import datetime from boto.s3.key import Key from boto.s3.connection import S3Connection from django.conf import settings 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.upload import random_name, sanitize_name from zerver.lib.avatar_hash import user_avatar_hash, user_avatar_path_from_ids from zerver.lib.upload import S3UploadBackend, LocalUploadBackend from zerver.lib.create_user import random_api_key from zerver.lib.bulk_create import bulk_create_users 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, Reaction, \ get_display_recipient, Attachment, get_system_bot, email_to_username from zerver.lib.parallel import run_parallel from typing import Any, Callable, Dict, List, Optional, Set, Tuple, \ Iterable, Text # 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, "defaultstream"), ("zerver_realmemoji", RealmEmoji, "realmemoji"), ("zerver_realmdomain", RealmDomain, "realmdomain"), ("zerver_realmfilter", RealmFilter, "realmfilter")] # List[Tuple[TableName, Any, str]] 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', 'zerver_realmemoji', 'zerver_realmfilter', 'zerver_recipient', 'zerver_scheduledemail', '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', '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)) 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]] def sanity_check_output(data: TableData) -> None: tables = set(ALL_ZERVER_TABLES) tables -= set(NON_EXPORTED_TABLES) tables -= set(IMPLICIT_TABLES) tables -= set(MESSAGE_TABLES) tables -= set(ATTACHMENT_TABLES) for table in tables: if table not in data: logging.warning('??? NO DATA EXPORTED FOR TABLE %s!!!' % (table,)) def write_data_to_file(output_file: Path, data: Any) -> None: with open(output_file, "w") as f: f.write(ujson.dumps(data, indent=4)) def make_raw(query: Any, exclude: Optional[List[Field]]=None) -> 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 1.11.5, model_to_dict evaluates the QuerySet of many-to-many field to give us a list of instances. We require a list of primary keys, so we get the primary keys from the instances below. """ for field in instance._meta.many_to_many: value = data[field.name] data[field.name] = [row.id for row in value] rows.append(data) return rows def floatify_datetime_fields(data: TableData, table: 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: ''' 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: Optional[str]=None, model: Optional[Any]=None, normal_parent: Optional['Config']=None, virtual_parent: Optional['Config']=None, filter_args: Optional[FilterArgs]=None, custom_fetch: Optional[CustomFetch]=None, custom_tables: Optional[List[TableName]]=None, post_process_data: Optional[PostProcessData]=None, concat_and_destroy: Optional[List[TableName]]=None, id_source: Optional[IdSource]=None, source_filter: Optional[SourceFilter]=None, parent_key: Optional[Field]=None, use_all: bool=False, is_seeded: bool=False, exclude: Optional[List[Field]]=None) -> 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 self.post_process_data = post_process_data self.concat_and_destroy = concat_and_destroy self.id_source = id_source 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.''' % ( self.table, self.id_source[0], self.virtual_parent.table)) def export_from_config(response: TableData, config: Config, seed_object: Optional[Any]=None, context: Optional[Context]=None) -> 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) 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() -> 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', ) Config( table='_user_recipient', model=Recipient, virtual_parent=user_subscription_config, id_source=('_user_subscription', 'recipient'), ) # 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: TableData, config: Config, context: 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: TableData, config: Config, context: Context) -> None: realm = context['realm'] exportable_user_ids = context['exportable_user_ids'] query = UserProfile.objects.filter(realm_id=realm.id) 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: TableData, config: Config, context: Context) -> None: realm = context['realm'] if realm.string_id == settings.SYSTEM_BOT_REALM: 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), ]] def fetch_attachment_data(response: TableData, realm_id: int, message_ids: 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'][]['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: TableData, config: Config, context: 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: Realm, message_ids: Set[int], user_profile_ids: Set[int], message_filename: 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: Path, output_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: Path, output: MessageOutput) -> None: write_data_to_file(output_file=message_filename, data=output) logging.info("Dumped to %s" % (message_filename,)) def export_partial_message_files(realm: Realm, response: TableData, chunk_size: int=1000, output_dir: Optional[Path]=None) -> Set[int]: if output_dir is None: output_dir = tempfile.mkdtemp(prefix="zulip-export") def get_ids(records: 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: Realm, message_query: Any, dump_file_id: int, all_message_ids: Set[int], output_dir: Path, chunk_size: int, user_profile_ids: 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: Realm, output_dir: 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: Realm, bucket_name: str, output_dir: Path, processing_avatars: bool=False) -> 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_path = user_avatar_path_from_ids(user_profile.id, realm.id) avatar_hash_values.add(avatar_path) avatar_hash_values.add(avatar_path + ".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) # type: Optional[UserProfile] 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: Realm, local_dir: Path, output_dir: 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) os.makedirs(os.path.dirname(output_path), exist_ok=True) 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: Realm, local_dir: Path, output_dir: 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_path = user_avatar_path_from_ids(user.id, realm.id) wildcard = os.path.join(local_dir, avatar_path + '.*') for local_path in glob.glob(wildcard): logging.info('Copying avatar file for user %s from %s' % ( user.email, local_path)) fn = os.path.relpath(local_path, local_dir) output_path = os.path.join(output_dir, fn) os.makedirs(str(os.path.dirname(output_path)), exist_ok=True) 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: 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: 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: Realm, output_dir: Path, threads: int, exportable_user_ids: Optional[Set[int]]=None) -> 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() 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") write_data_to_file(output_file=export_file, data=response) 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)) create_soft_link(source=output_dir, in_progress=False) def export_attachment_table(realm: Realm, output_dir: Path, message_ids: 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) def create_soft_link(source: Path, in_progress: bool=True) -> None: 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: int, output_dir: Path) -> None: logging.info('Launching %d PARALLEL subprocesses to export UserMessage rows' % (threads,)) def run_job(shard: 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: UserProfile, output_dir: Path) -> None: response = {} # type: TableData export_single_user(user_profile, response) export_file = os.path.join(output_dir, "user.json") 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: UserProfile, response: TableData) -> None: config = get_single_user_config() export_from_config( response=response, config=config, seed_object=user_profile, ) def get_single_user_config() -> 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: UserProfile, output_dir: Path, chunk_size: int=1000) -> 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': {}, 'realm': {}, 'stream': {}, 'recipient': {}, 'subscription': {}, 'defaultstream': {}, 'reaction': {}, 'realmemoji': {}, 'realmdomain': {}, 'realmfilter': {}, 'message': {}, 'user_presence': {}, 'useractivity': {}, 'useractivityinterval': {}, 'usermessage': {}, 'attachment': {}, } # type: Dict[str, Dict[int, int]] path_maps = { 'attachment_path': {}, } # type: Dict[str, Dict[str, str]] def update_id_map(table: TableName, old_id: int, new_id: 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: TableData, table: 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 current_table_ids(data: TableData, table: TableName) -> List[int]: """ Returns the ids present in the current table """ id_list = [] for item in data[table]: id_list.append(item["id"]) return id_list def idseq(model_class: Any) -> str: if model_class == RealmDomain: return 'zerver_realmalias_id_seq' return '{}_id_seq'.format(model_class._meta.db_table) def allocate_ids(model_class: Any, count: int) -> List[int]: """ Increases the sequence number for a given table by the amount of objects being imported into that table. Hence, this gives a reserved range of ids to import the converted slack objects into the tables. """ conn = connection.cursor() sequence = idseq(model_class) conn.execute("select nextval('%s') from generate_series(1,%s)" % (sequence, str(count))) query = conn.fetchall() # Each element in the result is a tuple like (5,) conn.close() # convert List[Tuple[int]] to List[int] return [item[0] for item in query] def convert_to_id_fields(data: TableData, table: TableName, field_name: 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: TableData, table: TableName, field_name: Field, related_table: TableName, verbose: bool=False, id_field: bool=False, recipient_field: bool=False) -> None: """ This is a wrapper function for all the realm data tables and only avatar and attachment records need to be passed through the internal function because of the difference in data format (TableData corresponding to realm data tables and List[Record] corresponding to the avatar and attachment records) """ re_map_foreign_keys_internal(data[table], table, field_name, related_table, verbose, id_field, recipient_field) def re_map_foreign_keys_internal(data_table: List[Record], table: TableName, field_name: Field, related_table: TableName, verbose: bool=False, id_field: bool=False, recipient_field: bool=False) -> None: ''' We occasionally need to assign new ids to rows during the 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: if recipient_field: if related_table == "stream" and item['type'] == 2: pass elif related_table == "user_profile" and item['type'] == 1: pass else: continue 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 if not id_field: item[field_name + "_id"] = new_id del item[field_name] else: item[field_name] = new_id def fix_bitfield_keys(data: TableData, table: TableName, field_name: Field) -> None: for item in data[table]: item[field_name] = item[field_name + '_mask'] del item[field_name + '_mask'] def fix_realm_authentication_bitfield(data: TableData, table: TableName, field_name: Field) -> None: """Used to fixup the authentication_methods bitfield to be a string""" for item in data[table]: values_as_bitstring = ''.join(['1' if field[1] else '0' for field in item[field_name]]) values_as_int = int(values_as_bitstring, 2) item[field_name] = values_as_int def update_model_ids(model: Any, data: TableData, table: TableName, related_table: TableName) -> None: old_id_list = current_table_ids(data, table) allocated_id_list = allocate_ids(model, len(data[table])) for item in range(len(data[table])): update_id_map(related_table, old_id_list[item], allocated_id_list[item]) re_map_foreign_keys(data, table, 'id', related_table=related_table, id_field=True) def bulk_import_model(data: TableData, model: Any, table: TableName, dump_file_id: Optional[str]=None) -> 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: TableData, model: Any, table: 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: Path, processing_avatars: bool=False, processing_emojis: bool=False) -> None: records_filename = os.path.join(import_dir, "records.json") with open(records_filename) as records_file: records = ujson.loads(records_file.read()) re_map_foreign_keys_internal(records, 'records', 'realm_id', related_table="realm", id_field=True) if not processing_emojis: re_map_foreign_keys_internal(records, 'records', 'user_profile_id', related_table="user_profile", id_field=True) for record in records: if processing_avatars: # For avatars, we need to rehash the user ID with the # new server's avatar salt avatar_path = user_avatar_path_from_ids(record['user_profile_id'], record['realm_id']) file_path = os.path.join(settings.LOCAL_UPLOADS_DIR, "avatars", avatar_path) if record['s3_path'].endswith('.original'): file_path += '.original' else: file_path += '.png' elif processing_emojis: # For emojis we follow the function 'upload_emoji_image' emoji_path = RealmEmoji.PATH_ID_TEMPLATE.format( realm_id=record['realm_id'], emoji_file_name=record['file_name']) file_path = os.path.join(settings.LOCAL_UPLOADS_DIR, "avatars", emoji_path) else: # Should be kept in sync with its equivalent in zerver/lib/uploads in the # function 'upload_message_image' s3_file_name = "/".join([ str(record['realm_id']), random_name(18), sanitize_name(os.path.basename(record['path'])) ]) file_path = os.path.join(settings.LOCAL_UPLOADS_DIR, "files", s3_file_name) path_maps['attachment_path'][record['path']] = s3_file_name 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) if processing_avatars: # Ensure that we have medium-size avatar images for every # avatar. TODO: This implementation is hacky, both in that it # does get_user_profile_by_id for each user, and in that it # might be better to require the export to just have these. upload_backend = LocalUploadBackend() for record in records: if record['s3_path'].endswith('.original'): user_profile = get_user_profile_by_id(record['user_profile_id']) # If medium sized avatar does not