted.
5183 
5184  """
5185 
5186  # If no dataset name given, do everything, otherwise check
5187  # only this one dataset.
5188  if not dataset_name is None:
5189  data_type = self.datasets_information[dataset_name] \
5190  ["datatype"]
5191  mappings_needed = (data_type == "mc")
5192  # DEBUG DEBUG DEBUG
5193  if not mappings_needed:
5194  assert data_type == "data"
5195  # DEBUG DEBUG DEBUG end
5196  else:
5197  tmp = [self.ref_hist_mappings_needed(dataset_name) \
5198  for dataset_name in \
5199  self.datasets_information.keys()]
5200  mappings_needed = (True in tmp)
5201 
5202  # End of ref_hist_mappings_needed.
5203  return mappings_needed
def ref_hist_mappings_needed
def cmsHarvester.run (   self)

Definition at line 5524 of file cmsHarvester.py.

References update.

5525  def run(self):
5526  "Main entry point of the CMS harvester."
5527 
5528  # Start with a positive thought.
5529  exit_code = 0
5530 
5531  try:
5532 
5533  try:
5534 
5535  # Parse all command line options and arguments
5536  self.parse_cmd_line_options()
5537  # and check that they make sense.
5538  self.check_input_status()
5539 
5540  # Check if CMSSW is setup.
5541  self.check_cmssw()
5542 
5543  # Check if DBS is setup,
5544  self.check_dbs()
5545  # and if all is fine setup the Python side.
5546  self.setup_dbs()
5547 
5548  # Fill our dictionary with all the required info we
5549  # need to understand harvesting jobs. This needs to be
5550  # done after the CMSSW version is known.
5551  self.setup_harvesting_info()
5552 
5553  # Obtain list of dataset names to consider
5554  self.build_dataset_use_list()
5555  # and the list of dataset names to ignore.
5556  self.build_dataset_ignore_list()
5557 
5558  # The same for the runs lists (if specified).
5559  self.build_runs_use_list()
5560  self.build_runs_ignore_list()
5561 
5562  # Process the list of datasets to ignore and fold that
5563  # into the list of datasets to consider.
5564  # NOTE: The run-based selection is done later since
5565  # right now we don't know yet which runs a dataset
5566  # contains.
5567  self.process_dataset_ignore_list()
5568 
5569  # Obtain all required information on the datasets,
5570  # like run numbers and GlobalTags.
5571  self.build_datasets_information()
5572 
5573  if self.use_ref_hists and \
5574  self.ref_hist_mappings_needed():
5575  # Load the dataset name to reference histogram
5576  # name mappings from file.
5577  self.load_ref_hist_mappings()
5578  # Now make sure that for all datasets we want to
5579  # process there is a reference defined. Otherwise
5580  # just bomb out before wasting any more time.
5581  self.check_ref_hist_mappings()
5582  else:
5583  self.logger.info("No need to load reference " \
5584  "histogram mappings file")
5585 
# OBSOLETE OBSOLETE OBSOLETE
def cmsHarvester.setup_dbs (   self)

Now we try to do a very simple DBS search.

If that works

instead of giving us the `Unsupported API call' crap, we

should be good to go.

NOTE: Not ideal, I know, but it reduces the amount of

complaints I get...

cmd = "dbs search --query=\"find dataset where dataset = impossible"" (status, output) = commands.getstatusoutput(cmd) pdb.set_trace() if status != 0 or \ output.lower().find("unsupported api call") > -1: self.logger.fatal("It seems DBS is not setup...") self.logger.fatal(" %s returns crap:" % cmd) for line in output.split("\n"): self.logger.fatal(" %s" % line) raise Error("ERROR: DBS needs to be setup first!")

Setup the Python side of DBS.

For more information see the DBS Python API documentation:
https://twiki.cern.ch/twiki/bin/view/CMS/DBSApiDocumentation

Definition at line 2392 of file cmsHarvester.py.

2393  def setup_dbs(self):
2394  """Setup the Python side of DBS.
2395 
2396  For more information see the DBS Python API documentation:
2397  https://twiki.cern.ch/twiki/bin/view/CMS/DBSApiDocumentation
2398 
2399  """
2400 
2401  try:
2402  args={}
2403  args["url"]= "http://cmsdbsprod.cern.ch/cms_dbs_prod_global/" \
2404  "servlet/DBSServlet"
2405  api = DbsApi(args)
2406  self.dbs_api = api
2407 
2408  except DBSAPI.dbsApiException.DbsApiException, ex:
2409  self.logger.fatal("Caught DBS API exception %s: %s " % \
2410  (ex.getClassName(), ex.getErrorMessage()))
2411  if ex.getErrorCode() not in (None, ""):
2412  logger.debug("DBS exception error code: ", ex.getErrorCode())
2413  raise
2414 
2415  # End of setup_dbs.
def setup_dbs
Now we try to do a very simple DBS search.
def cmsHarvester.setup_harvesting_info (   self)
Fill our dictionary with all info needed to understand
harvesting.

This depends on the CMSSW version since at some point the
names and sequences were modified.

NOTE: There is no way (at least not that I could come up with)
to code this in a neat generic way that can be read both by
this method and by option_handler_list_types(). Please try
hard to keep these two methods in sync!

Definition at line 1205 of file cmsHarvester.py.

1206  def setup_harvesting_info(self):
1207  """Fill our dictionary with all info needed to understand
1208  harvesting.
1209 
1210  This depends on the CMSSW version since at some point the
1211  names and sequences were modified.
1212 
1213  NOTE: There is no way (at least not that I could come up with)
1214  to code this in a neat generic way that can be read both by
1215  this method and by option_handler_list_types(). Please try
1216  hard to keep these two methods in sync!
1217 
1218  """
1219 
1220  assert not self.cmssw_version is None, \
1221  "ERROR setup_harvesting() requires " \
1222  "self.cmssw_version to be set!!!"
1223 
1224  harvesting_info = {}
1225 
1226  # This is the version-independent part.
1227  harvesting_info["DQMOffline"] = {}
1228  harvesting_info["DQMOffline"]["beamspot"] = None
1229  harvesting_info["DQMOffline"]["eventcontent"] = None
1230  harvesting_info["DQMOffline"]["harvesting"] = "AtRunEnd"
1231 
1232  harvesting_info["RelVal"] = {}
1233  harvesting_info["RelVal"]["beamspot"] = None
1234  harvesting_info["RelVal"]["eventcontent"] = None
1235  harvesting_info["RelVal"]["harvesting"] = "AtRunEnd"
1236 
1237  harvesting_info["RelValFS"] = {}
1238  harvesting_info["RelValFS"]["beamspot"] = None
1239  harvesting_info["RelValFS"]["eventcontent"] = None
1240  harvesting_info["RelValFS"]["harvesting"] = "AtRunEnd"
1241 
1242  harvesting_info["MC"] = {}
1243  harvesting_info["MC"]["beamspot"] = None
1244  harvesting_info["MC"]["eventcontent"] = None
1245  harvesting_info["MC"]["harvesting"] = "AtRunEnd"
1246 
1247  # This is the version-dependent part. And I know, strictly
1248  # speaking it's not necessary to fill in all three types since
1249  # in a single run we'll only use one type anyway. This does
1250  # look more readable, however, and required less thought from
1251  # my side when I put this together.
1252 
1253  # DEBUG DEBUG DEBUG
1254  # Check that we understand our own version naming.
1255  assert self.cmssw_version.startswith("CMSSW_")
1256  # DEBUG DEBUG DEBUG end
1257 
1258  version = self.cmssw_version[6:]
1259 
1260  #----------
1261 
1262  # RelVal
1263  step_string = None
1264  if version < "3_3_0":
1265  step_string = "validationHarvesting"
1266  elif version in ["3_3_0_pre1", "3_3_0_pre2",
1267  "3_3_0_pre3", "3_3_0_pre4",
1268  "3_3_0_pre6", "3_4_0_pre1"]:
1269  step_string = "validationHarvesting"
1270  else:
1271  step_string = "validationHarvesting+dqmHarvesting"
1272 
1273  harvesting_info["RelVal"]["step_string"] = step_string
1274 
1275  # DEBUG DEBUG DEBUG
1276  # Let's make sure we found something.
1277  assert not step_string is None, \
1278  "ERROR Could not decide a RelVal harvesting sequence " \
1279  "for CMSSW version %s" % self.cmssw_version
1280  # DEBUG DEBUG DEBUG end
1281 
1282  #----------
1283 
1284  # RelVal
1285  step_string = "validationHarvestingFS"
1286 
1287  harvesting_info["RelValFS"]["step_string"] = step_string
1288 
1289  #----------
1290 
1291  # MC
1292  step_string = "validationprodHarvesting"
1293 
1294  harvesting_info["MC"]["step_string"] = step_string
1295 
1296  # DEBUG DEBUG DEBUG
1297  # Let's make sure we found something.
1298  assert not step_string is None, \
1299  "ERROR Could not decide a MC harvesting " \
1300  "sequence for CMSSW version %s" % self.cmssw_version
1301  # DEBUG DEBUG DEBUG end
1302 
1303  #----------
1304 
1305  # DQMOffline
1306  step_string = "dqmHarvesting"
1307 
1308  harvesting_info["DQMOffline"]["step_string"] = step_string
1309 
1310  #----------
1312  self.harvesting_info = harvesting_info
1313 
1314  self.logger.info("Based on the CMSSW version (%s) " \
1315  "I decided to use the `HARVESTING:%s' " \
1316  "sequence for %s harvesting" % \
1317  (self.cmssw_version,
1318  self.harvesting_info[self.harvesting_type]["step_string"],
1319  self.harvesting_type))
1320 
1321  # End of setup_harvesting_info.
def setup_harvesting_info
def cmsHarvester.show_exit_message (   self)
Tell the user what to do now, after this part is done.

This should provide the user with some (preferably
copy-pasteable) instructions on what to do now with the setups
and files that have been created.

Definition at line 5471 of file cmsHarvester.py.

