# See https://zulip.readthedocs.io/en/latest/subsystems/notifications.html import math import re from collections import defaultdict from datetime import timedelta from email.headerregistry import Address from typing import Any, Dict, Iterable, List, Optional, Tuple import html2text import lxml.html import pytz from bs4 import BeautifulSoup from django.conf import settings from django.contrib.auth import get_backends from django.utils.timezone import now as timezone_now from django.utils.translation import gettext as _ from django.utils.translation import override as override_language from lxml.cssselect import CSSSelector from confirmation.models import one_click_unsubscribe_link from zerver.decorator import statsd_increment from zerver.lib.markdown.fenced_code import FENCE_RE from zerver.lib.message import bulk_access_messages from zerver.lib.queue import queue_json_publish from zerver.lib.send_email import FromAddress, send_future_email from zerver.lib.types import DisplayRecipientT from zerver.lib.url_encoding import ( huddle_narrow_url, personal_narrow_url, stream_narrow_url, topic_narrow_url, ) from zerver.lib.user_groups import access_user_group_by_id, get_user_group_members from zerver.models import ( Message, Recipient, Stream, UserMessage, UserProfile, get_context_for_message, get_display_recipient, get_user_profile_by_id, receives_offline_email_notifications, ) def relative_to_full_url(base_url: str, content: str) -> str: # Convert relative URLs to absolute URLs. fragment = lxml.html.fromstring(content) # We handle narrow URLs separately because of two reasons: # 1: 'lxml' seems to be having an issue in dealing with URLs that begin # `#` due to which it doesn't add a `/` before joining the base_url to # the relative URL. # 2: We also need to update the title attribute in the narrow links which # is not possible with `make_links_absolute()`. for link_info in fragment.iterlinks(): elem, attrib, link, pos = link_info match = re.match("/?#narrow/", link) if match is not None: link = re.sub(r"^/?#narrow/", base_url + "/#narrow/", link) elem.set(attrib, link) # Only manually linked narrow URLs have title attribute set. if elem.get("title") is not None: elem.set("title", link) # Inline images can't be displayed in the emails as the request # from the mail server can't be authenticated because it has no # user_profile object linked to it. So we scrub the inline image # container. inline_image_containers = fragment.find_class("message_inline_image") for container in inline_image_containers: container.drop_tree() # The previous block handles most inline images, but for messages # where the entire Markdown input was just the URL of an image # (i.e. the entire body is a message_inline_image object), the # entire message body will be that image element; here, we need a # more drastic edit to the content. if fragment.get("class") == "message_inline_image": image_link = fragment.find("a").get("href") image_title = fragment.find("a").get("title") fragment = lxml.html.Element("p") a = lxml.html.Element("a") a.set("href", image_link) a.set("target", "_blank") a.set("title", image_title) a.text = image_link fragment.append(a) fragment.make_links_absolute(base_url) content = lxml.html.tostring(fragment, encoding="unicode") return content def fix_emojis(content: str, base_url: str, emojiset: str) -> str: def make_emoji_img_elem(emoji_span_elem: CSSSelector) -> Dict[str, Any]: # Convert the emoji spans to img tags. classes = emoji_span_elem.get("class") match = re.search(r"emoji-(?P\S+)", classes) # re.search is capable of returning None, # but since the parent function should only be called with a valid css element # we assert that it does not. assert match is not None emoji_code = match.group("emoji_code") emoji_name = emoji_span_elem.get("title") alt_code = emoji_span_elem.text image_url = base_url + f"/static/generated/emoji/images-{emojiset}-64/{emoji_code}.png" img_elem = lxml.html.fromstring( f'{alt_code}' ) img_elem.set("style", "height: 20px;") img_elem.tail = emoji_span_elem.tail return img_elem fragment = lxml.html.fromstring(content) for elem in fragment.cssselect("span.emoji"): parent = elem.getparent() img_elem = make_emoji_img_elem(elem) parent.replace(elem, img_elem) for realm_emoji in fragment.cssselect(".emoji"): del realm_emoji.attrib["class"] realm_emoji.set("style", "height: 20px;") content = lxml.html.tostring(fragment, encoding="unicode") return content def fix_spoilers_in_html(content: str, language: str) -> str: with override_language(language): spoiler_title: str = _("Open Zulip to see the spoiler content") fragment = lxml.html.fromstring(content) spoilers = fragment.find_class("spoiler-block") for spoiler in spoilers: header = spoiler.find_class("spoiler-header")[0] spoiler_content = spoiler.find_class("spoiler-content")[0] header_content = header.find("p") if header_content is None: # Create a new element to append the spoiler to) header_content = lxml.html.fromstring("

") header.append(header_content) else: # Add a space. Its simpler to append a new span element than # inserting text after the last node ends since neither .text # and .tail do the right thing for us. header_content.append(lxml.html.fromstring(" ")) span_elem = lxml.html.fromstring( f'({spoiler_title}) str: with override_language(language): spoiler_title: str = _("Open Zulip to see the spoiler content") lines = content.split("\n") output = [] open_fence = None for line in lines: m = FENCE_RE.match(line) if m: fence = m.group("fence") lang = m.group("lang") if lang == "spoiler": open_fence = fence output.append(line) output.append(f"({spoiler_title})") elif fence == open_fence: open_fence = None output.append(line) elif not open_fence: output.append(line) return "\n".join(output) def build_message_list( user: UserProfile, messages: List[Message], stream_map: Dict[int, Stream], # only needs id, name ) -> List[Dict[str, Any]]: """ Builds the message list object for the message notification email template. The messages are collapsed into per-recipient and per-sender blocks, like our web interface """ messages_to_render: List[Dict[str, Any]] = [] def sender_string(message: Message) -> str: if message.recipient.type in (Recipient.STREAM, Recipient.HUDDLE): return message.sender.full_name else: return "" def fix_plaintext_image_urls(content: str) -> str: # Replace image URLs in plaintext content of the form # [image name](image url) # with a simple hyperlink. return re.sub(r"\[(\S*)\]\((\S*)\)", r"\2", content) def append_sender_to_message( message_plain: str, message_html: str, sender: str ) -> Tuple[str, str]: message_plain = f"{sender}: {message_plain}" message_soup = BeautifulSoup(message_html, "html.parser") sender_name_soup = BeautifulSoup(f"{sender}: ", "html.parser") first_tag = message_soup.find() if first_tag.name == "p": first_tag.insert(0, sender_name_soup) else: message_soup.insert(0, sender_name_soup) return message_plain, str(message_soup) def build_message_payload(message: Message, sender: Optional[str] = None) -> Dict[str, str]: plain = message.content plain = fix_plaintext_image_urls(plain) # There's a small chance of colliding with non-Zulip URLs containing # "/user_uploads/", but we don't have much information about the # structure of the URL to leverage. We can't use `relative_to_full_url()` # function here because it uses a stricter regex which will not work for # plain text. plain = re.sub(r"/user_uploads/(\S*)", user.realm.uri + r"/user_uploads/\1", plain) plain = fix_spoilers_in_text(plain, user.default_language) assert message.rendered_content is not None html = message.rendered_content html = relative_to_full_url(user.realm.uri, html) html = fix_emojis(html, user.realm.uri, user.emojiset) html = fix_spoilers_in_html(html, user.default_language) if sender: plain, html = append_sender_to_message(plain, html, sender) return {"plain": plain, "html": html} def build_sender_payload(message: Message) -> Dict[str, Any]: sender = sender_string(message) return {"sender": sender, "content": [build_message_payload(message, sender)]} def message_header(message: Message) -> Dict[str, Any]: if message.recipient.type == Recipient.PERSONAL: narrow_link = get_narrow_url(user, message) header = f"You and {message.sender.full_name}" header_html = f"{header}" elif message.recipient.type == Recipient.HUDDLE: display_recipient = get_display_recipient(message.recipient) assert not isinstance(display_recipient, str) narrow_link = get_narrow_url(user, message, display_recipient=display_recipient) other_recipients = [r["full_name"] for r in display_recipient if r["id"] != user.id] header = "You and {}".format(", ".join(other_recipients)) header_html = f"{header}" else: stream_id = message.recipient.type_id stream = stream_map.get(stream_id, None) if stream is None: # Some of our callers don't populate stream_map, so # we just populate the stream from the database. stream = Stream.objects.only("id", "name").get(id=stream_id) narrow_link = get_narrow_url(user, message, stream=stream) header = f"{stream.name} > {message.topic_name()}" stream_link = stream_narrow_url(user.realm, stream) header_html = f"{stream.name} > {message.topic_name()}" return { "plain": header, "html": header_html, "stream_message": message.recipient.type_name() == "stream", } # # Collapse message list to # [ # { # "header": { # "plain":"header", # "html":"htmlheader" # } # "senders":[ # { # "sender":"sender_name", # "content":[ # { # "plain":"content", # "html":"htmlcontent" # } # { # "plain":"content", # "html":"htmlcontent" # } # ] # } # ] # }, # ] messages.sort(key=lambda message: message.date_sent) for message in messages: header = message_header(message) # If we want to collapse into the previous recipient block if len(messages_to_render) > 0 and messages_to_render[-1]["header"] == header: sender = sender_string(message) sender_block = messages_to_render[-1]["senders"] # Same message sender, collapse again if sender_block[-1]["sender"] == sender: sender_block[-1]["content"].append(build_message_payload(message)) else: # Start a new sender block sender_block.append(build_sender_payload(message)) else: # New recipient and sender block recipient_block = {"header": header, "senders": [build_sender_payload(message)]} messages_to_render.append(recipient_block) return messages_to_render def get_narrow_url( user_profile: UserProfile, message: Message, display_recipient: Optional[DisplayRecipientT] = None, stream: Optional[Stream] = None, ) -> str: """The display_recipient and stream arguments are optional. If not provided, we'll compute them from the message; they exist as a performance optimization for cases where the caller needs those data too. """ if message.recipient.type == Recipient.PERSONAL: assert stream is None assert display_recipient is None return personal_narrow_url( realm=user_profile.realm, sender=message.sender, ) elif message.recipient.type == Recipient.HUDDLE: assert stream is None if display_recipient is None: display_recipient = get_display_recipient(message.recipient) assert display_recipient is not None assert not isinstance(display_recipient, str) other_user_ids = [r["id"] for r in display_recipient if r["id"] != user_profile.id] return huddle_narrow_url( realm=user_profile.realm, other_user_ids=other_user_ids, ) else: assert display_recipient is None if stream is None: stream = Stream.objects.only("id", "name").get(id=message.recipient.type_id) return topic_narrow_url(user_profile.realm, stream, message.topic_name()) def get_mentioned_user_group_name( messages: List[Dict[str, Any]], user_profile: UserProfile ) -> Optional[str]: """Returns the user group name to display in the email notification if user group(s) are mentioned. This implements the same algorithm as get_user_group_mentions_data in zerver/lib/notification_data.py, but we're passed a list of messages instead. """ for message in messages: if message["mentioned_user_group_id"] is None and message["trigger"] == "mentioned": # The user has also been personally mentioned, so that gets prioritized. return None # These IDs are those of the smallest user groups mentioned in each message. mentioned_user_group_ids = [ message["mentioned_user_group_id"] for message in messages if message["mentioned_user_group_id"] is not None ] # We now want to calculate the name of the smallest user group mentioned among # all these messages. smallest_user_group_size = math.inf smallest_user_group_name = None for user_group_id in mentioned_user_group_ids: current_user_group = access_user_group_by_id(user_group_id, user_profile) current_user_group_size = len(get_user_group_members(current_user_group)) if current_user_group_size < smallest_user_group_size: # If multiple user groups are mentioned, we prefer the # user group with the least members. smallest_user_group_size = current_user_group_size smallest_user_group_name = current_user_group.name return smallest_user_group_name def message_content_allowed_in_missedmessage_emails(user_profile: UserProfile) -> bool: return ( user_profile.realm.message_content_allowed_in_email_notifications and user_profile.message_content_in_email_notifications ) @statsd_increment("missed_message_reminders") def do_send_missedmessage_events_reply_in_zulip( user_profile: UserProfile, missed_messages: List[Dict[str, Any]], message_count: int ) -> None: """ Send a reminder email to a user if she's missed some PMs by being offline. The email will have its reply to address set to a limited used email address that will send a Zulip message to the correct recipient. This allows the user to respond to missed PMs, huddles, and @-mentions directly from the email. `user_profile` is the user to send the reminder to `missed_messages` is a list of dictionaries to Message objects and other data for a group of messages that share a recipient (and topic) """ from zerver.context_processors import common_context recipients = { (msg["message"].recipient_id, msg["message"].topic_name()) for msg in missed_messages } if len(recipients) != 1: raise ValueError( f"All missed_messages must have the same recipient and topic {recipients!r}", ) # This link is no longer a part of the email, but keeping the code in case # we find a clean way to add it back in the future unsubscribe_link = one_click_unsubscribe_link(user_profile, "missed_messages") context = common_context(user_profile) context.update( name=user_profile.full_name, message_count=message_count, unsubscribe_link=unsubscribe_link, realm_name_in_notifications=user_profile.realm_name_in_notifications, ) mentioned_user_group_name = get_mentioned_user_group_name(missed_messages, user_profile) triggers = [message["trigger"] for message in missed_messages] unique_triggers = set(triggers) context.update( mention="mentioned" in unique_triggers or "wildcard_mentioned" in unique_triggers, stream_email_notify="stream_email_notify" in unique_triggers, mention_count=triggers.count("mentioned") + triggers.count("wildcard_mentioned"), mentioned_user_group_name=mentioned_user_group_name, ) # If this setting (email mirroring integration) is enabled, only then # can users reply to email to send message to Zulip. Thus, one must # ensure to display warning in the template. if settings.EMAIL_GATEWAY_PATTERN: context.update( reply_to_zulip=True, ) else: context.update( reply_to_zulip=False, ) from zerver.lib.email_mirror import create_missed_message_address reply_to_address = create_missed_message_address(user_profile, missed_messages[0]["message"]) if reply_to_address == FromAddress.NOREPLY: reply_to_name = "" else: reply_to_name = "Zulip" narrow_url = get_narrow_url(user_profile, missed_messages[0]["message"]) context.update( narrow_url=narrow_url, ) senders = list({m["message"].sender for m in missed_messages}) if missed_messages[0]["message"].recipient.type == Recipient.HUDDLE: display_recipient = get_display_recipient(missed_messages[0]["message"].recipient) # Make sure that this is a list of strings, not a string. assert not isinstance(display_recipient, str) other_recipients = [r["full_name"] for r in display_recipient if r["id"] != user_profile.id] context.update(group_pm=True) if len(other_recipients) == 2: huddle_display_name = " and ".join(other_recipients) context.update(huddle_display_name=huddle_display_name) elif len(other_recipients) == 3: huddle_display_name = ( f"{other_recipients[0]}, {other_recipients[1]}, and {other_recipients[2]}" ) context.update(huddle_display_name=huddle_display_name) else: huddle_display_name = "{}, and {} others".format( ", ".join(other_recipients[:2]), len(other_recipients) - 2 ) context.update(huddle_display_name=huddle_display_name) elif missed_messages[0]["message"].recipient.type == Recipient.PERSONAL: context.update(private_message=True) elif context["mention"] or context["stream_email_notify"]: # Keep only the senders who actually mentioned the user if context["mention"]: senders = list( { m["message"].sender for m in missed_messages if m["trigger"] == "mentioned" or m["trigger"] == "wildcard_mentioned" } ) message = missed_messages[0]["message"] stream = Stream.objects.only("id", "name").get(id=message.recipient.type_id) stream_header = f"{stream.name} > {message.topic_name()}" context.update( stream_header=stream_header, ) else: raise AssertionError("Invalid messages!") # If message content is disabled, then flush all information we pass to email. if not message_content_allowed_in_missedmessage_emails(user_profile): realm = user_profile.realm context.update( reply_to_zulip=False, messages=[], sender_str="", realm_str=realm.name, huddle_display_name="", show_message_content=False, message_content_disabled_by_user=not user_profile.message_content_in_email_notifications, message_content_disabled_by_realm=not realm.message_content_allowed_in_email_notifications, ) else: context.update( messages=build_message_list( user=user_profile, messages=[m["message"] for m in missed_messages], stream_map={}, ), sender_str=", ".join(sender.full_name for sender in senders), realm_str=user_profile.realm.name, show_message_content=True, ) with override_language(user_profile.default_language): from_name: str = _("Zulip notifications") from_address = FromAddress.NOREPLY if len(senders) == 1 and settings.SEND_MISSED_MESSAGE_EMAILS_AS_USER: # If this setting is enabled, you can reply to the Zulip # message notification emails directly back to the original sender. # However, one must ensure the Zulip server is in the SPF # record for the domain, or there will be spam/deliverability # problems. # # Also, this setting is not really compatible with # EMAIL_ADDRESS_VISIBILITY_ADMINS. sender = senders[0] from_name, from_address = (sender.full_name, sender.email) context.update( reply_to_zulip=False, ) email_dict = { "template_prefix": "zerver/emails/missed_message", "to_user_ids": [user_profile.id], "from_name": from_name, "from_address": from_address, "reply_to_email": str(Address(display_name=reply_to_name, addr_spec=reply_to_address)), "context": context, } queue_json_publish("email_senders", email_dict) user_profile.last_reminder = timezone_now() user_profile.save(update_fields=["last_reminder"]) def handle_missedmessage_emails( user_profile_id: int, missed_email_events: Iterable[Dict[str, Any]] ) -> None: message_ids = { event.get("message_id"): { "trigger": event.get("trigger"), "mentioned_user_group_id": event.get("mentioned_user_group_id"), } for event in missed_email_events } user_profile = get_user_profile_by_id(user_profile_id) if not receives_offline_email_notifications(user_profile): return # Note: This query structure automatically filters out any # messages that were permanently deleted, since those would now be # in the ArchivedMessage table, not the Message table. messages = Message.objects.filter( usermessage__user_profile_id=user_profile, id__in=message_ids, usermessage__flags=~UserMessage.flags.read, ) # Cancel missed-message emails for deleted messages messages = [um for um in messages if um.content != "(deleted)"] if not messages: return # We bucket messages by tuples that identify similar messages. # For streams it's recipient_id and topic. # For PMs it's recipient id and sender. messages_by_bucket: Dict[Tuple[int, str], List[Message]] = defaultdict(list) for msg in messages: if msg.recipient.type == Recipient.PERSONAL: # For PM's group using (recipient, sender). messages_by_bucket[(msg.recipient_id, msg.sender_id)].append(msg) else: messages_by_bucket[(msg.recipient_id, msg.topic_name())].append(msg) message_count_by_bucket = { bucket_tup: len(msgs) for bucket_tup, msgs in messages_by_bucket.items() } for msg_list in messages_by_bucket.values(): msg = min(msg_list, key=lambda msg: msg.date_sent) if msg.is_stream_message(): context_messages = get_context_for_message(msg) filtered_context_messages = bulk_access_messages(user_profile, context_messages) msg_list.extend(filtered_context_messages) # Sort emails by least recently-active discussion. bucket_tups: List[Tuple[Tuple[int, str], int]] = [] for bucket_tup, msg_list in messages_by_bucket.items(): max_message_id = max(msg_list, key=lambda msg: msg.id).id bucket_tups.append((bucket_tup, max_message_id)) bucket_tups = sorted(bucket_tups, key=lambda x: x[1]) # Send an email per bucket. for bucket_tup, ignored_max_id in bucket_tups: unique_messages = {} for m in messages_by_bucket[bucket_tup]: message_info = message_ids.get(m.id) unique_messages[m.id] = dict( message=m, trigger=message_info["trigger"] if message_info else None, mentioned_user_group_id=message_info.get("mentioned_user_group_id") if message_info is not None else None, ) do_send_missedmessage_events_reply_in_zulip( user_profile, list(unique_messages.values()), message_count_by_bucket[bucket_tup], ) def followup_day2_email_delay(user: UserProfile) -> timedelta: days_to_delay = 2 user_tz = user.timezone if user_tz == "": user_tz = "UTC" signup_day = user.date_joined.astimezone(pytz.timezone(user_tz)).isoweekday() if signup_day == 5: # If the day is Friday then delay should be till Monday days_to_delay = 3 elif signup_day == 4: # If the day is Thursday then delay should be till Friday days_to_delay = 1 # The delay should be 1 hour before the above calculated delay as # our goal is to maximize the chance that this email is near the top # of the user's inbox when the user sits down to deal with their inbox, # or comes in while they are dealing with their inbox. return timedelta(days=days_to_delay, hours=-1) def enqueue_welcome_emails(user: UserProfile, realm_creation: bool = False) -> None: from zerver.context_processors import common_context if settings.WELCOME_EMAIL_SENDER is not None: # line break to avoid triggering lint rule from_name = settings.WELCOME_EMAIL_SENDER["name"] from_address = settings.WELCOME_EMAIL_SENDER["email"] else: from_name = None from_address = FromAddress.support_placeholder other_account_count = ( UserProfile.objects.filter(delivery_email__iexact=user.delivery_email) .exclude(id=user.id) .count() ) unsubscribe_link = one_click_unsubscribe_link(user, "welcome") context = common_context(user) context.update( unsubscribe_link=unsubscribe_link, keyboard_shortcuts_link=user.realm.uri + "/help/keyboard-shortcuts", realm_name=user.realm.name, realm_creation=realm_creation, email=user.delivery_email, is_realm_admin=user.is_realm_admin, ) if user.is_realm_admin: context["getting_started_link"] = ( user.realm.uri + "/help/getting-your-organization-started-with-zulip" ) else: context["getting_started_link"] = "https://zulip.com" # Imported here to avoid import cycles. from zproject.backends import ZulipLDAPAuthBackend, email_belongs_to_ldap if email_belongs_to_ldap(user.realm, user.delivery_email): context["ldap"] = True for backend in get_backends(): # If the user is doing authentication via LDAP, Note that # we exclude ZulipLDAPUserPopulator here, since that # isn't used for authentication. if isinstance(backend, ZulipLDAPAuthBackend): context["ldap_username"] = backend.django_to_ldap_username(user.delivery_email) break send_future_email( "zerver/emails/followup_day1", user.realm, to_user_ids=[user.id], from_name=from_name, from_address=from_address, context=context, ) if other_account_count == 0: send_future_email( "zerver/emails/followup_day2", user.realm, to_user_ids=[user.id], from_name=from_name, from_address=from_address, context=context, delay=followup_day2_email_delay(user), ) def convert_html_to_markdown(html: str) -> str: parser = html2text.HTML2Text() markdown = parser.handle(html).strip() # We want images to get linked and inline previewed, but html2text will turn # them into links of the form `![](http://foo.com/image.png)`, which is # ugly. Run a regex over the resulting description, turning links of the # form `![](http://foo.com/image.png?12345)` into # `[image.png](http://foo.com/image.png)`. return re.sub("!\\[\\]\\((\\S*)/(\\S*)\\?(\\S*)\\)", "[\\2](\\1/\\2)", markdown)