## $Id: datacenter.py 9340 2012-10-15 11:04:40Z henrik $ ## ## Copyright (C) 2011 Uli Fouquet & Henrik Bettermann ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 2 of the License, or ## (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with this program; if not, write to the Free Software ## Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ## """Kofa data center. The waeup data center cares for management of upload data and provides tools for importing/exporting CSV data. """ import os import re import shutil import grok from datetime import datetime from zope.component import getUtility from zope.component.interfaces import ObjectEvent from waeup.kofa.interfaces import (IDataCenter, IDataCenterFile, IDataCenterStorageMovedEvent, IDataCenterConfig) from waeup.kofa.utils.batching import ExportJobContainer from waeup.kofa.utils.helpers import copy_filesystem_tree, merge_csv_files from waeup.kofa.utils.logger import Logger #: Regular expression describing a logfile name with backup extension RE_LOGFILE_BACKUP_NAME = re.compile('^.+\.\d+$') class DataCenter(grok.Container, Logger, ExportJobContainer): """A data center contains CSV files. """ grok.implements(IDataCenter) logger_name = 'waeup.kofa.${sitename}.datacenter' logger_filename = 'datacenter.log' def __init__(self, *args, **kw): super(DataCenter, self).__init__(*args, **kw) self.storage = getUtility(IDataCenterConfig)['path'] self._createSubDirs() def _createSubDirs(self): """Create standard subdirs. """ for name in ['finished', 'unfinished', 'logs', 'deleted']: path = os.path.join(self.storage, name) if os.path.exists(path): continue os.mkdir(path) return @property def deleted_path(self): """Get the path for deleted object data. """ return os.path.join(self.storage, 'deleted') def getPendingFiles(self, sort='name'): """Get a list of files stored in `storage`. Files are sorted by basename. """ result = [] if not os.path.exists(self.storage): return result for filename in sorted(os.listdir(self.storage)): fullpath = os.path.join(self.storage, filename) if not os.path.isfile(fullpath): continue if not filename.endswith('.csv'): continue result.append(DataCenterFile(fullpath)) if sort == 'date': # sort results in newest-first order... result = sorted(result, key=lambda x: x.getTimeStamp(), reverse=True) return result def getFinishedFiles(self): """Get a list of files stored in `finished` subfolder of `storage`. Files are unsorted. """ result = [] finished_dir = os.path.join(self.storage, 'finished') if not os.path.exists(finished_dir): return result for filename in sorted(os.listdir(finished_dir)): fullpath = os.path.join(finished_dir, filename) if not os.path.isfile(fullpath): continue if not filename.endswith('.csv'): continue result.append(DataCenterFile(fullpath, 'finished')) return result def getLogFiles(self, exclude_backups=True): """Get the files from logs/ subdir. Files are sorted by name. By default backup logs ('app.log.1', etc.) are excluded. """ result = [] logdir = os.path.join(self.storage, 'logs') if not os.path.exists(logdir): os.mkdir(logdir) for name in sorted(os.listdir(logdir)): if not os.path.isfile(os.path.join(logdir, name)): continue if exclude_backups == True and RE_LOGFILE_BACKUP_NAME.match(name): continue result.append( LogFile(os.path.join(self.storage, 'logs', name))) return result def setStoragePath(self, path, move=False, overwrite=False): """Set the path where to store files. """ path = os.path.abspath(path) not_copied = [] if not os.path.exists(path): raise ValueError('The path given does not exist: %s' % path) if move is True: not_copied = copy_filesystem_tree(self.storage, path, overwrite=overwrite) self.storage = path self._createSubDirs() grok.notify(DataCenterStorageMovedEvent(self)) return not_copied def _moveFile(self, source, dest): """Move file source to dest preserving ctime, mtime, etc. """ if not os.path.exists(source): self.logger.warn('No such source path: %s' % source) return if source == dest: return shutil.copyfile(source, dest) shutil.copystat(source, dest) os.unlink(source) def _appendCSVFile(self, source, dest): """Append data from CSV file `source` to data from CSV file `dest`. The `source` file is deleted afterwards. """ if not os.path.exists(dest): return self._moveFile(source, dest) if not os.path.exists(source): self.logger.warn('No such source path: %s' % source) return if source == dest: return result_path = merge_csv_files(dest, source) os.chmod(result_path, 0664) self._moveFile(result_path, dest) os.unlink(source) def distProcessedFiles(self, successful, source_path, finished_file, pending_file, mode='create', move_orig=True): """Put processed files into final locations. ``successful`` is a boolean that tells, whether processing was successful. ``source_path``: path to file that was processed. ``finished_file``, ``pending_file``: paths to the respective generated .pending and .finished file. The .pending file path may be ``None``. If finished file is placed in a location outside the local storage dir, the complete directory is removed afterwards. Regular processors should put their stuff in dedicated temporary dirs. See datacenter.txt for more info about how this works. """ basename = os.path.basename(source_path) pending_name = basename pending = False finished_dir = os.path.join(self.storage, 'finished') unfinished_dir = os.path.join(self.storage, 'unfinished') if basename.endswith('.pending.csv'): maybe_basename = "%s.csv" % basename.rsplit('.', 3)[0] maybe_src = os.path.join(unfinished_dir, maybe_basename) if os.path.isfile(maybe_src): basename = maybe_basename pending = True base, ext = os.path.splitext(basename) finished_name = "%s.