5472  def show_exit_message(self):
5473  """Tell the user what to do now, after this part is done.
5474 
5475  This should provide the user with some (preferably
5476  copy-pasteable) instructions on what to do now with the setups
5477  and files that have been created.
5478 
5479  """
5480 
5481  # TODO TODO TODO
5482  # This could be improved a bit.
5483  # TODO TODO TODO end
5484 
5485  sep_line = "-" * 60
5486 
5487  self.logger.info("")
5488  self.logger.info(sep_line)
5489  self.logger.info(" Configuration files have been created.")
5490  self.logger.info(" From here on please follow the usual CRAB instructions.")
5491  self.logger.info(" Quick copy-paste instructions are shown below.")
5492  self.logger.info(sep_line)
5493 
5494  self.logger.info("")
5495  self.logger.info(" Create all CRAB jobs:")
5496  self.logger.info(" multicrab -create")
5497  self.logger.info("")
5498  self.logger.info(" Submit all CRAB jobs:")
5499  self.logger.info(" multicrab -submit")
5500  self.logger.info("")
5501  self.logger.info(" Check CRAB status:")
5502  self.logger.info(" multicrab -status")
5503  self.logger.info("")
5504 
5505  self.logger.info("")
5506  self.logger.info(" For more information please see the CMS Twiki:")
5507  self.logger.info(" %s" % twiki_url)
5508  self.logger.info(sep_line)
5509 
5510  # If there were any jobs for which we could not find a
5511  # matching site show a warning message about that.
5512  if not self.all_sites_found:
5513  self.logger.warning(" For some of the jobs no matching " \
5514  "site could be found")
5515  self.logger.warning(" --> please scan your multicrab.cfg" \
5516  "for occurrences of `%s'." % \
5517  self.no_matching_site_found_str)
5518  self.logger.warning(" You will have to fix those " \
5519  "by hand, sorry.")
5520 
5521  # End of show_exit_message.
def cmsHarvester.singlify_datasets (   self)
Remove all but the largest part of all datasets.

This allows us to harvest at least part of these datasets
using single-step harvesting until the two-step approach
works.

Definition at line 3742 of file cmsHarvester.py.

References bookConverter.max, and makeHLTPrescaleTable.values.

3743  def singlify_datasets(self):
3744  """Remove all but the largest part of all datasets.
3745 
3746  This allows us to harvest at least part of these datasets
3747  using single-step harvesting until the two-step approach
3748  works.
3749 
3750  """
3751 
3752  # DEBUG DEBUG DEBUG
3753  assert self.harvesting_mode == "single-step-allow-partial"
3754  # DEBUG DEBUG DEBUG end
3755 
3756  for dataset_name in self.datasets_to_use:
3757  for run_number in self.datasets_information[dataset_name]["runs"]:
3758  max_events = max(self.datasets_information[dataset_name]["sites"][run_number].values())
3759  sites_with_max_events = [i[0] for i in self.datasets_information[dataset_name]["sites"][run_number].items() if i[1] == max_events]
3760  self.logger.warning("Singlifying dataset `%s', " \
3761  "run %d" % \
3762  (dataset_name, run_number))
3763  cmssw_version = self.datasets_information[dataset_name] \
3764  ["cmssw_version"]
3765  selected_site = self.pick_a_site(sites_with_max_events,
3766  cmssw_version)
3767 
3768  # Let's tell the user that we're manhandling this dataset.
3769  nevents_old = self.datasets_information[dataset_name]["num_events"][run_number]
3770  self.logger.warning(" --> " \
3771  "only harvesting partial statistics: " \
3772  "%d out of %d events (5.1%f%%) " \
3773  "at site `%s'" % \
3774  (max_events,
3775  nevents_old,
3776  100. * max_events / nevents_old,
3777  selected_site))
3778  self.logger.warning("!!! Please note that the number of " \
3779  "events in the output path name will " \
3780  "NOT reflect the actual statistics in " \
3781  "the harvested results !!!")
3782 
3783  # We found the site with the highest statistics and
3784  # the corresponding number of events. (CRAB gets upset
3785  # if we ask for more events than there are at a given
3786  # site.) Now update this information in our main
3787  # datasets_information variable.
3788  self.datasets_information[dataset_name]["sites"][run_number] = {selected_site: max_events}
3789  self.datasets_information[dataset_name]["num_events"][run_number] = max_events
3790  #self.datasets_information[dataset_name]["sites"][run_number] = [selected_site]
3791 
3792  # End of singlify_datasets.
def cmsHarvester.write_crab_config (   self)

def create_harvesting_config(self, dataset_name): """Create the Python harvesting configuration for a given job.

     NOTE: The reason to have a single harvesting configuration per
    sample is to be able to specify the GlobalTag corresponding to
    each sample. Since it has been decided that (apart from the
    prompt reco) datasets cannot contain runs with different
    GlobalTags, we don't need a harvesting config per run.         NOTE: This is the place where we distinguish between
    single-step and two-step harvesting modes (at least for the
    Python job configuration).         """         ###         if self.harvesting_mode == "single-step":
        config_contents = self.create_harvesting_config_single_step(dataset_name)
    elif self.harvesting_mode == "two-step":
        config_contents = self.create_harvesting_config_two_step(dataset_name)
    else:

Impossible harvesting mode, we should never get here.

assert False, "ERROR: unknown harvesting mode `%s'" % \ self.harvesting_mode ### # End of create_harvesting_config. return config_contents

Write a CRAB job configuration Python file.

Definition at line 5048 of file cmsHarvester.py.

References mergeVDriftHistosByStation.file.

5049  def write_crab_config(self):
5050  """Write a CRAB job configuration Python file.
5051 
5052  """
5053 
5054  self.logger.info("Writing CRAB configuration...")
5055 
5056  file_name_base = "crab.cfg"
5057 
5058  # Create CRAB configuration.
5059  crab_contents = self.create_crab_config()
5060 
5061  # Write configuration to file.
5062  crab_file_name = file_name_base
5063  try:
5064  crab_file = file(crab_file_name, "w")
5065  crab_file.write(crab_contents)
5066  crab_file.close()
5067  except IOError:
5068  self.logger.fatal("Could not write " \
5069  "CRAB configuration to file `%s'" % \
5070  crab_file_name)
5071  raise Error("ERROR: Could not write to file `%s'!" % \
5072  crab_file_name)
5073 
5074  # End of write_crab_config.
Helper class: Error exception.
def write_crab_config
def create_harvesting_config(self, dataset_name): &quot;&quot;"Create the Python harvesting configuration for a...
def cmsHarvester.write_harvesting_config (   self,
  dataset_name 
)
Write a harvesting job configuration Python file.

NOTE: This knows nothing about single-step or two-step
harvesting. That's all taken care of by
create_harvesting_config.

Definition at line 5106 of file cmsHarvester.py.

References create_harvesting_config_file_name(), and mergeVDriftHistosByStation.file.

5107  def write_harvesting_config(self, dataset_name):
5108  """Write a harvesting job configuration Python file.
5109 
5110  NOTE: This knows nothing about single-step or two-step
5111  harvesting. That's all taken care of by
5112  create_harvesting_config.
5113 
5114  """
5115 
5116  self.logger.debug("Writing harvesting configuration for `%s'..." % \
5117  dataset_name)
5118 
5119  # Create Python configuration.
5120  config_contents = self.create_harvesting_config(dataset_name)
5121 
5122  # Write configuration to file.
5123  config_file_name = self. \
5125  try:
5126  config_file = file(config_file_name, "w")
5127  config_file.write(config_contents)
5128  config_file.close()
5129  except IOError:
5130  self.logger.fatal("Could not write " \
5131  "harvesting configuration to file `%s'" % \
5132  config_file_name)
5133  raise Error("ERROR: Could not write to file `%s'!" % \
5134  config_file_name)
5135 
5136  # End of write_harvesting_config.
Helper class: Error exception.
def write_harvesting_config
def create_harvesting_config_file_name
def cmsHarvester.write_me_extraction_config (   self,
  dataset_name 
)
Write an ME-extraction configuration Python file.

This `ME-extraction' (ME = Monitoring Element) is the first
step of the two-step harvesting.

Definition at line 5139 of file cmsHarvester.py.

References create_me_summary_config_file_name(), and mergeVDriftHistosByStation.file.

5140  def write_me_extraction_config(self, dataset_name):
5141  """Write an ME-extraction configuration Python file.
5142 
5143  This `ME-extraction' (ME = Monitoring Element) is the first
5144  step of the two-step harvesting.
5145 
5146  """
5147 
5148  self.logger.debug("Writing ME-extraction configuration for `%s'..." % \
5149  dataset_name)
5150 
5151  # Create Python configuration.
5152  config_contents = self.create_me_extraction_config(dataset_name)
5153 
5154  # Write configuration to file.
5155  config_file_name = self. \
5157  try:
5158  config_file = file(config_file_name, "w")
5159  config_file.write(config_contents)
5160  config_file.close()
5161  except IOError:
5162  self.logger.fatal("Could not write " \
5163  "ME-extraction configuration to file `%s'" % \
5164  config_file_name)
5165  raise Error("ERROR: Could not write to file `%s'!" % \
5166  config_file_name)
5167 
5168  # End of write_me_extraction_config.
def write_me_extraction_config
Helper class: Error exception.
def create_me_summary_config_file_name
def cmsHarvester.write_multicrab_config (   self)
Write a multi-CRAB job configuration Python file.

Definition at line 5077 of file cmsHarvester.py.

References mergeVDriftHistosByStation.file.

5078  def write_multicrab_config(self):
5079  """Write a multi-CRAB job configuration Python file.
5080 
5081  """
5082 
5083  self.logger.info("Writing multi-CRAB configuration...")
5084 
5085  file_name_base = "multicrab.cfg"
5086 
5087  # Create multi-CRAB configuration.
5088  multicrab_contents = self.create_multicrab_config()
5089 
5090  # Write configuration to file.
5091  multicrab_file_name = file_name_base
5092  try:
5093  multicrab_file = file(multicrab_file_name, "w")
5094  multicrab_file.write(multicrab_contents)
5095  multicrab_file.close()
5096  except IOError:
5097  self.logger.fatal("Could not write " \
5098  "multi-CRAB configuration to file `%s'" % \
5099  multicrab_file_name)
5100  raise Error("ERROR: Could not write to file `%s'!" % \
5101  multicrab_file_name)
5102 
5103  # End of write_multicrab_config.
def write_multicrab_config
Helper class: Error exception.

