zulip/zerver/views/messages.py

1181 lines
54 KiB
Python
Raw Normal View History

from django.utils.translation import ugettext as _
from django.utils.timezone import now as timezone_now
from django.conf import settings
from django.core import validators
from django.core.exceptions import ValidationError
from django.db import connection
from django.http import HttpRequest, HttpResponse
from typing import Dict, List, Set, Text, Any, Callable, Iterable, \
Optional, Tuple, Union
from zerver.lib.exceptions import JsonableError, ErrorCode
from zerver.lib.html_diff import highlight_html_differences
from zerver.decorator import has_request_variables, \
REQ, to_non_negative_int
from django.utils.html import escape as escape_html
from zerver.lib import bugdown
from zerver.lib.actions import recipient_for_emails, do_update_message_flags, \
compute_mit_user_fullname, compute_irc_user_fullname, compute_jabber_user_fullname, \
create_mirror_user_if_needed, check_send_message, do_update_message, \
extract_recipients, truncate_body, render_incoming_message, do_delete_message, \
do_mark_all_as_read, do_mark_stream_messages_as_read, get_user_info_for_message_updates
from zerver.lib.queue import queue_json_publish
from zerver.lib.message import (
access_message,
2017-11-07 17:36:29 +01:00
messages_for_ids,
render_markdown,
)
from zerver.lib.response import json_success, json_error
from zerver.lib.sqlalchemy_utils import get_sqlalchemy_connection
from zerver.lib.streams import access_stream_by_id, is_public_stream_by_name
from zerver.lib.timestamp import datetime_to_timestamp
from zerver.lib.topic_mutes import exclude_topic_mutes
from zerver.lib.utils import statsd
from zerver.lib.validator import \
check_list, check_int, check_dict, check_string, check_bool
from zerver.models import Message, UserProfile, Stream, Subscription, \
2017-10-28 21:31:21 +02:00
Realm, RealmDomain, Recipient, UserMessage, bulk_get_recipients, get_personal_recipient, \
get_stream, email_to_domain, get_realm, get_active_streams, \
get_user_including_cross_realm, get_stream_recipient
from sqlalchemy import func
from sqlalchemy.sql import select, join, column, literal_column, literal, and_, \
or_, not_, union_all, alias, Selectable, Select, ColumnElement, table
import re
import ujson
import datetime
LARGER_THAN_MAX_MESSAGE_ID = 10000000000000000
class BadNarrowOperator(JsonableError):
code = ErrorCode.BAD_NARROW
data_fields = ['desc']
def __init__(self, desc: str) -> None:
self.desc = desc # type: str
@staticmethod
def msg_format() -> str:
return _('Invalid narrow operator: {desc}')
# TODO: Should be Select, but sqlalchemy stubs are busted
Query = Any
# TODO: should be Callable[[ColumnElement], ColumnElement], but sqlalchemy stubs are busted
ConditionTransform = Any
# When you add a new operator to this, also update zerver/lib/narrow.py
class NarrowBuilder:
'''
Build up a SQLAlchemy query to find messages matching a narrow.
'''
# This class has an important security invariant:
#
# None of these methods ever *add* messages to a query's result.
#
# That is, the `add_term` method, and its helpers the `by_*` methods,
# are passed a Query object representing a query for messages; they may
# call some methods on it, and then they return a resulting Query
# object. Things these methods may do to the queries they handle
# include
# * add conditions to filter out rows (i.e., messages), with `query.where`
# * add columns for more information on the same message, with `query.column`
# * add a join for more information on the same message
#
# Things they may not do include
# * anything that would pull in additional rows, or information on
# other messages.
def __init__(self, user_profile: UserProfile, msg_id_column: str) -> None:
self.user_profile = user_profile
self.msg_id_column = msg_id_column
self.user_realm = user_profile.realm
def add_term(self, query: Query, term: Dict[str, Any]) -> Query:
"""
Extend the given query to one narrowed by the given term, and return the result.
This method satisfies an important security property: the returned
query never includes a message that the given query didn't. In
particular, if the given query will only find messages that a given
user can legitimately see, then so will the returned query.
"""
# To maintain the security property, we hold all the `by_*`
# methods to the same criterion. See the class's block comment
# for details.
# We have to be careful here because we're letting users call a method
# by name! The prefix 'by_' prevents it from colliding with builtin
# Python __magic__ stuff.
operator = term['operator']
operand = term['operand']
negated = term.get('negated', False)
method_name = 'by_' + operator.replace('-', '_')
method = getattr(self, method_name, None)
if method is None:
raise BadNarrowOperator('unknown operator ' + operator)
if negated:
maybe_negate = not_
else:
maybe_negate = lambda cond: cond
return method(query, operand, maybe_negate)
def by_has(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
if operand not in ['attachment', 'image', 'link']:
raise BadNarrowOperator("unknown 'has' operand " + operand)
col_name = 'has_' + operand
cond = column(col_name)
return query.where(maybe_negate(cond))
def by_in(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
if operand == 'home':
conditions = exclude_muting_conditions(self.user_profile, [])
return query.where(and_(*conditions))
elif operand == 'all':
return query
raise BadNarrowOperator("unknown 'in' operand " + operand)
def by_is(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
if operand == 'private':
# The `.select_from` method extends the query with a join.
query = query.select_from(join(query.froms[0], table("zerver_recipient"),
column("recipient_id") ==
literal_column("zerver_recipient.id")))
cond = or_(column("type") == Recipient.PERSONAL,
column("type") == Recipient.HUDDLE)
return query.where(maybe_negate(cond))
elif operand == 'starred':
cond = column("flags").op("&")(UserMessage.flags.starred.mask) != 0
return query.where(maybe_negate(cond))
elif operand == 'unread':
cond = column("flags").op("&")(UserMessage.flags.read.mask) == 0
return query.where(maybe_negate(cond))
elif operand == 'mentioned':
cond1 = column("flags").op("&")(UserMessage.flags.mentioned.mask) != 0
cond2 = column("flags").op("&")(UserMessage.flags.wildcard_mentioned.mask) != 0
cond = or_(cond1, cond2)
return query.where(maybe_negate(cond))
elif operand == 'alerted':
cond = column("flags").op("&")(UserMessage.flags.has_alert_word.mask) != 0
return query.where(maybe_negate(cond))
raise BadNarrowOperator("unknown 'is' operand " + operand)
_alphanum = frozenset(
'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789')
def _pg_re_escape(self, pattern: Text) -> Text:
"""
Escape user input to place in a regex
Python's re.escape escapes unicode characters in a way which postgres
fails on, u'\u03bb' to u'\\\u03bb'. This function will correctly escape
them for postgres, u'\u03bb' to u'\\u03bb'.
