zulip/zerver/lib/export.py

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from __future__ import absolute_import
from __future__ import print_function
import datetime
from boto.s3.key import Key
from boto.s3.connection import S3Connection
from django.conf import settings
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from django.db import connection
from django.forms.models import model_to_dict
from django.utils.timezone import make_aware as timezone_make_aware
from django.utils.timezone import utc as timezone_utc
from django.utils.timezone import is_naive as timezone_is_naive
from django.db.models.query import QuerySet
import glob
import logging
import os
import ujson
import shutil
import subprocess
import tempfile
from zerver.lib.avatar_hash import user_avatar_hash
from zerver.lib.create_user import random_api_key
from zerver.models import UserProfile, Realm, Client, Huddle, Stream, \
UserMessage, Subscription, Message, RealmEmoji, RealmFilter, \
RealmDomain, Recipient, DefaultStream, get_user_profile_by_id, \
UserPresence, UserActivity, UserActivityInterval, \
get_display_recipient, Attachment, get_system_bot
from zerver.lib.parallel import run_parallel
from zerver.lib.utils import mkdir_p
from six.moves import range
from typing import Any, Callable, Dict, List, Optional, Set, Tuple
# Custom mypy types follow:
Record = Dict[str, Any]
TableName = str
TableData = Dict[TableName, List[Record]]
Field = str
Path = str
Context = Dict[str, Any]
FilterArgs = Dict[str, Any]
IdSource = Tuple[TableName, Field]
SourceFilter = Callable[[Record], bool]
# These next two types are callbacks, which mypy does not
# support well, because PEP 484 says "using callbacks
# with keyword arguments is not perceived as a common use case."
# CustomFetch = Callable[[TableData, Config, Context], None]
# PostProcessData = Callable[[TableData, Config, Context], None]
CustomFetch = Any # TODO: make more specific, see above
PostProcessData = Any # TODO: make more specific
# The keys of our MessageOutput variables are normally
# List[Record], but when we write partials, we can get
# lists of integers or a single integer.
# TODO: tighten this up with a union.
MessageOutput = Dict[str, Any]
realm_tables = [("zerver_defaultstream", DefaultStream),
("zerver_realmemoji", RealmEmoji),
("zerver_realmdomain", RealmDomain),
("zerver_realmfilter", RealmFilter)] # List[Tuple[TableName, Any]]
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ALL_ZERVER_TABLES = [
# TODO: get a linter to ensure that this list is actually complete.
'zerver_attachment',
'zerver_attachment_messages',
'zerver_client',
'zerver_defaultstream',
'zerver_huddle',
'zerver_message',
'zerver_preregistrationuser',
'zerver_preregistrationuser_streams',
'zerver_pushdevicetoken',
'zerver_realm',
'zerver_realmdomain',
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'zerver_realmemoji',
'zerver_realmfilter',
'zerver_recipient',
'zerver_scheduledemail',
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'zerver_stream',
'zerver_subscription',
'zerver_useractivity',
'zerver_useractivityinterval',
'zerver_usermessage',
'zerver_userpresence',
'zerver_userprofile',
'zerver_userprofile_groups',
'zerver_userprofile_user_permissions',
]
NON_EXPORTED_TABLES = [
# These are known to either be altogether obsolete or
# simply inappropriate for exporting (e.g. contains transient
# data).
'zerver_preregistrationuser',
'zerver_preregistrationuser_streams',
'zerver_pushdevicetoken',
'zerver_scheduledemail',
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'zerver_userprofile_groups',
'zerver_userprofile_user_permissions',
]
assert set(NON_EXPORTED_TABLES).issubset(set(ALL_ZERVER_TABLES))
IMPLICIT_TABLES = [
# ManyToMany relationships are exported implicitly.
'zerver_attachment_messages',
]
assert set(IMPLICIT_TABLES).issubset(set(ALL_ZERVER_TABLES))
ATTACHMENT_TABLES = [
'zerver_attachment',
]
assert set(ATTACHMENT_TABLES).issubset(set(ALL_ZERVER_TABLES))
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MESSAGE_TABLES = [
# message tables get special treatment, because they're so big
'zerver_message',
'zerver_usermessage',
]
DATE_FIELDS = {
'zerver_attachment': ['create_time'],
'zerver_message': ['last_edit_time', 'pub_date'],
'zerver_realm': ['date_created'],
'zerver_stream': ['date_created'],
'zerver_useractivity': ['last_visit'],
'zerver_useractivityinterval': ['start', 'end'],
'zerver_userpresence': ['timestamp'],
'zerver_userprofile': ['date_joined', 'last_login', 'last_reminder'],
} # type: Dict[TableName, List[Field]]
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def sanity_check_output(data):
# type: (TableData) -> None
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tables = set(ALL_ZERVER_TABLES)
tables -= set(NON_EXPORTED_TABLES)
tables -= set(IMPLICIT_TABLES)
tables -= set(MESSAGE_TABLES)
tables -= set(ATTACHMENT_TABLES)
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for table in tables:
if table not in data:
logging.warn('??? NO DATA EXPORTED FOR TABLE %s!!!' % (table,))
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def write_data_to_file(output_file, data):
# type: (Path, Any) -> None
with open(output_file, "w") as f:
f.write(ujson.dumps(data, indent=4))
def make_raw(query, exclude=None):
# type: (Any, List[Field]) -> List[Record]
'''
Takes a Django query and returns a JSONable list
of dictionaries corresponding to the database rows.
'''
rows = []
for instance in query:
data = model_to_dict(instance, exclude=exclude)
"""
In Django 1.10, model_to_dict resolves ManyToManyField as a QuerySet.
Previously, we used to get primary keys. Following code converts the
QuerySet into primary keys.
For reference: https://www.mail-archive.com/django-updates@googlegroups.com/msg163020.html
"""
for field in instance._meta.many_to_many:
value = data[field.name]
if isinstance(value, QuerySet):
data[field.name] = [row.pk for row in value]
rows.append(data)
return rows
def floatify_datetime_fields(data, table):
# type: (TableData, TableName) -> None
for item in data[table]:
for field in DATE_FIELDS[table]:
orig_dt = item[field]
if orig_dt is None:
continue
if timezone_is_naive(orig_dt):
logging.warning("Naive datetime:", item)
dt = timezone_make_aware(orig_dt)
else:
dt = orig_dt
utc_naive = dt.replace(tzinfo=None) - dt.utcoffset()
item[field] = (utc_naive - datetime.datetime(1970, 1, 1)).total_seconds()
class Config(object):
'''
A Config object configures a single table for exporting (and,
maybe some day importing as well.
You should never mutate Config objects as part of the export;
instead use the data to determine how you populate other
data structures.
There are parent/children relationships between Config objects.
The parent should be instantiated first. The child will
append itself to the parent's list of children.
