import difflib import datetime import time import random import re import math import mongoengine as mongo import zlib import hashlib import redis import pymongo import HTMLParser from collections import defaultdict from operator import itemgetter from bson.objectid import ObjectId from BeautifulSoup import BeautifulSoup from pyes.exceptions import NotFoundException # from nltk.collocations import TrigramCollocationFinder, BigramCollocationFinder, TrigramAssocMeasures, BigramAssocMeasures from django.db import models from django.db import IntegrityError from django.conf import settings from django.db.models.query import QuerySet from django.core.urlresolvers import reverse from django.contrib.auth.models import User from django.contrib.sites.models import Site from django.template.defaultfilters import slugify from mongoengine.queryset import OperationError, Q, NotUniqueError from mongoengine.base import ValidationError from vendor.timezones.utilities import localtime_for_timezone from apps.rss_feeds.tasks import UpdateFeeds, PushFeeds, ScheduleCountTagsForUser from apps.rss_feeds.text_importer import TextImporter from apps.search.models import SearchStory, SearchFeed from apps.statistics.rstats import RStats from utils import json_functions as json from utils import feedfinder, feedparser from utils import urlnorm from utils import log as logging from utils.fields import AutoOneToOneField from utils.feed_functions import levenshtein_distance from utils.feed_functions import timelimit, TimeoutError from utils.feed_functions import relative_timesince from utils.feed_functions import seconds_timesince from utils.story_functions import strip_tags, htmldiff, strip_comments, strip_comments__lxml from utils.story_functions import prep_for_search ENTRY_NEW, ENTRY_UPDATED, ENTRY_SAME, ENTRY_ERR = range(4) class Feed(models.Model): feed_address = models.URLField(max_length=764, db_index=True) feed_address_locked = models.NullBooleanField(default=False, blank=True, null=True) feed_link = models.URLField(max_length=1000, default="", blank=True, null=True) feed_link_locked = models.BooleanField(default=False) hash_address_and_link = models.CharField(max_length=64, unique=True) feed_title = models.CharField(max_length=255, default="[Untitled]", blank=True, null=True) is_push = models.NullBooleanField(default=False, blank=True, null=True) active = models.BooleanField(default=True, db_index=True) num_subscribers = models.IntegerField(default=-1) active_subscribers = models.IntegerField(default=-1, db_index=True) premium_subscribers = models.IntegerField(default=-1) active_premium_subscribers = models.IntegerField(default=-1) branch_from_feed = models.ForeignKey('Feed', blank=True, null=True, db_index=True) last_update = models.DateTimeField(db_index=True) next_scheduled_update = models.DateTimeField() last_story_date = models.DateTimeField(null=True, blank=True) fetched_once = models.BooleanField(default=False) known_good = models.BooleanField(default=False) has_feed_exception = models.BooleanField(default=False, db_index=True) has_page_exception = models.BooleanField(default=False, db_index=True) has_page = models.BooleanField(default=True) exception_code = models.IntegerField(default=0) errors_since_good = models.IntegerField(default=0) min_to_decay = models.IntegerField(default=0) days_to_trim = models.IntegerField(default=90) creation = models.DateField(auto_now_add=True) etag = models.CharField(max_length=255, blank=True, null=True) last_modified = models.DateTimeField(null=True, blank=True) stories_last_month = models.IntegerField(default=0) average_stories_per_month = models.IntegerField(default=0) last_load_time = models.IntegerField(default=0) favicon_color = models.CharField(max_length=6, null=True, blank=True) favicon_not_found = models.BooleanField(default=False) s3_page = models.NullBooleanField(default=False, blank=True, null=True) s3_icon = models.NullBooleanField(default=False, blank=True, null=True) search_indexed = models.NullBooleanField(default=None, null=True, blank=True) class Meta: db_table="feeds" ordering=["feed_title"] # unique_together=[('feed_address', 'feed_link')] def __unicode__(self): if not self.feed_title: self.feed_title = "[Untitled]" self.save() return "%s (%s - %s/%s/%s)%s" % ( self.feed_title, self.pk, self.num_subscribers, self.active_subscribers, self.active_premium_subscribers, (" [B: %s]" % self.branch_from_feed.pk if self.branch_from_feed else "")) @property def title(self): title = self.feed_title or "[Untitled]" if self.active_premium_subscribers >= 1: title = "%s*" % title[:29] return title @property def permalink(self): return "%s/site/%s/%s" % (settings.NEWSBLUR_URL, self.pk, slugify(self.feed_title.lower()[:50])) @property def favicon_url(self): if settings.BACKED_BY_AWS['icons_on_s3'] and self.s3_icon: return "https://s3.amazonaws.com/%s/%s.png" % (settings.S3_ICONS_BUCKET_NAME, self.pk) return reverse('feed-favicon', kwargs={'feed_id': self.pk}) @property def favicon_url_fqdn(self): if settings.BACKED_BY_AWS['icons_on_s3'] and self.s3_icon: return self.favicon_url return "http://%s%s" % ( Site.objects.get_current().domain, self.favicon_url ) @property def s3_pages_key(self): return "%s.gz.html" % self.pk @property def s3_icons_key(self): return "%s.png" % self.pk @property def unread_cutoff(self): if self.active_premium_subscribers > 0: return datetime.datetime.utcnow() - datetime.timedelta(days=settings.DAYS_OF_UNREAD) return datetime.datetime.utcnow() - datetime.timedelta(days=settings.DAYS_OF_UNREAD_FREE) def canonical(self, full=False, include_favicon=True): feed = { 'id': self.pk, 'feed_title': self.feed_title, 'feed_address': self.feed_address, 'feed_link': self.feed_link, 'num_subscribers': self.num_subscribers, 'updated': relative_timesince(self.last_update), 'updated_seconds_ago': seconds_timesince(self.last_update), 'min_to_decay': self.min_to_decay, 'subs': self.num_subscribers, 'is_push': self.is_push, 'fetched_once': self.fetched_once, 'search_indexed': self.search_indexed, 'not_yet_fetched': not self.fetched_once, # Legacy. Doh. 'favicon_color': self.favicon_color, 'favicon_fade': self.favicon_fade(), 'favicon_border': self.favicon_border(), 'favicon_text_color': self.favicon_text_color(), 'favicon_fetching': self.favicon_fetching, 'favicon_url': self.favicon_url, 's3_page': self.s3_page, 's3_icon': self.s3_icon, } if include_favicon: try: feed_icon = MFeedIcon.objects.get(feed_id=self.pk) feed['favicon'] = feed_icon.data except MFeedIcon.DoesNotExist: pass if self.has_page_exception or self.has_feed_exception: feed['has_exception'] = True feed['exception_type'] = 'feed' if self.has_feed_exception else 'page' feed['exception_code'] = self.exception_code elif full: feed['has_exception'] = False feed['exception_type'] = None feed['exception_code'] = self.exception_code if not self.has_page: feed['disabled_page'] = True if full: feed['average_stories_per_month'] = self.average_stories_per_month feed['tagline'] = self.data.feed_tagline feed['feed_tags'] = json.decode(self.data.popular_tags) if self.data.popular_tags else [] feed['feed_authors'] = json.decode(self.data.popular_authors) if self.data.popular_authors else [] return feed def save(self, *args, **kwargs): if not self.last_update: self.last_update = datetime.datetime.utcnow() if not self.next_scheduled_update: self.next_scheduled_update = datetime.datetime.utcnow() self.fix_google_alerts_urls() feed_address = self.feed_address or "" feed_link = self.feed_link or "" self.hash_address_and_link = hashlib.sha1(feed_address+feed_link).hexdigest() max_feed_title = Feed._meta.get_field('feed_title').max_length if len(self.feed_title) > max_feed_title: self.feed_title = self.feed_title[:max_feed_title] max_feed_address = Feed._meta.get_field('feed_address').max_length if len(feed_address) > max_feed_address: self.feed_address = feed_address[:max_feed_address] max_feed_link = Feed._meta.get_field('feed_link').max_length if len(feed_link) > max_feed_link: self.feed_link = feed_link[:max_feed_link] try: super(Feed, self).save(*args, **kwargs) except IntegrityError, e: logging.debug(" ---> ~FRFeed save collision (%s), checking dupe..." % e) duplicate_feeds = Feed.objects.filter(feed_address=self.feed_address, feed_link=self.feed_link) if not duplicate_feeds: feed_address = self.feed_address or "" feed_link = self.feed_link or "" hash_address_and_link = hashlib.sha1(feed_address+feed_link).hexdigest() duplicate_feeds = Feed.objects.filter(hash_address_and_link=hash_address_and_link) if not duplicate_feeds: # Feed has been deleted. Just ignore it. logging.debug(" ***> Changed to: %s - %s: %s" % (self.feed_address, self.feed_link, duplicate_feeds)) logging.debug(' ***> [%-30s] Feed deleted (%s).' % (unicode(self)[:30], self.pk)) return if self.pk != duplicate_feeds[0].pk: logging.debug(" ---> ~FRFound different feed (%s), merging..." % duplicate_feeds[0]) feed = Feed.get_by_id(merge_feeds(duplicate_feeds[0].pk, self.pk)) return feed return self @classmethod def index_all_for_search(cls, offset=0): if not offset: SearchFeed.create_elasticsearch_mapping(delete=True) last_pk = cls.objects.latest('pk').pk for f in xrange(offset, last_pk, 1000): print " ---> %s / %s (%.2s%%)" % (f, last_pk, float(f)/last_pk*100) feeds = Feed.objects.filter(pk__in=range(f, f+1000), active=True, active_subscribers__gte=1)\ .values_list('pk') for feed_id, in feeds: Feed.objects.get(pk=feed_id).index_feed_for_search() def index_feed_for_search(self): if self.num_subscribers > 1 and not self.branch_from_feed: SearchFeed.index(feed_id=self.pk, title=self.feed_title, address=self.feed_address, link=self.feed_link, num_subscribers=self.num_subscribers) def index_stories_for_search(self): if