exist, this creates it using the original image upload_backend.ensure_medium_avatar_image(user_profile=user_profile) def import_uploads_s3(bucket_name: str, import_dir: Path, processing_avatars: bool=False, processing_emojis: bool=False) -> None: upload_backend = S3UploadBackend() 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()) re_map_foreign_keys_internal(records, 'records', 'realm_id', related_table="realm", id_field=True) re_map_foreign_keys_internal(records, 'records', 'user_profile_id', related_table="user_profile", id_field=True) 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_path = user_avatar_path_from_ids(record['user_profile_id'], record['realm_id']) key.key = avatar_path if record['s3_path'].endswith('.original'): key.key += '.original' if processing_emojis: # For emojis we follow the function 'upload_emoji_image' emoji_path = RealmEmoji.PATH_ID_TEMPLATE.format( realm_id=record['realm_id'], emoji_file_name=record['file_name']) key.key = emoji_path else: # Should be kept in sync with its equivalent in zerver/lib/uploads in the # function 'upload_message_image' s3_file_name = "/".join([ str(record['realm_id']), random_name(18), sanitize_name(os.path.basename(record['path'])) ]) key.key = s3_file_name path_maps['attachment_path'][record['path']] = s3_file_name 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 = {'Content-Type': record['content_type']} key.set_contents_from_filename(os.path.join(import_dir, record['path']), headers=headers) if processing_avatars: # TODO: Ideally, we'd do this in a separate pass, after # all the avatars have been uploaded, since we may end up # unnecssarily resizing images just before the medium-size # image in the export is uploaded. See the local uplods # code path for more notes. upload_backend.ensure_medium_avatar_image(user_profile=user_profile) def import_uploads(import_dir: Path, processing_avatars: bool=False, processing_emojis: bool=False) -> None: if processing_avatars: logging.info("Importing avatars") elif processing_emojis: logging.info("Importing emojis") else: logging.info("Importing uploaded files") if settings.LOCAL_UPLOADS_DIR: import_uploads_local(import_dir, processing_avatars=processing_avatars, processing_emojis=processing_emojis) else: if processing_avatars or processing_emojis: 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: Path) -> Realm: 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) update_model_ids(Stream, data, 'zerver_stream', 'stream') re_map_foreign_keys(data, 'zerver_realm', 'notifications_stream', related_table="stream") fix_datetime_fields(data, 'zerver_realm') fix_realm_authentication_bitfield(data, 'zerver_realm', 'authentication_methods') update_model_ids(Realm, data, 'zerver_realm', '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') re_map_foreign_keys(data, 'zerver_stream', 'realm', related_table="realm") bulk_import_model(data, Stream, 'zerver_stream') realm.notifications_stream_id = notifications_stream_id realm.save() re_map_foreign_keys(data, 'zerver_defaultstream', 'stream', related_table="stream") re_map_foreign_keys(data, 'zerver_realmemoji', 'author', related_table="user_profile") for (table, model, related_table) in realm_tables: re_map_foreign_keys(data, table, 'realm', related_table="realm") update_model_ids(model, data, table, related_table) 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']) # To remap foreign key for UserProfile.last_active_message_id update_message_foreign_keys(import_dir) fix_datetime_fields(data, 'zerver_userprofile') re_map_foreign_keys(data, 'zerver_userprofile', 'realm', related_table="realm") re_map_foreign_keys(data, 'zerver_userprofile', 'bot_owner', related_table="user_profile") re_map_foreign_keys(data, 'zerver_userprofile', 'default_sending_stream', related_table="stream") re_map_foreign_keys(data, 'zerver_userprofile', 'default_events_register_stream', related_table="stream") re_map_foreign_keys(data, 'zerver_userprofile', 'last_active_message_id', related_table="message", id_field=True) 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'] update_model_ids(UserProfile, data, 'zerver_userprofile', 'user_profile') 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') re_map_foreign_keys(data, 'zerver_recipient', 'type_id', related_table="stream", recipient_field=True, id_field=True) re_map_foreign_keys(data, 'zerver_recipient', 'type_id', related_table="user_profile", recipient_field=True, id_field=True) update_model_ids(Recipient, data, 'zerver_recipient', 'recipient') bulk_import_model(data, Recipient, 'zerver_recipient') re_map_foreign_keys(data, 'zerver_subscription', 'user_profile', related_table="user_profile") re_map_foreign_keys(data, 