'''
def __init__(self, table=None, model=None,
normal_parent=None, virtual_parent=None,
filter_args=None, custom_fetch=None, custom_tables=None,
post_process_data=None,
concat_and_destroy=None, id_source=None, source_filter=None,
parent_key=None, use_all=False, is_seeded=False, exclude=None):
# type: (str, Any, Config, Config, FilterArgs, CustomFetch, List[TableName], PostProcessData, List[TableName], IdSource, SourceFilter, Field, bool, bool, List[Field]) -> None
assert table or custom_tables
self.table = table
self.model = model
self.normal_parent = normal_parent
self.virtual_parent = virtual_parent
self.filter_args = filter_args
self.parent_key = parent_key
self.use_all = use_all
self.is_seeded = is_seeded
self.exclude = exclude
self.custom_fetch = custom_fetch
self.custom_tables = custom_tables
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self.post_process_data = post_process_data
self.concat_and_destroy = concat_and_destroy
self.id_source = id_source
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self.source_filter = source_filter
self.children = [] # type: List[Config]
if normal_parent is not None:
self.parent = normal_parent # type: Optional[Config]
else:
self.parent = None
if virtual_parent is not None and normal_parent is not None:
raise ValueError('''
If you specify a normal_parent, please
do not create a virtual_parent.
''')
if normal_parent is not None:
normal_parent.children.append(self)
elif virtual_parent is not None:
virtual_parent.children.append(self)
elif is_seeded is None:
raise ValueError('''
You must specify a parent if you are
not using is_seeded.
''')
if self.id_source is not None:
if self.virtual_parent is None:
raise ValueError('''
You must specify a virtual_parent if you are
using id_source.''')
if self.id_source[0] != self.virtual_parent.table:
raise ValueError('''
Configuration error. To populate %s, you
want data from %s, but that differs from
the table name of your virtual parent (%s),
which suggests you many not have set up
the ordering correctly. You may simply
need to assign a virtual_parent, or there
may be deeper issues going on.''' % (
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self.table,
self.id_source[0],
self.virtual_parent.table))
def export_from_config(response, config, seed_object=None, context=None):
# type: (TableData, Config, Any, Context) -> None
table = config.table
parent = config.parent
model = config.model
if context is None:
context = {}
if table:
exported_tables = [table]
else:
if config.custom_tables is None:
raise ValueError('''
You must specify config.custom_tables if you
are not specifying config.table''')
exported_tables = config.custom_tables
for t in exported_tables:
logging.info('Exporting via export_from_config: %s' % (t,))
rows = None
if config.is_seeded:
rows = [seed_object]
elif config.custom_fetch:
config.custom_fetch(
response=response,
config=config,
context=context
)
if config.custom_tables:
for t in config.custom_tables:
if t not in response:
raise Exception('Custom fetch failed to populate %s' % (t,))
elif config.concat_and_destroy:
# When we concat_and_destroy, we are working with
# temporary "tables" that are lists of records that
# should already be ready to export.
data = [] # type: List[Record]
for t in config.concat_and_destroy:
data += response[t]
del response[t]
logging.info('Deleted temporary %s' % (t,))
assert table is not None
response[table] = data
elif config.use_all:
assert model is not None
query = model.objects.all()
rows = list(query)
elif config.normal_parent:
# In this mode, our current model is figuratively Article,
# and normal_parent is figuratively Blog, and
# now we just need to get all the articles
# contained by the blogs.
model = config.model
assert parent is not None
assert parent.table is not None
assert config.parent_key is not None
parent_ids = [r['id'] for r in response[parent.table]]
filter_parms = {config.parent_key: parent_ids} # type: Dict[str, Any]
if config.filter_args is not None:
filter_parms.update(config.filter_args)
assert model is not None
query = model.objects.filter(**filter_parms)
rows = list(query)
elif config.id_source:
# In this mode, we are the figurative Blog, and we now
# need to look at the current response to get all the
# blog ids from the Article rows we fetched previously.
model = config.model
assert model is not None
# This will be a tuple of the form ('zerver_article', 'blog').
(child_table, field) = config.id_source
child_rows = response[child_table]
if config.source_filter:
child_rows = [r for r in child_rows if config.source_filter(r)]
lookup_ids = [r[field] for r in child_rows]
filter_parms = dict(id__in=lookup_ids)
if config.filter_args:
filter_parms.update(config.filter_args)
query = model.objects.filter(**filter_parms)
rows = list(query)
# Post-process rows (which won't apply to custom fetches/concats)
if rows is not None:
assert table is not None # Hint for mypy
response[table] = make_raw(rows, exclude=config.exclude)
if table in DATE_FIELDS:
floatify_datetime_fields(response, table)
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if config.post_process_data:
config.post_process_data(
response=response,
config=config,
context=context
)
# Now walk our children. It's extremely important to respect
# the order of children here.
for child_config in config.children:
export_from_config(
response=response,
config=child_config,
context=context,
)
def get_realm_config():
# type: () -> Config
# This is common, public information about the realm that we can share
# with all realm users.
realm_config = Config(
table='zerver_realm',
is_seeded=True
)
Config(
table='zerver_defaultstream',
model=DefaultStream,
normal_parent=realm_config,
parent_key='realm_id__in',
)
Config(
table='zerver_realmemoji',
model=RealmEmoji,
normal_parent=realm_config,
parent_key='realm_id__in',
)
Config(
table='zerver_realmdomain',
model=RealmDomain,
normal_parent=realm_config,
parent_key='realm_id__in',
)
Config(
table='zerver_realmfilter',
model=RealmFilter,
normal_parent=realm_config,
parent_key='realm_id__in',
)
Config(
table='zerver_client',
model=Client,
virtual_parent=realm_config,
use_all=True
)
user_profile_config = Config(
custom_tables=[
'zerver_userprofile',
'zerver_userprofile_mirrordummy',
],
# set table for children who treat us as normal parent
table='zerver_userprofile',
virtual_parent=realm_config,
custom_fetch=fetch_user_profile,
)
Config(
custom_tables=[
'zerver_userprofile_crossrealm',
],
virtual_parent=user_profile_config,
custom_fetch=fetch_user_profile_cross_realm,
)
Config(
table='zerver_userpresence',
model=UserPresence,
normal_parent=user_profile_config,
parent_key='user_profile__in',
)
Config(
table='zerver_useractivity',
model=UserActivity,
normal_parent=user_profile_config,
parent_key='user_profile__in',
)
Config(
table='zerver_useractivityinterval',
model=UserActivityInterval,
normal_parent=user_profile_config,
parent_key='user_profile__in',
)
