# coding=utf-8 import StringIO import datetime import gzip import json import logging import random import tarfile import time import urllib from csv import writer as csv_writer from math import sqrt, isnan from os import environ, remove as removefile from os.path import isfile, join, abspath, dirname from dateutil.relativedelta import relativedelta from flask import Flask from flask import request from flask import url_for, send_from_directory, abort as abort_flask from jinja2 import Environment, FileSystemLoader, Markup from netCDF4 import Dataset, date2num from yaml import load as yaml_load # PATH RELATIVITY ############################################################# THIS_DIRECTORY = dirname(abspath(__file__)) def get_path(relative_path): """Get an absolute path from the relative path to this script directory.""" return abspath(join(THIS_DIRECTORY, relative_path)) # COLLECT GLOBAL INFORMATION FROM SOURCES ##################################### # VERSION with open(get_path('../VERSION'), 'r') as version_file: version = version_file.read().strip() # CONFIG with open(get_path('../config.yml'), 'r') as config_file: config = yaml_load(config_file.read()) FILE_DATE_FMT = "%Y-%m-%dT%H:%M:%S" # LOGGING ##################################################################### LOG_FILE = get_path('run.log') log = logging.getLogger("HelioPropa") log.setLevel(logging.DEBUG) # log.setLevel(logging.ERROR) # <-- set log level here ! logHandler = logging.FileHandler(LOG_FILE) logHandler.setFormatter(logging.Formatter( "%(asctime)s - %(levelname)s - %(message)s" )) log.addHandler(logHandler) # HARDCODED CONFIGURATION ##################################################### # Absolute path to the installed CDF library from https://cdf.gsfc.nasa.gov/ CDF_LIB = '/usr/local/lib/libcdf' # Absolute path to the data cache directory CACHE_DIR = get_path('../cache') # These two configs are not in the YAML config because adding a new parameter # will not work as-is, you'd have to edit some netcdf-related code. # The slugs of the available parameters in the generated CSV files. # The order matters. If you change this you also need to change the # innermost loop of `get_data_for_target`. # The javascript knows the targets' properties under these names. PROPERTIES = ('time', 'vrad', 'vtan', 'vtot', 'btan', 'temp', 'pdyn', 'dens', 'atse', 'xhee', 'yhee') # The parameters that the users can handle. # The slug MUST be one of the properties above. PARAMETERS = { 'pdyn': { 'slug': 'pdyn', 'name': 'Dyn. Pressure', 'title': 'The dynamic pressure.', 'units': 'nPa', 'active': True, 'position': 10, }, 'vtot': { 'slug': 'vtot', 'name': 'Velocity', 'title': 'The velocity of the particles.', 'units': 'km/s', 'active': False, 'position': 20, }, 'btan': { 'slug': 'btan', 'name': 'B Tangential', 'title': 'B Tangential.', 'units': 'nT', 'active': False, 'position': 30, }, 'temp': { 'slug': 'temp', 'name': 'Temperature', 'title': 'The temperature.', 'units': 'eV', 'active': False, 'position': 40, }, 'dens': { 'slug': 'dens', 'name': 'Density', 'title': 'The density N.', 'units': 'cm^-3', 'active': False, 'position': 50, }, 'atse': { 'slug': 'atse', 'name': 'Angle T-S-E', 'title': 'Angle Target-Sun-Earth.', 'units': 'deg', 'active': False, 'position': 60, }, } # SETUP FLASK ENGINE ########################################################## app = Flask(__name__, root_path=THIS_DIRECTORY) app.debug = environ.get('DEBUG') == 'true' if app.debug: log.info("Starting Flask app IN DEBUG MODE...") else: log.info("Starting Flask app...") # SETUP JINJA2 TEMPLATE ENGINE ################################################ def static_global(filename): return url_for('static', filename=filename) def shuffle_filter(seq): """ This shuffles the sequence it is applied to. Jinja2 _should_ provide this. """ try: result = list(seq) random.shuffle(result) return result except: return seq def markdown_filter(value, nl2br=False, p=True): """ Converts markdown into html. nl2br: set to True to replace line breaks with
tags p: set to False to remove the enclosing

tags """ from markdown import markdown from markdown.extensions.nl2br import Nl2BrExtension from markdown.extensions.abbr import AbbrExtension extensions = [AbbrExtension()] if nl2br is True: extensions.append(Nl2BrExtension()) markdowned = markdown(value, output_format='html5', extensions=extensions) if p is False: markdowned = markdowned.replace(r"

", "").replace(r"