self.search_indexed: return self.search_indexed = True self.save() stories = MStory.objects(story_feed_id=self.pk) for story in stories: story.index_story_for_search() def sync_redis(self): return MStory.sync_feed_redis(self.pk) def expire_redis(self, r=None): if not r: r = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL) # if not r2: # r2 = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL2) r.expire('F:%s' % self.pk, settings.DAYS_OF_STORY_HASHES*24*60*60) # r2.expire('F:%s' % self.pk, settings.DAYS_OF_STORY_HASHES*24*60*60) r.expire('zF:%s' % self.pk, settings.DAYS_OF_STORY_HASHES*24*60*60) # r2.expire('zF:%s' % self.pk, settings.DAYS_OF_STORY_HASHES*24*60*60) @classmethod def autocomplete(self, prefix, limit=5): results = SearchFeed.query(prefix) feed_ids = [result.feed_id for result in results[:5]] # results = SearchQuerySet().autocomplete(address=prefix).order_by('-num_subscribers')[:limit] # # if len(results) < limit: # results += SearchQuerySet().autocomplete(title=prefix).order_by('-num_subscribers')[:limit-len(results)] # return feed_ids @classmethod def find_or_create(cls, feed_address, feed_link, *args, **kwargs): feeds = cls.objects.filter(feed_address=feed_address, feed_link=feed_link) if feeds: return feeds[0], False if feed_link and feed_link.endswith('/'): feeds = cls.objects.filter(feed_address=feed_address, feed_link=feed_link[:-1]) if feeds: return feeds[0], False return cls.objects.get_or_create(feed_address=feed_address, feed_link=feed_link, *args, **kwargs) @classmethod def merge_feeds(cls, *args, **kwargs): return merge_feeds(*args, **kwargs) def fix_google_alerts_urls(self): if (self.feed_address.startswith('http://user/') and '/state/com.google/alerts/' in self.feed_address): match = re.match(r"http://user/(\d+)/state/com.google/alerts/(\d+)", self.feed_address) if match: user_id, alert_id = match.groups() self.feed_address = "http://www.google.com/alerts/feeds/%s/%s" % (user_id, alert_id) @classmethod def schedule_feed_fetches_immediately(cls, feed_ids, user_id=None): if settings.DEBUG: logging.info(" ---> ~SN~FMSkipping the scheduling immediate fetch of ~SB%s~SN feeds (in DEBUG)..." % len(feed_ids)) return if user_id: user = User.objects.get(pk=user_id) logging.user(user, "~SN~FMScheduling immediate fetch of ~SB%s~SN feeds..." % len(feed_ids)) else: logging.debug(" ---> ~SN~FMScheduling immediate fetch of ~SB%s~SN feeds..." % len(feed_ids)) if len(feed_ids) > 100: logging.debug(" ---> ~SN~FMFeeds scheduled: %s" % feed_ids) day_ago = datetime.datetime.now() - datetime.timedelta(days=1) feeds = Feed.objects.filter(pk__in=feed_ids) for feed in feeds: if feed.active_subscribers <= 0: feed.count_subscribers() if not feed.active or feed.next_scheduled_update < day_ago: feed.schedule_feed_fetch_immediately(verbose=False) @property def favicon_fetching(self): return bool(not (self.favicon_not_found or self.favicon_color)) @classmethod def get_feed_from_url(cls, url, create=True, aggressive=False, fetch=True, offset=0): feed = None def criteria(key, value): if aggressive: return {'%s__icontains' % key: value} else: return {'%s' % key: value} def by_url(address): feed = cls.objects.filter( branch_from_feed=None ).filter(**criteria('feed_address', address)).order_by('-num_subscribers') if not feed: duplicate_feed = DuplicateFeed.objects.filter(**criteria('duplicate_address', address)) if duplicate_feed and len(duplicate_feed) > offset: feed = [duplicate_feed[offset].feed] if not feed and aggressive: feed = cls.objects.filter( branch_from_feed=None ).filter(**criteria('feed_link', address)).order_by('-num_subscribers') return feed # Normalize and check for feed_address, dupes, and feed_link url = urlnorm.normalize(url) feed = by_url(url) # Create if it looks good if feed and len(feed) > offset: feed = feed[offset] elif create: create_okay = False if feedfinder.isFeed(url): create_okay = True elif fetch: # Could still be a feed. Just check if there are entries fp = feedparser.parse(url) if len(fp.entries): create_okay = True if create_okay: feed = cls.objects.create(feed_address=url) feed = feed.update() # Still nothing? Maybe the URL has some clues. if not feed and fetch: feed_finder_url = feedfinder.feed(url) if feed_finder_url and 'comments' not in feed_finder_url: feed = by_url(feed_finder_url) if not feed and create: feed = cls.objects.create(feed_address=feed_finder_url) feed = feed.update() elif feed and len(feed) > offset: feed = feed[offset] # Not created and not within bounds, so toss results. if isinstance(feed, QuerySet): return return feed @classmethod def task_feeds(cls, feeds, queue_size=12, verbose=True): if not feeds: return r = redis.Redis(connection_pool=settings.REDIS_FEED_POOL) if isinstance(feeds, Feed): if verbose: logging.debug(" ---> ~SN~FBTasking feed: ~SB%s" % feeds) feeds = [feeds.pk] elif verbose: logging.debug(" ---> ~SN~FBTasking ~SB%s~SN feeds..." % len(feeds)) if isinstance(feeds, QuerySet): feeds = [f.pk for f in feeds] r.srem('queued_feeds', *feeds) now = datetime.datetime.now().strftime("%s") p = r.pipeline() for feed_id in feeds: p.zadd('tasked_feeds', feed_id, now) p.execute() # for feed_ids in (feeds[pos:pos + queue_size] for pos in xrange(0, len(feeds), queue_size)): for feed_id in feeds: UpdateFeeds.apply_async(args=(feed_id,), queue='update_feeds') @classmethod def drain_task_feeds(cls): r = redis.Redis(connection_pool=settings.REDIS_FEED_POOL) tasked_feeds = r.zrange('tasked_feeds', 0, -1) logging.debug(" ---> ~FRDraining %s tasked feeds..." % len(tasked_feeds)) r.sadd('queued_feeds', *tasked_feeds) r.zremrangebyrank('tasked_feeds', 0, -1) errored_feeds = r.zrange('error_feeds', 0, -1) logging.debug(" ---> ~FRDraining %s errored feeds..." % len(errored_feeds)) r.sadd('queued_feeds', *errored_feeds) r.zremrangebyrank('error_feeds', 0, -1) def update_all_statistics(self, full=True, force=False): self.count_subscribers() self.calculate_last_story_date() count_extra = False if random.random() > .99 or not self.data.popular_tags or not self.data.popular_authors: count_extra = True if force or full: self.save_feed_stories_last_month() if force or (full and count_extra): self.save_popular_authors() self.save_popular_tags() self.save_feed_story_history_statistics() def calculate_last_story_date(self): last_story_date = None try: latest_story = MStory.objects( story_feed_id=self.pk ).limit(1).order_by('-story_date').only('story_date').first() if latest_story: last_story_date = latest_story.story_date except MStory.DoesNotExist: pass if not last_story_date or seconds_timesince(last_story_date) < 0: last_story_date = datetime.datetime.now() self.last_story_date = last_story_date self.save() @classmethod def setup_feeds_for_premium_subscribers(cls, feed_ids): logging.info(" ---> ~SN~FMScheduling immediate premium setup of ~SB%s~SN feeds..." % len(feed_ids)) feeds = Feed.objects.filter(pk__in=feed_ids) for feed in feeds: feed.setup_feed_for_premium_subscribers() def setup_feed_for_premium_subscribers(self): self.count_subscribers() self.set_next_scheduled_update() def check_feed_link_for_feed_address(self): @timelimit(10) def _1(): feed_address = None feed = self try: is_feed = feedfinder.isFeed(self.feed_address) except KeyError: is_feed = False if not is_feed: feed_address = feedfinder.feed(self.feed_address) if not feed_address and self.feed_link: feed_address = feedfinder.feed(self.feed_link) else: feed_address_from_link = feedfinder.feed(self.feed_link) if feed_address_from_link != self.feed_address: feed_address = feed_address_from_link if feed_address: if (feed_address.endswith('feedburner.com/atom.xml') or feed_address.endswith('feedburner.com/feed/')): logging.debug(" ---> Feed points to 'Wierdo', ignoring.") return False, self try: self.feed_address = feed_address feed = self.save() feed.schedule_feed_fetch_immediately() feed.has_feed_exception = False feed.active = True feed = feed.save() except IntegrityError: original_feed = Feed.objects.get(feed_address=feed_address, feed_link=self.feed_link) original_feed.has_feed_exception = False original_feed.active = True original_feed.save() merge_feeds(original_feed.pk, self.pk) return feed_address, feed if self.feed_address_locked: return False, self try: feed_address, feed = _1() except TimeoutError, e: logging.debug(' ---> [%-30s] Feed address check timed out...' % (unicode(self)[:30])) self.save_feed_history(505, 'Timeout', e) feed = self feed_address = None return bool(feed_address), feed def save_feed_history(self, status_code, message, exception=None): fetch_history = MFetchHistory.add(feed_id=self.pk, fetch_type='feed', code=int(status_code), message=message, exception=exception) if status_code not in (200, 304): self.errors_since_good += 1 self.count_errors_in_history('feed', status_code, fetch_history=fetch_history) self.set_next_scheduled_update() elif self.has_feed_exception or self.errors_since_good: self.errors_since_good = 0 self.has_feed_exception = False self.active = True self.save() def save_page_history(self, status_code, message, exception=None): fetch_history = MFetchHistory.add(feed_id=self.pk, fetch_type='page', code=int(status_code), message=message, exception=exception) if status_code not in (200, 304): self.count_errors_in_history('page', status_code, fetch_history=fetch_history) elif self.has_page_exception or not self.has_page: self.has_page_exception = False self.has_page = True self.active = True self.save() def count_errors_in_history(self, exception_type='feed', status_code=None, fetch_history=None): logging.debug(' ---> [%-30s] Counting errors in history...' % (unicode(self)[:30])) if not fetch_history: fetch_history = MFetchHistory.feed(self.pk) fh = fetch_history[exception_type + '_fetch_history'] non_errors = [h for