# Copyright (C) 2003-2014 Yann Leboulanger # Copyright (C) 2004-2005 Vincent Hanquez # Copyright (C) 2005-2006 Nikos Kouremenos # Copyright (C) 2006 Dimitur Kirov # Copyright (C) 2006-2008 Jean-Marie Traissard # Copyright (C) 2007 Tomasz Melcer # Julien Pivotto # Copyright (C) 2018 Philipp Hörist # # This file is part of Gajim. # # Gajim is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published # by the Free Software Foundation; version 3 only. # # Gajim is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Gajim. If not, see . """ This module allows to access the on-disk database of logs """ import os import sys import time import datetime import calendar import json import logging import sqlite3 as sqlite from collections import namedtuple from gzip import GzipFile from io import BytesIO from gi.repository import GLib from gajim.common import exceptions from gajim.common import app from gajim.common import configpaths from gajim.common.helpers import AdditionalDataDict from gajim.common.i18n import _ from gajim.common.const import ( JIDConstant, KindConstant, ShowConstant, TypeConstant, SubscriptionConstant) LOGS_SQL_STATEMENT = ''' CREATE TABLE jids( jid_id INTEGER PRIMARY KEY AUTOINCREMENT UNIQUE, jid TEXT UNIQUE, type INTEGER ); CREATE TABLE unread_messages( message_id INTEGER PRIMARY KEY AUTOINCREMENT UNIQUE, jid_id INTEGER, shown BOOLEAN default 0 ); CREATE INDEX idx_unread_messages_jid_id ON unread_messages (jid_id); CREATE TABLE logs( log_line_id INTEGER PRIMARY KEY AUTOINCREMENT UNIQUE, account_id INTEGER, jid_id INTEGER, contact_name TEXT, time INTEGER, kind INTEGER, show INTEGER, message TEXT, subject TEXT, additional_data TEXT, stanza_id TEXT, message_id TEXT, encryption TEXT, encryption_state TEXT, marker INTEGER ); CREATE TABLE last_archive_message( jid_id INTEGER PRIMARY KEY UNIQUE, last_mam_id TEXT, oldest_mam_timestamp TEXT, last_muc_timestamp TEXT, sync_threshold INTEGER ); CREATE INDEX idx_logs_jid_id_time ON logs (jid_id, time DESC); CREATE INDEX idx_logs_stanza_id ON logs (stanza_id); PRAGMA user_version=2; ''' CACHE_SQL_STATEMENT = ''' CREATE TABLE transports_cache ( transport TEXT UNIQUE, type INTEGER ); CREATE TABLE caps_cache ( hash_method TEXT, hash TEXT, data BLOB, last_seen INTEGER); CREATE TABLE rooms_last_message_time( jid_id INTEGER PRIMARY KEY UNIQUE, time INTEGER ); CREATE TABLE roster_entry( account_jid_id INTEGER, jid_id INTEGER, name TEXT, subscription INTEGER, ask BOOLEAN, avatar_sha TEXT, PRIMARY KEY (account_jid_id, jid_id) ); CREATE TABLE roster_group( account_jid_id INTEGER, jid_id INTEGER, group_name TEXT, PRIMARY KEY (account_jid_id, jid_id, group_name) ); PRAGMA user_version=1; ''' log = logging.getLogger('gajim.c.logger') class Logger: def __init__(self): self._jid_ids = {} self._jid_ids_reversed = {} self._con = None self._commit_timout_id = None self._log_db_path = configpaths.get('LOG_DB') self._cache_db_path = configpaths.get('CACHE_DB') self._create_databases() self._migrate_databases() self._connect_databases() self._get_jid_ids_from_db() def _create_databases(self): if os.path.isdir(self._log_db_path): log.error(_('%s is a directory but should be a file'), self._log_db_path) sys.exit() if os.path.isdir(self._cache_db_path): log.error(_('%s is a directory but should be a file'), self._cache_db_path) sys.exit() if not os.path.exists(self._log_db_path): if os.path.exists(self._cache_db_path): os.remove(self._cache_db_path) self._create(LOGS_SQL_STATEMENT, self._log_db_path) if not os.path.exists(self._cache_db_path): self._create(CACHE_SQL_STATEMENT, self._cache_db_path) @staticmethod def _connect(*args, **kwargs): con = sqlite.connect(*args, **kwargs) con.execute("PRAGMA secure_delete=1") return con @classmethod def _create(cls, statement, path): log.info(_('Creating %s'), path) con = cls._connect(path) os.chmod(path, 0o600) try: con.executescript(statement) except Exception: log.exception('Error') con.close() os.remove(path) sys.exit() con.commit() con.close() @staticmethod def _get_user_version(con: sqlite.Connection) -> int: """ Return the value of PRAGMA user_version. """ return con.execute('PRAGMA user_version').fetchone()[0] def _migrate_databases(self): try: con = self._connect(self._log_db_path) self._migrate_logs(con) con.close() con = self._connect(self._cache_db_path) self._migrate_cache(con) con.close() except Exception: log.exception('Error') sys.exit() def _migrate_logs(self, con): if self._get_user_version(con) == 0: # All migrations from 0.16.9 until 1.0.0 statements = [ 'ALTER TABLE logs ADD COLUMN "account_id" INTEGER', 'ALTER TABLE logs ADD COLUMN "stanza_id" TEXT', 'ALTER TABLE logs ADD COLUMN "encryption" TEXT', 'ALTER TABLE logs ADD COLUMN "encryption_state" TEXT', 'ALTER TABLE logs ADD COLUMN "marker" INTEGER', 'ALTER TABLE logs ADD COLUMN "additional_data" TEXT', '''CREATE TABLE IF NOT EXISTS last_archive_message( jid_id INTEGER PRIMARY KEY UNIQUE, last_mam_id TEXT, oldest_mam_timestamp TEXT, last_muc_timestamp TEXT )''', '''CREATE INDEX IF NOT EXISTS idx_logs_stanza_id ON logs(stanza_id)''', 'PRAGMA user_version=1' ] self._execute_multiple(con, statements) if self._get_user_version(con) < 2: statements = [ 'ALTER TABLE last_archive_message ADD COLUMN "sync_threshold" INTEGER', 'PRAGMA user_version=2' ] self._execute_multiple(con, statements) if self._get_user_version(con) < 3: statements = [ 'ALTER TABLE logs ADD COLUMN "message_id" TEXT', 'PRAGMA user_version=3' ] self._execute_multiple(con, statements) def _migrate_cache(self, con): if self._get_user_version(con) == 0: # All migrations from 0.16.9 until 1.0.0 statements = [ 'ALTER TABLE roster_entry ADD COLUMN "avatar_sha" TEXT', 'PRAGMA user_version=1' ] self._execute_multiple(con, statements) if self._get_user_version(con) < 2: pass @staticmethod def _execute_multiple(con, statements): """ Execute mutliple statements with the option to fail on duplicates but still continue """ for sql in statements: try: con.execute(sql) con.commit() except sqlite.OperationalError as error: if str(error).startswith('duplicate column name:'): log.info(error) else: log.exception('Error') sys.exit() def namedtuple_factory(self, cursor, row): """ Usage: con.row_factory = namedtuple_factory """ fields = [col[0] for col in cursor.description] Row = namedtuple("Row", fields) named_row = Row(*row) if 'additional_data' in fields: _dict = json.loads(named_row.additional_data or '{}') named_row = named_row._replace( additional_data=AdditionalDataDict(_dict)) # if an alias `account` for the field `account_id` is used for the # query, the account_id is converted to the account jid if 'account' in fields: if named_row.account: jid = self._jid_ids_reversed[named_row.account].jid named_row = named_row._replace(account=jid) return named_row def dispatch(self, event, error): app.ged.raise_event(event, None, str(error)) def _connect_databases(self): self._con = self._connect( self._log_db_path, timeout=20.0, isolation_level='IMMEDIATE') self._con.row_factory = self.namedtuple_factory # DB functions self._con.create_function("like", 1, self._like) self._con.create_function("get_timeout", 0, self._get_timeout) self._set_synchronous(False) try: self._con.execute("ATTACH DATABASE '%s' AS cache" % self._cache_db_path.replace("'", "''")) except