# Some of these tables are intermediate "tables" that we
# create only for the export. Think of them as similar to views.
user_subscription_config = Config(
table='_user_subscription',
model=Subscription,
normal_parent=user_profile_config,
filter_args={'recipient__type': Recipient.PERSONAL},
parent_key='user_profile__in',
)
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Config(
table='_user_recipient',
model=Recipient,
virtual_parent=user_subscription_config,
id_source=('_user_subscription', 'recipient'),
)
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#
stream_subscription_config = Config(
table='_stream_subscription',
model=Subscription,
normal_parent=user_profile_config,
filter_args={'recipient__type': Recipient.STREAM},
parent_key='user_profile__in',
)
stream_recipient_config = Config(
table='_stream_recipient',
model=Recipient,
virtual_parent=stream_subscription_config,
id_source=('_stream_subscription', 'recipient'),
)
Config(
table='zerver_stream',
model=Stream,
virtual_parent=stream_recipient_config,
id_source=('_stream_recipient', 'type_id'),
source_filter=lambda r: r['type'] == Recipient.STREAM,
exclude=['email_token'],
post_process_data=sanity_check_stream_data
)
#
Config(
custom_tables=[
'_huddle_recipient',
'_huddle_subscription',
'zerver_huddle',
],
normal_parent=user_profile_config,
custom_fetch=fetch_huddle_objects,
)
# Now build permanent tables from our temp tables.
Config(
table='zerver_recipient',
virtual_parent=user_profile_config,
concat_and_destroy=[
'_user_recipient',
'_stream_recipient',
'_huddle_recipient',
],
)
Config(
table='zerver_subscription',
virtual_parent=user_profile_config,
concat_and_destroy=[
'_user_subscription',
'_stream_subscription',
'_huddle_subscription',
]
)
return realm_config
def sanity_check_stream_data(response, config, context):
# type: (TableData, Config, Context) -> None
if context['exportable_user_ids'] is not None:
# If we restrict which user ids are exportable,
# the way that we find # streams is a little too
# complex to have a sanity check.
return
actual_streams = set([stream.name for stream in Stream.objects.filter(realm=response["zerver_realm"][0]['id'])])
streams_in_response = set([stream['name'] for stream in response['zerver_stream']])
if streams_in_response != actual_streams:
print(streams_in_response - actual_streams)
print(actual_streams - streams_in_response)
raise Exception('''
zerver_stream data does not match
Stream.objects.all().
Please investigate!
''')
def fetch_user_profile(response, config, context):
# type: (TableData, Config, Context) -> None
realm = context['realm']
exportable_user_ids = context['exportable_user_ids']
query = UserProfile.objects.filter(realm_id=realm.id)
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exclude = ['password', 'api_key']
rows = make_raw(list(query), exclude=exclude)
normal_rows = [] # type: List[Record]
dummy_rows = [] # type: List[Record]
for row in rows:
if exportable_user_ids is not None:
if row['id'] in exportable_user_ids:
assert not row['is_mirror_dummy']
else:
# Convert non-exportable users to
# inactive is_mirror_dummy users.
row['is_mirror_dummy'] = True
row['is_active'] = False
if row['is_mirror_dummy']:
dummy_rows.append(row)
else:
normal_rows.append(row)
response['zerver_userprofile'] = normal_rows
response['zerver_userprofile_mirrordummy'] = dummy_rows
def fetch_user_profile_cross_realm(response, config, context):
# type: (TableData, Config, Context) -> None
realm = context['realm']
if realm.string_id == "zulip":
response['zerver_userprofile_crossrealm'] = []
else:
response['zerver_userprofile_crossrealm'] = [dict(email=x.email, id=x.id) for x in [
get_system_bot(settings.NOTIFICATION_BOT),
get_system_bot(settings.EMAIL_GATEWAY_BOT),
get_system_bot(settings.WELCOME_BOT),
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]]
def fetch_attachment_data(response, realm_id, message_ids):
# type: (TableData, int, Set[int]) -> None
filter_args = {'realm_id': realm_id}
query = Attachment.objects.filter(**filter_args)
response['zerver_attachment'] = make_raw(list(query))
floatify_datetime_fields(response, 'zerver_attachment')
'''
We usually export most messages for the realm, but not
quite ALL messages for the realm. So, we need to
clean up our attachment data to have correct
values for response['zerver_attachment'][<n>]['messages'].
'''
for row in response['zerver_attachment']:
filterer_message_ids = set(row['messages']).intersection(message_ids)
row['messages'] = sorted(list(filterer_message_ids))
'''
Attachments can be connected to multiple messages, although
it's most common to have just one message. Regardless,
if none of those message(s) survived the filtering above
for a particular attachment, then we won't export the
attachment row.
'''
response['zerver_attachment'] = [
row for row in response['zerver_attachment']
if row['messages']]
def fetch_huddle_objects(response, config, context):
# type: (TableData, Config, Context) -> None
realm = context['realm']
assert config.parent is not None
assert config.parent.table is not None
user_profile_ids = set(r['id'] for r in response[config.parent.table])
# First we get all huddles involving someone in the realm.
realm_huddle_subs = Subscription.objects.select_related("recipient").filter(recipient__type=Recipient.HUDDLE,
user_profile__in=user_profile_ids)
realm_huddle_recipient_ids = set(sub.recipient_id for sub in realm_huddle_subs)
# Mark all Huddles whose recipient ID contains a cross-realm user.
unsafe_huddle_recipient_ids = set()
for sub in Subscription.objects.select_related().filter(recipient__in=realm_huddle_recipient_ids):
if sub.user_profile.realm != realm:
# In almost every case the other realm will be zulip.com
unsafe_huddle_recipient_ids.add(sub.recipient_id)
# Now filter down to just those huddles that are entirely within the realm.
#
# This is important for ensuring that the User objects needed
# to import it on the other end exist (since we're only
# exporting the users from this realm), at the cost of losing
# some of these cross-realm messages.
huddle_subs = [sub for sub in realm_huddle_subs if sub.recipient_id not in unsafe_huddle_recipient_ids]
huddle_recipient_ids = set(sub.recipient_id for sub in huddle_subs)
huddle_ids = set(sub.recipient.type_id for sub in huddle_subs)
huddle_subscription_dicts = make_raw(huddle_subs)
huddle_recipients = make_raw(Recipient.objects.filter(id__in=huddle_recipient_ids))
response['_huddle_recipient'] = huddle_recipients
response['_huddle_subscription'] = huddle_subscription_dicts
response['zerver_huddle'] = make_raw(Huddle.objects.filter(id__in=huddle_ids))
def fetch_usermessages(realm, message_ids, user_profile_ids, message_filename):
# type: (Realm, Set[int], Set[int], Path) -> List[Record]
# UserMessage export security rule: You can export UserMessages
# for the messages you exported for the users in your realm.
user_message_query = UserMessage.objects.filter(user_profile__realm=realm,
message_id__in=message_ids)
user_message_chunk = []
for user_message in user_message_query:
if user_message.user_profile_id not in user_profile_ids:
continue
user_message_obj = model_to_dict(user_message)
user_message_obj['flags_mask'] = user_message.flags.mask
del user_message_obj['flags']
user_message_chunk.append(user_message_obj)
logging.info("Fetched UserMessages for %s" % (message_filename,))
return user_message_chunk
def export_usermessages_batch(input_path, output_path):
# type: (Path, Path) -> None
"""As part of the system for doing parallel exports, this runs on one
batch of Message objects and adds the corresponding UserMessage
objects. (This is called by the export_usermessage_batch
management command)."""