h in fh if h['status_code'] and int(h['status_code']) in (200, 304)] errors = [h for h in fh if h['status_code'] and int(h['status_code']) not in (200, 304)] if len(non_errors) == 0 and len(errors) > 1: self.active = True if exception_type == 'feed': self.has_feed_exception = True # self.active = False # No longer, just geometrically fetch elif exception_type == 'page': self.has_page_exception = True self.exception_code = status_code or int(errors[0]) self.save() elif self.exception_code > 0: self.active = True self.exception_code = 0 if exception_type == 'feed': self.has_feed_exception = False elif exception_type == 'page': self.has_page_exception = False self.save() return errors, non_errors def count_subscribers(self, verbose=False): SUBSCRIBER_EXPIRE = datetime.datetime.now() - datetime.timedelta(days=settings.SUBSCRIBER_EXPIRE) from apps.reader.models import UserSubscription if self.branch_from_feed: original_feed_id = self.branch_from_feed.pk else: original_feed_id = self.pk feed_ids = [f['id'] for f in Feed.objects.filter(branch_from_feed=original_feed_id).values('id')] feed_ids.append(original_feed_id) feed_ids = list(set(feed_ids)) subs = UserSubscription.objects.filter(feed__in=feed_ids) self.num_subscribers = subs.count() active_subs = UserSubscription.objects.filter( feed__in=feed_ids, active=True, user__profile__last_seen_on__gte=SUBSCRIBER_EXPIRE ) self.active_subscribers = active_subs.count() premium_subs = UserSubscription.objects.filter( feed__in=feed_ids, active=True, user__profile__is_premium=True ) self.premium_subscribers = premium_subs.count() active_premium_subscribers = UserSubscription.objects.filter( feed__in=feed_ids, active=True, user__profile__is_premium=True, user__profile__last_seen_on__gte=SUBSCRIBER_EXPIRE ) self.active_premium_subscribers = active_premium_subscribers.count() self.save() if verbose: if self.num_subscribers <= 1: print '.', else: print "\n %s> %s subscriber%s: %s" % ( '-' * min(self.num_subscribers, 20), self.num_subscribers, '' if self.num_subscribers == 1 else 's', self.feed_title, ), def _split_favicon_color(self): color = self.favicon_color if color: splitter = lambda s, p: [s[i:i+p] for i in range(0, len(s), p)] red, green, blue = splitter(color[:6], 2) return red, green, blue return None, None, None def favicon_fade(self): red, green, blue = self._split_favicon_color() if red and green and blue: fade_red = hex(min(int(red, 16) + 35, 255))[2:].zfill(2) fade_green = hex(min(int(green, 16) + 35, 255))[2:].zfill(2) fade_blue = hex(min(int(blue, 16) + 35, 255))[2:].zfill(2) return "%s%s%s" % (fade_red, fade_green, fade_blue) def favicon_border(self): red, green, blue = self._split_favicon_color() if red and green and blue: fade_red = hex(min(int(int(red, 16) * .75), 255))[2:].zfill(2) fade_green = hex(min(int(int(green, 16) * .75), 255))[2:].zfill(2) fade_blue = hex(min(int(int(blue, 16) * .75), 255))[2:].zfill(2) return "%s%s%s" % (fade_red, fade_green, fade_blue) def favicon_text_color(self): # Color format: {r: 1, g: .5, b: 0} def contrast(color1, color2): lum1 = luminosity(color1) lum2 = luminosity(color2) if lum1 > lum2: return (lum1 + 0.05) / (lum2 + 0.05) else: return (lum2 + 0.05) / (lum1 + 0.05) def luminosity(color): r = color['red'] g = color['green'] b = color['blue'] val = lambda c: c/12.92 if c <= 0.02928 else math.pow(((c + 0.055)/1.055), 2.4) red = val(r) green = val(g) blue = val(b) return 0.2126 * red + 0.7152 * green + 0.0722 * blue red, green, blue = self._split_favicon_color() if red and green and blue: color = { 'red': int(red, 16) / 256.0, 'green': int(green, 16) / 256.0, 'blue': int(blue, 16) / 256.0, } white = { 'red': 1, 'green': 1, 'blue': 1, } grey = { 'red': 0.5, 'green': 0.5, 'blue': 0.5, } if contrast(color, white) > contrast(color, grey): return 'white' else: return 'black' def save_feed_stories_last_month(self, verbose=False): month_ago = datetime.datetime.utcnow() - datetime.timedelta(days=30) stories_last_month = MStory.objects(story_feed_id=self.pk, story_date__gte=month_ago).count() self.stories_last_month = stories_last_month self.save() if verbose: print " ---> %s [%s]: %s stories last month" % (self.feed_title, self.pk, self.stories_last_month) def save_feed_story_history_statistics(self, current_counts=None): """ Fills in missing months between earlier occurances and now. Save format: [('YYYY-MM, #), ...] Example output: [(2010-12, 123), (2011-01, 146)] """ now = datetime.datetime.utcnow() min_year = now.year total = 0 month_count = 0 if not current_counts: current_counts = self.data.story_count_history and json.decode(self.data.story_count_history) if isinstance(current_counts, dict): current_counts = current_counts['months'] if not current_counts: current_counts = [] # Count stories, aggregate by year and month. Map Reduce! map_f = """ function() { var date = (this.story_date.getFullYear()) + "-" + (this.story_date.getMonth()+1); emit(date, 1); } """ reduce_f = """ function(key, values) { var total = 0; for (var i=0; i < values.length; i++) { total += values[i]; } return total; } """ dates = {} res = MStory.objects(story_feed_id=self.pk).map_reduce(map_f, reduce_f, output='inline') for r in res: dates[r.key] = r.value year = int(re.findall(r"(\d{4})-\d{1,2}", r.key)[0]) if year < min_year and year > 2000: min_year = year # Add on to existing months, always amending up, never down. (Current month # is guaranteed to be accurate, since trim_feeds won't delete it until after # a month. Hacker News can have 1,000+ and still be counted.) for current_month, current_count in current_counts: year = int(re.findall(r"(\d{4})-\d{1,2}", current_month)[0]) if current_month not in dates or dates[current_month] < current_count: dates[current_month] = current_count if year < min_year and year > 2000: min_year = year # Assemble a list with 0's filled in for missing months, # trimming left and right 0's. months = [] start = False for year in range(min_year, now.year+1): for month in range(1, 12+1): if datetime.datetime(year, month, 1) < now: key = u'%s-%s' % (year, month) if dates.get(key) or start: start = True months.append((key, dates.get(key, 0))) total += dates.get(key, 0) month_count += 1 self.data.story_count_history = json.encode(months) self.data.save() if not total or not month_count: self.average_stories_per_month = 0 else: self.average_stories_per_month = int(round(total / float(month_count))) self.save() def save_classifier_counts(self): from apps.analyzer.models import MClassifierTitle, MClassifierAuthor, MClassifierFeed, MClassifierTag def calculate_scores(cls, facet): map_f = """ function() { emit(this["%s"], { pos: this.score>0 ? this.score : 0, neg: this.score<0 ? Math.abs(this.score) : 0 }); } """ % (facet) reduce_f = """ function(key, values) { var result = {pos: 0, neg: 0}; values.forEach(function(value) { result.pos += value.pos; result.neg += value.neg; }); return result; } """ scores = [] res = cls.objects(feed_id=self.pk).map_reduce(map_f, reduce_f, output='inline') for r in res: facet_values = dict([(k, int(v)) for k,v in r.value.iteritems()]) facet_values[facet] = r.key if facet_values['pos'] + facet_values['neg'] > 1: scores.append(facet_values) scores = sorted(scores, key=lambda v: v['neg'] - v['pos']) return scores scores = {} for cls, facet in [(MClassifierTitle, 'title'), (MClassifierAuthor, 'author'), (MClassifierTag, 'tag'), (MClassifierFeed, 'feed_id')]: scores[facet] = calculate_scores(cls, facet) if facet == 'feed_id' and scores[facet]: scores['feed'] = scores[facet] del scores['feed_id'] elif not scores[facet]: del scores[facet] if scores: self.data.feed_classifier_counts = json.encode(scores) self.data.save() def update(self, **kwargs): from utils import feed_fetcher r = redis.Redis(connection_pool=settings.REDIS_FEED_POOL) original_feed_id = int(self.pk) if getattr(settings, 'TEST_DEBUG', False): self.feed_address = self.feed_address.replace("%(NEWSBLUR_DIR)s", settings.NEWSBLUR_DIR) if self.feed_link: self.feed_link = self.feed_link.replace("%(NEWSBLUR_DIR)s", settings.NEWSBLUR_DIR) self.save() options = { 'verbose': kwargs.get('verbose'), 'timeout': 10, 'single_threaded': kwargs.get('single_threaded', True), 'force': kwargs.get('force'), 'compute_scores': kwargs.get('compute_scores', True), 'mongodb_replication_lag': kwargs.get('mongodb_replication_lag', None), 'fake': kwargs.get('fake'), 'quick': kwargs.get('quick'), 'updates_off': kwargs.get('updates_off'), 'debug': kwargs.get('debug'), 'fpf': kwargs.get('fpf'), 'feed_xml': kwargs.get('feed_xml'), } disp = feed_fetcher.Dispatcher(options, 1) disp.add_jobs([[self.pk]]) feed = disp.run_jobs() if feed: feed = Feed.get_by_id(feed.pk) if feed: feed.last_update = datetime.datetime.utcnow() feed.set_next_scheduled_update() r.zadd('fetched_feeds_last_hour', feed.pk, int(datetime.datetime.now().strftime('%s'))) if not feed or original_feed_id != feed.pk: logging.info(" ---> ~FRFeed changed id, removing %s from tasked_feeds queue..." % original_feed_id) r.zrem('tasked_feeds', original_feed_id) r.zrem('error_feeds', original_feed_id) if feed: r.zrem('tasked_feeds', feed.pk) r.zrem('error_feeds', feed.pk) return feed @classmethod def get_by_id(cls, feed_id, feed_address=None): try: feed = Feed.objects.get(pk=feed_id) return feed except Feed.DoesNotExist: # Feed has been merged after updating. Find the right feed. duplicate_feeds = DuplicateFeed.objects.filter(duplicate_feed_id=feed_id) if duplicate_feeds: return duplicate_feeds[0].feed if feed_address: duplicate_feeds = DuplicateFeed.objects.filter(duplicate_address=feed_address) if duplicate_feeds: return duplicate_feeds[0].feed @classmethod def get_by_name(cls, query, limit=1): results = SearchFeed.query(query) feed_ids = [result.feed_id for result