'zerver_subscription', 'recipient', related_table="recipient") update_model_ids(Subscription, data, 'zerver_subscription', 'subscription') 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') update_model_ids(UserPresence, data, 'zerver_userpresence', 'user_presence') 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') update_model_ids(UserActivity, data, 'zerver_useractivity', 'useractivity') 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") update_model_ids(UserActivityInterval, data, 'zerver_useractivityinterval', 'useractivityinterval') 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")) # We need to have this check as the emoji files are only present in the data # importer from slack # For Zulip export, this doesn't exist if os.path.exists(os.path.join(import_dir, "emoji")): import_uploads(os.path.join(import_dir, "emoji"), processing_emojis=True) # 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) import_attachments(data) return realm # create_users and do_import_system_bots differ from their equivalent in # zerver/management/commands/initialize_voyager_db.py because here we check if the bots # don't already exist and only then create a user for these bots. def do_import_system_bots(realm: Any) -> None: internal_bots = [(bot['name'], bot['email_template'] % (settings.INTERNAL_BOT_DOMAIN,)) for bot in settings.INTERNAL_BOTS] create_users(realm, internal_bots, bot_type=UserProfile.DEFAULT_BOT) names = [(settings.FEEDBACK_BOT_NAME, settings.FEEDBACK_BOT)] create_users(realm, names, bot_type=UserProfile.DEFAULT_BOT) print("Finished importing system bots.") def create_users(realm: Realm, name_list: Iterable[Tuple[Text, Text]], bot_type: Optional[int]=None) -> None: user_set = set() for full_name, email in name_list: short_name = email_to_username(email) if not UserProfile.objects.filter(email=email): user_set.add((email, full_name, short_name, True)) bulk_create_users(realm, user_set, bot_type) def update_message_foreign_keys(import_dir: 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) update_model_ids(Message, data, 'zerver_message', 'message') dump_file_id += 1 def import_message_data(import_dir: 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") re_map_foreign_keys(data, 'zerver_message', 'recipient', related_table="recipient") re_map_foreign_keys(data, 'zerver_message', 'sending_client', related_table='client') fix_datetime_fields(data, 'zerver_message') re_map_foreign_keys(data, 'zerver_message', 'id', related_table='message', id_field=True) 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. re_map_foreign_keys(data, 'zerver_usermessage', 'message', related_table="message") re_map_foreign_keys(data, 'zerver_usermessage', 'user_profile', related_table="user_profile") fix_bitfield_keys(data, 'zerver_usermessage', 'flags') update_model_ids(UserMessage, data, 'zerver_usermessage', 'usermessage') bulk_import_model(data, UserMessage, 'zerver_usermessage') # As the export of Reactions is not supported, Zulip exported # data would not contain this field. # However this is supported in slack importer script if 'zerver_reaction' in data: re_map_foreign_keys(data, 'zerver_reaction', 'message', related_table="message") re_map_foreign_keys(data, 'zerver_reaction', 'user_profile', related_table="user_profile") for reaction in data['zerver_reaction']: if reaction['reaction_type'] == Reaction.REALM_EMOJI: re_map_foreign_keys(data, 'zerver_reaction', 'emoji_code', related_table="realmemoji", id_field=True) update_model_ids(Reaction, data, 'zerver_reaction', 'reaction') bulk_import_model(data, Reaction, 'zerver_reaction') dump_file_id += 1 def import_attachments(data: 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') re_map_foreign_keys(data, 'zerver_attachment', 'owner', related_table="user_profile") re_map_foreign_keys(data, 'zerver_attachment', 'realm', related_table="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' update_model_ids(parent_model, data, parent_db_table_name, 'attachment') # 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] for parent_row in data[parent_db_table_name]: for fk_id in parent_row[child_plural]: m2m_row = {} # type: Record m2m_row[parent_singular] = parent_row['id'] m2m_row[child_singular] = id_maps['message'][fk_id] m2m_rows.append(m2m_row) # Create our table data for insert. m2m_data = {m2m_table_name: m2m_rows} # type: TableData 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] # Update 'path_id' for the attachments for attachment in data[parent_db_table_name]: attachment['path_id'] = path_maps['attachment_path'][attachment['path_id']] # 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) 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,))