"""
s = list(pattern)
for i, c in enumerate(s):
if c not in self._alphanum:
if ord(c) >= 128:
# convert the character to hex postgres regex will take
# \uXXXX
s[i] = '\\u{:0>4x}'.format(ord(c))
else:
s[i] = '\\' + c
return ''.join(s)
def by_stream(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
try:
# Because you can see your own message history for
# private streams you are no longer subscribed to, we
# need get_stream, not access_stream, here.
stream = get_stream(operand, self.user_profile.realm)
except Stream.DoesNotExist:
raise BadNarrowOperator('unknown stream ' + operand)
if self.user_profile.realm.is_zephyr_mirror_realm:
# MIT users expect narrowing to "social" to also show messages to
# /^(un)*social(.d)*$/ (unsocial, ununsocial, social.d, ...).
# In `ok_to_include_history`, we assume that a non-negated
# `stream` term for a public stream will limit the query to
# that specific stream. So it would be a bug to hit this
# codepath after relying on this term there. But all streams in
# a Zephyr realm are private, so that doesn't happen.
assert(not stream.is_public())
m = re.search(r'^(?:un)*(.+?)(?:\.d)*$', stream.name, re.IGNORECASE)
# Since the regex has a `.+` in it and "" is invalid as a
# stream name, this will always match
assert(m is not None)
base_stream_name = m.group(1)
matching_streams = get_active_streams(self.user_profile.realm).filter(
name__iregex=r'^(un)*%s(\.d)*$' % (self._pg_re_escape(base_stream_name),))
matching_stream_ids = [matching_stream.id for matching_stream in matching_streams]
recipients_map = bulk_get_recipients(Recipient.STREAM, matching_stream_ids)
cond = column("recipient_id").in_([recipient.id for recipient in recipients_map.values()])
return query.where(maybe_negate(cond))
recipient = get_stream_recipient(stream.id)
cond = column("recipient_id") == recipient.id
return query.where(maybe_negate(cond))
def by_topic(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
if self.user_profile.realm.is_zephyr_mirror_realm:
# MIT users expect narrowing to topic "foo" to also show messages to /^foo(.d)*$/
# (foo, foo.d, foo.d.d, etc)
m = re.search(r'^(.*?)(?:\.d)*$', operand, re.IGNORECASE)
# Since the regex has a `.*` in it, this will always match
assert(m is not None)
base_topic = m.group(1)
# Additionally, MIT users expect the empty instance and
# instance "personal" to be the same.
if base_topic in ('', 'personal', '(instance "")'):
cond = or_(
func.upper(column("subject")) == func.upper(literal("")),
func.upper(column("subject")) == func.upper(literal(".d")),
func.upper(column("subject")) == func.upper(literal(".d.d")),
func.upper(column("subject")) == func.upper(literal(".d.d.d")),
func.upper(column("subject")) == func.upper(literal(".d.d.d.d")),
func.upper(column("subject")) == func.upper(literal("personal")),
func.upper(column("subject")) == func.upper(literal("personal.d")),
func.upper(column("subject")) == func.upper(literal("personal.d.d")),
func.upper(column("subject")) == func.upper(literal("personal.d.d.d")),
func.upper(column("subject")) == func.upper(literal("personal.d.d.d.d")),
func.upper(column("subject")) == func.upper(literal('(instance "")')),
func.upper(column("subject")) == func.upper(literal('(instance "").d')),
func.upper(column("subject")) == func.upper(literal('(instance "").d.d')),
func.upper(column("subject")) == func.upper(literal('(instance "").d.d.d')),
func.upper(column("subject")) == func.upper(literal('(instance "").d.d.d.d')),
)
else:
# We limit `.d` counts, since postgres has much better
# query planning for this than they do for a regular
# expression (which would sometimes table scan).
cond = or_(
func.upper(column("subject")) == func.upper(literal(base_topic)),
func.upper(column("subject")) == func.upper(literal(base_topic + ".d")),
func.upper(column("subject")) == func.upper(literal(base_topic + ".d.d")),
func.upper(column("subject")) == func.upper(literal(base_topic + ".d.d.d")),
func.upper(column("subject")) == func.upper(literal(base_topic + ".d.d.d.d")),
)
return query.where(maybe_negate(cond))
cond = func.upper(column("subject")) == func.upper(literal(operand))
return query.where(maybe_negate(cond))
def by_sender(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
try:
sender = get_user_including_cross_realm(operand, self.user_realm)
except UserProfile.DoesNotExist:
raise BadNarrowOperator('unknown user ' + operand)
cond = column("sender_id") == literal(sender.id)
return query.where(maybe_negate(cond))
def by_near(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
return query
def by_id(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
cond = self.msg_id_column == literal(operand)
return query.where(maybe_negate(cond))
def by_pm_with(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
if ',' in operand:
# Huddle
try:
# Ignore our own email if it is in this list
emails = [e.strip() for e in operand.split(',') if e.strip() != self.user_profile.email]
recipient = recipient_for_emails(emails, False,
self.user_profile, self.user_profile)
except ValidationError:
raise BadNarrowOperator('unknown recipient ' + operand)
cond = column("recipient_id") == recipient.id
return query.where(maybe_negate(cond))
else:
# Personal message
2017-10-28 21:31:21 +02:00
self_recipient = get_personal_recipient(self.user_profile.id)
if operand == self.user_profile.email:
# Personals with self
cond = and_(column("sender_id") == self.user_profile.id,
column("recipient_id") == self_recipient.id)
return query.where(maybe_negate(cond))