Variable Documentation

string cmsHarvester.__author__ = "Jeroen Hegeman (jeroen.hegeman@cern.ch),"

Definition at line 38 of file cmsHarvester.py.

string cmsHarvester.__version__ = "3.8.2p1"

File : cmsHarvest.py Authors : Jeroen Hegeman (jeroe.nosp@m.n.he.nosp@m.geman.nosp@m.@cer.nosp@m.n.ch) Niklas Pietsch (nikla.nosp@m.s.pi.nosp@m.etsch.nosp@m.@des.nosp@m.y.de) Franseco Costanza (franc.nosp@m.esco.nosp@m..cost.nosp@m.anza.nosp@m.@desy.nosp@m..de) Last change: 20100308.

Purpose : Main program to run all kinds of harvesting. For more information please refer to the CMS Twiki url mentioned just below here.

Definition at line 37 of file cmsHarvester.py.

string cmsHarvester.action = "callback"

Definition at line 2055 of file cmsHarvester.py.

tuple cmsHarvester.all_file_names = files_info[run_number]

Definition at line 3231 of file cmsHarvester.py.

list cmsHarvester.all_t1
Initial value:
1 = [
2  "srm-cms.cern.ch",
3  "ccsrm.in2p3.fr",
4  "cmssrm-fzk.gridka.de",
5  "cmssrm.fnal.gov",
6  "gridka-dCache.fzk.de",
7  "srm-cms.gridpp.rl.ac.uk",
8  "srm.grid.sinica.edu.tw",
9  "srm2.grid.sinica.edu.tw",
10  "srmcms.pic.es",
11  "storm-fe-cms.cr.cnaf.infn.it"
12  ]

Definition at line 1722 of file cmsHarvester.py.

cmsHarvester.caf_access

Definition at line 1105 of file cmsHarvester.py.

cmsHarvester.callback = self.option_handler_input_Jsonrunfile,

Definition at line 2056 of file cmsHarvester.py.

Referenced by CaloDualConeSelector< HBHERecHit >.selectCallback(), CaloConeSelector< T >.selectCallback(), and edm::ESProducer.setWhatProduced().

cmsHarvester.castor_base_dir

Definition at line 1074 of file cmsHarvester.py.

tuple cmsHarvester.castor_dir = self.datasets_information[dataset_name]

CRAB

GRID

USER

Definition at line 4356 of file cmsHarvester.py.

tuple cmsHarvester.castor_path_common = self.create_castor_path_name_common(dataset_name)

DEBUG DEBUG DEBUG

This is probably only useful to make sure we don't muck

things up, right?

Figure out across how many sites this sample has been spread.

if num_sites == 1: self.logger.info(" sample is contained at a single site") else: self.logger.info(" sample is spread across %d sites" % \ num_sites) if num_sites < 1:

NOTE: This should not happen with any valid dataset.

self.logger.warning(" --> skipping dataset which is not " \ "hosted anywhere")

DEBUG DEBUG DEBUG end

Definition at line 5455 of file cmsHarvester.py.

tuple cmsHarvester.castor_paths
Initial value:
1 = dict(zip(runs,
2  [self.create_castor_path_name_special(dataset_name, i, castor_path_common) \
3  for i in runs]))

Definition at line 5459 of file cmsHarvester.py.

cmsHarvester.castor_prefix = self.castor_prefix

Definition at line 4351 of file cmsHarvester.py.

string cmsHarvester.cmd = "rfstat %s"

self.logger.debug("Path is now `%s'" % \ path)

Definition at line 1631 of file cmsHarvester.py.

Referenced by WatcherStreamFileReader.closeFile(), RunManager.initG4(), and RunManagerMT.initG4().

cmsHarvester.cmssw_version = self.datasets_information[dataset_name]

Definition at line 4394 of file cmsHarvester.py.

list cmsHarvester.complete_sites
Initial value:
1 = [site for site in sites \
2  if site in sites_with_complete_copies]

site_names_ref = set(files_info[run_number].values()[0][1]) for site_names_tmp in files_info[run_number].values()[1:]: if set(site_names_tmp[1]) != site_names_ref: mirrored = False break

Definition at line 3276 of file cmsHarvester.py.

tuple cmsHarvester.config_builder = ConfigBuilder(config_options, with_input=True)

Definition at line 4794 of file cmsHarvester.py.

string cmsHarvester.config_contents = config_builder.pythonCfgCode

In case this file is the second step (the real harvesting

step) of the two-step harvesting we have to tell it to use

our local files.

if self.harvesting_mode == "two-step": castor_dir = self.datasets_information[dataset_name] \ ["castor_path"][run] customisations.append("") customisations.append("# This is the second step (the real") customisations.append("# harvesting step) of a two-step") customisations.append("# harvesting procedure.")

BUG BUG BUG

To be removed in production version.

customisations.append("import pdb")

BUG BUG BUG end

customisations.append("import commands") customisations.append("import os") customisations.append("castor_dir = \"s"" % castor_dir) customisations.append("cmd = "rfdir s" % castor_dir") customisations.append("(status, output) = commands.getstatusoutput(cmd)") customisations.append("if status != 0:") customisations.append(" print "ERROR"") customisations.append(" raise Exception, "ERROR"") customisations.append("file_names = [os.path.join("rfio:s" % path, i) for i in output.split() if i.startswith("EDM_summary") and i.endswith(".root")]") #customisations.append("pdb.set_trace()") customisations.append("process.source.fileNames = cms.untracked.vstring(*file_names)") customisations.append("")

Definition at line 4799 of file cmsHarvester.py.

cmsHarvester.config_file_name = self.create_me_summary_config_file_name(dataset_name)

Only add the alarming piece to the file name if this is

a spread-out dataset.

pdb.set_trace() if self.datasets_information[dataset_name] \ ["mirrored"][run_number] == False: config_file_name = config_file_name.replace(".py", "_partial.py")

Definition at line 4086 of file cmsHarvester.py.

list cmsHarvester.connect_name = self.frontier_connection_name["globaltag"]

Definition at line 4833 of file cmsHarvester.py.

dictionary cmsHarvester.country_codes
Initial value:
1 = {
2  "CAF" : "caf.cern.ch",
3  "CH" : "srm-cms.cern.ch",
4  "FR" : "ccsrm.in2p3.fr",
5  "DE" : "cmssrm-fzk.gridka.de",
6  "GOV" : "cmssrm.fnal.gov",
7  "DE2" : "gridka-dCache.fzk.de",
8  "UK" : "srm-cms.gridpp.rl.ac.uk",
9  "TW" : "srm.grid.sinica.edu.tw",
10  "TW2" : "srm2.grid.sinica.edu.tw",
11  "ES" : "srmcms.pic.es",
12  "IT" : "storm-fe-cms.cr.cnaf.infn.it"
13  }

Definition at line 1735 of file cmsHarvester.py.

string cmsHarvester.crab_config = "\n"

CRAB

GRID

USER

CMSSW

CAF

Definition at line 4306 of file cmsHarvester.py.

cmsHarvester.crab_submission

Definition at line 1132 of file cmsHarvester.py.

list cmsHarvester.customisations = [""]

Definition at line 4829 of file cmsHarvester.py.

tuple cmsHarvester.dataset_name_escaped = self.escape_dataset_name(dataset_name)

Definition at line 4350 of file cmsHarvester.py.

tuple cmsHarvester.dataset_names = self.datasets_to_use.keys()

Definition at line 4345 of file cmsHarvester.py.

cmsHarvester.dataset_names_after_checks = dataset_names_after_checks_tmp

Definition at line 4031 of file cmsHarvester.py.

tuple cmsHarvester.dataset_names_after_checks_tmp = copy.deepcopy(dataset_names_after_checks)

Definition at line 4024 of file cmsHarvester.py.

cmsHarvester.datasets_information

Definition at line 5342 of file cmsHarvester.py.

cmsHarvester.datasets_to_ignore

Definition at line 3458 of file cmsHarvester.py.

cmsHarvester.datasets_to_use

Definition at line 3432 of file cmsHarvester.py.

list cmsHarvester.datatype = self.datasets_information[dataset_name]

Definition at line 4783 of file cmsHarvester.py.

cmsHarvester.dbs_api

Definition at line 2405 of file cmsHarvester.py.

tuple cmsHarvester.empty_runs = dict(tmp)

Definition at line 4008 of file cmsHarvester.py.

tuple cmsHarvester.es_prefer_snippet = self.create_es_prefer_snippet(dataset_name)

Definition at line 4882 of file cmsHarvester.py.

int cmsHarvester.exit_code = 1

Definition at line 5693 of file cmsHarvester.py.

list cmsHarvester.file_name = handler.results["file.name"]

Definition at line 3175 of file cmsHarvester.py.

Referenced by HcalLutManager.create_lut_loader(), SiStripHistoPlotter.createStaticPlot(), DTTPGLutFile.open(), L1TriggerLutFile.open(), TEcnaRead.ReadAverageHighFrequencyNoise(), TEcnaRead.ReadAverageLowFrequencyNoise(), TEcnaRead.ReadAverageMeanCorrelationsBetweenSamples(), TEcnaRead.ReadAveragePedestals(), TEcnaRead.ReadAverageSigmaOfCorrelationsBetweenSamples(), TEcnaRead.ReadAverageTotalNoise(), TEcnaRead.ReadCorrelationsBetweenSamples(), TEcnaRead.ReadCovariancesBetweenSamples(), TEcnaRead.ReadHighFrequencyCorrelationsBetweenChannels(), TEcnaRead.ReadHighFrequencyCovariancesBetweenChannels(), TEcnaRead.ReadHighFrequencyMeanCorrelationsBetweenStins(), TEcnaRead.ReadHighFrequencyNoise(), TEcnaRead.ReadLowFrequencyCorrelationsBetweenChannels(), TEcnaRead.ReadLowFrequencyCovariancesBetweenChannels(), TEcnaRead.ReadLowFrequencyMeanCorrelationsBetweenStins(), TEcnaRead.ReadLowFrequencyNoise(), TEcnaRead.ReadMeanCorrelationsBetweenSamples(), TEcnaRead.ReadNumberOfEventsForSamples(), TEcnaRead.ReadPedestals(), TEcnaRead.ReadRelevantCorrelationsBetweenSamples(), TEcnaRead.ReadRootFileHeader(), TEcnaRead.ReadSampleAdcValues(), TEcnaRead.ReadSampleAdcValuesSameFile(), TEcnaRead.ReadSampleMeans(), TEcnaRead.ReadSampleSigmas(), TEcnaRead.ReadSigmaOfCorrelationsBetweenSamples(), TEcnaRead.ReadStinNumbers(), TEcnaRead.ReadTotalNoise(), and TEcnaRun.WriteRootFile().

tuple cmsHarvester.files_at_site
Initial value:
1 = [i for (i, (j, k)) \
2  in files_info[run_number].items() \
3  if site_name in k]

Definition at line 3235 of file cmsHarvester.py.

dictionary cmsHarvester.files_info = {}

Definition at line 3161 of file cmsHarvester.py.

list cmsHarvester.files_without_sites
Initial value:
1 = [i for (i, j) in \
2  files_info[run_number].items() \
3  if len(j[1]) < 1]

Definition at line 3201 of file cmsHarvester.py.

cmsHarvester.globaltag = self.datasets_information[dataset_name]

Definition at line 4786 of file cmsHarvester.py.

cmsHarvester.harvesting_info

Definition at line 1311 of file cmsHarvester.py.

cmsHarvester.harvesting_mode

Definition at line 2215 of file cmsHarvester.py.

cmsHarvester.harvesting_type

Definition at line 3859 of file cmsHarvester.py.

string cmsHarvester.help = "Jsonfile containing dictionary of run/lumisections pairs. "

Definition at line 2053 of file cmsHarvester.py.

string cmsHarvester.index = "site_%02d"

Definition at line 4378 of file cmsHarvester.py.