with open(input_path, "r") as input_file:
output = ujson.loads(input_file.read())
message_ids = [item['id'] for item in output['zerver_message']]
user_profile_ids = set(output['zerver_userprofile_ids'])
del output['zerver_userprofile_ids']
realm = Realm.objects.get(id=output['realm_id'])
del output['realm_id']
output['zerver_usermessage'] = fetch_usermessages(realm, set(message_ids), user_profile_ids, output_path)
write_message_export(output_path, output)
os.unlink(input_path)
def write_message_export(message_filename, output):
# type: (Path, MessageOutput) -> None
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write_data_to_file(output_file=message_filename, data=output)
logging.info("Dumped to %s" % (message_filename,))
def export_partial_message_files(realm, response, chunk_size=1000, output_dir=None):
# type: (Realm, TableData, int, Path) -> Set[int]
if output_dir is None:
output_dir = tempfile.mkdtemp(prefix="zulip-export")
def get_ids(records):
# type: (List[Record]) -> Set[int]
return set(x['id'] for x in records)
# Basic security rule: You can export everything either...
# - sent by someone in your exportable_user_ids
# OR
# - received by someone in your exportable_user_ids (which
# equates to a recipient object we are exporting)
#
# TODO: In theory, you should be able to export messages in
# cross-realm PM threads; currently, this only exports cross-realm
# messages received by your realm that were sent by Zulip system
# bots (e.g. emailgateway, notification-bot).
# Here, "we" and "us" refers to the inner circle of users who
# were specified as being allowed to be exported. "Them"
# refers to other users.
user_ids_for_us = get_ids(
response['zerver_userprofile']
)
recipient_ids_for_us = get_ids(response['zerver_recipient'])
ids_of_our_possible_senders = get_ids(
response['zerver_userprofile'] +
response['zerver_userprofile_mirrordummy'] +
response['zerver_userprofile_crossrealm'])
ids_of_non_exported_possible_recipients = ids_of_our_possible_senders - user_ids_for_us
recipients_for_them = Recipient.objects.filter(
type=Recipient.PERSONAL,
type_id__in=ids_of_non_exported_possible_recipients).values("id")
recipient_ids_for_them = get_ids(recipients_for_them)
# We capture most messages here, since the
# recipients we subscribe to are also the
# recipients of most messages we send.
messages_we_received = Message.objects.filter(
sender__in=ids_of_our_possible_senders,
recipient__in=recipient_ids_for_us,
).order_by('id')
# This should pick up stragglers; messages we sent
# where we the recipient wasn't subscribed to by any of
# us (such as PMs to "them").
messages_we_sent_to_them = Message.objects.filter(
sender__in=user_ids_for_us,
recipient__in=recipient_ids_for_them,
).order_by('id')
message_queries = [
messages_we_received,
messages_we_sent_to_them
]
all_message_ids = set() # type: Set[int]
dump_file_id = 1
for message_query in message_queries:
dump_file_id = write_message_partial_for_query(
realm=realm,
message_query=message_query,
dump_file_id=dump_file_id,
all_message_ids=all_message_ids,
output_dir=output_dir,
chunk_size=chunk_size,
user_profile_ids=user_ids_for_us,
)
return all_message_ids
def write_message_partial_for_query(realm, message_query, dump_file_id,
all_message_ids, output_dir,
chunk_size, user_profile_ids):
# type: (Realm, Any, int, Set[int], Path, int, Set[int]) -> int
min_id = -1
while True:
actual_query = message_query.filter(id__gt=min_id)[0:chunk_size]
message_chunk = make_raw(actual_query)
message_ids = set(m['id'] for m in message_chunk)
assert len(message_ids.intersection(all_message_ids)) == 0
all_message_ids.update(message_ids)
if len(message_chunk) == 0:
break
# Figure out the name of our shard file.
message_filename = os.path.join(output_dir, "messages-%06d.json" % (dump_file_id,))
message_filename += '.partial'
logging.info("Fetched Messages for %s" % (message_filename,))
# Clean up our messages.
table_data = {} # type: TableData
table_data['zerver_message'] = message_chunk
floatify_datetime_fields(table_data, 'zerver_message')
# Build up our output for the .partial file, which needs
# a list of user_profile_ids to search for (as well as
# the realm id).
output = {} # type: MessageOutput
output['zerver_message'] = table_data['zerver_message']
output['zerver_userprofile_ids'] = list(user_profile_ids)
output['realm_id'] = realm.id
# And write the data.
write_message_export(message_filename, output)
min_id = max(message_ids)
dump_file_id += 1
return dump_file_id
def export_uploads_and_avatars(realm, output_dir):
# type: (Realm, Path) -> None
uploads_output_dir = os.path.join(output_dir, 'uploads')
avatars_output_dir = os.path.join(output_dir, 'avatars')
for output_dir in (uploads_output_dir, avatars_output_dir):
if not os.path.exists(output_dir):
os.makedirs(output_dir)
if settings.LOCAL_UPLOADS_DIR:
# Small installations and developers will usually just store files locally.
export_uploads_from_local(realm,
local_dir=os.path.join(settings.LOCAL_UPLOADS_DIR, "files"),
output_dir=uploads_output_dir)
export_avatars_from_local(realm,
local_dir=os.path.join(settings.LOCAL_UPLOADS_DIR, "avatars"),
output_dir=avatars_output_dir)
else:
# Some bigger installations will have their data stored on S3.
export_files_from_s3(realm,
settings.S3_AVATAR_BUCKET,
output_dir=avatars_output_dir,
processing_avatars=True)
export_files_from_s3(realm,
settings.S3_AUTH_UPLOADS_BUCKET,
output_dir=uploads_output_dir)
def export_files_from_s3(realm, bucket_name, output_dir, processing_avatars=False):
# type: (Realm, str, Path, bool) -> None
conn = S3Connection(settings.S3_KEY, settings.S3_SECRET_KEY)
bucket = conn.get_bucket(bucket_name, validate=True)
records = []
logging.info("Downloading uploaded files from %s" % (bucket_name))
avatar_hash_values = set()
user_ids = set()
if processing_avatars:
bucket_list = bucket.list()
for user_profile in UserProfile.objects.filter(realm=realm):
avatar_hash = user_avatar_hash(user_profile.email)
avatar_hash_values.add(avatar_hash)
avatar_hash_values.add(avatar_hash + ".original")
user_ids.add(user_profile.id)
else:
bucket_list = bucket.list(prefix="%s/" % (realm.id,))
if settings.EMAIL_GATEWAY_BOT is not None:
email_gateway_bot = get_system_bot(settings.EMAIL_GATEWAY_BOT)
else:
email_gateway_bot = None
count = 0
for bkey in bucket_list:
if processing_avatars and bkey.name not in avatar_hash_values:
continue
key = bucket.get_key(bkey.name)
# This can happen if an email address has moved realms
if 'realm_id' in key.metadata and key.metadata['realm_id'] != str(realm.id):
if email_gateway_bot is None or key.metadata['user_profile_id'] != str(email_gateway_bot.id):
raise Exception("Key metadata problem: %s %s / %s" % (key.name, key.metadata, realm.id))
# Email gateway bot sends messages, potentially including attachments, cross-realm.
print("File uploaded by email gateway bot: %s / %s" % (key.name, key.metadata))
elif processing_avatars:
if 'user_profile_id' not in key.metadata:
raise Exception("Missing user_profile_id in key metadata: %s" % (key.metadata,))
if int(key.metadata['user_profile_id']) not in user_ids:
raise Exception("Wrong user_profile_id in key metadata: %s" % (key.metadata,))
elif 'realm_id' not in key.metadata:
raise Exception("Missing realm_id in key metadata: %s" % (key.metadata,))
record = dict(s3_path=key.name, bucket=bucket_name,
size=key.size, last_modified=key.last_modified,
content_type=key.content_type, md5=key.md5)
record.update(key.metadata)
# A few early avatars don't have 'realm_id' on the object; fix their metadata
user_profile = get_user_profile_by_id(record['user_profile_id'])
if 'realm_id' not in record:
record['realm_id'] = user_profile.realm_id
record['user_profile_email'] = user_profile.email
if processing_avatars:
dirname = output_dir
filename = os.path.join(dirname, key.name)
record['path'] = key.name
else:
fields = key.name.split('/')
if len(fields) != 3:
raise Exception("Suspicious key %s" % (key.name))
dirname = os.path.join(output_dir, fields[1])
filename = os.path.join(dirname, fields[2])
record['path'] = os.path.join(fields[1], fields[2])
if not os.path.exists(dirname):
os.makedirs(dirname)
key.get_contents_to_filename(filename)
records.append(record)
count += 1
if (count % 100 == 0):
logging.info("Finished %s" % (count,))
with open(os.path.join(output_dir, "records.json"), "w") as records_file:
ujson.dump(records, records_file, indent=4)
def export_uploads_from_local(realm, local_dir, output_dir):
# type: (Realm, Path, Path) -> None
count = 0
records = []
for attachment in Attachment.objects.filter(realm_id=realm.id):
local_path = os.path.join(local_dir, attachment.path_id)
output_path = os.path.join(output_dir, attachment.path_id)
mkdir_p(os.path.dirname(output_path))
subprocess.check_call(["cp", "-a", local_path, output_path])
stat = os.stat(local_path)
record = dict(realm_id=attachment.realm_id,
user_profile_id=attachment.owner.id,
user_profile_email=attachment.owner.email,
s3_path=attachment.path_id,
path=attachment.path_id,
size=stat.st_size,
last_modified=stat.st_mtime,
content_type=None)
records.append(record)
count += 1
if (count % 100 == 0):
logging.info("Finished %s" % (count,))
with open(os.path.join(output_dir, "records.json"), "w") as records_file:
ujson.dump(records, records_file, indent=4)
def export_avatars_from_local(realm, local_dir, output_dir):
# type: (Realm, Path, Path) -> None
count = 0
records = []
users = list(UserProfile.objects.filter(realm=realm))
users += [
get_system_bot(settings.NOTIFICATION_BOT),
get_system_bot(settings.EMAIL_GATEWAY_BOT),
get_system_bot(settings.WELCOME_BOT),
]
for user in users:
if user.avatar_source == UserProfile.AVATAR_FROM_GRAVATAR:
continue
avatar_hash = user_avatar_hash(user.email)
wildcard = os.path.join(local_dir, avatar_hash + '.*')
for local_path in glob.glob(wildcard):
logging.info('Copying avatar file for user %s from %s' % (
user.email, local_path))
fn = os.path.basename(local_path)
output_path = os.path.join(output_dir, fn)
mkdir_p(str(os.path.dirname(output_path)))
subprocess.check_call(["cp", "-a", str(local_path), str(output_path)])
stat = os.stat(local_path)
record = dict(realm_id=realm.id,
user_profile_id=user.id,
user_profile_email=user.email,
s3_path=fn,
path=fn,
size=stat.st_size,
last_modified=stat.st_mtime,
content_type=None)
records.append(record)
count += 1
if (count % 100 == 0):
logging.info("Finished %s" % (count,))
with open(os.path.join(output_dir, "records.json"), "w") as records_file:
ujson.dump(records, records_file, indent=4)
def do_write_stats_file_for_realm_export(output_dir):
# type: (Path) -> None
stats_file = os.path.join(output_dir, 'stats.txt')
realm_file = os.path.join(output_dir, 'realm.json')
attachment_file = os.path.join(output_dir, 'attachment.json')
message_files = glob.glob(os.path.join(output_dir, 'messages-*.json'))
fns = sorted([attachment_file] + message_files + [realm_file])
logging.info('Writing stats file: %s\n' % (stats_file,))
with open(stats_file, 'w') as f:
for fn in fns:
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f.write(os.path.basename(fn) + '\n')
payload = open(fn).read()
data = ujson.loads(payload)
for k in sorted(data):
f.write('%5d %s\n' % (len(data[k]), k))
f.write('\n')
avatar_file = os.path.join(output_dir, 'avatars/records.json')
uploads_file = os.path.join(output_dir, 'uploads/records.json')
for fn in [avatar_file, uploads_file]:
f.write(fn+'\n')
payload = open(fn).read()
data = ujson.loads(payload)
f.write('%5d records\n' % len(data))
f.write('\n')
def do_export_realm(realm, output_dir, threads, exportable_user_ids=None):
# type: (Realm, Path, int, Set[int]) -> None
response = {} # type: TableData
# We need at least one thread running to export
# UserMessage rows. The management command should
# enforce this for us.
if not settings.TEST_SUITE:
assert threads >= 1
assert os.path.exists("./manage.py")
realm_config = get_realm_config()
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create_soft_link(source=output_dir, in_progress=True)
logging.info("Exporting data from get_realm_config()...")