# Personals with other user; include both directions.
try:
narrow_profile = get_user_including_cross_realm(operand, self.user_realm)
except UserProfile.DoesNotExist:
raise BadNarrowOperator('unknown user ' + operand)
2017-10-28 21:31:21 +02:00
narrow_recipient = get_personal_recipient(narrow_profile.id)
cond = or_(and_(column("sender_id") == narrow_profile.id,
column("recipient_id") == self_recipient.id),
and_(column("sender_id") == self.user_profile.id,
column("recipient_id") == narrow_recipient.id))
return query.where(maybe_negate(cond))
def by_group_pm_with(self, query: Query, operand: str,
maybe_negate: ConditionTransform) -> Query:
try:
narrow_profile = get_user_including_cross_realm(operand, self.user_realm)
except UserProfile.DoesNotExist:
raise BadNarrowOperator('unknown user ' + operand)
self_recipient_ids = [
recipient_tuple['recipient_id'] for recipient_tuple
in Subscription.objects.filter(
user_profile=self.user_profile,
recipient__type=Recipient.HUDDLE
).values("recipient_id")]
narrow_recipient_ids = [
recipient_tuple['recipient_id'] for recipient_tuple
in Subscription.objects.filter(
user_profile=narrow_profile,
recipient__type=Recipient.HUDDLE
).values("recipient_id")]
recipient_ids = set(self_recipient_ids) & set(narrow_recipient_ids)
cond = column("recipient_id").in_(recipient_ids)
return query.where(maybe_negate(cond))
def by_search(self, query: Query, operand: str, maybe_negate: ConditionTransform) -> Query:
if settings.USING_PGROONGA:
return self._by_search_pgroonga(query, operand, maybe_negate)
else:
return self._by_search_tsearch(query, operand, maybe_negate)
def _by_search_pgroonga(self, query: Query, operand: str,
maybe_negate: ConditionTransform) -> Query:
match_positions_character = func.pgroonga.match_positions_character
query_extract_keywords = func.pgroonga.query_extract_keywords
keywords = query_extract_keywords(operand)
query = query.column(match_positions_character(column("rendered_content"),
keywords).label("content_matches"))
query = query.column(match_positions_character(column("subject"),
keywords).label("subject_matches"))
condition = column("search_pgroonga").op("@@")(operand)
return query.where(maybe_negate(condition))
def _by_search_tsearch(self, query: Query, operand: str,
maybe_negate: ConditionTransform) -> Query:
tsquery = func.plainto_tsquery(literal("zulip.english_us_search"), literal(operand))
ts_locs_array = func.ts_match_locs_array
query = query.column(ts_locs_array(literal("zulip.english_us_search"),
column("rendered_content"),
tsquery).label("content_matches"))
# We HTML-escape the subject in Postgres to avoid doing a server round-trip
query = query.column(ts_locs_array(literal("zulip.english_us_search"),
func.escape_html(column("subject")),
tsquery).label("subject_matches"))
# Do quoted string matching. We really want phrase
# search here so we can ignore punctuation and do
# stemming, but there isn't a standard phrase search
# mechanism in Postgres
for term in re.findall('"[^"]+"|\S+', operand):
if term[0] == '"' and term[-1] == '"':
term = term[1:-1]
term = '%' + connection.ops.prep_for_like_query(term) + '%'
cond = or_(column("content").ilike(term),
column("subject").ilike(term))
query = query.where(maybe_negate(cond))
cond = column("search_tsvector").op("@@")(tsquery)
return query.where(maybe_negate(cond))
# The offsets we get from PGroonga are counted in characters
# whereas the offsets from tsearch_extras are in bytes, so we
# have to account for both cases in the logic below.
def highlight_string(text: Text, locs: Iterable[Tuple[int, int]]) -> Text:
highlight_start = u'<span class="highlight">'
highlight_stop = u'</span>'
pos = 0
result = ''
in_tag = False
text_utf8 = text.encode('utf8')
for loc in locs:
(offset, length) = loc
# These indexes are in byte space for tsearch,
# and they are in string space for pgroonga.
prefix_start = pos
prefix_end = offset
match_start = offset
match_end = offset + length
if settings.USING_PGROONGA:
prefix = text[prefix_start:prefix_end]
match = text[match_start:match_end]
else:
prefix = text_utf8[prefix_start:prefix_end].decode()
match = text_utf8[match_start:match_end].decode()
for character in (prefix + match):
if character == '<':
in_tag = True
elif character == '>':
in_tag = False
if in_tag:
result += prefix
result += match
else:
result += prefix
result += highlight_start
result += match
result += highlight_stop
pos = match_end
if settings.USING_PGROONGA:
final_frag = text[pos:]
else:
final_frag = text_utf8[pos:].decode()
result += final_frag
return result
def get_search_fields(rendered_content: Text, subject: Text, content_matches: Iterable[Tuple[int, int]],
subject_matches: Iterable[Tuple[int, int]]) -> Dict[str, Text]:
return dict(match_content=highlight_string(rendered_content, content_matches),
match_subject=highlight_string(escape_html(subject), subject_matches))
def narrow_parameter(json: str) -> Optional[List[Dict[str, Any]]]:
data = ujson.loads(json)
if not isinstance(data, list):
raise ValueError("argument is not a list")
if len(data) == 0:
# The "empty narrow" should be None, and not []
return None
def convert_term(elem: Union[Dict[str, Any], List[str]]) -> Dict[str, Any]:
# We have to support a legacy tuple format.
if isinstance(elem, list):
2017-01-24 05:50:04 +01:00
if (len(elem) != 2 or
any(not isinstance(x, str) and not isinstance(x, Text)
for x in elem)):
raise ValueError("element is not a string pair")
return dict(operator=elem[0], operand=elem[1])
if isinstance(elem, dict):
validator = check_dict([
('operator', check_string),
('operand', check_string),
])
error = validator('elem', elem)
if error:
raise JsonableError(error)
# whitelist the fields we care about for now
return dict(
operator=elem['operator'],
operand=elem['operand'],
negated=elem.get('negated', False),
)
raise ValueError("element is not a dictionary")
return list(map(convert_term, data))
def ok_to_include_history(narrow: Optional[Iterable[Dict[str, Any]]], realm: Realm) -> bool:
# There are occasions where we need to find Message rows that
# have no corresponding UserMessage row, because the user is
# reading a public stream that might include messages that
# were sent while the user was not subscribed, but which they are
# allowed to see. We have to be very careful about constructing
# queries in those situations, so this function should return True
# only if we are 100% sure that we're gonna add a clause to the
# query that narrows to a particular public stream on the user's realm.
# If we screw this up, then we can get into a nasty situation of
# polluting our narrow results with messages from other realms.
include_history = False
if narrow is not None:
for term in narrow:
if term['operator'] == "stream" and not term.get('negated', False):
if is_public_stream_by_name(term['operand'], realm):
include_history = True
# Disable historical messages if the user is narrowing on anything
# that's a property on the UserMessage table. There cannot be
# historical messages in these cases anyway.
for term in narrow:
if term['operator'] == "is":
include_history = False
return include_history
def get_stream_name_from_narrow(narrow: Optional[Iterable[Dict[str, Any]]]) -> Optional[Text]:
if narrow is not None:
for term in narrow:
if term['operator'] == 'stream':
return term['operand'].lower()
return None
def exclude_muting_conditions(user_profile: UserProfile,
narrow: Optional[Iterable[Dict[str, Any]]]) -> List[Selectable]:
conditions = []
stream_name = get_stream_name_from_narrow(narrow)
stream_id = None
if stream_name is not None:
try:
# Note that this code works around a lint rule that
# says we should use access_stream_by_name to get the
# stream. It is okay here, because we are only using
# the stream id to exclude data, not to include results.
stream_id = get_stream(stream_name, user_profile.realm).id
except Stream.DoesNotExist:
pass
if stream_id is None:
rows = Subscription.objects.filter(
user_profile=user_profile,
active=True,
in_home_view=False,
recipient__type=Recipient.STREAM
).values('recipient_id')
muted_recipient_ids = [row['recipient_id'] for row in rows]
if len(muted_recipient_ids) > 0:
# Only add the condition if we have muted streams to simplify/avoid warnings.
condition = not_(column("recipient_id").in_(muted_recipient_ids))
conditions.append(condition)
conditions = exclude_topic_mutes(conditions, user_profile, stream_id)
return conditions
@has_request_variables
def get_messages_backend(request: HttpRequest, user_profile: UserProfile,
anchor: int=REQ(converter=int),
num_before: int=REQ(converter=to_non_negative_int),
num_after: int=REQ(converter=to_non_negative_int),
narrow: Optional[List[Dict[str, Any]]]=REQ('narrow', converter=narrow_parameter,
default=None),
use_first_unread_anchor: bool=REQ(validator=check_bool, default=False),
client_gravatar: bool=REQ(validator=check_bool, default=False),
apply_markdown: bool=REQ(validator=check_bool, default=True)) -> HttpResponse:
include_history = ok_to_include_history(narrow, user_profile.realm)
if include_history and not use_first_unread_anchor:
# The initial query in this case doesn't use `zerver_usermessage`,
# and isn't yet limited to messages the user is entitled to see!
#
# This is OK only because we've made sure this is a narrow that
# will cause us to limit the query appropriately later.
# See `ok_to_include_history` for details.
query = select([column("id").label("message_id")], None, table("zerver_message"))
inner_msg_id_col = literal_column("zerver_message.id")
elif narrow is None and not use_first_unread_anchor:
# This is limited to messages the user received, as recorded in `zerver_usermessage`.
query = select([column("message_id"), column("flags")],
column("user_profile_id") == literal(user_profile.id),
table("zerver_usermessage"))
inner_msg_id_col = column("message_id")
else:
# This is limited to messages the user received, as recorded in `zerver_usermessage`.
# TODO: Don't do this join if we're not doing a search
query = select([column("message_id"), column("flags")],
column("user_profile_id") == literal(user_profile.id),
join(table("zerver_usermessage"), table("zerver_message"),
literal_column("zerver_usermessage.message_id") ==
literal_column("zerver_message.id")))
inner_msg_id_col = column("message_id")
num_extra_messages = 1
is_search = False
if narrow is not None:
# Add some metadata to our logging data for narrows
verbose_operators = []
for term in narrow:
if term['operator'] == "is":
verbose_operators.append("is:" + term['operand'])
else:
verbose_operators.append(term['operator'])
request._log_data['extra'] = "[%s]" % (",".join(verbose_operators),)
# Build the query for the narrow
num_extra_messages = 0
builder = NarrowBuilder(user_profile, inner_msg_id_col)
search_term = {} # type: Dict[str, Any]
for term in narrow:
if term['operator'] == 'search':
if not is_search:
search_term = term
query = query.column(column("subject")).column(column("rendered_content"))
is_search = True
else:
# Join the search operators if there are multiple of them
search_term['operand'] += ' ' + term['operand']
else:
query = builder.add_term(query, term)
if is_search:
query = builder.add_term(query, search_term)
# We add 1 to the number of messages requested if no narrow was
# specified to ensure that the resulting list always contains the
# anchor message. If a narrow was specified, the anchor message
# might not match the narrow anyway.
if num_after != 0:
num_after += num_extra_messages
else:
num_before += num_extra_messages
sa_conn = get_sqlalchemy_connection()
if use_first_unread_anchor:
condition = column("flags").op("&")(UserMessage.flags.read.mask) == 0
# We exclude messages on muted topics when finding the first unread
# message in this narrow
muting_conditions = exclude_muting_conditions(user_profile, narrow)
if muting_conditions:
condition = and_(condition, *muting_conditions)