", "") return markdowned _js_escapes = { '\\': '\\u005C', '\'': '\\u0027', '"': '\\u0022', '>': '\\u003E', '<': '\\u003C', '&': '\\u0026', '=': '\\u003D', '-': '\\u002D', ';': '\\u003B', u'\u2028': '\\u2028', u'\u2029': '\\u2029' } # Escape every ASCII character with a value less than 32. _js_escapes.update(('%c' % z, '\\u%04X' % z) for z in xrange(32)) def escapejs_filter(value): escaped = [] for letter in value: if letter in _js_escapes: escaped.append(_js_escapes[letter]) else: escaped.append(letter) return Markup("".join(escaped)) tpl_engine = Environment(loader=FileSystemLoader([get_path('view')]), trim_blocks=True, lstrip_blocks=True) tpl_engine.globals.update( url_for=url_for, static=static_global, ) tpl_engine.filters['markdown'] = markdown_filter tpl_engine.filters['md'] = markdown_filter tpl_engine.filters['shuffle'] = shuffle_filter tpl_engine.filters['escapejs'] = escapejs_filter tpl_global_vars = { 'request': request, 'version': version, 'config': config, 'now': datetime.datetime.now(), } # HELPERS ##################################################################### def abort(code, message): log.error(message) abort_flask(code, message) def render_view(view, context=None): """ A simple helper to render [view] template with [context] vars. It automatically adds the global template vars defined above, too. It returns a string, usually the HTML contents to display. """ context = {} if context is None else context return tpl_engine.get_template(view).render( dict(tpl_global_vars.items() + context.items()) ) # def render_page(page, title="My Page", context=None): # """ # A simple helper to render the md_page.html template with [context] vars & # the additional contents of `page/[page].md` in the `md_page` variable. # It automagically adds the global template vars defined above, too. # It returns a string, usually the HTML contents to display. # """ # if context is None: # context = {} # context['title'] = title # context['md_page'] = '' # with file(get_path('page/%s.md' % page)) as f: # context['md_page'] = f.read() # return tpl_engine.get_template('md_page.html').render( # dict(tpl_global_vars.items() + context.items()) # ) def is_list_in_list(needle, haystack): for n in needle: if n not in haystack: return False return True def round_time(dt=None, round_to=60): """ Round a datetime object to any time laps in seconds dt : datetime.datetime object, default now. roundTo : Closest number of seconds to round to, default 1 minute. """ if dt is None: dt = datetime.datetime.now() seconds = (dt.replace(tzinfo=None) - dt.min).seconds rounding = (seconds + round_to / 2) // round_to * round_to return dt + datetime.timedelta(0, rounding-seconds, -dt.microsecond) def datetime_from_list(time_list): """ Datetimes in retrieved CDFs are stored as lists of numbers, with DayOfYear starting at 0. We want it starting at 1 because it's what vendor parsers use, both in python and javascript. """ # Day Of Year starts at 0, but for our datetime parser it starts at 1 doy = '{:03d}'.format(int(''.join(time_list[4:7])) + 1) return datetime.datetime.strptime( "%s%s%s" % (''.join(time_list[0:4]), doy, ''.join(time_list[7:-1])), "%Y%j%H%M%S%f" ) def get_local_filename(url): """ Build the local cache filename for the distant file :param url: string :return: string """ from slugify import slugify n = len('http://') if url.startswith('https'): n += 1 s = url[n:] return slugify(s) def get_target_config(slug): for s in config['targets']: # dumb if s['slug'] == slug: return s raise Exception("No target found in configuration for '%s'." % slug) def check_target_config(slug): get_target_config(slug) def get_active_targets(): all_targets = config['targets'] return [t for t in all_targets if not ('locked' in t and t['locked'])] def retrieve_amda_netcdf(orbiter, what, started_at, stopped_at): """ Handles remote querying Myriam's API, downloading, extracting and caching the netCDF files. :param orbiter: key of the source in the YAML config :param what: either 'model' or 'orbit', a key in the config of the source :param started_at: :param stopped_at: :return: a list of local file paths to netCDF (.nc) files """ url = config['amda'].format( dataSet=what, startTime=started_at.isoformat(), stopTime=stopped_at.isoformat() ) log.info("Fetching remote gzip files list at '%s'." % url) retries = 0 success = False errors = [] remote_gzip_files = [] while not success and retries < 3: try: response = urllib.urlopen(url) remote_gzip_files = json.loads(response.read()) if not remote_gzip_files: raise Exception("Failed to fetch data at '%s'." % url) if remote_gzip_files == 'NODATASET': raise Exception("API says there's no dataset at '%s'." % url) if remote_gzip_files == 'ERROR': raise Exception("API returned an error at '%s'." % url) if remote_gzip_files == ['OUTOFTIME']: # it happens return [] # raise Exception("API says it's out of time at '%s'." % url) success = True except Exception as e: log.warn("Failed (%d/3) '%s' : %s" % (retries+1, url, e.message)) remote_gzip_files = [] errors.append(e) finally: retries += 1 if not remote_gzip_files: abort(400, "Failed to fetch gzip files list for %s at '%s' : %s" % (orbiter, url, errors)) else: remote_gzip_files = list(set(remote_gzip_files)) log.debug("Fetched remote gzip files list : %s." % str(remote_gzip_files)) local_gzip_files = [] for remote_gzip_file in remote_gzip_files: # hotfixes to remove when fixed