export_from_config(
response=response,
config=realm_config,
seed_object=realm,
context=dict(realm=realm, exportable_user_ids=exportable_user_ids)
)
logging.info('...DONE with get_realm_config() data')
export_file = os.path.join(output_dir, "realm.json")
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write_data_to_file(output_file=export_file, data=response)
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sanity_check_output(response)
logging.info("Exporting uploaded files and avatars")
export_uploads_and_avatars(realm, output_dir)
# We (sort of) export zerver_message rows here. We write
# them to .partial files that are subsequently fleshed out
# by parallel processes to add in zerver_usermessage data.
# This is for performance reasons, of course. Some installations
# have millions of messages.
logging.info("Exporting .partial files messages")
message_ids = export_partial_message_files(realm, response, output_dir=output_dir)
logging.info('%d messages were exported' % (len(message_ids)))
# zerver_attachment
export_attachment_table(realm=realm, output_dir=output_dir, message_ids=message_ids)
# Start parallel jobs to export the UserMessage objects.
launch_user_message_subprocesses(threads=threads, output_dir=output_dir)
logging.info("Finished exporting %s" % (realm.string_id))
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create_soft_link(source=output_dir, in_progress=False)
def export_attachment_table(realm, output_dir, message_ids):
# type: (Realm, Path, Set[int]) -> None
response = {} # type: TableData
fetch_attachment_data(response=response, realm_id=realm.id, message_ids=message_ids)
output_file = os.path.join(output_dir, "attachment.json")
logging.info('Writing attachment table data to %s' % (output_file,))
write_data_to_file(output_file=output_file, data=response)
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def create_soft_link(source, in_progress=True):
# type: (Path, bool) -> None
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is_done = not in_progress
in_progress_link = '/tmp/zulip-export-in-progress'
done_link = '/tmp/zulip-export-most-recent'
if in_progress:
new_target = in_progress_link
else:
subprocess.check_call(['rm', '-f', in_progress_link])
new_target = done_link
subprocess.check_call(["ln", "-nsf", source, new_target])
if is_done:
logging.info('See %s for output files' % (new_target,))
def launch_user_message_subprocesses(threads, output_dir):
# type: (int, Path) -> None
logging.info('Launching %d PARALLEL subprocesses to export UserMessage rows' % (threads,))
def run_job(shard):
# type: (str) -> int
subprocess.call(["./manage.py", 'export_usermessage_batch', '--path',
str(output_dir), '--thread', shard])
return 0
for (status, job) in run_parallel(run_job,
[str(x) for x in range(0, threads)],
threads=threads):
print("Shard %s finished, status %s" % (job, status))
def do_export_user(user_profile, output_dir):
# type: (UserProfile, Path) -> None
response = {} # type: TableData
export_single_user(user_profile, response)
export_file = os.path.join(output_dir, "user.json")
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write_data_to_file(output_file=export_file, data=response)
logging.info("Exporting messages")
export_messages_single_user(user_profile, output_dir)
def export_single_user(user_profile, response):
# type: (UserProfile, TableData) -> None
config = get_single_user_config()
export_from_config(
response=response,
config=config,
seed_object=user_profile,
)
def get_single_user_config():
# type: () -> Config
# zerver_userprofile
user_profile_config = Config(
table='zerver_userprofile',
is_seeded=True,
exclude=['password', 'api_key'],
)
# zerver_subscription
subscription_config = Config(
table='zerver_subscription',
model=Subscription,
normal_parent=user_profile_config,
parent_key='user_profile__in',
)
# zerver_recipient
recipient_config = Config(
table='zerver_recipient',
model=Recipient,
virtual_parent=subscription_config,
id_source=('zerver_subscription', 'recipient'),
)
# zerver_stream
Config(
table='zerver_stream',
model=Stream,
virtual_parent=recipient_config,
id_source=('zerver_recipient', 'type_id'),
source_filter=lambda r: r['type'] == Recipient.STREAM,
exclude=['email_token'],
)
return user_profile_config
def export_messages_single_user(user_profile, output_dir, chunk_size=1000):
# type: (UserProfile, Path, int) -> None
user_message_query = UserMessage.objects.filter(user_profile=user_profile).order_by("id")
min_id = -1
dump_file_id = 1
while True:
actual_query = user_message_query.select_related("message", "message__sending_client").filter(id__gt=min_id)[0:chunk_size]
user_message_chunk = [um for um in actual_query]
user_message_ids = set(um.id for um in user_message_chunk)
if len(user_message_chunk) == 0:
break
message_chunk = []
for user_message in user_message_chunk:
item = model_to_dict(user_message.message)
item['flags'] = user_message.flags_list()
item['flags_mask'] = user_message.flags.mask
# Add a few nice, human-readable details
item['sending_client_name'] = user_message.message.sending_client.name
item['display_recipient'] = get_display_recipient(user_message.message.recipient)
message_chunk.append(item)
message_filename = os.path.join(output_dir, "messages-%06d.json" % (dump_file_id,))
logging.info("Fetched Messages for %s" % (message_filename,))
output = {'zerver_message': message_chunk}
floatify_datetime_fields(output, 'zerver_message')
write_message_export(message_filename, output)
min_id = max(user_message_ids)
dump_file_id += 1
# Code from here is the realm import code path
# id_maps is a dictionary that maps table names to dictionaries
# that map old ids to new ids. We use this in
# re_map_foreign_keys and other places.
#
# We explicity initialize id_maps with the tables that support
# id re-mapping.
#
# Code reviewers: give these tables extra scrutiny, as we need to
# make sure to reload related tables AFTER we re-map the ids.
id_maps = {
'client': {},
'user_profile': {},
} # type: Dict[str, Dict[int, int]]
def update_id_map(table, old_id, new_id):
# type: (TableName, int, int) -> None
if table not in id_maps:
raise Exception('''
Table %s is not initialized in id_maps, which could
mean that we have not thought through circular
dependencies.
''' % (table,))
id_maps[table][old_id] = new_id
def fix_datetime_fields(data, table):
# type: (TableData, TableName) -> None
for item in data[table]:
for field_name in DATE_FIELDS[table]:
if item[field_name] is not None:
item[field_name] = datetime.datetime.fromtimestamp(item[field_name], tz=timezone_utc)
def convert_to_id_fields(data, table, field_name):
# type: (TableData, TableName, Field) -> None
'''
When Django gives us dict objects via model_to_dict, the foreign
key fields are `foo`, but we want `foo_id` for the bulk insert.
This function handles the simple case where we simply rename
the fields. For cases where we need to munge ids in the
database, see re_map_foreign_keys.
'''
for item in data[table]:
item[field_name + "_id"] = item[field_name]
del item[field_name]
def re_map_foreign_keys(data, table, field_name, related_table, verbose=False):
# type: (TableData, TableName, Field, TableName, bool) -> None
'''
We occasionally need to assign new ids to rows during the
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import/export process, to accommodate things like existing rows
already being in tables. See bulk_import_client for more context.