in results] if limit == 1: return Feed.get_by_id(feed_ids[0]) else: return [Feed.get_by_id(f) for f in feed_ids][:limit] def add_update_stories(self, stories, existing_stories, verbose=False, updates_off=False): ret_values = dict(new=0, updated=0, same=0, error=0) error_count = self.error_count new_story_hashes = [s.get('story_hash') for s in stories] if settings.DEBUG or verbose: logging.debug(" ---> [%-30s] ~FBChecking ~SB%s~SN new/updated against ~SB%s~SN stories" % ( self.title[:30], len(stories), len(existing_stories.keys()))) @timelimit(2) def _1(story, story_content, existing_stories, new_story_hashes): existing_story, story_has_changed = self._exists_story(story, story_content, existing_stories, new_story_hashes) return existing_story, story_has_changed for story in stories: if verbose: logging.debug(" ---> [%-30s] ~FBChecking ~SB%s~SN / ~SB%s" % ( self.title[:30], story.get('title'), story.get('guid'))) if not story.get('title'): continue story_content = story.get('story_content') if error_count: story_content = strip_comments__lxml(story_content) else: story_content = strip_comments(story_content) story_tags = self.get_tags(story) story_link = self.get_permalink(story) replace_story_date = False try: existing_story, story_has_changed = _1(story, story_content, existing_stories, new_story_hashes) except TimeoutError, e: logging.debug(' ---> [%-30s] ~SB~FRExisting story check timed out...' % (unicode(self)[:30])) existing_story = None story_has_changed = False if existing_story is None: if settings.DEBUG and False: logging.debug(' ---> New story in feed (%s - %s): %s' % (self.feed_title, story.get('title'), len(story_content))) s = MStory(story_feed_id = self.pk, story_date = story.get('published'), story_title = story.get('title'), story_content = story_content, story_author_name = story.get('author'), story_permalink = story_link, story_guid = story.get('guid'), story_tags = story_tags ) s.extract_image_urls() try: s.save() ret_values['new'] += 1 except (IntegrityError, OperationError), e: ret_values['error'] += 1 if settings.DEBUG: logging.info(' ---> [%-30s] ~SN~FRIntegrityError on new story: %s - %s' % (self.feed_title[:30], story.get('guid'), e)) if self.search_indexed: s.index_story_for_search() elif existing_story and story_has_changed and not updates_off and ret_values['updated'] < 3: # update story original_content = None try: if existing_story and existing_story.id: try: existing_story = MStory.objects.get(id=existing_story.id) except ValidationError: existing_story, _ = MStory.find_story(existing_story.story_feed_id, existing_story.id, original_only=True) elif existing_story and existing_story.story_hash: existing_story, _ = MStory.find_story(existing_story.story_feed_id, existing_story.story_hash, original_only=True) else: raise MStory.DoesNotExist except (MStory.DoesNotExist, OperationError), e: ret_values['error'] += 1 if verbose: logging.info(' ---> [%-30s] ~SN~FROperation on existing story: %s - %s' % (self.feed_title[:30], story.get('guid'), e)) continue if existing_story.story_original_content_z: original_content = zlib.decompress(existing_story.story_original_content_z) elif existing_story.story_content_z: original_content = zlib.decompress(existing_story.story_content_z) # print 'Type: %s %s' % (type(original_content), type(story_content)) if story_content and len(story_content) > 10: story_content_diff = htmldiff(unicode(original_content), unicode(story_content)) else: story_content_diff = original_content # logging.debug("\t\tDiff: %s %s %s" % diff.getStats()) # logging.debug("\t\tDiff content: %s" % diff.getDiff()) # if existing_story.story_title != story.get('title'): # logging.debug('\tExisting title / New: : \n\t\t- %s\n\t\t- %s' % (existing_story.story_title, story.get('title'))) if existing_story.story_hash != story.get('story_hash'): self.update_story_with_new_guid(existing_story, story.get('guid')) if verbose: logging.debug('- Updated story in feed (%s - %s): %s / %s' % (self.feed_title, story.get('title'), len(story_content_diff), len(story_content))) existing_story.story_feed = self.pk existing_story.story_title = story.get('title') existing_story.story_content = story_content_diff existing_story.story_latest_content = story_content existing_story.story_original_content = original_content existing_story.story_author_name = story.get('author') existing_story.story_permalink = story_link existing_story.story_guid = story.get('guid') existing_story.story_tags = story_tags # Do not allow publishers to change the story date once a story is published. # Leads to incorrect unread story counts. if replace_story_date: existing_story.story_date = story.get('published') # Really shouldn't do this. existing_story.extract_image_urls() try: existing_story.save() ret_values['updated'] += 1 except (IntegrityError, OperationError): ret_values['error'] += 1 if verbose: logging.info(' ---> [%-30s] ~SN~FRIntegrityError on updated story: %s' % (self.feed_title[:30], story.get('title')[:30])) except ValidationError: ret_values['error'] += 1 if verbose: logging.info(' ---> [%-30s] ~SN~FRValidationError on updated story: %s' % (self.feed_title[:30], story.get('title')[:30])) if self.search_indexed: existing_story.index_story_for_search() else: ret_values['same'] += 1 if verbose: logging.debug("Unchanged story: %s / %s " % (story.get('guid'), story.get('title'))) return ret_values def update_story_with_new_guid(self, existing_story, new_story_guid): from apps.reader.models import RUserStory from apps.social.models import MSharedStory existing_story.remove_from_redis() existing_story.remove_from_search_index() old_hash = existing_story.story_hash new_hash = MStory.ensure_story_hash(new_story_guid, self.pk) RUserStory.switch_hash(feed_id=self.pk, old_hash=old_hash, new_hash=new_hash) shared_stories = MSharedStory.objects.filter(story_feed_id=self.pk, story_hash=old_hash) for story in shared_stories: story.story_guid = new_story_guid story.story_hash = new_hash try: story.save() except NotUniqueError: # Story is already shared, skip. pass def save_popular_tags(self, feed_tags=None, verbose=False): if not feed_tags: all_tags = MStory.objects(story_feed_id=self.pk, story_tags__exists=True).item_frequencies('story_tags') feed_tags = sorted([(k, v) for k, v in all_tags.items() if int(v) > 0], key=itemgetter(1), reverse=True)[:25] popular_tags = json.encode(feed_tags) if verbose: print "Found %s tags: %s" % (len(feed_tags), popular_tags) # TODO: This len() bullshit will be gone when feeds move to mongo # On second thought, it might stay, because we don't want # popular tags the size of a small planet. I'm looking at you # Tumblr writers. if len(popular_tags) < 1024: self.data.popular_tags = popular_tags self.data.save() return tags_list = [] if feed_tags and isinstance(feed_tags, unicode): tags_list = json.decode(feed_tags) if len(tags_list) >= 1: self.save_popular_tags(tags_list[:-1]) def save_popular_authors(self, feed_authors=None): if not feed_authors: authors = defaultdict(int) for story in MStory.objects(story_feed_id=self.pk).only('story_author_name'): authors[story.story_author_name] += 1 feed_authors = sorted([(k, v) for k, v in authors.items() if k], key=itemgetter(1), reverse=True)[:20] popular_authors = json.encode(feed_authors) if len(popular_authors) < 1023: self.data.popular_authors = popular_authors self.data.save() return if len(feed_authors) > 1: self.save_popular_authors(feed_authors=feed_authors[:-1]) @classmethod def trim_old_stories(cls, start=0, verbose=True, dryrun=False): now = datetime.datetime.now() month_ago = now - datetime.timedelta(days=settings.DAYS_OF_STORY_HASHES) feed_count = Feed.objects.latest('pk').pk total = 0 for feed_id in xrange(start, feed_count): if feed_id % 1000 == 0: print "\n\n -------------------------- %s --------------------------\n\n" % feed_id try: feed = Feed.objects.get(pk=feed_id) except Feed.DoesNotExist: continue if feed.active_subscribers > 0: continue if not feed.last_story_date or feed.last_story_date < month_ago: months_ago = 6 if feed.last_story_date: months_ago = int((now - feed.last_story_date).days / 30.0) cutoff = max(1, 6 - months_ago) if dryrun: print " DRYRUN: %s cutoff - %s" % (cutoff, feed) else: total += MStory.trim_feed(feed=feed, cutoff=cutoff, verbose=verbose) print " ---> Deleted %s stories in total." % total @property def story_cutoff(self): cutoff = 500 if self.active_subscribers <= 0: cutoff = 25 elif self.active_premium_subscribers < 1: cutoff = 100 elif self.active_premium_subscribers <= 2: cutoff = 200 elif self.active_premium_subscribers <= 5: cutoff = 300 elif self.active_premium_subscribers <= 10: cutoff = 350 elif self.active_premium_subscribers <= 15: cutoff = 400 elif self.active_premium_subscribers <= 20: cutoff = 450 if self.active_subscribers and self.average_stories_per_month < 5 and self.stories_last_month < 5: cutoff /= 2 if self.active_premium_subscribers <= 1 and self.average_stories_per_month <= 1 and self.stories_last_month <= 1: cutoff /= 2 return cutoff def trim_feed(self, verbose=False, cutoff=None): if not cutoff: cutoff = self.story_cutoff MStory.trim_feed(feed=self, cutoff=cutoff, verbose=verbose) # @staticmethod # def clean_invalid_ids(): # history = MFeedFetchHistory.objects(status_code=500, exception__contains='InvalidId:') # urls = set() # for h in history: # u = re.split('InvalidId: (.