# The mobile app uses narrow=[] and use_first_unread_anchor=True to
# determine what messages to show when you first load the app.
# Unfortunately, this means that if you have a years-old unread
# message, the mobile app could get stuck in the past.
#
# To fix this, we enforce that the "first unread anchor" must be on or
# after the user's current pointer location. Since the pointer
# location refers to the latest the user has read in the home view,
# we'll only apply this logic in the home view (ie, when narrow is
# empty).
if not narrow:
pointer_condition = inner_msg_id_col >= user_profile.pointer
condition = and_(condition, pointer_condition)
first_unread_query = query.where(condition)
first_unread_query = first_unread_query.order_by(inner_msg_id_col.asc()).limit(1)
first_unread_result = list(sa_conn.execute(first_unread_query).fetchall())
if len(first_unread_result) > 0:
anchor = first_unread_result[0][0]
else:
anchor = LARGER_THAN_MAX_MESSAGE_ID
before_query = None
after_query = None
if num_before != 0:
before_anchor = anchor
if num_after != 0:
# Don't include the anchor in both the before query and the after query
before_anchor = anchor - 1
before_query = query.where(inner_msg_id_col <= before_anchor) \
.order_by(inner_msg_id_col.desc()).limit(num_before)
if num_after != 0:
after_query = query.where(inner_msg_id_col >= anchor) \
.order_by(inner_msg_id_col.asc()).limit(num_after)
if anchor == LARGER_THAN_MAX_MESSAGE_ID:
# There's no need for an after_query if we're targeting just the target message.
after_query = None
if before_query is not None:
if after_query is not None:
query = union_all(before_query.self_group(), after_query.self_group())
else:
query = before_query
elif after_query is not None:
query = after_query
else:
# This can happen when a narrow is specified.
query = query.where(inner_msg_id_col == anchor)
main_query = alias(query)
query = select(main_query.c, None, main_query).order_by(column("message_id").asc())
# This is a hack to tag the query we use for testing
query = query.prefix_with("/* get_messages */")
query_result = list(sa_conn.execute(query).fetchall())
# The following is a little messy, but ensures that the code paths
# are similar regardless of the value of include_history. The
# 'user_messages' dictionary maps each message to the user's
# UserMessage object for that message, which we will attach to the
# rendered message dict before returning it. We attempt to
# bulk-fetch rendered message dicts from remote cache using the
# 'messages' list.
message_ids = [] # type: List[int]
user_message_flags = {} # type: Dict[int, List[str]]
if include_history:
message_ids = [row[0] for row in query_result]
# TODO: This could be done with an outer join instead of two queries
um_rows = UserMessage.objects.filter(user_profile=user_profile,
message__id__in=message_ids)
user_message_flags = {um.message_id: um.flags_list() for um in um_rows}
for message_id in message_ids:
if message_id not in user_message_flags:
user_message_flags[message_id] = ["read", "historical"]
else:
for row in query_result:
message_id = row[0]
flags = row[1]
user_message_flags[message_id] = UserMessage.flags_list_for_flags(flags)
message_ids.append(message_id)
search_fields = dict() # type: Dict[int, Dict[str, Text]]
if is_search:
for row in query_result:
message_id = row[0]
(subject, rendered_content, content_matches, subject_matches) = row[-4:]
try:
search_fields[message_id] = get_search_fields(rendered_content, subject,
content_matches, subject_matches)
except UnicodeDecodeError as err: # nocoverage
# No coverage for this block since it should be
# impossible, and we plan to remove it once we've
# debugged the case that makes it happen.
raise Exception(str(err), message_id, search_term)
2017-11-07 17:36:29 +01:00
message_list = messages_for_ids(
message_ids=message_ids,
user_message_flags=user_message_flags,
search_fields=search_fields,
apply_markdown=apply_markdown,
client_gravatar=client_gravatar,
allow_edit_history=user_profile.realm.allow_edit_history,
)
statsd.incr('loaded_old_messages', len(message_list))
ret = {'messages': message_list,
"result": "success",
"msg": ""}
return json_success(ret)
@has_request_variables
def update_message_flags(request: HttpRequest, user_profile: UserProfile,
messages: List[int]=REQ(validator=check_list(check_int)),
operation: Text=REQ('op'), flag: Text=REQ()) -> HttpResponse:
count = do_update_message_flags(user_profile, operation, flag, messages)
target_count_str = str(len(messages))
log_data_str = "[%s %s/%s] actually %s" % (operation, flag, target_count_str, count)
request._log_data["extra"] = log_data_str
return json_success({'result': 'success',
'messages': messages,
'msg': ''})
@has_request_variables
def mark_all_as_read(request: HttpRequest, user_profile: UserProfile) -> HttpResponse:
count = do_mark_all_as_read(user_profile)
log_data_str = "[%s updated]" % (count,)
request._log_data["extra"] = log_data_str
return json_success({'result': 'success',
'msg': ''})
@has_request_variables
def mark_stream_as_read(request: HttpRequest,
user_profile: UserProfile,
stream_id: int=REQ(validator=check_int)) -> HttpResponse:
stream, recipient, sub = access_stream_by_id(user_profile, stream_id)
count = do_mark_stream_messages_as_read(user_profile, stream)
log_data_str = "[%s updated]" % (count,)
request._log_data["extra"] = log_data_str
return json_success({'result': 'success',
'msg': ''})
@has_request_variables
def mark_topic_as_read(request: HttpRequest,
user_profile: UserProfile,
stream_id: int=REQ(validator=check_int),
topic_name: Text=REQ()) -> HttpResponse:
stream, recipient, sub = access_stream_by_id(user_profile, stream_id)
if topic_name:
topic_exists = UserMessage.objects.filter(user_profile=user_profile,
message__recipient=recipient,
message__subject__iexact=topic_name).exists()
if not topic_exists:
raise JsonableError(_('No such topic \'%s\'') % (topic_name,))
count = do_mark_stream_messages_as_read(user_profile, stream, topic_name)
log_data_str = "[%s updated]" % (count,)
request._log_data["extra"] = log_data_str
return json_success({'result': 'success',
'msg': ''})
def create_mirrored_message_users(request: HttpRequest, user_profile: UserProfile,
recipients: Iterable[Text]) -> Tuple[bool, Optional[UserProfile]]:
if "sender" not in request.POST:
return (False, None)
sender_email = request.POST["sender"].strip().lower()
referenced_users = set([sender_email])
if request.POST['type'] == 'private':
for email in recipients:
referenced_users.add(email.lower())
if request.client.name == "zephyr_mirror":
user_check = same_realm_zephyr_user
fullname_function = compute_mit_user_fullname
elif request.client.name == "irc_mirror":
user_check = same_realm_irc_user
fullname_function = compute_irc_user_fullname
elif request.client.name in ("jabber_mirror", "JabberMirror"):
user_check = same_realm_jabber_user
fullname_function = compute_jabber_user_fullname
else:
# Unrecognized mirroring client
return (False, None)
for email in referenced_users:
# Check that all referenced users are in our realm:
if not user_check(user_profile, email):
return (False, None)