The tricky part is making sure that foreign key references
are in sync with the new ids, and this fixer function does
the re-mapping. (It also appends `_id` to the field.)
'''
lookup_table = id_maps[related_table]
for item in data[table]:
old_id = item[field_name]
if old_id in lookup_table:
new_id = lookup_table[old_id]
if verbose:
logging.info('Remapping %s%s from %s to %s' % (table,
field_name + '_id',
old_id,
new_id))
else:
new_id = old_id
item[field_name + "_id"] = new_id
del item[field_name]
def fix_bitfield_keys(data, table, field_name):
# type: (TableData, TableName, Field) -> None
for item in data[table]:
item[field_name] = item[field_name + '_mask']
del item[field_name + '_mask']
def bulk_import_model(data, model, table, dump_file_id=None):
# type: (TableData, Any, TableName, str) -> None
# TODO, deprecate dump_file_id
model.objects.bulk_create(model(**item) for item in data[table])
if dump_file_id is None:
logging.info("Successfully imported %s from %s." % (model, table))
else:
logging.info("Successfully imported %s from %s[%s]." % (model, table, dump_file_id))
# Client is a table shared by multiple realms, so in order to
# correctly import multiple realms into the same server, we need to
# check if a Client object already exists, and so we need to support
# remap all Client IDs to the values in the new DB.
def bulk_import_client(data, model, table):
# type: (TableData, Any, TableName) -> None
for item in data[table]:
try:
client = Client.objects.get(name=item['name'])
except Client.DoesNotExist:
client = Client.objects.create(name=item['name'])
update_id_map(table='client', old_id=item['id'], new_id=client.id)
def import_uploads_local(import_dir, processing_avatars=False):
# type: (Path, bool) -> None
records_filename = os.path.join(import_dir, "records.json")
with open(records_filename) as records_file:
records = ujson.loads(records_file.read())
for record in records:
if processing_avatars:
# For avatars, we need to rehash the user's email with the
# new server's avatar salt
avatar_hash = user_avatar_hash(record['user_profile_email'])
file_path = os.path.join(settings.LOCAL_UPLOADS_DIR, "avatars", avatar_hash)
if record['s3_path'].endswith('.original'):
file_path += '.original'
else:
file_path += '.png'
else:
file_path = os.path.join(settings.LOCAL_UPLOADS_DIR, "files", record['s3_path'])
orig_file_path = os.path.join(import_dir, record['path'])
if not os.path.exists(os.path.dirname(file_path)):
subprocess.check_call(["mkdir", "-p", os.path.dirname(file_path)])
shutil.copy(orig_file_path, file_path)
def import_uploads_s3(bucket_name, import_dir, processing_avatars=False):
# type: (str, Path, bool) -> None
conn = S3Connection(settings.S3_KEY, settings.S3_SECRET_KEY)
bucket = conn.get_bucket(bucket_name, validate=True)
records_filename = os.path.join(import_dir, "records.json")
with open(records_filename) as records_file:
records = ujson.loads(records_file.read())
for record in records:
key = Key(bucket)
if processing_avatars:
# For avatars, we need to rehash the user's email with the
# new server's avatar salt
avatar_hash = user_avatar_hash(record['user_profile_email'])
key.key = avatar_hash
if record['s3_path'].endswith('.original'):
key.key += '.original'
else:
key.key = record['s3_path']
user_profile_id = int(record['user_profile_id'])
# Support email gateway bot and other cross-realm messages
if user_profile_id in id_maps["user_profile"]:
logging.info("Uploaded by ID mapped user: %s!" % (user_profile_id,))
user_profile_id = id_maps["user_profile"][user_profile_id]
user_profile = get_user_profile_by_id(user_profile_id)
key.set_metadata("user_profile_id", str(user_profile.id))
key.set_metadata("realm_id", str(user_profile.realm_id))
key.set_metadata("orig_last_modified", record['last_modified'])
headers = {u'Content-Type': record['content_type']}
key.set_contents_from_filename(os.path.join(import_dir, record['path']), headers=headers)
def import_uploads(import_dir, processing_avatars=False):
# type: (Path, bool) -> None
if processing_avatars:
logging.info("Importing avatars")
else:
logging.info("Importing uploaded files")
if settings.LOCAL_UPLOADS_DIR:
import_uploads_local(import_dir, processing_avatars=processing_avatars)
else:
if processing_avatars:
bucket_name = settings.S3_AVATAR_BUCKET
else:
bucket_name = settings.S3_AUTH_UPLOADS_BUCKET
import_uploads_s3(bucket_name, import_dir, processing_avatars=processing_avatars)
# Importing data suffers from a difficult ordering problem because of
# models that reference each other circularly. Here is a correct order.
#
# * Client [no deps]
# * Realm [-notifications_stream]
# * Stream [only depends on realm]
# * Realm's notifications_stream
# * Now can do all realm_tables
# * UserProfile, in order by ID to avoid bot loop issues
# * Huddle
# * Recipient
# * Subscription
# * Message
# * UserMessage
#
# Because the Python object => JSON conversion process is not fully
# faithful, we have to use a set of fixers (e.g. on DateTime objects
# and Foreign Keys) to do the import correctly.
def do_import_realm(import_dir):
# type: (Path) -> None
logging.info("Importing realm dump %s" % (import_dir,))
if not os.path.exists(import_dir):
raise Exception("Missing import directory!")
realm_data_filename = os.path.join(import_dir, "realm.json")
if not os.path.exists(realm_data_filename):
raise Exception("Missing realm.json file!")
logging.info("Importing realm data from %s" % (realm_data_filename,))
with open(realm_data_filename) as f:
data = ujson.load(f)
convert_to_id_fields(data, 'zerver_realm', 'notifications_stream')
fix_datetime_fields(data, 'zerver_realm')
realm = Realm(**data['zerver_realm'][0])
if realm.notifications_stream_id is not None:
notifications_stream_id = int(realm.notifications_stream_id) # type: Optional[int]
else:
notifications_stream_id = None
realm.notifications_stream_id = None
realm.save()
bulk_import_client(data, Client, 'zerver_client')