upstream @Myriam if remote_gzip_file in ['OUTOFTIME', 'ERROR']: continue # sometimes half the response is okay, the other not if remote_gzip_file.endswith('/.gz'): continue # this is just a plain bug remote_gzip_file = remote_gzip_file.replace('cdpp1', 'cdpp', 1) ################################################ local_gzip_file = join(CACHE_DIR, get_local_filename(remote_gzip_file)) local_gzip_files.append(local_gzip_file) if not isfile(local_gzip_file): log.debug("Retrieving '%s'..." % local_gzip_file) urllib.urlretrieve(remote_gzip_file, local_gzip_file) log.debug("Retrieved '%s'." % local_gzip_file) else: log.debug("Found '%s' in the cache." % local_gzip_file) local_netc_files = [] for local_gzip_file in local_gzip_files: local_netc_file = local_gzip_file[0:-3] log.debug("Unzipping '%s'..." % local_gzip_file) success = True try: with gzip.open(local_gzip_file) as f: file_content = f.read() with open(local_netc_file, 'w+b') as g: g.write(file_content) except Exception as e: success = False log.error("Cannot process gz file '%s' from '%s' : %s" % (local_gzip_file, url, e)) # Sometimes, the downloaded gz is corrupted, and CRC checks fail. # We want to delete the local gz file and try again next time. removefile(local_gzip_file) if success: local_netc_files.append(local_netc_file) log.debug("Unzipped '%s'." % local_gzip_file) return list(set(local_netc_files)) # remove possible dupes # class DataParser: # """ # Default data parser # A wip to try to handle code exeptions sanely. # """ # # # Override these using the model configuration # default_nc_keys = { # 'hee': 'HEE', # 'vtot': 'V', # 'magn': 'B', # 'temp': 'T', # 'dens': 'N', # 'pdyn': 'P_dyn', # 'atse': 'Delta_angle', # } # # def __init__(self, target, model): # self.target = target # self.model = model # pass # # def _read_var(self, nc, _keys, _key, mandatory=False): # try: # return nc.variables[_keys[_key]] # except KeyError: # pass # if mandatory: # raise Exception("No variable '%s' found in NetCDF." % _keys[_key]) # return [None] * len(nc.variables['Time']) # slow -- use numpy? # # def parse(self, cdf_handle): # nc_keys = self.default_nc_keys.copy() # # times = cdf_handle.variables['Time'] # YYYY DOY HH MM SS .ms # data_v = self._read_var(cdf_handle, nc_keys, 'vtot') # data_b = self._read_var(cdf_handle, nc_keys, 'magn') # data_t = self._read_var(cdf_handle, nc_keys, 'temp') # data_n = self._read_var(cdf_handle, nc_keys, 'dens') # data_p = self._read_var(cdf_handle, nc_keys, 'pdyn') # data_a = self._read_var(cdf_handle, nc_keys, 'atse') # # return zip() def get_data_for_target(target_config, input_slug, started_at, stopped_at): """ :return: dict whose keys are datetime as str, values tuples of data """ log.debug("Grabbing data for '%s'..." % target_config['slug']) try: models = target_config['models'][input_slug] except Exception as e: abort(500, "Invalid model configuration for '%s' : %s" % (target_config['slug'], str(e))) try: orbits = target_config['orbit']['models'] except KeyError as e: orbits = [] # abort(500, "Invalid orbit configuration for '%s' : %s" # % (target_config['slug'], str(e))) def _sta_sto(_cnf, _sta, _sto): if 'started_at' in _cnf: _s0 = datetime.datetime.strptime(_cnf['started_at'], FILE_DATE_FMT) _s0 = max(_s0, _sta) else: _s0 = _sta if 'stopped_at' in _cnf: _s1 = datetime.datetime.strptime(_cnf['stopped_at'], FILE_DATE_FMT) _s1 = min(_s1, _sto) else: _s1 = _sto return _s0, _s1 def _read_var(_nc, _keys, _key, mandatory=False): try: return _nc.variables[_keys[_key]] except KeyError: pass if mandatory: raise Exception("No variable '%s' found in NetCDF." % _keys[_key]) return [None] * len(_nc.variables['Time']) # slow -- use numpy! # Override these using the model configuration default_nc_keys = { 'hee': 'HEE', 'vtot': 'V', 'magn': 'B', 'temp': 'T', 'dens': 'N', 'pdyn': 'P_dyn', 'atse': 'Delta_angle', } precision = "%Y-%m-%dT%H" # model and orbits times are only equal-ish orbit_data = {} # keys are datetime as str, values arrays of XY for orbit in orbits: s0, s1 = _sta_sto(orbit, started_at, stopped_at) nc_keys = default_nc_keys.copy() if 'parameters' in orbit: nc_keys.update(orbit['parameters']) orbit_files = retrieve_amda_netcdf( target_config['slug'], orbit['slug'], s0, s1 ) for orbit_file in orbit_files: log.debug("%s: opening orbit NETCDF4 '%s'..." % (target_config['name'], orbit_file)) cdf_handle = Dataset(orbit_file, "r", format="NETCDF4") times = cdf_handle.variables['Time'] # YYYY DOY HH MM SS .ms data_hee = _read_var(cdf_handle, nc_keys, 'hee', mandatory=True) log.debug("%s: aggregating data from '%s'..." % (target_config['name'], orbit_file)) for ltime, datum_hee in zip(times, data_hee): try: dtime = datetime_from_list(ltime) except Exception: log.error("Failed to parse time from %s." % ltime) raise if s0 <= dtime <= s1: dkey = round_time(dtime, 60*60).strftime(precision) orbit_data[dkey] = datum_hee cdf_handle.close() all_data = {} # keys