# Create users for the referenced users, if needed.
for email in referenced_users:
create_mirror_user_if_needed(user_profile.realm, email, fullname_function)
sender = get_user_including_cross_realm(sender_email, user_profile.realm)
return (True, sender)
def same_realm_zephyr_user(user_profile: UserProfile, email: Text) -> bool:
#
# Are the sender and recipient both addresses in the same Zephyr
# mirroring realm? We have to handle this specially, inferring
# the domain from the e-mail address, because the recipient may
# not existing in Zulip and we may need to make a stub Zephyr
# mirroring user on the fly.
try:
validators.validate_email(email)
except ValidationError:
return False
domain = email_to_domain(email)
# Assumes allow_subdomains=False for all RealmDomain's corresponding to
# these realms.
return user_profile.realm.is_zephyr_mirror_realm and \
RealmDomain.objects.filter(realm=user_profile.realm, domain=domain).exists()
def same_realm_irc_user(user_profile: UserProfile, email: Text) -> bool:
# Check whether the target email address is an IRC user in the
# same realm as user_profile, i.e. if the domain were example.com,
# the IRC user would need to be username@irc.example.com
try:
validators.validate_email(email)
except ValidationError:
return False
domain = email_to_domain(email).replace("irc.", "")
# Assumes allow_subdomains=False for all RealmDomain's corresponding to
# these realms.
return RealmDomain.objects.filter(realm=user_profile.realm, domain=domain).exists()
def same_realm_jabber_user(user_profile: UserProfile, email: Text) -> bool:
try:
validators.validate_email(email)
except ValidationError:
return False
# If your Jabber users have a different email domain than the
# Zulip users, this is where you would do any translation.
domain = email_to_domain(email)
# Assumes allow_subdomains=False for all RealmDomain's corresponding to
# these realms.
return RealmDomain.objects.filter(realm=user_profile.realm, domain=domain).exists()
# We do not @require_login for send_message_backend, since it is used
# both from the API and the web service. Code calling
# send_message_backend should either check the API key or check that
# the user is logged in.
@has_request_variables
def send_message_backend(request: HttpRequest, user_profile: UserProfile,
message_type_name: Text=REQ('type'),
message_to: List[Text]=REQ('to', converter=extract_recipients, default=[]),
forged: bool=REQ(default=False),
topic_name: Optional[Text]=REQ('subject', lambda x: x.strip(), None),
message_content: Text=REQ('content'),
realm_str: Optional[Text]=REQ('realm_str', default=None),
local_id: Optional[Text]=REQ(default=None),
queue_id: Optional[Text]=REQ(default=None)) -> HttpResponse:
client = request.client
is_super_user = request.user.is_api_super_user
if forged and not is_super_user:
return json_error(_("User not authorized for this query"))
realm = None
if realm_str and realm_str != user_profile.realm.string_id:
if not is_super_user:
# The email gateway bot needs to be able to send messages in
# any realm.
return json_error(_("User not authorized for this query"))
realm = get_realm(realm_str)
if not realm:
return json_error(_("Unknown realm %s") % (realm_str,))
if client.name in ["zephyr_mirror", "irc_mirror", "jabber_mirror", "JabberMirror"]:
# Here's how security works for mirroring:
#
# For private messages, the message must be (1) both sent and
# received exclusively by users in your realm, and (2)
# received by the forwarding user.
#
# For stream messages, the message must be (1) being forwarded
# by an API superuser for your realm and (2) being sent to a
# mirrored stream (any stream for the Zephyr and Jabber
# mirrors, but only streams with names starting with a "#" for
# IRC mirrors)
#
# The security checks are split between the below code
# (especially create_mirrored_message_users which checks the
# same-realm constraint) and recipient_for_emails (which
# checks that PMs are received by the forwarding user)
if "sender" not in request.POST:
return json_error(_("Missing sender"))
if message_type_name != "private" and not is_super_user:
return json_error(_("User not authorized for this query"))
(valid_input, mirror_sender) = \
create_mirrored_message_users(request, user_profile, message_to)
if not valid_input:
return json_error(_("Invalid mirrored message"))
if client.name == "zephyr_mirror" and not user_profile.realm.is_zephyr_mirror_realm:
return json_error(_("Invalid mirrored realm"))
if (client.name == "irc_mirror" and message_type_name != "private" and
2016-12-03 18:19:09 +01:00
not message_to[0].startswith("#")):
return json_error(_("IRC stream names must start with #"))
sender = mirror_sender
else:
sender = user_profile
ret = check_send_message(sender, client, message_type_name, message_to,
topic_name, message_content, forged=forged,
forged_timestamp = request.POST.get('time'),
forwarder_user_profile=user_profile, realm=realm,
local_id=local_id, sender_queue_id=queue_id)
return json_success({"id": ret})
def fill_edit_history_entries(message_history: List[Dict[str, Any]], message: Message) -> None:
"""This fills out the message edit history entries from the database,
which are designed to have the minimum data possible, to instead
have the current topic + content as of that time, plus data on
whatever changed. This makes it much simpler to do future
processing.