# Email tokens will automatically be randomly generated when the
# Stream objects are created by Django.
fix_datetime_fields(data, 'zerver_stream')
convert_to_id_fields(data, 'zerver_stream', 'realm')
bulk_import_model(data, Stream, 'zerver_stream')
realm.notifications_stream_id = notifications_stream_id
realm.save()
convert_to_id_fields(data, "zerver_defaultstream", 'stream')
for (table, model) in realm_tables:
convert_to_id_fields(data, table, 'realm')
bulk_import_model(data, model, table)
# Remap the user IDs for notification_bot and friends to their
# appropriate IDs on this server
for item in data['zerver_userprofile_crossrealm']:
logging.info("Adding to ID map: %s %s" % (item['id'], get_system_bot(item['email']).id))
new_user_id = get_system_bot(item['email']).id
update_id_map(table='user_profile', old_id=item['id'], new_id=new_user_id)
# Merge in zerver_userprofile_mirrordummy
data['zerver_userprofile'] = data['zerver_userprofile'] + data['zerver_userprofile_mirrordummy']
del data['zerver_userprofile_mirrordummy']
data['zerver_userprofile'].sort(key=lambda r: r['id'])
fix_datetime_fields(data, 'zerver_userprofile')
convert_to_id_fields(data, 'zerver_userprofile', 'realm')
re_map_foreign_keys(data, 'zerver_userprofile', 'bot_owner', related_table="user_profile")
convert_to_id_fields(data, 'zerver_userprofile', 'default_sending_stream')
convert_to_id_fields(data, 'zerver_userprofile', 'default_events_register_stream')
for user_profile_dict in data['zerver_userprofile']:
user_profile_dict['password'] = None
user_profile_dict['api_key'] = random_api_key()
# Since Zulip doesn't use these permissions, drop them
del user_profile_dict['user_permissions']
del user_profile_dict['groups']
user_profiles = [UserProfile(**item) for item in data['zerver_userprofile']]
for user_profile in user_profiles:
user_profile.set_unusable_password()
UserProfile.objects.bulk_create(user_profiles)
if 'zerver_huddle' in data:
bulk_import_model(data, Huddle, 'zerver_huddle')
bulk_import_model(data, Recipient, 'zerver_recipient')
re_map_foreign_keys(data, 'zerver_subscription', 'user_profile', related_table="user_profile")
convert_to_id_fields(data, 'zerver_subscription', 'recipient')
bulk_import_model(data, Subscription, 'zerver_subscription')
fix_datetime_fields(data, 'zerver_userpresence')
re_map_foreign_keys(data, 'zerver_userpresence', 'user_profile', related_table="user_profile")
re_map_foreign_keys(data, 'zerver_userpresence', 'client', related_table='client')
bulk_import_model(data, UserPresence, 'zerver_userpresence')
fix_datetime_fields(data, 'zerver_useractivity')
re_map_foreign_keys(data, 'zerver_useractivity', 'user_profile', related_table="user_profile")
re_map_foreign_keys(data, 'zerver_useractivity', 'client', related_table='client')
bulk_import_model(data, UserActivity, 'zerver_useractivity')
fix_datetime_fields(data, 'zerver_useractivityinterval')
re_map_foreign_keys(data, 'zerver_useractivityinterval', 'user_profile', related_table="user_profile")
bulk_import_model(data, UserActivityInterval, 'zerver_useractivityinterval')
# Import uploaded files and avatars
import_uploads(os.path.join(import_dir, "avatars"), processing_avatars=True)
import_uploads(os.path.join(import_dir, "uploads"))
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# Import zerver_message and zerver_usermessage
import_message_data(import_dir)
# Do attachments AFTER message data is loaded.
# TODO: de-dup how we read these json files.
fn = os.path.join(import_dir, "attachment.json")
if not os.path.exists(fn):
raise Exception("Missing attachment.json file!")
logging.info("Importing attachment data from %s" % (fn,))
with open(fn) as f:
data = ujson.load(f)
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import_attachments(data)
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def import_message_data(import_dir):
# type: (Path) -> None
dump_file_id = 1
while True:
message_filename = os.path.join(import_dir, "messages-%06d.json" % (dump_file_id,))
if not os.path.exists(message_filename):
break
with open(message_filename) as f:
data = ujson.load(f)
logging.info("Importing message dump %s" % (message_filename,))
re_map_foreign_keys(data, 'zerver_message', 'sender', related_table="user_profile")
convert_to_id_fields(data, 'zerver_message', 'recipient')
re_map_foreign_keys(data, 'zerver_message', 'sending_client', related_table='client')
fix_datetime_fields(data, 'zerver_message')
bulk_import_model(data, Message, 'zerver_message')
# Due to the structure of these message chunks, we're
# guaranteed to have already imported all the Message objects
# for this batch of UserMessage objects.
convert_to_id_fields(data, 'zerver_usermessage', 'message')
re_map_foreign_keys(data, 'zerver_usermessage', 'user_profile', related_table="user_profile")
fix_bitfield_keys(data, 'zerver_usermessage', 'flags')
bulk_import_model(data, UserMessage, 'zerver_usermessage')
dump_file_id += 1
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def import_attachments(data):
# type: (TableData) -> None
# Clean up the data in zerver_attachment that is not
# relevant to our many-to-many import.
fix_datetime_fields(data, 'zerver_attachment')
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re_map_foreign_keys(data, 'zerver_attachment', 'owner', related_table="user_profile")
convert_to_id_fields(data, 'zerver_attachment', 'realm')
# Configure ourselves. Django models many-to-many (m2m)
# relations asymmetrically. The parent here refers to the
# Model that has the ManyToManyField. It is assumed here
# the child models have been loaded, but we are in turn
# responsible for loading the parents and the m2m rows.
parent_model = Attachment
parent_db_table_name = 'zerver_attachment'
parent_singular = 'attachment'
child_singular = 'message'
child_plural = 'messages'
m2m_table_name = 'zerver_attachment_messages'
parent_id = 'attachment_id'
child_id = 'message_id'
# First, build our list of many-to-many (m2m) rows.
# We do this in a slightly convoluted way to anticipate
# a future where we may need to call re_map_foreign_keys.
m2m_rows = [] # type: List[Record]
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for parent_row in data[parent_db_table_name]:
for fk_id in parent_row[child_plural]:
m2m_row = {} # type: Record
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m2m_row[parent_singular] = parent_row['id']
m2m_row[child_singular] = fk_id
m2m_rows.append(m2m_row)
# Create our table data for insert.
m2m_data = {m2m_table_name: m2m_rows} # type: TableData
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convert_to_id_fields(m2m_data, m2m_table_name, parent_singular)
convert_to_id_fields(m2m_data, m2m_table_name, child_singular)
m2m_rows = m2m_data[m2m_table_name]
# Next, delete out our child data from the parent rows.
for parent_row in data[parent_db_table_name]:
del parent_row[child_plural]
# Next, load the parent rows.
bulk_import_model(data, parent_model, parent_db_table_name)
# Now, go back to our m2m rows.
# TODO: Do this the kosher Django way. We may find a
# better way to do this in Django 1.9 particularly.
with connection.cursor() as cursor:
sql_template = '''
insert into %s (%s, %s) values(%%s, %%s);''' % (m2m_table_name,
parent_id,
child_id)
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tups = [(row[parent_id], row[child_id]) for row in m2m_rows]
cursor.executemany(sql_template, tups)
logging.info('Successfully imported M2M table %s' % (m2m_table_name,))