Referenced by python.listobjects._printTableInfo(), TrackingTruthAccumulator.accumulateEvent(), edm::Principal.addAliasedProduct(), ora::InputRelationalData.addBlobData(), helper::ClusterStorer.addCluster(), ora::InputRelationalData.addData(), edm::IndexIntoFile.addEntry(), ora::InputRelationalData.addId(), pat::PackedTriggerPrescales.addPrescaledTrigger(), edm::Principal.addProduct_(), DetGroupMerger.addSameLevel(), edm::DataMixingTrackingParticleWorker.addTrackingParticlePileups(), PhysicsTools::TreeReader.addTypeMulti(), PhysicsTools::TreeReader.addTypeSingle(), HcalCovarianceMatrices.addValues(), HcalCholeskyMatrices.addValues(), CastorCondObjectContainer< Item >.addValues(), HcalCondObjectContainer< Item >.addValues(), ora::InputRelationalData.addWhereId(), ora::SelectOperation.addWhereId(), edm::Principal.adjustIndexesAfterProductRegistryAddition(), AlignmentMonitorMuonResiduals.afterAlignment(), reco::Conversion.algoByName(), HcalGeometry.alignmentBarEndForIndexLocal(), HcalGeometry.alignmentOuterIndexLocal(), HcalGeometry.alignmentTransformIndexLocal(), EcalEndcapGeometry.alignmentTransformIndexLocal(), EcalBarrelGeometry.alignmentTransformIndexLocal(), JetPlotsExample< Jet >.analyze(), JetAnaPythia< Jet >.analyze(), evf::ExceptionGenerator.analyze(), CaloTowerAnalyzer.analyze(), TrackCategoriesAnalyzer.analyze(), TrackingParticleCategoriesAnalyzer.analyze(), EwkMuDQM.analyze(), EwkElecDQM.analyze(), PixelVTXMonitor.analyze(), HcalDetDiagNoiseMonitor.analyze(), SimplePhotonAnalyzer.analyze(), VertexHistoryAnalyzer.analyze(), EwkDQM.analyze(), SVTagInfoValidationAnalyzer.analyze(), TrackHistoryAnalyzer.analyze(), recoBSVTagInfoValidationAnalyzer.analyze(), MuonAlignmentAnalyzer.analyze(), BTVHLTOfflineSource.analyze(), GeneralHLTOffline.analyze(), HLTrigReport.analyze(), FourVectorHLT.analyze(), HcalRecHitsAnalyzer.analyze(), HcalRecHitsValidation.analyze(), HeavyFlavorValidation.analyze(), EcalLaserAnalyzerYousi.analyze(), HcalRaddamMuon.analyze(), DetIdSelectorTest.analyze(), OverlapProblemTPAnalyzer.analyze(), PhotonValidator.analyze(), GenPurposeSkimmerData.analyze(), DiJetAnalyzer.analyze(), TriggerJSONMonitoring.analyze(), GammaJetAnalysis.analyze(), TrackerDpgAnalysis.analyze(), HcalHBHEMuonAnalyzer.analyze(), GenHFHadronMatcher.analyzeMothers(), CSCConditions.anodeBXoffset(), TKinFitter.applyDeltaA(), TKinFitter.applyDeltaY(), gen::PhotosInterface.applyToVertex(), RPCConeBuilder.areConnected(), HGCalDDDConstants.assignCell(), TShapeAnalysis.assignChannel(), reco::PFDisplacedVertexCandidate.associatedElements(), reco::PFBlock.associatedElements(), reco::btag::TrackData.associatedToVertex(), TrackerHitAssociator.associateFastRecHit(), VEcalCalibBlock.at(), attrEscape(), BackgroundHandler.BackgroundHandler(), TkStripMeasurementDet.badStripBlocks(), TkStripMeasurementDet.badStripCuts(), HcalTBTiming.BeamCoincidenceHits(), RPCSeedPattern.BestRefRecHit(), HcalTBTiming.BH1Hits(), HcalTBTiming.BH2Hits(), HcalTBTiming.BH3Hits(), HcalTBTiming.BH4Hits(), RPCRecHitValid.bookHistograms(), Phase2OTBarrelLayerBuilder.build(), PixelBarrelLayerBuilder.build(), TOBLayerBuilder.build(), FWCaloRecHitDigitSetProxyBuilder.build(), FWPRCaloTowerProxyBuilder.build(), FWPCaloHitProxyBuilder.build(), FWPFEcalRecHitRPProxyBuilder.build(), FWSimpleProxyBuilder.build(), FWPFEcalRecHitLegoProxyBuilder.build(), MuonSeedBuilder.build(), gen::AMPTHadronizer.build_ampt(), gen::HijingHadronizer.build_hijing(), gen::HydjetHadronizer.build_hyjet(), gen::Hydjet2Hadronizer.build_hyjet2(), SiStripFedCabling.buildFedCabling(), pos::PixelNameTranslation.buildROCsFromFEDChannel(), FWSimpleProxyBuilder.buildViewType(), evf::EvFDaqDirector.bumpFile(), LocalCacheFile.cache(), Averages.calc(), CSCTFPtLUT.calcPt(), CSCHaloAlgo.Calculate(), MedianCommonModeCalculator.calculateCommonMode(), dqmTnP::AbstractFitter.calculateEfficiency(), PileUpSubtractor.calculateOrphanInput(), npstat::ArrayND< Numeric, StackLen, StackDim >.cdfValue(), HcalDDDGeometry.cellGeomPtr(), HGCalGeometry.cellGeomPtr(), HcalGeometry.cellGeomPtr(), FWCollectionSummaryTableManager.cellRenderer(), CSCConditions.chamberTimingCorrection(), PrimaryVertexAssignment.chargedHadronVertex(), PFPileUpAlgo.chargedHadronVertex(), PFIsolationEstimator.chargedHadronVertex(), PFPhotonIsolationCalculator.chargedHadronVertex(), RPCSeedPattern.checkSegmentAlgorithmSpecial(), RPCSeedPattern.checkSimplePattern(), TiXmlHandle.Child(), TiXmlHandle.ChildElement(), CSCConditions.chipCorrection(), FWModelContextMenuHandler.chosenItem(), TrajectorySegmentBuilder.cleanCandidates(), SeedClusterRemover.cleanup(), HLTTrackClusterRemoverNew.cleanup(), HITrackClusterRemover.cleanup(), FWFromSliceSelector.clear(), MuonMillepedeAlgorithm.collect(), ora::MappingRules.columnNameForOID(), GeometricDet.component(), HFShower.compute(), HDShower.compute(), TShapeAnalysis.computeShape(), EcalUncalibRecHitRatioMethodAlgo< C >.computeTime(), EcalTPGParamBuilder.computeWeights(), L1GtVmeWriterCore.condIndex2reg(), VirtualJetProducer.copyConstituents(), MuonAlignmentFromReference.correctBField(), L1RCTParameters.correctedTPGSum(), reco::GsfComponent5D.covariance(), edm::WaitingTaskList.createNode(), CSCConditions.crossTalk(), CSCConditions.crosstalkIntercept(), CSCConditions.crosstalkSlope(), L1MuGMTPSB.CSCMuon(), CSCTFSectorProcessor.CSCTFSectorProcessor(), customizeTrackingMonitorSeedNumber.customise_trackMon_IterativeTracking_PHASE1(), customizeTrackingMonitorSeedNumber.customise_trackMon_IterativeTracking_PHASE1PU140(), customizeTrackingMonitorSeedNumber.customise_trackMon_IterativeTracking_PHASE1PU70(), pat::MuonSelector.customSelection_(), pat::ElectronSelector.customSelection_(), HLTConfigData.datasetIndex(), reco::PFDisplacedVertexCandidate.dcaPoint(), evf::FastMonitoringService::Encoding.decode(), EcalShapeBase.derivative(), SurveyDet.derivatives(), SiStripLorentzAngleCalibration.derivatives(), SiPixelLorentzAngleCalibration.derivatives(), SiStripBackplaneCalibration.derivatives(), FWEventItem.destroy(), cscdqm::Detector.Detector(), HcalTopology.detId2denseIdCALIB(), HcalTopology.detId2denseIdHT(), TkStripMeasurementDet.detSet(), GenericMVAJetTagComputer.discriminator(), CandidateBoostedDoubleSecondaryVertexComputer.discriminator(), reco::PFBlock.dist(), reco::PFDisplacedVertexCandidate.dist(), CachedTrajectory.distance(), FWHistSliceSelector.doSelect(), FWHFTowerSliceSelector.doSelect(), FWHistSliceSelector.doUnselect(), FWHFTowerSliceSelector.doUnselect(), RPCEfficiencySecond.dqmEndJob(), L1MuGMTPSB.DTBXMuon(), DTROSWordType.DTROSWordType(), JME::JetResolutionObject.dump(), TKStatus.dumpTkDcsStatus(), BeamFitter.dumpTxtFile(), EgammaTowerIsolationNew< NC >.EgammaTowerIsolationNew(), cond::IOVRange.end(), cond::IOVProxy.end(), FWModelChangeManager.endChanges(), HcalDetDiagNoiseMonitor.endLuminosityBlock(), EcalEleCalibLooper.endOfLoop(), EcalSimHitsValidProducer.energyInEBMatrix(), EcalSimHitsValidProducer.energyInEEMatrix(), EcalBarrelSimHitsValidation.energyInMatrixEB(), EcalEndcapSimHitsValidation.energyInMatrixEE(), edm::RootTree.entryNumberForIndex(), edm::RefVector< C, T, F >.erase(), edm::RefVectorBase< key_type >.eraseAtIndex(), MuonAlignmentFromReference.eraseNotSelectedResiduals(), HLTBitVariable.eval(), TrackClassifierByProxy< Collection >.evaluate(), VertexClassifierByProxy< reco::SecondaryVertexTagInfoCollection >.evaluate(), L1GtMuonCondition.evaluateCondition(), l1t::MuCondition.evaluateCondition(), L1GtCaloCondition.evaluateCondition(), l1t::CaloCondition.evaluateCondition(), JME::JetResolutionObject.evaluateFormula(), PFPhotonAlgo.EvaluateGCorrMVA(), PFPhotonAlgo.EvaluateResMVA(), ora.existAttribute(), CastorQIEShape.expand(), HcalQIEShape.expand(), ClusterShapeAlgo.fast_AbsZernikeMoment(), EcalClusterToolsT< noZS >.fast_AbsZernikeMoment(), MeasurementDet.fastMeasurements(), pos::PixelCalibConfiguration.fedCardsAndChannels(), SiStripFedCabling.fedConnections(), CmsShowSearchFiles.fileEntryChanged(), VpspScanTask.fill(), PedestalsTask.fill(), ChannelPattern.Fill(), PedsFullNoiseTask.fill(), PhysicsTools::TreeReader::Value.fill(), HMassResolutionVSPart.Fill(), PFClusterShapeAlgo.fill5x5Map(), TrackingMaterialPlotter.fill_gradient(), FWCandidateTowerProxyBuilder.fillCaloData(), FWPFCandidateTowerProxyBuilder.fillCaloData(), FWCaloTowerProxyBuilderBase.fillCaloData(), FWHFTowerProxyBuilderBase.fillCaloData(), MixCollectionValidation.fillCaloHitTime(), reco.fillCovariance(), GenParticleProducer.fillDaughters(), EcalSimHitsValidProducer.fillEBMatrix(), EcalBarrelSimHitsValidation.fillEBMatrix(), EcalSimHitsValidProducer.fillEEMatrix(), EcalEndcapSimHitsValidation.fillEEMatrix(), MixCollectionValidation.fillGenParticleMulti(), ListGroups.fillGradient(), EwkElecTauHistManager.fillHistograms(), EwkMuTauHistManager.fillHistograms(), Py8toJetInputHEPEVT.fillJetAlgoInput(), EcalTrigPrimFunctionalAlgo.fillMap(), JetMETHLTOfflineSource.fillMEforTriggerNTfired(), CmsShowModelPopup.fillModelPopup(), MixCollectionValidation.fillMultiplicity(), reco::Mustache.FillMustacheVar(), HcalDeadCellMonitor.fillNevents_recentdigis(), HcalDeadCellMonitor.fillNevents_recentrechits(), MuonAlignmentFromReference.fillNtuple(), fillPathSummary(), FWTGeoRecoGeometry::Info.fillPoints(), FWRecoGeometryESProducer.fillPoints(), edm::IndexIntoFile.fillRunOrLumiIndexes(), MixCollectionValidation.fillSimHitTime(), HLTRHemisphere.filter(), DYGenFilter.filter(), FWFileEntry.filterEventsWithCustomParser(), ecaldqm::LedTask.filterRunType(), find(), EcalRecHitsValidation.findBarrelMatrix(), CalibratableTest.findCandidatesInDeltaR(), TagInfoMVACategorySelector.findCategory(), HGCalDDDConstants.findCell(), FWColorRow.FindColorIndex(), EcalRecHitsValidation.findEndcapMatrix(), L1GctHardwareJetFinder.findFinalClusters(), impl.findIndex(), SiStripProcessedRawDigiProducer.findInput(), TrackingMaterialAnalyser.findLayer(), CompositeTECPetal.findPar(), PFClusterShapeAlgo.findPFRHIndexFromDetId(), CalibratableTest.findPrimarySimParticles(), edm::Principal.findProductByLabel(), FFTJetPFPileupCleaner.findSomeVertexWFakes(), sistrip::MeanAndStdDev.fit(), ora::MappingRules.fkNameForIdentity(), reco::TemplatedSecondaryVertexTagInfo< reco::CandIPTagInfo, reco::VertexCompositePtrCandidate >.flightDirection(), reco::TemplatedSecondaryVertexTagInfo< reco::CandIPTagInfo, reco::VertexCompositePtrCandidate >.flightDistance(), MuonSeedBuilder.foundMatchingSegment(), tauImpactParameter::TrackHelixVertexFitter.freeParName(), npstat::ArrayND< Numeric, StackLen, StackDim >.functorFill(), CSCDBGains.gain(), CSCConditions.gain(), GammaSeries(), CSCConditions.gasGainCorrection(), gen::Hydjet2Hadronizer.generatePartonsAndHadronize(), JetTagComputer::TagInfoHelper.get(), l1t::PhysicsToBitConverter.Get32bitWordLinkEven(), l1t::PhysicsToBitConverter.Get32bitWordLinkOdd(), pat::EventHypothesis.getAs(), TkStripMeasurementDet.getBadStripBlocks(), JetTagComputer::TagInfoHelper.getBase(), SiStripDelay.getBaseDelay(), DTMuonMillepede.getbcsMatrix(), HcalRechitIsoCalculator.getBkgSubHcalRechitIso(), edm::PrincipalGetAdapter.getBranchDescription(), edm::Principal.getByToken(), edm::PrincipalGetAdapter.getByToken_(), Gflash.getCalorimeterNumber(), DTMuonMillepede.getCcsMatrix(), HBHELinearMap.getChannelTriple(), CaloSubdetectorGeometry.getClosestCell(), LMFDefFabric.getColor(), GenericMVAComputerCache.getComputer(), VirtualJetProducer.getConstituents(), npstat::LinInterpolatedTableND< Numeric, Axis >.getCoords(), ECFAdder.getECF(), edm::Principal.getExistingProduct(), HcalRechitIsoCalculator.getHcalRechitIso(), SiStripPlotGain.getHisto(), SiStripCorrelateBadStripAndNoise.getHisto(), SiStripCorrelateNoise.getHisto(), Fp420AnalysisHistManager.GetHisto(), BscAnalysisHistManager.GetHisto(), Fp420AnalysisHistManager.GetHisto2(), BscAnalysisHistManager.GetHisto2(), SiStripCorrelateBadStripAndNoise.getHistos(), SiStripPlotGain.getHistos(), SiStripCorrelateNoise.getHistos(), EcalBarrelSimHitsValidation.getIdsAroundMax(), EcalEndcapSimHitsValidation.getIdsAroundMax(), ecaldqm::MESetMulti.getIndex(), SiStripDelay.getLabelName(), SiStripGain.getLabelName(), edm::Principal.getManyByType(), MuonAssociatorByHitsHelper.getMatchedIds(), TKinFitter.getMeasParticle(), ClusterSummary.getModule(), SoftElectronMVAEstimator.GetMVABin(), edm::ProducerSourceBase.getNextItemType(), HcalDbOnline.getObject(), SiStripLorentzAngleCalibration.getParameter(), SiPixelLorentzAngleCalibration.getParameter(), SiStripBackplaneCalibration.getParameter(), SiStripLorentzAngleCalibration.getParameterError(), SiPixelLorentzAngleCalibration.getParameterError(), SiStripBackplaneCalibration.getParameterError(), SiStripBackplaneCalibration.getParameterForDetId(), SiPixelLorentzAngleCalibration.getParameterForDetId(), SiStripLorentzAngleCalibration.getParameterForDetId(), TkModuleGroupSelector.getParameterIndexFromDetId(), DatabasePDG.GetPDGParticleByIndex(), DatabasePDG.GetPDGParticleStatusByIndex(), pat::PackedTriggerPrescales.getPrescaleForIndex(), pat::PackedTriggerPrescales.getPrescaleForName(), edm::Principal.getProductHolder(), edm::Principal.getProductHolderByIndex(), SiStripGain.getRange(), SiStripDelay.getRcdName(), SiStripGain.getRcdName(), GBRTree2D.GetResponse(), GBRTree.GetResponse(), CaloGeometry.getSubdetectorGeometry(), SiStripGain.getTagNorm(), SiStripDelay.getTagSign(), cond.getTotalErrors(), HcalTestNumberingScheme.getUnitID(), HcalNumberingScheme.getUnitID(), ZdcNumberingScheme.getUnitID(), HGCNumberingScheme.getUnitID(), CastorNumberingScheme.getUnitID(), TKinFitter.getUnmeasParticle(), CaloGeometry.getValidDetIds(), HcalCovarianceMatrices.getValues(), CastorCondObjectContainer< Item >.getValues(), HcalCholeskyMatrices.getValues(), HcalCondObjectContainer< Item >.getValues(), CachedTrajectory.getWideTrajectory(), gen::Herwig6Instance.give(), CmsShowNavigator.goToRunEvent(), TIDLayer.groupedCompatibleDetsV(), Phase2OTECRingedLayer.groupedCompatibleDetsV(), reco::GsfComponent5D.GsfComponent5D(), TkStripMeasurementDet.hasAny128StripBad(), CastorCondObjectContainer< Item >.hashed_id(), HcalRecHitsClient.HcalRecHitsEndjob(), HcalRecHitsDQMClient.HcalRecHitsEndjob(), HFShowerFibreBundle.HFShowerFibreBundle(), HFShowerPMT.HFShowerPMT(), TEcnaHistos.HistoPlot(), HLTSummaryFilter.hltFilter(), CmsShowSearchFiles.hyperlinkClicked(), MuonSeedBuilder.IdentifyShowering(), HcalCondObjectContainerBase.indexFor(), edm::InputTag.indexFor(), HcalHPDRBXMap.indexHPD(), triggerExpression::PathReader.init(), TShapeAnalysis.init(), module.init(), edm::EventProcessor.init(), pftools::LinearCalibrator.initEijMatrix(), Thrust.initialAxis(), CombinedMVAJetTagComputer.initialize(), CSCTFSectorProcessor.initialize(), FWColorManager.initialize(), MuonAlignmentFromReference.initialize(), edm::StreamSchedule.initializeEarlyDelete(), edm::ProductRegistry.initializeLookupTables(), MultiGaussianStateTransform.innerMultiState1D(), MuonDigiCollection< CSCDetId, CSCCLCTDigi >.insertDigi(), edm::RootTree.insertEntryForIndex(), MagneticFieldGrid.interpolateAtPoint(), TkPixelMeasurementDet.isActive(), TkStripMeasurementDet.isActive(), TkPixelMeasurementDet.isEmpty(), TkStripMeasurementDet.isEmpty(), HLTInclusiveVBFSource.isHLTPathAccepted(), JetMETHLTOfflineSource.isHLTPathAccepted(), CSCConditions.isInBadChamber(), TkStripMeasurementDet.isMasked(), btag::Matching< Delta >.isMatched1st(), lhef::Matching< Delta >.isMatched1st(), btag::Matching< Delta >.isMatched2nd(), lhef::Matching< Delta >.isMatched2nd(), RPCCosmicSeedrecHitFinder.isouterLayer(), HLTInclusiveVBFSource.isTriggerObjectFound(), JetMETHLTOfflineSource.isTriggerObjectFound(), QuadrupletSeedMerger.isValidQuadruplet(), CSCDBGasGainCorrection.item(), CSCDBGains.item(), CSCDBChipSpeedCorrection.item(), CSCDBNoiseMatrix.item(), CSCDBPedestals.item(), CSCDBCrosstalk.item(), CSCChamberTimeCorrections.item(), gen::JetMatchingMadgraph.JetMatchingMadgraph(), gen::JetMatchingMGFastJet.JetMatchingMGFastJet(), L1AcceptBunchCrossing.L1AcceptBunchCrossing(), edm::EDConsumerBase.labelsForToken(), TrackQuality.layer(), LayerTriplets.layers(), npstat::ArrayND< Numeric, StackLen, StackDim >.linearValue(), npstat::ArrayND< Numeric, StackLen, StackDim >.linearValueAt(), CSCDBCrosstalk.linter(), python.diff_provenance.difference.list_diff(), python.diffProv.difference.list_diff(), dbUtil.dbUtil.listIndex(), CaloTPGTranscoderULUT.loadHCALCompress(), fftjetcms::FFTJetInterface.loadInputCollection(), HGCalDDDConstants.locateCell(), QualityCutsAnalyzer.LoopOverJetTracksAssociation(), CSCDBCrosstalk.lslope(), HcalTBTiming.M1Hits(), HcalTBTiming.M2Hits(), HcalTBTiming.M3Hits(), main(), L1GctHardwareJetFinder.makeProtoJet(), edm.makeRefTo(), edmNew.makeRefTo(), edm.makeRefToDetSetRefVector(), TemplatedSecondaryVertexProducer< IPTI, VTX >.markUsedTracks(), edm::ContainerMask< T >.mask(), pf2pat::TopProjectorAlgo< Top, Bottom >.maskAncestors(), HGCalDDDConstants.maxCells(), HGCalDDDConstants.maxRows(), ecaldqm::MESetMulti.MESetMulti(), FWProxyBuilderBase.modelChanges(), HLTConfigData.moduleIndex(), edm::EDConsumerBase.modulesDependentUpon(), MuonScenarioBuilder.moveCSCSectors(), MuonScenarioBuilder.moveDTSectors(), MultiGaussianStateTransform.multiState1D(), MuonGeometrySanityCheckPoint.MuonGeometrySanityCheckPoint(), ElectronMVAEstimator.mva(), HcalDDDGeometry.newCell(), HGCalDDDConstants.newCell(), HcalGeometry.newCell(), FWGUIEventDataAdder.newIndexSelected(), ora::MappingRules.newNameForSchemaObject(), cscdqm::Detector.NextAddressBoxByPartition(), CSCConditions.noiseMatrix(), HGCalDDDConstants.numberCells(), HcalQIECoder.offset(), CastorQIECoder.offset(), VoronoiSubtractor.offsetCorrectJets(), FWGUIManager.open3DRegion(), FWDetailViewManager.openDetailViewFor(), EcalShapeBase.operator()(), Grid3D.operator()(), reco::tau::Combinatoric< T >::ValueAccessor.operator()(), operator<<(), SeedingLayerSetsHits.operator[](), MultiGaussianStateTransform.outerMultiState1D(), Phase2OTECRingedLayer.overlapInR(), TIDLayer.overlapInR(), l1t::stage1::RCTEmRegionPacker.pack(), AlignmentSurfaceDeformations.parameters(), MuonAlignmentFromReference.parseReference(), CaloTowerConstituentsMapBuilder.parseTextMap(), ParticleDecayProducer.ParticleDecayProducer(), CSCDBPedestals.pedestal(), CSCConditions.pedestal(), CSCDBPedestals.pedestal_rms(), CSCConditions.pedestalSigma(), PFTauMVAInputDiscriminantTranslator.PFTauMVAInputDiscriminantTranslator(), HcalTopology.phiBin(), pos::PixelCalibConfiguration.PixelCalibConfiguration(), pos::PixelNameTranslation.PixelNameTranslation(), HDQMInspector.plot(), edm::PileUp.poissonDistr_OOT(), edm::PileUp.poissonDistribution(), pftools::LinearCalibrator.populateDetElIndex(), SiStripRegionCabling.position(), edm::service::Timing.postEvent(), edm::service::Timing.preEvent(), gbl::GblTrajectory.prepare(), MatrixInjector.MatrixInjector.prepare(), print_trigger_candidates(), print_trigger_collection(), pf2pat::TopProjectorAlgo< Top, Bottom >.printAncestors(), SiStripFedCabling.printDebug(), TShapeAnalysis.printshapeData(), SiStripFedCabling.printSummary(), ErsatzMEt.probeFinder(), PFAlgoTestBenchElectrons.processBlock(), PFAlgo.processBlock(), l1t::Stage1Layer2EGammaAlgorithmImpPP.processEvent(), HcalBeamMonitor.processEvent(), l1t::Stage1Layer2EGammaAlgorithmImpHI.processEvent(), l1t::Stage1Layer2EGammaAlgorithmImpHW.processEvent(), PseudoTopProducer.produce(), QualityFilter.produce(), TrackListCombiner.produce(), JetTracksAssociationDRCalo.produce(), MuonTrackProducer.produce(), TrackCandidateProducer.produce(), GenParticlePruner.produce(), SecondaryVertexTagInfoProxy.produce(), reco::CorrectedJetProducer< T >.produce(), cms::JetCorrectionProducer< T >.produce(), HLTTauMCProducer.produce(), JetSubstructurePacker.produce(), edm::LogErrorHarvester.produce(), pat::PATConversionProducer.produce(), ScalersRawToDigi.produce(), pat::PATMuonProducer.produce(), cms::DigitizerFP420.produce(), HLTScoutingMuonProducer.produce(), HLTScoutingEgammaProducer.produce(), pat::PATTriggerMatchEmbedder< PATObjectType >.produce(), JetDeltaRTagInfoValueMapProducer< T, I >.produce(), pat::PATElectronProducer.produce(), reco::PhysObjectMatcher< C1, C2, S, D, Q >.produce(), JetDeltaRValueMapProducer< T >.produce(), ecaldqm::OccupancyClient.producePlots(), MuonDigiCollection< CSCDetId, CSCCLCTDigi >.put(), TShapeAnalysis.putAllVals(), MagneticFieldGrid.putCoordGetInd(), MagneticFieldGrid.putIndGetCoord(), SiPixelGenError.qbin(), SiStripTemplate.qbin(), SiPixelTemplate.qbin(), SiPixelTemplate.qbin_dist(), HGCDigiProducer.randomEngine(), HcalDigiProducer.randomEngine(), HcalTBDigiProducer.randomEngine(), SiStripDigitizer.randomEngine(), CastorDigiProducer.randomEngine(), cms::SiPixelDigitizer.randomEngine(), edm::PileUp.randomEngine(), EcalDigiProducer.randomEngine(), EcalMixingModuleValidation.randomEngine(), TkStripMeasurementDet.rawId(), L1CaloRegionDetId.rctCard(), DQMRootSource.readElements(), CSCTFSectorProcessor.readParameters(), MuonAlignmentFromReference.readTmpFiles(), heppy::ReclusterJets.ReclusterJets(), edm::Principal.recombine(), fwlite::Record.Record(), edm::EDConsumerBase.recordConsumes(), GenParticlePruner.recursiveFlagDaughters(), GenParticlePruner.recursiveFlagMothers(), SiStripRegionCabling.region(), python.multivaluedict.remove(), lhef::LHEEvent.removeParticle(), edmplugin::CacheParser.replaceSpaces(), BackgroundHandler.rescale(), FWColorPopup.ResetColors(), resetColors(), edm::StreamSchedule.resetEarlyDelete(), edmplugin::CacheParser.restoreSpaces(), PhotonOfflineClient.retrieveHisto(), ZeeCalibration.ringNumberCorrector(), CSCDBCrosstalk.rinter(), FWCollectionSummaryTableManager.rowHeader(), L1MuGMTPSB.RPCMuon(), CSCDBCrosstalk.rslope(), EcalTrigPrimFunctionalAlgo.run_part2(), FWEventItem.runFilter(), runInspector(), DTOccupancyTest.runOccupancyTest(), ecaldqm::LedTask.runOnDigis(), ecaldqm::LedTask.runOnPnDigis(), ecaldqm::LedTask.runOnRawData(), ecaldqm::LedTask.runOnUncalibRecHits(), PFPhotonAlgo.RunPFPhoton(), HcalTBTiming.S1Hits(), HcalTBTiming.S2Hits(), HcalTBTiming.S3Hits(), HcalTBTiming.S4Hits(), HcalDetDiagNoiseMonitor.SaveRates(), FWCaloRecHitDigitSetProxyBuilder.scaleProduct(), FWPFEcalRecHitRPProxyBuilder.scaleProduct(), reco::TemplatedSecondaryVertexTagInfo< reco::CandIPTagInfo, reco::VertexCompositePtrCandidate >.secondaryVertex(), RPCSeedPattern.SegmentAlgorithmSpecial(), FWViewContextMenuHandlerGL.select(), HLTEventSelector.select(), FWModelExpressionSelector.select(), MuonAlignmentFromReference.selectResidualsPeaks(), CmsShowSearchFiles.sendToWebBrowser(), TkStripMeasurementDet.set128StripStatus(), l1t::PhysicsToBitConverter.Set32bitWordLinkEven(), l1t::PhysicsToBitConverter.Set32bitWordLinkOdd(), TkPixelMeasurementDet.setActive(), TkPixelMeasurementDet.setActiveThisEvent(), TkStripMeasurementDet.setActiveThisEvent(), TkStripMeasurementDet.setActiveThisPeriod(), ElectronDqmAnalyzerBase.setBookIndex(), ElectronDqmHarvesterBase.setBookIndex(), CalibrationInterface< CategoryT, CalibDataT >.setCalibData(), Vispa.Main.Application.Application.setCurrentTabController(), FWEventItem.setDefaultDisplayProperties(), FWEventItem.setDisplayProperties(), edm::Path.setEarlyDeleteHelpers(), TkPixelMeasurementDet.setEmpty(), TkStripMeasurementDet.setEmpty(), SimpleL1MuGMTCand.setEta(), FWPSetTableManager.setExpanded(), Particle.SetFirstDaughterIndex(), HBHEStatusBitSetter.SetFlagsFromDigi(), HBHEStatusBitSetter.SetFlagsFromRecHits(), RPCLogCone.setIdx(), edm::RootInputFileSequence.setIndexIntoFile(), Particle.SetLastDaughterIndex(), reco::PFBlock.setLink(), reco::PFDisplacedVertexCandidate.setLink(), PFElectronAlgo.SetLinks(), HcalQIECoder.setOffset(), CastorQIECoder.setOffset(), SiStripLorentzAngleCalibration.setParameter(), SiPixelLorentzAngleCalibration.setParameter(), SiStripBackplaneCalibration.setParameter(), SiStripLorentzAngleCalibration.setParameterError(), SiPixelLorentzAngleCalibration.setParameterError(), SiStripBackplaneCalibration.setParameterError(), fit::RootMinuit< Function >.setParameters(), DreamSD.setPbWO2MaterialProperties_(), SimpleL1MuGMTCand.setPhi(), reco::PFTrack.setPoint(), SimpleL1MuGMTCand.setPt(), edm::OwnArray< T, MAX_SIZE, P >.setPtr(), edm::OwnVector< T, P >.setPtr(), reco::SoftLeptonProperties.setQuality(), gen::Pythia6Service.setSLHAFromHeader(), HcalQIECoder.setSlope(), CastorQIECoder.setSlope(), CaloGeometry.setSubdetGeometry(), CaloTopology.setSubdetTopology(), FWCaloTowerDetailView.setTextInfo(), FWMuonDetailView.setTextInfo(), FWPhotonDetailView.setTextInfo(), FWPFCandidateDetailView.setTextInfo(), FWTrackHitsDetailView.setTextInfo(), FWElectronDetailView.setTextInfo(), FWConvTrackHitsDetailView.setTextInfo(), edm::IndexIntoFile::IndexIntoFileItrSorted.setToLastEventInRange(), DQMRootSource.setupFile(), SiPixelPerformanceSummary.setValue(), MonitorElement.ShiftFillLast(), FWGUIValidatingTextEntry.showOptions(), CmsShowSearchFiles.showPrefixes(), FWModelContextMenuHandler.showSelectedModelContext(), L1DummyProducer.SimpleDigi(), HGCalDDDConstants.simToReco(), SiPixelDetSummary.SiPixelDetSummary(), HcalQIECoder.slope(), CastorQIECoder.slope(), l1t.SortEGammas(), CSCChamberSpecs.specsValue(), TrackingMaterialAnalyser.split(), DQMRootOutputModule.startEndFile(), HLTConfigData.streamIndex(), edm.stripNamespace(), TkStripMeasurementDet.subId(), edm::SubProcess.SubProcess(), VoronoiSubtractor.subtractPedestal(), MultipleAlgoIterator.subtractPedestal(), ReflectedIterator.subtractPedestal(), ParametrizedSubtractor.subtractPedestal(), PileUpSubtractor.subtractPedestal(), cond::PayLoadInspector< DataT >.summary(), edm::SystemTimeKeeper.SystemTimeKeeper(), reco::GsfTrackExtra.tangentDeltaP(), reco::GsfTrackExtra.tangentMomentum(), reco::GsfTrackExtra.tangentPosition(), TauDQMHistPlotter.TauDQMHistPlotter(), SiPixelTemplate.temperrors(), GBRTree2D.TerminalIndex(), GBRTreeD.TerminalIndex(), GBRTree.TerminalIndex(), SiStripFedCabling.terse(), TEveElementIter.TEveElementIter(), TkStripMeasurementDet.theSet(), EcalShapeBase.timeIndex(), HFTimingTrust.timerr_hf(), CSCCFEBTimeSlice.timeSample(), timeshift_ns_hbheho(), timeshift_ns_hf(), TkStripMeasurementDet.totalStrips(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >.track(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >.trackData(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >.trackIPData(), reco::PFTrack.trajectoryPoint(), HLTConfigData.triggerIndex(), edm::TriggerNames.TriggerNames(), l1t::Stage2Layer2EGammaAlgorithmFirmwareImp1.trimmingLutIndex(), CSCOfflineMonitor.typeIndex(), CSCValidation.typeIndex(), uniqueElectronFinder(), TrackCategories.unknownTrack(), VertexCategories.unknownVertex(), CSCTFEvent.unpack(), DCCMemBlock.unpackMemTowerData(), TkPixelMeasurementDet.update(), HcaluLUTTPGCoder.update(), FWPSetTableManager.update(), FP420Test.update(), BscTest.update(), G4StepStatistics.update(), SeedingLayerSetsBuilder.updateEventSetup(), HcalDetDiagNoiseMonitor.UpdateHistos(), FWTableView.updateItems(), edm::EDConsumerBase.updateLookup(), HcalTBTiming.V775(), HLTMuon.validChambers(), CSCDBGasGainCorrection.value(), CSCDBChipSpeedCorrection.value(), PrimaryVertexMonitor.vertexPlots(), sistrip::EnsembleCalibrationLA.write_ensembles_text(), GctFormatTranslateMCLegacy.writeRctEmCandBlocks(), MuonAlignmentFromReference.writeTmpFiles(), and L1GtVmeWriterCore.writeVME().