are datetime as str, values tuples of data for model in models: s0, s1 = _sta_sto(model, started_at, stopped_at) model_files = retrieve_amda_netcdf( target_config['slug'], model['slug'], s0, s1 ) nc_keys = default_nc_keys.copy() if 'parameters' in model: nc_keys.update(model['parameters']) for model_file in model_files: log.debug("%s: opening model NETCDF4 '%s'..." % (target_config['name'], model_file)) cdf_handle = Dataset(model_file, "r", format="NETCDF4") # log.debug(cdf_handle.variables.keys()) times = cdf_handle.variables['Time'] # YYYY DOY HH MM SS .ms data_v = _read_var(cdf_handle, nc_keys, 'vtot') data_b = _read_var(cdf_handle, nc_keys, 'magn') data_t = _read_var(cdf_handle, nc_keys, 'temp') data_n = _read_var(cdf_handle, nc_keys, 'dens') data_p = _read_var(cdf_handle, nc_keys, 'pdyn') data_a = _read_var(cdf_handle, nc_keys, 'atse') # Usually: # Time, StartTime, StopTime, V, B, N, T, Delta_angle, P_dyn # Earth: # Time, BartelsNumber, ImfID, SwID, ImfPoints, # SwPoints, B_M_av, B_Vec_av, B_Theta_av, # B_Phi_av, B, T, N, V, Vlat, Vlon, # Alpha, RamP, E, Beta, Ma, Kp, R, DST, # AE, Flux, Flag, F10_Index, StartTime, StopTime log.debug("%s: aggregating data from '%s'..." % (target_config['name'], model_file)) for ltime, datum_v, datum_b, datum_t, datum_n, datum_p, datum_a \ in zip(times, data_v, data_b, data_t, data_n, data_p, data_a): try: dtime = datetime_from_list(ltime) except Exception: log.error("Failed to parse time from %s." % ltime) raise if s0 <= dtime <= s1: dkey = round_time(dtime, 60*60).strftime(precision) x_hee = None y_hee = None if dkey in orbit_data: x_hee = orbit_data[dkey][0] y_hee = orbit_data[dkey][1] # First exception: V may be a vector instead of a scalar if hasattr(datum_v, '__len__'): vrad = datum_v[0] vtan = datum_v[1] vtot = sqrt(vrad * vrad + vtan * vtan) else: # eg: Earth vrad = None vtan = None vtot = datum_v # Second exception: Earth is always at (1, 0) if target_config['slug'] == 'earth': x_hee = 1 y_hee = 0 # Third exception: B is a Vector3 or a Vector2 for Earth if target_config['slug'] == 'earth': if model['slug'] == 'omni_hour_all': # Vector3 datum_b = datum_b[0] # if model['slug'] == 'ace_swepam_real': # Vector2 # datum_b = datum_b[0] if model['slug'] == 'omni_hour_all': datum_p = datum_n * vtot * vtot * 1.6726e-6 if model['slug'] == 'ace_swepam_real': datum_p = datum_n * vtot * vtot * 1.6726e-6 if vtot is None or isnan(vtot): continue # Keep adding exceptions here until you can't or become mad # /!\ MUST be in the same order as PROPERTIES all_data[dkey] = ( dtime.strftime("%Y-%m-%dT%H:%M:%S+00:00"), vrad, vtan, vtot, datum_b, datum_t, datum_p, datum_n, datum_a, x_hee, y_hee ) cdf_handle.close() return all_data def generate_csv_contents(target_slug, input_slug, started_at, stopped_at): target_config = get_target_config(target_slug) log.debug("Crunching CSV contents for '%s'..." % target_config['name']) si = StringIO.StringIO() cw = csv_writer(si) cw.writerow(PROPERTIES) all_data = get_data_for_target( target_config=target_config, input_slug=input_slug, started_at=started_at, stopped_at=stopped_at ) log.debug("Writing and sorting CSV for '%s'..." % target_config['slug']) for dkey in sorted(all_data): cw.writerow(all_data[dkey]) log.info("Generated CSV contents for '%s'." % target_config['slug']) return si.getvalue() def generate_csv_file_if_needed(target_slug, input_slug, started_at, stopped_at): filename = "%s_%s_%s_%s.csv" % (target_slug, input_slug, started_at.strftime(FILE_DATE_FMT), stopped_at.strftime(FILE_DATE_FMT)) local_csv_file = join(CACHE_DIR, filename) generate = True if isfile(local_csv_file): # It needs to have more than one line to not be empty (headers) with open(local_csv_file) as f: cnt = 0 for _ in f: cnt += 1 if cnt > 1: generate = False break if generate: log.info("Generating CSV '%s'..." % local_csv_file) try: with open(local_csv_file, mode="w+") as f: f.write(generate_csv_contents( target_slug=target_slug, input_slug=input_slug, started_at=started_at, stopped_at=stopped_at )) log.info("Generation of '%s' done." % filename) except Exception as e: from sys import exc_info from traceback import extract_tb exc_type, exc_value, exc_traceback = exc_info() log.error(e) for trace in extract_tb(exc_traceback): log.error(trace) if isfile(local_csv_file): log.warn("Removing failed CSV '%s'..." % local_csv_file) removefile(local_csv_file) abort(500, "Failed creating CSV '%s' : %s" % (filename, e)) def remove_all_files(in_directory): """ Will throw if something horrible happens. Does not remove recursively (could be done with os.walk if needed). Does not remove directories either. :param in_directory: absolute path to directory :return: """ import os if not os.path.isdir(in_directory): raise ValueError("No directory to clean at '%s'.") removed_files = [] for file_name in os.listdir(in_directory): file_path = os.path.join(in_directory, file_name) if