*?) is not a valid ObjectId\\n$', h.exception)[1] # urls.add((h.feed_id, u)) # # for f, u in urls: # print "db.stories.remove({\"story_feed_id\": %s, \"_id\": \"%s\"})" % (f, u) def get_stories(self, offset=0, limit=25, force=False): stories_db = MStory.objects(story_feed_id=self.pk)[offset:offset+limit] stories = self.format_stories(stories_db, self.pk) return stories @classmethod def find_feed_stories(cls, feed_ids, query, order="newest", offset=0, limit=25): story_ids = SearchStory.query(feed_ids=feed_ids, query=query, order=order, offset=offset, limit=limit) stories_db = MStory.objects( story_hash__in=story_ids ).order_by('-story_date' if order == "newest" else 'story_date') stories = cls.format_stories(stories_db) return stories def find_stories(self, query, order="newest", offset=0, limit=25): story_ids = SearchStory.query(feed_ids=[self.pk], query=query, order=order, offset=offset, limit=limit) stories_db = MStory.objects( story_hash__in=story_ids ).order_by('-story_date' if order == "newest" else 'story_date') stories = self.format_stories(stories_db, self.pk) return stories @classmethod def format_stories(cls, stories_db, feed_id=None, include_permalinks=False): stories = [] for story_db in stories_db: story = cls.format_story(story_db, feed_id, include_permalinks=include_permalinks) stories.append(story) return stories @classmethod def format_story(cls, story_db, feed_id=None, text=False, include_permalinks=False): if isinstance(story_db.story_content_z, unicode): story_db.story_content_z = story_db.story_content_z.decode('base64') story_content = story_db.story_content_z and zlib.decompress(story_db.story_content_z) or '' story = {} story['story_hash'] = getattr(story_db, 'story_hash', None) story['story_tags'] = story_db.story_tags or [] story['story_date'] = story_db.story_date.replace(tzinfo=None) story['story_timestamp'] = story_db.story_date.strftime('%s') story['story_authors'] = story_db.story_author_name or "" story['story_title'] = story_db.story_title story['story_content'] = story_content story['story_permalink'] = story_db.story_permalink story['image_urls'] = story_db.image_urls story['story_feed_id'] = feed_id or story_db.story_feed_id story['comment_count'] = story_db.comment_count if hasattr(story_db, 'comment_count') else 0 story['comment_user_ids'] = story_db.comment_user_ids if hasattr(story_db, 'comment_user_ids') else [] story['share_count'] = story_db.share_count if hasattr(story_db, 'share_count') else 0 story['share_user_ids'] = story_db.share_user_ids if hasattr(story_db, 'share_user_ids') else [] story['guid_hash'] = story_db.guid_hash if hasattr(story_db, 'guid_hash') else None if hasattr(story_db, 'source_user_id'): story['source_user_id'] = story_db.source_user_id story['id'] = story_db.story_guid or story_db.story_date if hasattr(story_db, 'starred_date'): story['starred_date'] = story_db.starred_date if hasattr(story_db, 'user_tags'): story['user_tags'] = story_db.user_tags if hasattr(story_db, 'shared_date'): story['shared_date'] = story_db.shared_date if hasattr(story_db, 'comments'): story['comments'] = story_db.comments if hasattr(story_db, 'user_id'): story['user_id'] = story_db.user_id if include_permalinks and hasattr(story_db, 'blurblog_permalink'): story['blurblog_permalink'] = story_db.blurblog_permalink() if text: soup = BeautifulSoup(story['story_content']) text = ''.join(soup.findAll(text=True)) text = re.sub(r'\n+', '\n\n', text) text = re.sub(r'\t+', '\t', text) story['text'] = text if '= 1: continue seq = difflib.SequenceMatcher(None, story_content, existing_story_content) if (seq and story_content and len(story_content) > 1000 and existing_story_content and seq.real_quick_ratio() > .9 and seq.quick_ratio() > .95): content_ratio = seq.ratio() if story_title_difference > 0 and content_ratio > .98: story_in_system = existing_story if story_title_difference > 0 or content_ratio < 1.0: if settings.DEBUG: logging.debug(" ---> Title difference - %s/%s (%s): %s" % (story.get('title'), existing_story.story_title, story_title_difference, content_ratio)) story_has_changed = True break # More restrictive content distance, still no story match if not story_in_system and content_ratio > .98: if settings.DEBUG: logging.debug(" ---> Content difference - %s/%s (%s): %s" % (story.get('title'), existing_story.story_title, story_title_difference, content_ratio)) story_in_system = existing_story story_has_changed = True break if story_in_system and not story_has_changed: if story_content != existing_story_content: if settings.DEBUG: logging.debug(" ---> Content difference - %s (%s)/%s (%s)" % (story.get('title'), len(story_content), existing_story.story_title, len(existing_story_content))) story_has_changed = True if story_link != existing_story.story_permalink: if settings.DEBUG: logging.debug(" ---> Permalink difference - %s/%s" % (story_link, existing_story.story_permalink)) story_has_changed = True # if story_pub_date != existing_story.story_date: # story_has_changed = True break # if story_has_changed or not story_in_system: # print 'New/updated story: %s' % (story), return story_in_system, story_has_changed def get_next_scheduled_update(self, force=False, verbose=True, premium_speed=False): if self.min_to_decay and not force and not premium_speed: return self.min_to_decay if premium_speed: self.active_premium_subscribers += 1 upd = self.stories_last_month / 30.0 subs = (self.active_premium_subscribers + ((self.active_subscribers - self.active_premium_subscribers) / 10.0)) # UPD = 1 Subs > 1: t = 5 # 11625 * 1440/5 = 3348000 # UPD = 1 Subs = 1: t = 60 # 17231 * 1440/60 = 413544 # UPD < 1 Subs > 1: t = 60 # 37904 * 1440/60 = 909696 # UPD < 1 Subs = 1: t = 60 * 12 # 143012 * 1440/(60*12) = 286024 # UPD = 0 Subs > 1: t = 60 * 3 # 28351 * 1440/(60*3) = 226808 # UPD = 0 Subs = 1: t = 60 * 24 # 807690 * 1440/(60*24) = 807690 if upd >= 1: if subs > 1: total = 10 else: total = 60 elif upd > 0: if subs > 1: total = 60 - (upd * 60) else: total = 60*12 - (upd * 60*12) elif upd == 0: if subs > 1: total = 60 * 6 else: total = 60 * 24 months_since_last_story = seconds_timesince(self.last_story_date) / (60*60*24*30) total *= max(1, months_since_last_story) # updates_per_day_delay = 3 * 60 / max(.25, ((max(0, self.active_subscribers)**.2) # * (self.stories_last_month**0.25))) # if self.active_premium_subscribers > 0: # updates_per_day_delay /= min(self.active_subscribers+self.active_premium_subscribers, 4) # updates_per_day_delay = int(updates_per_day_delay) # Lots of subscribers = lots of updates # 24 hours for 0 subscribers. # 4 hours for 1 subscriber. # .5 hours for 2 subscribers. # .25 hours for 3 subscribers. # 1 min for 10 subscribers. # subscriber_bonus = 6 * 60 / max(.167, max(0, self.active_subscribers)**3) # if self.premium_subscribers > 0: # subscriber_bonus /= min(self.active_subscribers+self.premium_subscribers, 5) # subscriber_bonus = int(subscriber_bonus) if self.is_push: fetch_history = MFetchHistory.feed(self.pk) if len(fetch_history['push_history']): total = total * 12 # 3 day max total = min(total, 60*24*2) if verbose: logging.debug(" ---> [%-30s] Fetched every %s min - Subs: %s/%s/%s Stories: %s" % ( unicode(self)[:30], total, self.num_subscribers, self.active_subscribers, self.active_premium_subscribers, upd)) return total def set_next_scheduled_update(self, verbose=False, skip_scheduling=False): r = redis.Redis(connection_pool=settings.REDIS_FEED_POOL) total = self.get_next_scheduled_update(force=True, verbose=verbose) error_count = self.error_count if error_count: total = total * error_count total = min(total, 60*24*7) if verbose: logging.debug(' ---> [%-30s] ~FBScheduling feed fetch geometrically: ' '~SB%s errors. Time: %s min' % ( unicode(self)[:30], self.errors_since_good, total)) random_factor = random.randint(0, total) / 4 next_scheduled_update = datetime.datetime.utcnow() + datetime.timedelta( minutes = total + random_factor) self.min_to_decay = total delta = self.next_scheduled_update - datetime.datetime.now() minutes_to_next_fetch = (delta.seconds + (delta.days * 24 * 3600)) / 60 if minutes_to_next_fetch > self.min_to_decay or not skip_scheduling: self.next_scheduled_update = next_scheduled_update if self.active_subscribers >= 1: r.zadd('scheduled_updates', self.pk, self.next_scheduled_update.strftime('%s')) r.zrem('tasked_feeds', self.pk) r.srem('queued_feeds', self.pk) self.save() @property def error_count(self): r = redis.Redis(connection_pool=settings.REDIS_FEED_POOL) fetch_errors = int(r.zscore('error_feeds', self.pk) or 0) return fetch_errors + self.errors_since_good def schedule_feed_fetch_immediately(self, verbose=True): r = redis.Redis(connection_pool=settings.REDIS_FEED_POOL) if verbose: logging.debug(' ---> [%-30s] Scheduling feed fetch immediately...' % (unicode(self)[:30])) self.next_scheduled_update = datetime.datetime.utcnow() r.zadd('scheduled_updates', self.pk, self.next_scheduled_update.strftime('%s')) return self.save() def setup_push(self): from apps.push.models import PushSubscription try: push = self.push except PushSubscription.DoesNotExist: self.is_push = False else: self.is_push = push.verified self.save() def queue_pushed_feed_xml(self, xml): r = redis.Redis(connection_pool=settings.REDIS_FEED_POOL) queue_size = r.llen("push_feeds") if queue_size > 1000: self.schedule_feed_fetch_immediately() else: logging.debug(' ---> [%-30s] [%s] ~FBQueuing pushed stories...' % (unicode(self)[:30], self.pk)) self.set_next_scheduled_update() PushFeeds.apply_async(args=(self.pk, xml), queue='push_feeds') # def calculate_collocations_story_content(self, # collocation_measures=TrigramAssocMeasures, # collocation_finder=TrigramCollocationFinder): # stories = MStory.objects.filter(story_feed_id=self.pk) # story_content = ' '.join([s.story_content for s in stories if s.story_content]) # return self.calculate_collocations(story_content, collocation_measures, collocation_finder) # # def calculate_collocations_story_title(self, # collocation_measures=BigramAssocMeasures, # collocation_finder=BigramCollocationFinder): # stories = MStory.objects.filter(story_feed_id=self.pk) # story_titles = ' '.join([s.story_title for s in stories if s.story_title]) # return self.calculate_collocations(story_titles, collocation_measures, collocation_finder) # # def calculate_collocations(self, content, # collocation_measures=TrigramAssocMeasures, # collocation_finder=TrigramCollocationFinder): # content = re.sub(r'’', '\'', content) # content = re.sub(r'&', '&', content) # try: # content = unicode(BeautifulStoneSoup(content, # convertEntities=BeautifulStoneSoup.HTML_ENTITIES)) # except ValueError, e: # print "ValueError, ignoring: %s" % e # content = re.sub(r']*>', '', content) # content = re.split(r"[^A-Za-z-'&]+", content) # # finder = collocation_finder.from_words(content) # finder.apply_freq_filter(3) # best = finder.nbest(collocation_measures.pmi, 10) # phrases = [' '.join(phrase) for phrase in best] # # return phrases # class FeedCollocations(models.Model): # feed = models.ForeignKey(Feed) # phrase = models.CharField(max_length=500) class FeedData(models.Model): feed = AutoOneToOneField(Feed, related_name='data') feed_tagline = models.CharField(max_length=1024, blank=True, null=True) story_count_history = models.TextField(blank=True, null=True) feed_classifier_counts = models.TextField(blank=True, null=True) popular_tags = models.CharField(max_length=1024, blank=True, null=True) popular_authors = models.CharField(max_length=2048, blank=True, null=True) def save(self, *args, **kwargs): if self.feed_tagline and len(self.feed_tagline) >= 1000: self.feed_tagline = self.feed_tagline[:1000] try: super(FeedData, self).save(*args, **kwargs) except (IntegrityError, OperationError): if hasattr(self, 'id') and self.id: self.delete() class MFeedIcon(mongo.Document): feed_id = mongo.IntField(primary_key=True) color = mongo.StringField(max_length=6) data = mongo.StringField() icon_url = mongo.StringField() not_found = mongo.BooleanField(default=False) meta = { 'collection' : 'feed_icons', 'allow_inheritance' : False, } @classmethod def get_feed(cls, feed_id, create=True): try: feed_icon = cls.objects.read_preference(pymongo.ReadPreference.PRIMARY)\ .get(feed_id=feed_id) except cls.DoesNotExist: if create: feed_icon = cls.objects.create(feed_id=feed_id) else: feed_icon = None return feed_icon def save(self, *args, **kwargs): if self.icon_url: self.icon_url = unicode(self.icon_url) try: return super(MFeedIcon, self).save(*args, **kwargs) except (IntegrityError, OperationError): # print "Error on Icon: %s" % e if hasattr(self, '_id'): self.delete() class MFeedPage(mongo.Document): feed_id = mongo.IntField(primary_key=True) page_data = mongo.BinaryField() meta = { 'collection': 'feed_pages', 'allow_inheritance': False, } def save(self, *args, **kwargs): if self.page_data: self.page_data = zlib.compress(self.page_data) return super(MFeedPage, self).save(*args, **kwargs) @classmethod def get_data(cls, feed_id): data = None feed_page = cls.objects(feed_id=feed_id) if feed_page: page_data_z = feed_page[0].page_data if page_data_z: data = zlib.decompress(page_data_z) if not data: dupe_feed = DuplicateFeed.objects.filter(duplicate_feed_id=feed_id) if dupe_feed: feed = dupe_feed[0].feed feed_page = MFeedPage.objects.filter(feed_id=feed.pk) if feed_page: page_data_z = feed_page[0].page_data if page_data_z: data = zlib.decompress(feed_page[0].page_data) return data class MStory(mongo.Document): '''A feed item''' story_feed_id = mongo.IntField() story_date = mongo.DateTimeField() story_title = mongo.StringField(max_length=1024) story_content = mongo.StringField() story_content_z = mongo.BinaryField() story_original_content = mongo.StringField() story_original_content_z = mongo.BinaryField() story_latest_content = mongo.StringField() story_latest_content_z = mongo.BinaryField() original_text_z = mongo.BinaryField() story_content_type = mongo.StringField(max_length=255) story_author_name = mongo.StringField() story_permalink = mongo.StringField() story_guid = mongo.StringField() story_hash = mongo.StringField() image_urls = mongo.ListField(mongo.StringField(max_length=1024)) story_tags = mongo.ListField(mongo.StringField(max_length=250)) comment_count = mongo.IntField() comment_user_ids = mongo.ListField(mongo.IntField()) share_count = mongo.IntField() share_user_ids = mongo.ListField(mongo.IntField()) meta = { 'collection': 'stories', 'indexes': [('story_feed_id', '-story_date'), {'fields': ['story_hash'], 'unique': True, 'types': False, }], 'index_drop_dups': True, 'ordering': ['-story_date'], 'allow_inheritance': False, 'cascade': False, } RE_STORY_HASH = re.compile(r"^(\d{1,10}):(\w{6})$") RE_RS_KEY = re.compile(r"^RS:(\d+):(\d+)$") @property def guid_hash(self): return hashlib.sha1(self.story_guid).hexdigest()[:6] @classmethod def guid_hash_unsaved(self, guid): return hashlib.sha1(guid).hexdigest()[:6] @property def feed_guid_hash(self): return "%s:%s" % (self.story_feed_id, self.guid_hash) @classmethod def feed_guid_hash_unsaved(cls, feed_id, guid): return "%s:%s" % (feed_id, cls.guid_hash_unsaved(guid)) @property def decoded_story_title(self): h = HTMLParser.HTMLParser() return h.unescape(self.story_title) def save(self, *args, **kwargs): story_title_max = MStory._fields['story_title'].max_length story_content_type_max = MStory._fields['story_content_type'].max_length self.story_hash = self.feed_guid_hash if self.story_content: self.story_content_z = zlib.compress(self.story_content) self.story_content = None if self.story_original_content: self.story_original_content_z = zlib.compress(self.story_original_content) self.story_original_content = None if self.story_latest_content: self.story_latest_content_z = zlib.compress(self.story_latest_content) self.story_latest_content = None if self.story_title and len(self.story_title) > story_title_max: self.story_title = self.story_title[:story_title_max] if self.story_content_type and len(self.story_content_type) > story_content_type_max: self.story_content_type = self.story_content_type[:story_content_type_max] super(MStory, self).save(*args, **kwargs) self.sync_redis() return self def delete(self, *args, **kwargs): self.remove_from_redis() self.remove_from_search_index() super(MStory, self).delete(*args, **kwargs) @classmethod def index_all_for_search(cls, offset=0): if not offset: SearchStory.create_elasticsearch_mapping(delete=True) last_pk = Feed.objects.latest('pk').pk for f in xrange(offset, last_pk, 1000): print " ---> %s / %s (%.2s%%)" % (f, last_pk, float(f)/last_pk*100) feeds = Feed.objects.filter(pk__in=range(f, f+1000), active=True, active_subscribers__gte=1)\ .values_list('pk') for feed_id, in feeds: stories = cls.objects.filter(story_feed_id=feed_id) for story in stories: story.index_story_for_search() def index_story_for_search(self): story_content = self.story_content or "" if self.story_content_z: story_content = zlib.decompress(self.story_content_z) SearchStory.index(story_hash=self.story_hash, story_title=self.story_title, story_content=prep_for_search(story_content), story_tags=self.story_tags, story_author=self.story_author_name, story_feed_id=self.story_feed_id, story_date=self.story_date) def remove_from_search_index(self): try: SearchStory.remove(self.story_hash) except NotFoundException: pass @classmethod def trim_feed(cls, cutoff, feed_id=None, feed=None, verbose=True): extra_stories_count = 0 if not feed_id and not feed: return extra_stories_count if not feed_id: feed_id = feed.pk if not feed: feed = feed_id stories = cls.objects( story_feed_id=feed_id ).only('story_date').order_by('-story_date') if stories.count() > cutoff: logging.debug(' ---> [%-30s] ~FMFound %s stories. Trimming to ~SB%s~SN...' % (unicode(feed)[:30], stories.count(), cutoff)) try: story_trim_date = stories[cutoff].story_date except IndexError, e: logging.debug(' ***> [%-30s] ~BRError trimming feed: %s' % (unicode(feed)[:30], e)) return extra_stories_count extra_stories = cls.objects(story_feed_id=feed_id, story_date__lte=story_trim_date) extra_stories_count = extra_stories.count() shared_story_count = 0 for story in extra_stories: if story.share_count: shared_story_count += 1 continue story.delete() if verbose: existing_story_count = cls.objects(story_feed_id=feed_id).count() logging.debug(" ---> Deleted %s stories, %s (%s shared) left." % ( extra_stories_count, existing_story_count, shared_story_count)) return extra_stories_count @classmethod def find_story(cls, story_feed_id=None, story_id=None, story_hash=None, original_only=False): from apps.social.models import MSharedStory original_found = False if story_hash: story_id = story_hash story_hash = cls.ensure_story_hash(story_id, story_feed_id) if not story_feed_id: story_feed_id, _ = cls.split_story_hash(story_hash) if isinstance(story_id, ObjectId): story = cls.objects(id=story_id).limit(1).first() else: story = cls.objects(story_hash=story_hash).limit(1).first() if story: original_found = True if not story and not original_only: story = MSharedStory.objects.filter(story_feed_id=story_feed_id, story_hash=story_hash).limit(1).first() if not story and not original_only: story = MStarredStory.objects.filter(story_feed_id=story_feed_id, story_hash=story_hash).limit(1).first() return story, original_found @classmethod def find_by_id(cls, story_ids): from apps.social.models import MSharedStory count = len(story_ids) multiple = isinstance(story_ids, list) or isinstance(story_ids, tuple) stories = list(cls.objects(id__in=story_ids)) if len(stories) < count: shared_stories = list(MSharedStory.objects(id__in=story_ids)) stories.extend(shared_stories) if not multiple: stories = stories[0] return stories @classmethod def find_by_story_hashes(cls, story_hashes): from apps.social.models import MSharedStory count = len(story_hashes) multiple = isinstance(story_hashes, list) or isinstance(story_hashes, tuple) stories = list(cls.objects(story_hash__in=story_hashes)) if len(stories) < count: hashes_found = [s.story_hash for s in stories] remaining_hashes = list(set(story_hashes) - set(hashes_found)) story_feed_ids = [h.split(':')[0] for h in remaining_hashes] shared_stories = list(MSharedStory.objects(story_feed_id__in=story_feed_ids, story_hash__in=remaining_hashes)) stories.extend(shared_stories) if not multiple: stories = stories[0] return stories @classmethod def ensure_story_hash(cls, story_id, story_feed_id): if not cls.RE_STORY_HASH.match(story_id): story_id = "%s:%s" % (story_feed_id, hashlib.sha1(story_id).hexdigest()[:6]) return story_id @classmethod def split_story_hash(cls, story_hash): matches = cls.RE_STORY_HASH.match(story_hash) if matches: groups = matches.groups() return groups[0], groups[1] return None, None @classmethod def split_rs_key(cls, rs_key): matches = cls.RE_RS_KEY.match(rs_key) if matches: groups = matches.groups() return groups[0], groups[1] return None, None @classmethod def story_hashes(cls, story_ids): story_hashes = [] for story_id in story_ids: story_hash = cls.ensure_story_hash(story_id) if not story_hash: continue story_hashes.append(story_hash) return story_hashes def sync_redis(self, r=None): if not r: r = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL) # if not r2: # r2 = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL2) UNREAD_CUTOFF = datetime.datetime.now() - datetime.timedelta(days=settings.DAYS_OF_STORY_HASHES) if self.id and self.story_date > UNREAD_CUTOFF: feed_key = 'F:%s' % self.story_feed_id r.sadd(feed_key, self.story_hash) r.expire(feed_key, settings.DAYS_OF_STORY_HASHES*24*60*60) # r2.sadd(feed_key, self.story_hash) # r2.expire(feed_key, settings.DAYS_OF_STORY_HASHES*24*60*60) r.zadd('z' + feed_key, self.story_hash, time.mktime(self.story_date.timetuple())) r.expire('z' + feed_key, settings.DAYS_OF_STORY_HASHES*24*60*60) # r2.zadd('z' + feed_key, self.story_hash, time.mktime(self.story_date.timetuple())) # r2.expire('z' + feed_key, settings.DAYS_OF_STORY_HASHES*24*60*60) def remove_from_redis(self, r=None): if not r: r = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL) # if not r2: # r2 = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL2) if self.id: r.srem('F:%s' % self.story_feed_id, self.story_hash) # r2.srem('F:%s' % self.story_feed_id, self.story_hash) r.zrem('zF:%s' % self.story_feed_id, self.story_hash) # r2.zrem('zF:%s' % self.story_feed_id, self.story_hash) @classmethod def sync_feed_redis(cls, story_feed_id): r = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL) # r2 = redis.Redis(connection_pool=settings.REDIS_STORY_HASH_POOL2) UNREAD_CUTOFF = datetime.datetime.now() - datetime.timedelta(days=settings.DAYS_OF_STORY_HASHES) feed = Feed.get_by_id(story_feed_id) stories = cls.objects.filter(story_feed_id=story_feed_id, story_date__gte=UNREAD_CUTOFF) r.delete('F:%s' % story_feed_id) # r2.delete('F:%s' % story_feed_id) r.delete('zF:%s' % story_feed_id) # r2.delete('zF:%s' % story_feed_id) logging.info(" ---> [%-30s] ~FMSyncing ~SB%s~SN stories to redis" % (feed and feed.title[:30] or story_feed_id, stories.count())) p = r.pipeline() # p2 = r2.pipeline() for story in stories: story.sync_redis(r=p) p.execute() # p2.execute() def count_comments(self): from apps.social.models import MSharedStory params = { 'story_guid': self.story_guid, 'story_feed_id': self.story_feed_id, } comments = MSharedStory.objects.filter(has_comments=True, **params).only('user_id') shares = MSharedStory.objects.filter(**params).only('user_id') self.comment_count = comments.count() self.comment_user_ids = [c['user_id'] for c in comments] self.share_count = shares.count() self.share_user_ids = [s['user_id'] for s in shares] self.save() def extract_image_urls(self, force=False): if self.image_urls and not force: return self.image_urls story_content = self.story_content if not story_content and self.story_content_z: story_content = zlib.decompress(self.story_content_z) if not story_content: return try: soup = BeautifulSoup(story_content) except ValueError: return images = soup.findAll('img') if not images: return image_urls = [] for image in images: image_url = image.get('src') if not image_url: continue if image_url and len(image_url) >= 1024: continue image_urls.append(image_url) if not image_urls: return self.image_urls = image_urls return self.image_urls def fetch_original_text(self, force=False, request=None, debug=False): original_text_z = self.original_text_z feed = Feed.get_by_id(self.story_feed_id) if not original_text_z or force: ti = TextImporter(self, feed=feed, request=request, debug=debug) original_text = ti.fetch() else: logging.user(request, "~FYFetching ~FGoriginal~FY story text, ~SBfound.") original_text = zlib.decompress(original_text_z) return original_text class MStarredStory(mongo.Document): """Like MStory, but not inherited due to large overhead of _cls and _type in mongoengine's inheritance model on every single row.""" user_id = mongo.IntField(unique_with=('story_guid',)) starred_date = mongo.DateTimeField() story_feed_id = mongo.IntField() story_date = mongo.DateTimeField() story_title = mongo.StringField(max_length=1024) story_content = mongo.StringField() story_content_z = mongo.BinaryField() story_original_content = mongo.StringField() story_original_content_z = mongo.BinaryField() original_text_z = mongo.BinaryField() story_content_type = mongo.StringField(max_length=255) story_author_name = mongo.StringField() story_permalink = mongo.StringField() story_guid = mongo.StringField() story_hash = mongo.StringField() story_tags = mongo.ListField(mongo.StringField(max_length=250)) user_tags = mongo.ListField(mongo.StringField(max_length=128)) image_urls = mongo.ListField(mongo.StringField(max_length=1024)) meta = { 'collection': 'starred_stories', 'indexes': [('user_id', '-starred_date'), ('user_id', 'story_feed_id'), 'story_feed_id'], 'index_drop_dups': True, 'ordering': ['-starred_date'], 'allow_inheritance': False, } def save(self, *args, **kwargs): if self.story_content: self.story_content_z = zlib.compress(self.story_content) self.story_content = None if self.story_original_content: self.story_original_content_z = zlib.compress(self.story_original_content) self.story_original_content = None self.story_hash = self.feed_guid_hash return super(MStarredStory, self).save(*args, **kwargs) @classmethod def find_stories(cls, query, user_id, tag=None, offset=0, limit=25, order="newest"): stories_db = cls.objects( Q(user_id=user_id) & (Q(story_title__icontains=query) | Q(story_author_name__icontains=query) | Q(story_tags__icontains=query)) ) if tag: stories_db = stories_db.filter(user_tags__contains=tag) stories_db = stories_db.order_by('%sstarred_date' % ('-' if order == "newest" else ""))[offset:offset+limit] stories = Feed.format_stories(stories_db) return stories @classmethod def find_stories_by_user_tag(cls, user_tag, user_id, offset=0, limit=25): stories_db = cls.objects( Q(user_id=user_id), Q(user_tags__icontains=user_tag) ).order_by('-starred_date')[offset:offset+limit] stories = Feed.format_stories(stories_db) return stories @classmethod def trim_old_stories(cls, stories=10, days=60, dryrun=False): print " ---> Fetching starred story counts..." stats = settings.MONGODB.newsblur.starred_stories.aggregate([{ "$group": { "_id": "$user_id", "stories": {"$sum": 1}, }, }, { "$match": { "stories": {"$gte": stories} }, }]) month_ago = datetime.datetime.now() - datetime.timedelta(days=days) user_ids = stats['result'] user_ids = sorted(user_ids, key=lambda x:x['stories'], reverse=True) print " ---> Found %s users with more than %s starred stories" % (len(user_ids), stories) total = 0 for stat in user_ids: try: user = User.objects.select_related('profile').get(pk=stat['_id']) except User.DoesNotExist: user = None if user and (user.profile.is_premium or user.profile.last_seen_on > month_ago): continue total += stat['stories'] username = "%s (%s)" % (user and user.username or " - ", stat['_id']) print " ---> %19.19s: %-20.20s %s stories" % (user and user.profile.last_seen_on or "Deleted", username, stat['stories']) if not dryrun and stat['_id']: cls.objects.filter(user_id=stat['_id']).delete() print " ---> Deleted %s stories in total." % total @property def guid_hash(self): return hashlib.sha1(self.story_guid).hexdigest()[:6] @property def feed_guid_hash(self): return "%s:%s" % (self.story_feed_id or "0", self.guid_hash) def fetch_original_text(self, force=False, request=None, debug=False): original_text_z = self.original_text_z feed = Feed.get_by_id(self.story_feed_id) if not original_text_z or force: ti = TextImporter(self, feed=feed, request=request, debug=debug) original_text = ti.fetch() else: logging.user(request, "~FYFetching ~FGoriginal~FY story text, ~SBfound.") original_text = zlib.decompress(original_text_z) return original_text class MStarredStoryCounts(mongo.Document): user_id = mongo.IntField() tag = mongo.StringField(max_length=128) feed_id = mongo.IntField() slug = mongo.StringField(max_length=128) count = mongo.IntField(default=0) meta = { 'collection': 'starred_stories_counts', 'indexes': ['user_id'], 'ordering': ['tag'], 'allow_inheritance': False, } @property def rss_url(self, secret_token=None): if self.feed_id: return if not secret_token: user = User.objects.select_related('profile').get(pk=self.user_id) secret_token = user.profile.secret_token slug = self.slug if self.slug else "" return "%s/reader/starred_rss/%s/%s/%s" % (settings.NEWSBLUR_URL, self.user_id, secret_token, slug) @classmethod def user_counts(cls, user_id, include_total=False, try_counting=True): counts = cls.objects.filter(user_id=user_id) counts = sorted([{'tag': c.tag, 'count': c.count, 'feed_address': c.rss_url, 'feed_id': c.feed_id} for c in counts], key=lambda x: (x.get('tag', '') or '').lower()) total = 0 feed_total = 0 for c in counts: if not c['tag'] and not c['feed_id']: total = c['count'] if c['feed_id']: feed_total += c['count'] if try_counting and (total != feed_total or not len(counts)): user = User.objects.get(pk=user_id) logging.user(user, "~FC~SBCounting~SN saved stories (%s total vs. %s counted)..." % (total, feed_total)) cls.count_for_user(user_id) return cls.user_counts(user_id, include_total=include_total, try_counting=False) if include_total: return counts, total return counts @classmethod def schedule_count_tags_for_user(cls, user_id): ScheduleCountTagsForUser.apply_async(kwargs=dict(user_id=user_id)) @classmethod def count_for_user(cls, user_id, total_only=False): user_tags = [] user_feeds = [] if not total_only: cls.objects(user_id=user_id).delete() user_tags = cls.count_tags_for_user(user_id) user_feeds = cls.count_feeds_for_user(user_id) total_stories_count = MStarredStory.objects(user_id=user_id).count() cls.objects(user_id=user_id, tag=None, feed_id=None).update_one(set__count=total_stories_count, upsert=True) return dict(total=total_stories_count, tags=user_tags, feeds=user_feeds) @classmethod def count_tags_for_user(cls, user_id): all_tags = MStarredStory.objects(user_id=user_id, user_tags__exists=True).item_frequencies('user_tags') user_tags = sorted([(k, v) for k, v in all_tags.items() if int(v) > 0 and k], key=lambda x: x[0].lower(), reverse=True) for tag, count in dict(user_tags).items(): cls.objects(user_id=user_id, tag=tag, slug=slugify(tag)).update_one(set__count=count, upsert=True) return user_tags @classmethod def count_feeds_for_user(cls, user_id): all_feeds = MStarredStory.objects(user_id=user_id).item_frequencies('story_feed_id') user_feeds = dict([(k, v) for k, v in all_feeds.items() if v]) # Clean up None'd and 0'd feed_ids, so they can be counted against the total if user_feeds.get(None, False): user_feeds[0] = user_feeds.get(0, 0) user_feeds[0] += user_feeds.get(None) del user_feeds[None] if user_feeds.get(0, False): user_feeds[-1] = user_feeds.get(0, 0) del user_feeds[0] for feed_id, count in user_feeds.items(): cls.objects(user_id=user_id, feed_id=feed_id, slug="feed:%s" % feed_id).update_one(set__count=count, upsert=True) return user_feeds @classmethod def adjust_count(cls, user_id, feed_id=None, tag=None, amount=0): params = dict(user_id=user_id) if feed_id: params['feed_id'] = feed_id if tag: params['tag'] = tag cls.objects(**params).update_one(inc__count=amount, upsert=True) try: story_count = cls.objects.get(**params) except cls.MultipleObjectsReturned: story_count = cls.objects(**params).first() if story_count and story_count.count <= 0: story_count.delete() class MFetchHistory(mongo.Document): feed_id = mongo.IntField(unique=True) feed_fetch_history = mongo.DynamicField() page_fetch_history = mongo.DynamicField() push_history = mongo.DynamicField() meta = { 'db_alias': 'nbanalytics', 'collection': 'fetch_history', 'allow_inheritance': False, } @classmethod def feed(cls, feed_id, timezone=None, fetch_history=None): if not fetch_history: try: fetch_history = cls.objects.read_preference(pymongo.ReadPreference.PRIMARY)\ .get(feed_id=feed_id) except cls.DoesNotExist: fetch_history = cls.objects.create(feed_id=feed_id) history = {} for fetch_type in ['feed_fetch_history', 'page_fetch_history', 'push_history']: history[fetch_type] = getattr(fetch_history, fetch_type) if not history[fetch_type]: history[fetch_type] = [] for f, fetch in enumerate(history[fetch_type]): date_key = 'push_date' if fetch_type == 'push_history' else 'fetch_date' history[fetch_type][f] = { date_key: localtime_for_timezone(fetch[0], timezone).strftime("%Y-%m-%d %H:%M:%S"), 'status_code': fetch[1], 'message': fetch[2] } return history @classmethod def add(cls, feed_id, fetch_type, date=None, message=None, code=None, exception=None): if not date: date = datetime.datetime.now() try: fetch_history = cls.objects.read_preference(pymongo.ReadPreference.PRIMARY)\ .get(feed_id=feed_id) except cls.DoesNotExist: fetch_history = cls.objects.create(feed_id=feed_id) if fetch_type == 'feed': history = fetch_history.feed_fetch_history or [] elif fetch_type == 'page': history = fetch_history.page_fetch_history or [] elif fetch_type == 'push': history = fetch_history.push_history or [] history = [[date, code, message]] + history if code and code >= 400: history = history[:50] else: history = history[:5] if fetch_type == 'feed': fetch_history.feed_fetch_history = history elif fetch_type == 'page': fetch_history.page_fetch_history = history elif fetch_type == 'push': fetch_history.push_history = history fetch_history.save() if fetch_type == 'feed': RStats.add('feed_fetch') return cls.feed(feed_id, fetch_history=fetch_history) class DuplicateFeed(models.Model): duplicate_address = models.CharField(max_length=764, db_index=True) duplicate_link = models.CharField(max_length=764, null=True, db_index=True) duplicate_feed_id = models.CharField(max_length=255, null=True, db_index=True) feed = models.ForeignKey(Feed, related_name='duplicate_addresses') def __unicode__(self): return "%s: %s / %s" % (self.feed, self.duplicate_address, self.duplicate_link) def canonical(self): return { 'duplicate_address': self.duplicate_address, 'duplicate_link': self.duplicate_link, 'duplicate_feed_id': self.duplicate_feed_id, 'feed_id': self.feed_id } def save(self, *args, **kwargs): max_address = DuplicateFeed._meta.get_field('duplicate_address').max_length if len(self.duplicate_address) > max_address: self.duplicate_address = self.duplicate_address[:max_address] max_link = DuplicateFeed._meta.get_field('duplicate_link').max_length if self.duplicate_link and len(self.duplicate_link) > max_link: self.duplicate_link = self.duplicate_link[:max_link] super(DuplicateFeed, self).save(*args, **kwargs) def merge_feeds(original_feed_id, duplicate_feed_id, force=False): from apps.reader.models import UserSubscription from apps.social.models import MSharedStory if original_feed_id == duplicate_feed_id: logging.info(" ***> Merging the same feed. Ignoring...") return original_feed_id try: original_feed = Feed.objects.get(pk=original_feed_id) duplicate_feed = Feed.objects.get(pk=duplicate_feed_id) except Feed.DoesNotExist: logging.info(" ***> Already deleted feed: %s" % duplicate_feed_id) return original_feed_id heavier_dupe = original_feed.num_subscribers < duplicate_feed.num_subscribers branched_original = original_feed.branch_from_feed if (heavier_dupe or branched_original) and not force: original_feed, duplicate_feed = duplicate_feed, original_feed original_feed_id, duplicate_feed_id = duplicate_feed_id, original_feed_id if branched_original: original_feed.feed_address = duplicate_feed.feed_address logging.info(" ---> Feed: [%s - %s] %s - %s" % (original_feed_id, duplicate_feed_id, original_feed, original_feed.feed_link)) logging.info(" Orig ++> %s: (%s subs) %s / %s %s" % (original_feed.pk, original_feed.num_subscribers, original_feed.feed_address, original_feed.feed_link, " [B: %s]" % original_feed.branch_from_feed.pk if original_feed.branch_from_feed else "")) logging.info(" Dupe --> %s: (%s subs) %s / %s %s" % (duplicate_feed.pk, duplicate_feed.num_subscribers, duplicate_feed.feed_address, duplicate_feed.feed_link, " [B: %s]" % duplicate_feed.branch_from_feed.pk if duplicate_feed.branch_from_feed else "")) original_feed.branch_from_feed = None user_subs = UserSubscription.objects.filter(feed=duplicate_feed).order_by('-pk') for user_sub in user_subs: user_sub.switch_feed(original_feed, duplicate_feed) def delete_story_feed(model, feed_field='feed_id'): duplicate_stories = model.objects(**{feed_field: duplicate_feed.pk}) # if duplicate_stories.count(): # logging.info(" ---> Deleting %s %s" % (duplicate_stories.count(), model)) duplicate_stories.delete() delete_story_feed(MStory, 'story_feed_id') delete_story_feed(MFeedPage, 'feed_id') try: DuplicateFeed.objects.create( duplicate_address=duplicate_feed.feed_address, duplicate_link=duplicate_feed.feed_link, duplicate_feed_id=duplicate_feed.pk, feed=original_feed ) except (IntegrityError, OperationError), e: logging.info(" ***> Could not save DuplicateFeed: %s" % e) # Switch this dupe feed's dupe feeds over to the new original. duplicate_feeds_duplicate_feeds = DuplicateFeed.objects.filter(feed=duplicate_feed) for dupe_feed in duplicate_feeds_duplicate_feeds: dupe_feed.feed = original_feed dupe_feed.duplicate_feed_id = duplicate_feed.pk dupe_feed.save() logging.debug(' ---> Dupe subscribers (%s): %s, Original subscribers (%s): %s' % (duplicate_feed.pk, duplicate_feed.num_subscribers, original_feed.pk, original_feed.num_subscribers)) if duplicate_feed.pk != original_feed.pk: duplicate_feed.delete() else: logging.debug(" ***> Duplicate feed is the same as original feed. Panic!") logging.debug(' ---> Deleted duplicate feed: %s/%s' % (duplicate_feed, duplicate_feed_id)) original_feed.branch_from_feed = None original_feed.count_subscribers() original_feed.save() logging.debug(' ---> Now original subscribers: %s' % (original_feed.num_subscribers)) MSharedStory.switch_feed(original_feed_id, duplicate_feed_id) return original_feed_id def rewrite_folders(folders, original_feed, duplicate_feed): new_folders = [] for k, folder in enumerate(folders): if isinstance(folder, int): if folder == duplicate_feed.pk: # logging.info(" ===> Rewrote %s'th item: %s" % (k+1, folders)) new_folders.append(original_feed.pk) else: new_folders.append(folder) elif isinstance(folder, dict): for f_k, f_v in folder.items(): new_folders.append({f_k: rewrite_folders(f_v, original_feed, duplicate_feed)}) return new_folders