%s.finished%s" % (base, mode, ext) if not pending: pending_name = "%s.%s.pending%s" % (base, mode, ext) # Put .pending and .finished file into respective places... pending_dest = os.path.join(self.storage, pending_name) finished_dest = os.path.join(finished_dir, finished_name) self._appendCSVFile(finished_file, finished_dest) if pending_file is not None: self._moveFile(pending_file, pending_dest) # Put source file into final location... finished_dest = os.path.join(finished_dir, basename) unfinished_dest = os.path.join(unfinished_dir, basename) if successful and not pending: self._moveFile(source_path, finished_dest) elif successful and pending: self._moveFile(unfinished_dest, finished_dest) os.unlink(source_path) elif not successful and not pending: self._moveFile(source_path, unfinished_dest) # If finished and pending-file were created in a location # outside datacenter storage, we remove it. maybe_temp_dir = os.path.dirname(finished_file) if os.path.commonprefix( [self.storage, maybe_temp_dir]) != self.storage: shutil.rmtree(maybe_temp_dir) return def _logfiles(self, basename): """Get sorted logfiles starting with `basename`. """ def numerical_suffix(name): # return numerical suffix in `name` as number or 0. suffix = name.rsplit('.', 1)[-1] try: return int(suffix) except ValueError: return 0 pass files = [basename,] for name in os.listdir(os.path.join(self.storage, 'logs')): if RE_LOGFILE_BACKUP_NAME.match(name): if name.rsplit('.', 1)[0] == basename: files.append(name) return sorted(files, key=numerical_suffix, reverse=True) def queryLogfiles(self, basename, query=None, limit=0, start=0): """Search `query` in all logfiles starting with `basename`. Returns an iterator of those lines in logfiles starting with `basename` that match `query`. If you want the result as a list, simply list() the iterator. All logfiles with name `basename` and maybe some numerical extension ('.1', '.2', ...) are searched for the `query` term in correct chronological order. So, if you ask for a basename 'app.log', then any file named 'app2.log', 'app.log.1', 'app.log', etc. will be searched in that order. The `query` is expected to be a string containing a regular expression. If `limit` is set to some numerical value, at most this number of lines is returned. With `start` you can give the number of first matched line to return. `start` is zero-based, i.e. the first match has number 0, the scond one 1, etc. Together with `limit` this allows some basic batching. Please keep in mind that batching might give unpredictable results, when logfiles change between two requests. This is not a problem when only one file is searched and changes include only appending new log messages. Matches are found per line only (no multiline matches). This method raises ValueError if some basic condition is not met, for instance if the given query string is not a valid regular expression. Please note, that this exception will happen not before you really fetch a result line. """ try: re_query = re.compile(query) except: raise ValueError('Invalid query string: %s' % query) basename = basename.replace('/../', '') files = self._logfiles(basename) # Search the log files num = 0 for name in files: path = os.path.join(self.storage, 'logs', name) if not os.path.isfile(path): continue for line in open(path, 'rb'): if not re_query.search(line): continue num += 1 if (num - 1) < start: continue yield line if limit and (num - limit >= start): raise StopIteration pass class DataCenterFile(object): """A description of a file stored in data center. """ grok.implements(IDataCenterFile) def __init__(self, context, folder_name=''): self.context = context self.name = os.path.basename(self.context) self.rel_path = os.path.join(folder_name, self.name) self.size = self.getSize() self.uploaddate = self.getDate() self.lines = self.getLinesNumber() def getDate(self): """Get a human readable datetime representation. """ date = datetime.fromtimestamp(os.path.getmtime(self.context)) return date.strftime("%Y-%m-%d %H:%M:%S") def getTimeStamp(self): """Get a (machine readable) timestamp. """ return os.path.getmtime(self.context) def getSize(self): """Get a human readable file size. """ bytesize = os.path.getsize(self.context) size = "%s bytes" % bytesize units = ['kb', 'MB', 'GB'] for power, unit in reversed(list(enumerate(units))): power += 1 if bytesize >= 1024 ** power: size = "%.2f %s" % (bytesize/(1024.0**power), unit) break return size def getLinesNumber(self): """Get number of lines. """ num = 0 for line in open(self.context, 'rb'): num += 1 return num class LogFile(DataCenterFile): """A description of a log file. """ def __init__(self, context): super(LogFile, self).__init__(context) self._markers = dict() self._parsed = False self.userid = self.getUserId() self.mode = self.getMode() self.stats = self.getStats() self.source = self.getSourcePath() def _parseFile(self, maxline=10): """Find markers in a file. """ if self._parsed: return for line in open(self.context, 'rb'): line = line.strip() if not ':' in line: continue name, text = line.split(':', 1) self._markers[name.lower()] = text self._parsed = True return def _getMarker(self, marker): marker = marker.lower() if not self._parsed: self._parseFile() if marker in self._markers.keys(): return self._markers[marker] def getUserId(self): return self._getMarker('user') or '' def getMode(self): return self._getMarker('mode') or '' def getStats(self): return self._getMarker('processed') or '' def getSourcePath(self): return self._getMarker('source') or None class DataCenterStorageMovedEvent(ObjectEvent): """An event fired, when datacenter storage moves. """ grok.implements(IDataCenterStorageMovedEvent)