Exception: log.exception('Error') self._con.close() sys.exit() def _set_synchronous(self, sync): try: if sync: self._con.execute("PRAGMA synchronous = NORMAL") else: self._con.execute("PRAGMA synchronous = OFF") except sqlite.Error: log.exception('Error') @staticmethod def _get_timeout(): """ returns the timeout in epoch """ timeout = app.config.get('restore_timeout') now = int(time.time()) if timeout > 0: timeout = now - (timeout * 60) return timeout @staticmethod def _like(search_str): return '%{}%'.format(search_str) def commit(self): try: self._con.commit() except sqlite.OperationalError as e: print(str(e), file=sys.stderr) self._commit_timout_id = None return False def _timeout_commit(self): if self._commit_timout_id: return self._commit_timout_id = GLib.timeout_add(500, self.commit) def simple_commit(self, sql_to_commit): """ Helper to commit """ self._con.execute(sql_to_commit) self._timeout_commit() def _get_jid_ids_from_db(self): """ Load all jid/jid_id tuples into a dict for faster access """ rows = self._con.execute( 'SELECT jid_id, jid, type FROM jids').fetchall() for row in rows: self._jid_ids[row.jid] = row self._jid_ids_reversed[row.jid_id] = row def get_jids_in_db(self): return self._jid_ids.keys() def jid_is_from_pm(self, jid): """ If jid is gajim@conf/nkour it's likely a pm one, how we know gajim@conf is not a normal guy and nkour is not his resource? we ask if gajim@conf is already in jids (with type room jid) this fails if user disables logging for room and only enables for pm (so higly unlikely) and if we fail we do not go chaos (user will see the first pm as if it was message in room's public chat) and after that all okay """ if jid.find('/') > -1: possible_room_jid = jid.split('/', 1)[0] return self.jid_is_room_jid(possible_room_jid) # it's not a full jid, so it's not a pm one return False def jid_is_room_jid(self, jid): """ Return True if it's a room jid, False if it's not, None if we don't know """ jid_ = self._jid_ids.get(jid) if jid_ is None: return return jid_.type == JIDConstant.ROOM_TYPE @staticmethod def _get_family_jids(account, jid): """ Get all jids of the metacontacts family :param account: The account :param jid: The JID returns a list of JIDs' """ family = app.contacts.get_metacontacts_family(account, jid) if family: return [user['jid'] for user in family] return [jid] def get_account_id(self, account): jid = app.get_jid_from_account(account) return self.get_jid_id(jid, type_=JIDConstant.NORMAL_TYPE) def get_jid_id(self, jid, kind=None, type_=None): """ Get the jid id from a jid. In case the jid id is not found create a new one. :param jid: The JID :param kind: The KindConstant :param type_: The JIDConstant return the jid id """ if kind in (KindConstant.GC_MSG, KindConstant.GCSTATUS): type_ = JIDConstant.ROOM_TYPE elif kind is not None: type_ = JIDConstant.NORMAL_TYPE result = self._jid_ids.get(jid, None) if result is not None: return result.jid_id sql = 'SELECT jid_id, jid, type FROM jids WHERE jid = ?' row = self._con.execute(sql, [jid]).fetchone() if row is not None: self._jid_ids[jid] = row return row.jid_id if type_ is None: raise ValueError( 'Unable to insert new JID because type is missing') sql = 'INSERT INTO jids (jid, type) VALUES (?, ?)' lastrowid = self._con.execute(sql, (jid, type_)).lastrowid Row = namedtuple('Row', 'jid_id jid type') self._jid_ids[jid] = Row(lastrowid, jid, type_) self._timeout_commit() return lastrowid def convert_kind_values_to_db_api_values(self, kind): """ Convert from string style to constant ints for db """ if kind == 'status': kind_col = KindConstant.STATUS elif kind == 'gcstatus': kind_col = KindConstant.GCSTATUS elif kind == 'gc_msg': kind_col = KindConstant.GC_MSG elif kind == 'single_msg_recv': kind_col = KindConstant.SINGLE_MSG_RECV elif kind == 'single_msg_sent': kind_col = KindConstant.SINGLE_MSG_SENT elif kind == 'chat_msg_recv': kind_col = KindConstant.CHAT_MSG_RECV elif kind == 'chat_msg_sent': kind_col = KindConstant.CHAT_MSG_SENT elif kind == 'error': kind_col = KindConstant.ERROR return kind_col def convert_show_values_to_db_api_values(self, show): """ Convert from string style to constant ints for db """ if show == 'online': return ShowConstant.ONLINE if show == 'chat': return ShowConstant.CHAT if show == 'away': return ShowConstant.AWAY if show == 'xa': return ShowConstant.XA if show == 'dnd': return ShowConstant.DND if show == 'offline': return ShowConstant.OFFLINE if show is None: return ShowConstant.ONLINE # invisible in GC when someone goes invisible # it's a RFC violation .... but we should not crash return None def convert_human_transport_type_to_db_api_values(self, type_): """ Convert from string style to constant ints for db """ if type_ == 'aim': return TypeConstant.AIM if type_ == 'gadu-gadu': return TypeConstant.GG if type_ == 'http-ws': return TypeConstant.HTTP_WS if type_ == 'icq': return TypeConstant.ICQ if type_ == 'msn': return TypeConstant.MSN if type_ == 'qq': return TypeConstant.QQ if type_ == 'sms': return TypeConstant.SMS if type_ == 'smtp': return TypeConstant.SMTP if type_ in ('tlen', 'x-tlen'): return TypeConstant.TLEN if type_ == 'newmail': return TypeConstant.NEWMAIL if type_ == 'rss': return TypeConstant.RSS if type_ == 'weather': return TypeConstant.WEATHER if type_ == 'mrim': return TypeConstant.MRIM if type_ == 'jabber': return TypeConstant.NO_TRANSPORT return None def convert_api_values_to_human_transport_type(self, type_id): """ Convert from constant ints for db to string style """ if type_id == TypeConstant.AIM: return 'aim' if type_id == TypeConstant.GG: return 'gadu-gadu' if type_id == TypeConstant.HTTP_WS: return 'http-ws' if type_id == TypeConstant.ICQ: return 'icq' if type_id == TypeConstant.MSN: return 'msn' if type_id == TypeConstant.QQ: return 'qq' if type_id == TypeConstant.SMS: return 'sms' if type_id == TypeConstant.SMTP: return 'smtp' if type_id == TypeConstant.TLEN: return 'tlen' if type_id == TypeConstant.NEWMAIL: return 'newmail' if type_id == TypeConstant.RSS: return 'rss' if type_id == TypeConstant.WEATHER: return 'weather' if type_id == TypeConstant.MRIM: return 'mrim' if type_id == TypeConstant.NO_TRANSPORT: return 'jabber' def convert_xmpp_sub(self, sub): """ Convert from string style to constant ints for db """ if sub == 'none': return SubscriptionConstant.NONE if sub == 'to': return SubscriptionConstant.TO if sub == 'from': return SubscriptionConstant.FROM if sub == 'both': return SubscriptionConstant.BOTH def convert_db_sub(self, sub): """ Convert from constant ints for db to string style """ if sub == SubscriptionConstant.NONE: return 'none' if sub == SubscriptionConstant.TO: return 'to' if sub == SubscriptionConstant.FROM: return 'from' if sub == SubscriptionConstant.BOTH: return 'both' def insert_unread_events(self, message_id, jid_id): """ Add unread message with id: message_id """ sql = '''INSERT INTO unread_messages (message_id, jid_id, shown) VALUES (?, ?, 0)''' self._con.execute(sql, (message_id, jid_id)) self._timeout_commit() def set_read_messages(self, message_ids): """ Mark all messages with ids in message_ids as read """ ids = ','.join([str(i) for i in message_ids]) sql = 'DELETE FROM unread_messages WHERE message_id IN (%s)' % ids self.simple_commit(sql) def