Note that this mutates what is passed to it, which is sorta a bad pattern.
"""
prev_content = message.content
prev_rendered_content = message.rendered_content
prev_topic = message.subject
assert(datetime_to_timestamp(message.last_edit_time) == message_history[0]['timestamp'])
for entry in message_history:
entry['topic'] = prev_topic
if 'prev_subject' in entry:
# We replace use of 'subject' with 'topic' for downstream simplicity
prev_topic = entry['prev_subject']
entry['prev_topic'] = prev_topic
del entry['prev_subject']
entry['content'] = prev_content
entry['rendered_content'] = prev_rendered_content
if 'prev_content' in entry:
del entry['prev_rendered_content_version']
prev_content = entry['prev_content']
prev_rendered_content = entry['prev_rendered_content']
entry['content_html_diff'] = highlight_html_differences(
prev_rendered_content,
entry['rendered_content'],
message.id)
message_history.append(dict(
topic = prev_topic,
content = prev_content,
rendered_content = prev_rendered_content,
timestamp = datetime_to_timestamp(message.pub_date),
user_id = message.sender_id,
))
@has_request_variables
def get_message_edit_history(request: HttpRequest, user_profile: UserProfile,
message_id: int=REQ(converter=to_non_negative_int)) -> HttpResponse:
if not user_profile.realm.allow_edit_history:
return json_error(_("Message edit history is disabled in this organization"))
message, ignored_user_message = access_message(user_profile, message_id)
# Extract the message edit history from the message
message_edit_history = ujson.loads(message.edit_history)
# Fill in all the extra data that will make it usable
fill_edit_history_entries(message_edit_history, message)
return json_success({"message_history": reversed(message_edit_history)})
@has_request_variables
def update_message_backend(request: HttpRequest, user_profile: UserMessage,
message_id: int=REQ(converter=to_non_negative_int),
subject: Optional[Text]=REQ(default=None),
propagate_mode: Optional[str]=REQ(default="change_one"),
content: Optional[Text]=REQ(default=None)) -> HttpResponse:
if not user_profile.realm.allow_message_editing:
return json_error(_("Your organization has turned off message editing"))
message, ignored_user_message = access_message(user_profile, message_id)
# You only have permission to edit a message if:
# you change this value also change those two parameters in message_edit.js.
# 1. You sent it, OR:
# 2. This is a topic-only edit for a (no topic) message, OR:
# 3. This is a topic-only edit and you are an admin.
if message.sender == user_profile:
pass
elif (content is None) and ((message.topic_name() == "(no topic)") or
user_profile.is_realm_admin):
pass
else:
raise JsonableError(_("You don't have permission to edit this message"))
# If there is a change to the content, check that it hasn't been too long
# Allow an extra 20 seconds since we potentially allow editing 15 seconds
# past the limit, and in case there are network issues, etc. The 15 comes
# from (min_seconds_to_edit + seconds_left_buffer) in message_edit.js; if
# you change this value also change those two parameters in message_edit.js.
edit_limit_buffer = 20
if content is not None and user_profile.realm.message_content_edit_limit_seconds > 0:
deadline_seconds = user_profile.realm.message_content_edit_limit_seconds + edit_limit_buffer
if (timezone_now() - message.pub_date) > datetime.timedelta(seconds=deadline_seconds):
raise JsonableError(_("The time limit for editing this message has past"))
if subject is None and content is None:
return json_error(_("Nothing to change"))
if subject is not None:
subject = subject.strip()
if subject == "":
raise JsonableError(_("Topic can't be empty"))
rendered_content = None
links_for_embed = set() # type: Set[Text]
Notify offline users about edited stream messages. We now do push notifications and missed message emails for offline users who are subscribed to the stream for a message that has been edited, but we short circuit the offline-notification logic for any user who presumably would have already received a notification on the original message. This effectively boils down to sending notifications to newly mentioned users. The motivating use case here is that you forget to mention somebody in a message, and then you edit the message to mention the person. If they are offline, they will now get pushed notifications and missed message emails, with some minor caveats. We try to mostly use the same techniques here as the send-message code path, and we share common code with the send-message path once we get to the Tornado layer and call maybe_enqueue_notifications. The major places where we differ are in a function called maybe_enqueue_notifications_for_message_update, and the top of that function short circuits a bunch of cases where we can mostly assume that the original message had an offline notification. We can expect a couple changes in the future: * Requirements may change here, and it might make sense to send offline notifications on the update side even in circumstances where the original message had a notification. * We may track more notifications in a DB model, which may simplify our short-circuit logic. In the view/action layer, we already had two separate codepaths for send-message and update-message, but this mostly echoes what the send-message path does in terms of collecting data about recipients.
2017-10-03 16:25:12 +02:00
prior_mention_user_ids = set() # type: Set[int]
mention_user_ids = set() # type: Set[int]
if content is not None:
content = content.strip()
if content == "":
content = "(deleted)"
content = truncate_body(content)
user_info = get_user_info_for_message_updates(message.id)
Notify offline users about edited stream messages. We now do push notifications and missed message emails for offline users who are subscribed to the stream for a message that has been edited, but we short circuit the offline-notification logic for any user who presumably would have already received a notification on the original message. This effectively boils down to sending notifications to newly mentioned users. The motivating use case here is that you forget to mention somebody in a message, and then you edit the message to mention the person. If they are offline, they will now get pushed notifications and missed message emails, with some minor caveats. We try to mostly use the same techniques here as the send-message code path, and we share common code with the send-message path once we get to the Tornado layer and call maybe_enqueue_notifications. The major places where we differ are in a function called maybe_enqueue_notifications_for_message_update, and the top of that function short circuits a bunch of cases where we can mostly assume that the original message had an offline notification. We can expect a couple changes in the future: * Requirements may change here, and it might make sense to send offline notifications on the update side even in circumstances where the original message had a notification. * We may track more notifications in a DB model, which may simplify our short-circuit logic. In the view/action layer, we already had two separate codepaths for send-message and update-message, but this mostly echoes what the send-message path does in terms of collecting data about recipients.