os.path.isfile(file_path): os.remove(file_path) removed_files.append(file_path) return removed_files def remove_files_created_before(date, in_directory): """ Will throw if something horrible happens. Does not remove recursively (could be done with os.walk if needed). Does not remove directories either. :param date: datetime object :param in_directory: absolute path to directory :return: """ import os import time secs = time.mktime(date.timetuple()) if not os.path.isdir(in_directory): raise ValueError("No directory to clean at '%s'.") removed_files = [] for file_name in os.listdir(in_directory): file_path = os.path.join(in_directory, file_name) if os.path.isfile(file_path): t = os.stat(file_path) if t.st_ctime < secs: os.remove(file_path) removed_files.append(file_path) return removed_files def get_input_slug_from_query(inp=None): if inp is None: input_slug = request.args.get('input_slug', 'l1') else: input_slug = inp if input_slug not in [i['slug'] for i in config['inputs']]: input_slug = 'l1' # be tolerant instead of yelling loudly return input_slug def get_interval_from_query(): """ Get the interval from the query, or from defaults. """ before = relativedelta(months=2) after = relativedelta(months=1) today = datetime.datetime.now().replace(hour=0, minute=0, second=0) started_at = today - before stopped_at = today + after default_started_at = started_at.strftime(FILE_DATE_FMT) default_stopped_at = stopped_at.strftime(FILE_DATE_FMT) started_at = request.args.get('started_at', default_started_at) stopped_at = request.args.get('stopped_at', default_stopped_at) return started_at, stopped_at def get_catalog_layers(input_slug, target_slug): """ In the JSON file we have "columns" and "data". Of course, each JSON file has its own columns, with different conventions. :param input_slug: :param target_slug: :return: """ import json def _get_index_of_key(_data, _key): try: index = _data['columns'].index(_key) except ValueError: log.error("Key %s not found in columns of %s" % (_key, _data)) raise return index catalog_layers = {} for config_layer in config['layers']: if 'data' not in config_layer: continue catalog_layers[config_layer['slug']] = [] for cl_datum in config_layer['data']: if input_slug not in cl_datum: continue if target_slug not in cl_datum[input_slug]: continue if cl_datum[input_slug][target_slug] is None: # We used ~ in the config, there are no constraints constraints = [] else: constraints = cl_datum[input_slug][target_slug]['constraints'] with open(get_path("../data/catalog/%s" % cl_datum['file'])) as f: json_data = json.load(f) if 'start' not in cl_datum: log.error("Invalid configuration: 'start' is missing.") continue # skip this start_index = _get_index_of_key(json_data, cl_datum['start']) if 'stop' not in cl_datum: stop_index = start_index else: stop_index = _get_index_of_key(json_data, cl_datum['stop']) for json_datum in json_data['data']: validates_any_constraint = False if 0 == len(constraints): validates_any_constraint = True for constraint in constraints: validates_constraint = True for key, possible_values in constraint.iteritems(): actual_value = json_datum[_get_index_of_key( json_data, key )] if actual_value not in possible_values: validates_constraint = False break if validates_constraint: validates_any_constraint = True break if not validates_any_constraint: continue start_time = json_datum[start_index] stop_time = json_datum[stop_index] catalog_layers[config_layer['slug']].append({ 'start': start_time, 'stop': stop_time, }) return catalog_layers def get_hit_counter(): hit_count_path = get_path("../VISITS") if isfile(hit_count_path): hit_count = int(open(hit_count_path).read()) else: hit_count = 1 return hit_count def increment_hit_counter(): hit_count_path = get_path("../VISITS") if isfile(hit_count_path): hit_count = int(open(hit_count_path).read()) hit_count += 1 else: hit_count = 1 hit_counter_file = open(hit_count_path, 'w') hit_counter_file.write(str(hit_count)) hit_counter_file.close() return hit_count def update_spacepy(): """ Importing pydcf will fail if the toolbox is not up to date. """ environ['SPACEPY'] = CACHE_DIR environ['CDF_LIB'] = CDF_LIB try: log.info("Updating spacepy's toolbox…") import spacepy.toolbox spacepy.toolbox.update() except Exception as e: log.error("Failed to update spacepy : %s." % e) tpl_global_vars['visits'] = get_hit_counter() # ROUTING ##################################################################### @app.route('/favicon.ico') def favicon(): # we want it served from the root, not from static/ return send_from_directory( join(app.root_path, 'static', 'img'), 'favicon.ico', mimetype='image/vnd.microsoft.icon' ) @app.route("/") @app.route("/home.html") @app.route("/index.html") def home(): increment_hit_counter() parameters = PARAMETERS.values() parameters.sort(key=lambda x: x['position']) input_slug = get_input_slug_from_query() targets = [t for t in config['targets'] if not t['locked']] started_at, stopped_at = get_interval_from_query() for i, target in enumerate(targets): targets[i]['catalog_layers'] = get_catalog_layers( input_slug, target['slug'] ) return render_view('home.html.jinja2', { # 'targets': config['targets'], 'targets': targets, 'parameters': parameters, 'input_slug': input_slug, 'started_at': started_at, 'stopped_at': stopped_at, 'planets': [s for s in config['targets'] if s['type'] == 'planet'], 'probes': [s for s in config['targets'] if s['type'] == 'probe'], 'comets': [s for s in config['targets'] if s['type'] == 'comet'], 'visits': get_hit_counter(), }) @app.route("/___.csv") def download_target_csv(target, inp, started_at, stopped_at): """ Grab data and orbit data for the specified `target`, rearrange it and return it as a CSV file. `started_at` and `stopped_at` should be UTC. `inp` is the input slug, l1 or sa or sb. """ check_target_config(target) try: started_at = datetime.datetime.strptime(started_at, FILE_DATE_FMT) except: abort(400, "Invalid started_at parameter : '%s'." % started_at) try: stopped_at = datetime.datetime.strptime(stopped_at, FILE_DATE_FMT) except: abort(400, "Invalid stopped_at parameter : '%s'." % stopped_at) input_slug = get_input_slug_from_query(inp=inp) filename = "%s_%s_%s_%s.csv" % (target, input_slug, started_at.strftime(FILE_DATE_FMT), stopped_at.strftime(FILE_DATE_FMT)) local_csv_file = join(CACHE_DIR, filename) generate_csv_file_if_needed( target_slug=target, input_slug=input_slug, started_at=started_at, stopped_at=stopped_at ) if not isfile(local_csv_file): abort(500, "Could not cache CSV file at '%s'." % local_csv_file) return send_from_directory(CACHE_DIR, filename) @app.route("/___.tar.gz") def download_targets_tarball(targets, inp, started_at, stopped_at): """ Grab data and orbit data for each of the specified `targets`, in their own CSV file, and make a tarball of them. `started_at` and `stopped_at` should be UTC strings. Note: we do not use this route anymore, but let's keep it shelved for now. targets: string list of targets' slugs, separated by `-`. """ separator = '-' targets = targets.split(separator) targets.sort() targets_configs = [] for target in targets: if not target: abort(400, "Invalid targets format : `%s`." % targets) targets_configs.append(get_target_config(target)) if 0 == len(targets_configs): abort(400, "No valid targets specified. What are you doing?") try: started_at = datetime.datetime.strptime(started_at, FILE_DATE_FMT) except: abort(400, "Invalid started_at parameter : '%s'." % started_at) try: stopped_at = datetime.datetime.strptime(stopped_at, FILE_DATE_FMT) except: abort(400, "Invalid stopped_at parameter : '%s'." % stopped_at) sta = started_at.strftime(FILE_DATE_FMT) sto = stopped_at.strftime(FILE_DATE_FMT) input_slug = get_input_slug_from_query(inp=inp) gzip_filename = "%s_%s_%s_%s.tar.gz" % ( separator.join(targets), input_slug, sta, sto ) local_gzip_file = join(CACHE_DIR, gzip_filename) if not isfile(local_gzip_file): log.debug("Creating the CSV files for the tarball...") for target_config in targets_configs: filename = "%s_%s_%s_%s.csv" % ( target_config['slug'], input_slug, sta, sto ) local_csv_file = join(CACHE_DIR, filename) if not isfile(local_csv_file): with open(local_csv_file, mode="w+") as f: f.write(generate_csv_contents( target_slug=target_config['slug'], started_at=started_at, stopped_at=stopped_at, input_slug=input_slug )) log.debug("Creating the tarball '%s'..." % local_gzip_file) with tarfile.open(local_gzip_file, "w:gz") as tar: for target_config in targets_configs: filename = "%s_%s_%s_%s.csv" % ( target_config['slug'], input_slug, sta, sto ) local_csv_file = join(CACHE_DIR, filename) tar.add(local_csv_file, arcname=filename) if not isfile(local_gzip_file): abort(500, "No tarball to serve. Looked at '%s'." % local_gzip_file) return send_from_directory(CACHE_DIR, gzip_filename) @app.route("/____.nc") def download_targets_netcdf(targets, inp, params, started_at, stopped_at): """ NOTE : This is not used anymore. Grab data and orbit data for the specified `target`, rearrange it and return it as a NetCDF file. `started_at` and `stopped_at` are expected to be UTC. targets: string list of targets' slugs, separated by `-`. params: string list of targets' parameters, separated by `-`. """ separator = '-' # /!