cmsHarvester.Jsonfilename

Definition at line 3708 of file cmsHarvester.py.

cmsHarvester.Jsonlumi

Definition at line 3682 of file cmsHarvester.py.

int cmsHarvester.loop = 0

CMSSW

CAF

Definition at line 4391 of file cmsHarvester.py.

Referenced by optutl::CommandLineParser._getSectionFiles(), RawDataConverter.ClearData(), CmsShowMainFrame.CmsShowMainFrame(), DDCheckMaterial(), SiStripTFile.dirContent(), MillePedeAlignmentAlgorithm.doIO(), LaserAlignment.DumpPosFileSet(), LaserAlignment.DumpStripFileSet(), SETSeedFinder.estimateMomentum(), PhysicsTools::MVAComputer.evalInternal(), LMFDefFabric.getColor(), LMFDefFabric.getColorFromID(), RawDataConverter.GetDigis(), LMFDefFabric.getRunTag(), LMFDefFabric.getRunTagFromID(), LMFDefFabric.getTrigType(), LMFDefFabric.getTrigTypeFromID(), pat::EventHypothesis.loop(), output(), optutl::CommandLineParser.parseArguments(), EcalDigiSelector.produce(), SiStripTFile.readDQMFormat(), TrajectoryManager.reconstruct(), stdcomb.recursive_combination(), LMFColoredTable.setColor(), LMFColoredTable.setSystem(), HcalTestAnalysis.update(), DDI::Polyhedra.volume(), and DDI::Polycone.volume().

string cmsHarvester.marker = "\n"

Definition at line 4814 of file cmsHarvester.py.

Referenced by fireworks.addDashedArrow(), fireworks.addDashedLine(), FWPhotonLegoProxyBuilder.build(), FWMuonGlimpseProxyBuilder.build(), FWElectronLegoProxyBuilder.build(), FWElectronGlimpseProxyBuilder.build(), FWTauProxyBuilderBase.buildBaseTau(), and FWMETProxyBuilder.buildViewType().

list cmsHarvester.marker_lines = []

Definition at line 4806 of file cmsHarvester.py.

string cmsHarvester.metavar = "JSONRUNFILE"

Definition at line 2058 of file cmsHarvester.py.

cmsHarvester.mirrored = None

Definition at line 3222 of file cmsHarvester.py.

string cmsHarvester.msg = "Could not create directory `%s'"

class Handler(xml.sax.handler.ContentHandler): def startElement(self, name, attrs): if name == "result": site_name = str(attrs["STORAGEELEMENT_SENAME"])

TODO TODO TODO

Ugly hack to get around cases like this:

$ dbs search –query="find dataset, site, file.count where dataset=/RelValQCD_Pt_3000_3500/CMSSW_3_3_0_pre1-STARTUP31X_V4-v1/GEN-SIM-RECO"

Using DBS instance at: http://cmsdbsprod.cern.ch/cms_dbs_prod_global/servlet/DBSServlet

Processing ...

\

PATH STORAGEELEMENT_SENAME COUNT_FILES

_________________________________________________________________________________

/RelValQCD_Pt_3000_3500/CMSSW_3_3_0_pre1-STARTUP31X_V4-v1/GEN-SIM-RECO 1

/RelValQCD_Pt_3000_3500/CMSSW_3_3_0_pre1-STARTUP31X_V4-v1/GEN-SIM-RECO cmssrm.fnal.gov 12

/RelValQCD_Pt_3000_3500/CMSSW_3_3_0_pre1-STARTUP31X_V4-v1/GEN-SIM-RECO srm-cms.cern.ch 12

if len(site_name) < 1: return

TODO TODO TODO end

run_number = int(attrs["RUNS_RUNNUMBER"]) file_name = str(attrs["FILES_LOGICALFILENAME"]) nevents = int(attrs["FILES_NUMBEROFEVENTS"])

I know, this is a bit of a kludge.

if not files_info.has_key(run_number):

New run.

files_info[run_number] = {} files_info[run_number][file_name] = (nevents, [site_name]) elif not files_info[run_number].has_key(file_name):

New file for a known run.

files_info[run_number][file_name] = (nevents, [site_name]) else:

New entry for a known file for a known run.