2017-10-03 16:25:12 +02:00
prior_mention_user_ids = user_info['mention_user_ids']
# We render the message using the current user's realm; since
# the cross-realm bots never edit messages, this should be
# always correct.
# Note: If rendering fails, the called code will raise a JsonableError.
rendered_content = render_incoming_message(message,
content,
user_info['message_user_ids'],
user_profile.realm)
links_for_embed |= message.links_for_preview
Notify offline users about edited stream messages. We now do push notifications and missed message emails for offline users who are subscribed to the stream for a message that has been edited, but we short circuit the offline-notification logic for any user who presumably would have already received a notification on the original message. This effectively boils down to sending notifications to newly mentioned users. The motivating use case here is that you forget to mention somebody in a message, and then you edit the message to mention the person. If they are offline, they will now get pushed notifications and missed message emails, with some minor caveats. We try to mostly use the same techniques here as the send-message code path, and we share common code with the send-message path once we get to the Tornado layer and call maybe_enqueue_notifications. The major places where we differ are in a function called maybe_enqueue_notifications_for_message_update, and the top of that function short circuits a bunch of cases where we can mostly assume that the original message had an offline notification. We can expect a couple changes in the future: * Requirements may change here, and it might make sense to send offline notifications on the update side even in circumstances where the original message had a notification. * We may track more notifications in a DB model, which may simplify our short-circuit logic. In the view/action layer, we already had two separate codepaths for send-message and update-message, but this mostly echoes what the send-message path does in terms of collecting data about recipients.
2017-10-03 16:25:12 +02:00
mention_user_ids = message.mentions_user_ids
number_changed = do_update_message(user_profile, message, subject,
Notify offline users about edited stream messages. We now do push notifications and missed message emails for offline users who are subscribed to the stream for a message that has been edited, but we short circuit the offline-notification logic for any user who presumably would have already received a notification on the original message. This effectively boils down to sending notifications to newly mentioned users. The motivating use case here is that you forget to mention somebody in a message, and then you edit the message to mention the person. If they are offline, they will now get pushed notifications and missed message emails, with some minor caveats. We try to mostly use the same techniques here as the send-message code path, and we share common code with the send-message path once we get to the Tornado layer and call maybe_enqueue_notifications. The major places where we differ are in a function called maybe_enqueue_notifications_for_message_update, and the top of that function short circuits a bunch of cases where we can mostly assume that the original message had an offline notification. We can expect a couple changes in the future: * Requirements may change here, and it might make sense to send offline notifications on the update side even in circumstances where the original message had a notification. * We may track more notifications in a DB model, which may simplify our short-circuit logic. In the view/action layer, we already had two separate codepaths for send-message and update-message, but this mostly echoes what the send-message path does in terms of collecting data about recipients.
2017-10-03 16:25:12 +02:00
propagate_mode, content, rendered_content,
prior_mention_user_ids,
mention_user_ids)
# Include the number of messages changed in the logs
request._log_data['extra'] = "[%s]" % (number_changed,)
if links_for_embed and bugdown.url_embed_preview_enabled_for_realm(message):
event_data = {
'message_id': message.id,
'message_content': message.content,
# The choice of `user_profile.realm_id` rather than
# `sender.realm_id` must match the decision made in the
# `render_incoming_message` call earlier in this function.
'message_realm_id': user_profile.realm_id,
'urls': links_for_embed}
queue_json_publish('embed_links', event_data)
return json_success()
@has_request_variables
def delete_message_backend(request: HttpRequest, user_profile: UserProfile,
message_id: int=REQ(converter=to_non_negative_int)) -> HttpResponse:
message, ignored_user_message = access_message(user_profile, message_id)
is_user_allowed_to_delete_message = user_profile.is_realm_admin or \
(message.sender == user_profile and user_profile.realm.allow_message_deleting)
if not is_user_allowed_to_delete_message:
raise JsonableError(_("You don't have permission to edit this message"))
do_delete_message(user_profile, message)
return json_success()
@has_request_variables
def json_fetch_raw_message(request: HttpRequest, user_profile: UserProfile,
message_id: int=REQ(converter=to_non_negative_int)) -> HttpResponse:
(message, user_message) = access_message(user_profile, message_id)
return json_success({"raw_content": message.content})
@has_request_variables
def render_message_backend(request: HttpRequest, user_profile: UserProfile,
content: Text=REQ()) -> HttpResponse:
message = Message()
message.sender = user_profile
message.content = content
message.sending_client = request.client
rendered_content = render_markdown(message, content, realm=user_profile.realm)
return json_success({"rendered": rendered_content})
@has_request_variables
def messages_in_narrow_backend(request: HttpRequest, user_profile: UserProfile,
msg_ids: List[int]=REQ(validator=check_list(check_int)),
narrow: Optional[List[Dict[str, Any]]]=REQ(converter=narrow_parameter)
) -> HttpResponse:
# This query is limited to messages the user has access to because they
# actually received them, as reflected in `zerver_usermessage`.
query = select([column("message_id"), column("subject"), column("rendered_content")],
and_(column("user_profile_id") == literal(user_profile.id),
column("message_id").in_(msg_ids)),
join(table("zerver_usermessage"), table("zerver_message"),
literal_column("zerver_usermessage.message_id") ==
literal_column("zerver_message.id")))
builder = NarrowBuilder(user_profile, column("message_id"))
if narrow is not None:
for term in narrow:
query = builder.add_term(query, term)
sa_conn = get_sqlalchemy_connection()
query_result = list(sa_conn.execute(query).fetchall())
search_fields = dict()
for row in query_result:
message_id = row['message_id']
subject = row['subject']
rendered_content = row['rendered_content']
if 'content_matches' in row:
content_matches = row['content_matches']
subject_matches = row['subject_matches']
search_fields[message_id] = get_search_fields(rendered_content, subject,
content_matches, subject_matches)
else:
search_fields[message_id] = dict(
match_content=rendered_content,
match_subject=subject
)
return json_success({"messages": search_fields})