\ this char should never be in target's slugs targets = targets.split(separator) targets.sort() targets_configs = [] for target in targets: if not target: abort(400, "Invalid targets format : `%s`." % targets) targets_configs.append(get_target_config(target)) if 0 == len(targets_configs): abort(400, "No valid targets specified. What are you doing?") params = params.split(separator) params.sort() if 0 == len(params): abort(400, "No valid parameters specified. What are you doing?") if not is_list_in_list(params, PARAMETERS.keys()): abort(400, "Some parameters are not recognized in '%s'." % str(params)) date_fmt = FILE_DATE_FMT try: started_at = datetime.datetime.strptime(started_at, date_fmt) except: abort(400, "Invalid started_at parameter : '%s'." % started_at) try: stopped_at = datetime.datetime.strptime(stopped_at, date_fmt) except: abort(400, "Invalid stopped_at parameter : '%s'." % stopped_at) sta = started_at.strftime(date_fmt) sto = stopped_at.strftime(date_fmt) input_slug = get_input_slug_from_query(inp=inp) nc_filename = "%s_%s_%s_%s_%s.nc" % ( separator.join(targets), separator.join(params), input_slug, sta, sto ) nc_path = join(CACHE_DIR, nc_filename) if not isfile(nc_path): log.debug("Creating the NetCDF file '%s'..." % nc_filename) nc_handle = Dataset(nc_path, "w", format="NETCDF4") try: nc_handle.description = "Model and orbit data for targets" # todo nc_handle.history = "Created " + time.ctime(time.time()) nc_handle.source = "Heliopropa (CDDP)" available_params = list(PROPERTIES) for target in targets_configs: target_slug = target['slug'] log.debug("Adding group '%s' to the NetCDF..." % target_slug) nc_group = nc_handle.createGroup(target_slug) data = get_data_for_target( target_config=target, input_slug=input_slug, started_at=started_at, stopped_at=stopped_at ) dkeys = sorted(data) dimension = 'dim_'+target_slug nc_handle.createDimension(dimension, len(dkeys)) # TIME # nc_time = nc_group.createVariable('time', 'i8', (dimension,)) nc_time.units = "hours since 1970-01-01 00:00:00" nc_time.calendar = "standard" times = [] for dkey in dkeys: time_as_string = data[dkey][0][:-6] # remove +00:00 tail date = datetime.datetime.strptime(time_as_string, date_fmt) times.append(date2num( date, units=nc_time.units, calendar=nc_time.calendar )) nc_time[:] = times # SELECTED PARAMETERS # nc_vars = [] indices = [] for param in params: indices.append(available_params.index(param)) nc_var = nc_group.createVariable(param, 'f8', (dimension,)) nc_var.units = PARAMETERS[param]['units'] nc_vars.append(nc_var) for i, nc_var in enumerate(nc_vars): index = indices[i] values = [] for dkey in dkeys: dval = data[dkey] values.append(dval[index]) nc_var[:] = values # ORBIT # nc_x = nc_group.createVariable('xhee', 'f8', (dimension,)) nc_x.units = 'Au' nc_y = nc_group.createVariable('yhee', 'f8', (dimension,)) nc_y.units = 'Au' values_x = [] values_y = [] index_x = available_params.index('xhee') index_y = available_params.index('yhee') for dkey in dkeys: dval = data[dkey] values_x.append(dval[index_x]) values_y.append(dval[index_y]) nc_x[:] = values_x nc_y[:] = values_y log.debug("Writing NetCDF '%s'..." % nc_filename) except Exception: log.error("Failed to generate NetCDF '%s'." % nc_filename) raise finally: nc_handle.close() if not isfile(nc_path): abort(500, "No NetCDF to serve. Looked at '%s'." % nc_path) return send_from_directory(CACHE_DIR, nc_filename) @app.route("/___.cdf") def download_targets_cdf(targets, inp, started_at, stopped_at): """ Grab data and orbit data for the specified `target`, rearrange it and return it as a CDF file. `started_at` and `stopped_at` are expected to be UTC. targets: string list of targets' slugs, separated by `-`. params: string list of targets' parameters, separated by `-`. """ separator = '-' # /!\ this char should never be in target's slugs targets = targets.split(separator) targets.sort() targets_configs = [] for target in targets: if not target: abort(400, "Invalid targets format : `%s`." % targets) targets_configs.append(get_target_config(target)) if 0 == len(targets_configs): abort(400, "No valid targets specified. What are you doing?") params = PARAMETERS.keys() try: started_at = datetime.datetime.strptime(started_at, FILE_DATE_FMT) except: abort(400, "Invalid started_at parameter : '%s'." % started_at) try: stopped_at = datetime.datetime.strptime(stopped_at, FILE_DATE_FMT) except: abort(400, "Invalid stopped_at parameter : '%s'." % stopped_at) sta = started_at.strftime(FILE_DATE_FMT) sto = stopped_at.strftime(FILE_DATE_FMT) input_slug = get_input_slug_from_query(inp=inp) cdf_filename = "%s_%s_%s_%s.cdf" % ( separator.join(targets), input_slug, sta, sto ) cdf_path = join(CACHE_DIR, cdf_filename) if not isfile(cdf_path): log.debug("Creating the CDF file '%s'..." % cdf_filename) try: from spacepy import pycdf except ImportError: # If spacepy's toolbox is not up-to-date, importing will fail. # So, let's update and try again ! update_spacepy() try: from spacepy import pycdf except ImportError as e: log.error("Failed to import pycdf from spacepy : %s" % e) raise try: cdf_handle = pycdf.CDF(cdf_path, masterpath='') description = "Model and orbit data for %s." % \ ', '.join([t['name'] for t in targets_configs]) cdf_handle.attrs['Description'] = description cdf_handle.attrs['Author'] = "Heliopropa.irap.omp.eu (CDPP)" cdf_handle.attrs['Created'] = str(time.ctime(time.time())) available_params = list(PROPERTIES) for target in targets_configs: target_slug = target['slug'] data = get_data_for_target( target_config=target, input_slug=input_slug, started_at=started_at, stopped_at=stopped_at ) dkeys = sorted(data) values = [] for dkey in dkeys: time_str = data[dkey][0][:-6] # remove +00:00 tail date = datetime.datetime.strptime(time_str, FILE_DATE_FMT) values.append(date) kt = "%s_time" % target_slug cdf_handle.new(kt, type=pycdf.const.CDF_EPOCH) cdf_handle[kt] = values # cdf_handle[kt].attrs['FIELDNAM'] = "Time since 0 A.D" for param in params: k = "%s_%s" % (target_slug, param) # print("PARAM %s" % k) values = [] i = available_params.index(param) has_nones = False for dkey in dkeys: value = data[dkey][i] if value is None: has_nones = True values.append(value) if has_nones: # PyCDF hates it when there are Nones. # Since we don't know what value to set instead, # let's skip the param altogether. continue cdf_handle[k] = values attrs = cdf_handle[k].attrs attrs['UNITS'] = PARAMETERS[param]['units'] attrs['LABLAXIS'] = PARAMETERS[param]['name'] attrs['FIELDNAM'] = PARAMETERS[param]['title'] if values: attrs['VALIDMIN'] = min(values) attrs['VALIDMAX'] = max(values) kx = "%s_xhee" % target_slug ky = "%s_yhee" % target_slug values_xhee = [] values_yhee = [] index_x = available_params.index('xhee') index_y = available_params.index('yhee') for dkey in dkeys: value_xhee = data[dkey][index_x] value_yhee = data[dkey][index_y] # We've got some `None`s cropping up in the data sometimes. # PyCDF does not digest Nones at all. # While they solve this upstream, let's make an ugly fix! if (value_xhee is not None) and (value_yhee is not None): values_xhee.append(value_xhee) values_yhee.append(value_yhee) else: values_xhee.append(0) values_yhee.append(0) log.warn("Orbit data for %s has NaNs." % target_slug) cdf_handle[kx] = values_xhee cdf_handle[ky] = values_yhee cdf_handle[kx].attrs['UNITS'] = 'Au' cdf_handle[ky].attrs['UNITS'] = 'Au' log.debug("Writing CDF '%s'..." % cdf_filename) cdf_handle.close() log.debug("Wrote CDF '%s'." % cdf_filename) except Exception as e: log.error("Failed to generate CDF '%s'." % cdf_filename) if isfile(cdf_path): removefile(cdf_path) raise if not isfile(cdf_path): abort(500, "No CDF to serve. Looked at '%s'." % cdf_path) return send_from_directory(CACHE_DIR, cdf_filename) # API ######################################################################### @app.route("/cache/clear") def cache_clear(): """ Removes all files from the cache. Note: It also removes the .gitkeep file. Not a problem for prod. """ removed_files = remove_all_files(CACHE_DIR) count = len(removed_files) return "Cache cleared! Removed %d file%s." \ % (count, 's' if count != 1 else '') @app.route("/cache/cleanup") def cache_cleanup(): """ Removes all files from the cache that are older than roughly one month. Note: It also removes the .gitkeep file. Maybe it should not, but hey. """ a_month_ago = datetime.datetime.now() - datetime.timedelta(days=32) removed_files = remove_files_created_before(a_month_ago, CACHE_DIR) count = len(removed_files) return "Cache cleaned! Removed %d old file%s." \ % (count, 's' if count != 1 else '') @app.route("/cache/warmup") def cache_warmup(): """ Warms up the cache for the current day. """ warmup_started_at = datetime.datetime.now() sta, sto = get_interval_from_query() inp = 'l1' # default input, maybe warm them all up ? targets = get_active_targets() targets_slugs = [target['slug'] for target in targets] targets_slugs.sort() update_spacepy() for target in targets: download_target_csv(target['slug'], inp, sta, sto) download_targets_cdf('-'.join(targets_slugs), inp, sta, sto) warmup_ended_at = datetime.datetime.now() warmup_timedelta = warmup_ended_at - warmup_started_at return "Done in %s." % str(warmup_timedelta) @app.route("/log") @app.route("/log.html") def log_show(): with open(LOG_FILE, 'r') as f: contents = f.read() return "
" + contents + "
" @app.route("/log/clear") def log_clear(): with open(LOG_FILE, 'w') as f: f.truncate() return "Log cleared successfully." # DEV TOOLS ################################################################### # @app.route("/inspect") # def analyze_cdf(): # """ # For debug purposes. # """ # cdf_to_inspect = get_path("../res/dummy.nc") # cdf_to_inspect = get_path("../res/dummy_jupiter_coordinates.nc") # # si = StringIO.StringIO() # cw = csv.DictWriter(si, fieldnames=['Name', 'Shape', 'Length']) # cw.writeheader() # # # Time, StartTime, StopTime, V, B, N, T, Delta_angle, P_dyn, QualityFlag # cdf_handle = Dataset(cdf_to_inspect, "r", format="NETCDF4") # for variable in cdf_handle.variables: # v = cdf_handle.variables[variable] # cw.writerow({ # 'Name': variable, # 'Shape': v.shape, # 'Length': v.size, # }) # cdf_handle.close() # # return si.getvalue() # MAIN ######################################################################## if __name__ == "__main__": # Debug mode is on, as the production server does not use this but run.wsgi extra_files = [get_path('../config.yml')] app.run(debug=True, extra_files=extra_files)