DEBUG DEBUG DEBUG

Each file should have the same number of

events independent of the site it's at.

assert nevents == files_info[run_number][file_name][0]

DEBUG DEBUG DEBUG end

files_info[run_number][file_name][1].append(site_name) OBSOLETE OBSOLETE OBSOLETE end

Definition at line 1639 of file cmsHarvester.py.

tuple cmsHarvester.multicrab_block_name
Initial value:
1 = self.create_multicrab_block_name( \
2  dataset_name, run, index)

Definition at line 4414 of file cmsHarvester.py.

string cmsHarvester.multicrab_config = "\n"

Definition at line 4495 of file cmsHarvester.py.

list cmsHarvester.multicrab_config_lines = []

Definition at line 4338 of file cmsHarvester.py.

list cmsHarvester.nevents = int(handler.results["file.numevents"][index])

Definition at line 3176 of file cmsHarvester.py.

Referenced by SiStripHitEffFromCalibTree.algoAnalyze(), DTT0Calibration.analyze(), DTT0CalibrationNew.analyze(), DTDigiTask.analyze(), DTResolutionAnalysisTest.beginRun(), DTLocalTriggerBaseTest.beginRun(), DTEfficiencyTest.beginRun(), DTDigiTask.dqmBeginRun(), DTNoiseAnalysisTest.dqmEndLuminosityBlock(), DTChamberEfficiencyTest.DTChamberEfficiencyTest(), DTNoiseAnalysisTest.DTNoiseAnalysisTest(), DTOccupancyTest.DTOccupancyTest(), DTResolutionTest.DTResolutionTest(), DTRunConditionVarClient.DTRunConditionVarClient(), DTSegmentAnalysisTest.DTSegmentAnalysisTest(), DTT0Calibration.DTT0Calibration(), DTT0CalibrationNew.DTT0CalibrationNew(), ZDCDigiStudy.endRun(), DTLocalTriggerBaseTest.setConfig(), edm::IndexIntoFile.setNumberOfEvents(), StatisticsPlots(), SummaryHisto(), DTChamberEfficiencyTest.~DTChamberEfficiencyTest(), DTDigiTask.~DTDigiTask(), DTEfficiencyTest.~DTEfficiencyTest(), DTLocalTriggerBaseTest.~DTLocalTriggerBaseTest(), DTNoiseAnalysisTest.~DTNoiseAnalysisTest(), DTResolutionAnalysisTest.~DTResolutionAnalysisTest(), DTResolutionTest.~DTResolutionTest(), and DTSegmentAnalysisTest.~DTSegmentAnalysisTest().

cmsHarvester.non_t1access

Definition at line 1089 of file cmsHarvester.py.

cmsHarvester.nr_max_sites

Definition at line 1140 of file cmsHarvester.py.

dictionary cmsHarvester.num_events_catalog = {}

Definition at line 3215 of file cmsHarvester.py.

tuple cmsHarvester.num_events_dataset = sum(tmp)

Definition at line 3986 of file cmsHarvester.py.

tuple cmsHarvester.num_sites
Initial value:
1 = len(self.datasets_information[dataset_name] \
2  ["sites"][run_number])

               if self.datasets_information[dataset_name]["num_events"][run_number] != 0:
                   pdb.set_trace()

DEBUG DEBUG DEBUG end

Definition at line 3956 of file cmsHarvester.py.

int cmsHarvester.number_max_sites = self.nr_max_sites+1

Definition at line 4336 of file cmsHarvester.py.

cmsHarvester.option_parser

Definition at line 1878 of file cmsHarvester.py.

cmsHarvester.output_file_name = self.\

Definition at line 4382 of file cmsHarvester.py.

Referenced by HcalLutManager.writeLutXmlFiles().

tuple cmsHarvester.path = os.path.join(path, piece)

else:

Piece not in the list, fine.

                   self.logger.debug("  accepting")

Add piece to the path we're building. self.logger.debug("!!! Skip path piece `%s'? %s" % \ (piece, str(skip_this_path_piece))) self.logger.debug("Adding piece to path...")

Definition at line 1591 of file cmsHarvester.py.

tuple cmsHarvester.permissions = extract_permissions(output)

Definition at line 1648 of file cmsHarvester.py.

string cmsHarvester.permissions_new = []

Definition at line 1678 of file cmsHarvester.py.

string cmsHarvester.permissions_target = "775"

Definition at line 1672 of file cmsHarvester.py.

cmsHarvester.preferred_site

Definition at line 1146 of file cmsHarvester.py.

cmsHarvester.ref_hist_mappings_file_name

Definition at line 2257 of file cmsHarvester.py.

tuple cmsHarvester.run_number = int(handler.results["run.number"][index])

Definition at line 3174 of file cmsHarvester.py.

Referenced by BlockFormatter.DigiToRaw(), TEcnaRead.FileParameters(), HcalChannelQualityXml.HcalChannelQualityXml(), HcalL1TriggerObjectsXml.HcalL1TriggerObjectsXml(), TEcnaHeader.HeaderParameters(), HcalChannelDataXml.init_data(), HcalChannelDataXml.set_header_run_number(), SiStripCommissioningOfflineClient.setInputFiles(), and XMLHTRZeroSuppressionLoader.XMLHTRZeroSuppressionLoader().

list cmsHarvester.runs = self.datasets_to_use[dataset_name]

Definition at line 4349 of file cmsHarvester.py.

cmsHarvester.runs_to_ignore

Definition at line 3555 of file cmsHarvester.py.

cmsHarvester.runs_to_use

Definition at line 3531 of file cmsHarvester.py.

cmsHarvester.saveByLumiSection

Definition at line 1119 of file cmsHarvester.py.

tuple cmsHarvester.se_name = choice(t1_sites)

Definition at line 1791 of file cmsHarvester.py.

string cmsHarvester.sep = "#"

Definition at line 4807 of file cmsHarvester.py.

Referenced by edm::Entry.Entry(), ExpressionVariable< Object, label >.ExpressionVariable(), GEDPhotonProducer.fillPhotonCollection(), LumiProducer.fillRunCache(), ElectronDqmHarvesterBase.find(), fwlite::DataGetterHelper.getBranchDataFor(), HLTPixlMBForAlignmentFilter.hltFilter(), fit::RootMinuitCommands< Function >.init(), Tokenizer.join(), std.operator<<(), HcalTopologyRestrictionParser.parse(), lumi::NormDML.parseAfterglows(), ParticleReplacerZtautau.ParticleReplacerZtautau(), ClhepEvaluator.prepare(), ElectronIDValueMapProducer.produce(), PhotonIDValueMapProducer.produce(), ElectronEnergyRegressionEvaluate.regressionUncertaintyNoTrkVar(), ElectronEnergyRegressionEvaluate.regressionUncertaintyNoTrkVarV1(), ElectronEnergyRegressionEvaluate.regressionUncertaintyWithSubClusters(), ElectronEnergyRegressionEvaluate.regressionUncertaintyWithTrkVar(), ElectronEnergyRegressionEvaluate.regressionUncertaintyWithTrkVarV1(), ElectronEnergyRegressionEvaluate.regressionUncertaintyWithTrkVarV2(), ElectronEnergyRegressionEvaluate.regressionValueNoTrkVar(), ElectronEnergyRegressionEvaluate.regressionValueNoTrkVarV1(), ElectronEnergyRegressionEvaluate.regressionValueWithSubClusters(), ElectronEnergyRegressionEvaluate.regressionValueWithTrkVar(), ElectronEnergyRegressionEvaluate.regressionValueWithTrkVarV1(), ElectronEnergyRegressionEvaluate.regressionValueWithTrkVarV2(), cond::UpdateStamp.stamp(), StringBasedNTupler.StringBasedNTupler(), edm.tokenize(), and cond::IOVSequence.updateMetadata().

list cmsHarvester.site_name = None

Definition at line 1772 of file cmsHarvester.py.

list cmsHarvester.site_names = list(set([j for i in files_info[run_number].values() for j in i[1]]))

Definition at line 3217 of file cmsHarvester.py.

list cmsHarvester.sites = [self.preferred_site]

Definition at line 1761 of file cmsHarvester.py.

Referenced by edm::service::SiteLocalConfigService.parse().

list cmsHarvester.sites_forbidden = []

Definition at line 1708 of file cmsHarvester.py.

list cmsHarvester.sites_with_complete_copies = []

Definition at line 3233 of file cmsHarvester.py.

cmsHarvester.skip_this_path_piece = True

self.logger.debug("Checking CASTOR path piece `%s'" % \ piece)

self.logger.debug("Checking `%s' against `%s'" % \ (castor_path_pieces[piece_index + check_size], castor_paths_dont_touch[check_size])) self.logger.debug(" skipping")

Definition at line 1583 of file cmsHarvester.py.

list cmsHarvester.t1_sites = []

Definition at line 1778 of file cmsHarvester.py.

dictionary cmsHarvester.tmp
Initial value:
1 = [j for (i, j) in self.datasets_information \
2  [dataset_name]["num_events"].items() \
3  if i in self.datasets_to_use[dataset_name]]

TODO TODO TODO

Need to think about where this should go, but

somewhere we have to move over the fact that we want

to process all runs for each dataset that we're

considering.

This basically means copying over the

information from self.datasets_information[]["runs"]

to self.datasets_to_use[].

for dataset_name in self.datasets_to_use.keys(): self.datasets_to_use[dataset_name] = self.datasets_information[dataset_name]["runs"]

TODO TODO TODO end

OBSOLETE OBSOLETE OBSOLETE end tmp = self.datasets_information[dataset_name] \ ["num_events"]

Definition at line 3983 of file cmsHarvester.py.

tuple cmsHarvester.traceback_string = traceback.format_exc()

Definition at line 5718 of file cmsHarvester.py.

string cmsHarvester.twiki_url = "https://twiki.cern.ch/twiki/bin/view/CMS/CmsHarvester"

Definition at line 41 of file cmsHarvester.py.

string cmsHarvester.type = "string"

Definition at line 2057 of file cmsHarvester.py.

tuple cmsHarvester.use_es_prefer = (self.harvesting_type == "RelVal")

Definition at line 4858 of file cmsHarvester.py.

cmsHarvester.use_refs = use_es_preferor\

Definition at line 4859 of file cmsHarvester.py.

cmsHarvester.UserName = output

Definition at line 4331 of file cmsHarvester.py.

cmsHarvester.workflow_name = dataset_name

Definition at line 4887 of file cmsHarvester.py.