set_shown_unread_msgs(self, msg_log_id): """ Mark unread message as shown un GUI """ sql = 'UPDATE unread_messages SET shown = 1 where message_id = %s' % \ msg_log_id self.simple_commit(sql) def reset_shown_unread_messages(self): """ Set shown field to False in unread_messages table """ sql = 'UPDATE unread_messages SET shown = 0' self.simple_commit(sql) def get_unread_msgs(self): """ Get all unread messages """ all_messages = [] try: unread_results = self._con.execute( 'SELECT message_id, shown from unread_messages').fetchall() except Exception: unread_results = [] for message in unread_results: msg_log_id = message.message_id shown = message.shown # here we get infos for that message, and related jid from jids table # do NOT change order of SELECTed things, unless you change function(s) # that called this function result = self._con.execute(''' SELECT logs.log_line_id, logs.message, logs.time, logs.subject, jids.jid, logs.additional_data FROM logs, jids WHERE logs.log_line_id = %d AND logs.jid_id = jids.jid_id ''' % msg_log_id ).fetchone() if result is None: # Log line is no more in logs table. remove it from unread_messages self.set_read_messages([msg_log_id]) continue all_messages.append((result, shown)) return all_messages def get_last_conversation_lines(self, account, jid, pending): """ Get recent messages Pending messages are already in queue to be printed when the ChatControl is opened, so we dont want to request those messages. How many messages are requested depends on the 'restore_lines' config value. How far back in time messages are requested depends on _get_timeout(). :param account: The account :param jid: The jid from which we request the conversation lines :param pending: How many messages are currently pending so we dont request those messages returns a list of namedtuples """ restore = app.config.get('restore_lines') if restore <= 0: return [] kinds = map(str, [KindConstant.SINGLE_MSG_RECV, KindConstant.SINGLE_MSG_SENT, KindConstant.CHAT_MSG_RECV, KindConstant.CHAT_MSG_SENT, KindConstant.ERROR]) jids = self._get_family_jids(account, jid) sql = ''' SELECT time, kind, message, subject, additional_data FROM logs NATURAL JOIN jids WHERE jid IN ({jids}) AND kind IN ({kinds}) AND time > get_timeout() ORDER BY time DESC, log_line_id DESC LIMIT ? OFFSET ? '''.format(jids=', '.join('?' * len(jids)), kinds=', '.join(kinds)) try: messages = self._con.execute( sql, tuple(jids) + (restore, pending)).fetchall() except sqlite.DatabaseError: self.dispatch('DB_ERROR', exceptions.DatabaseMalformed(self._log_db_path)) return [] messages.reverse() return messages def get_unix_time_from_date(self, year, month, day): # year (fe 2005), month (fe 11), day (fe 25) # returns time in seconds for the second that starts that date since epoch # gimme unixtime from year month day: d = datetime.date(year, month, day) local_time = d.timetuple() # time tuple (compat with time.localtime()) # we have time since epoch baby :) start_of_day = int(time.mktime(local_time)) return start_of_day def get_conversation_for_date(self, account, jid, date): """ Load the complete conversation with a given jid on a specific date :param account: The account :param jid: The jid for which we request the conversation :param date: datetime.datetime instance example: datetime.datetime(year, month, day) returns a list of namedtuples """ jids = self._get_family_jids(account, jid) delta = datetime.timedelta( hours=23, minutes=59, seconds=59, microseconds=999999) sql = ''' SELECT contact_name, time, kind, show, message, subject, additional_data, log_line_id FROM logs NATURAL JOIN jids WHERE jid IN ({jids}) AND time BETWEEN ? AND ? ORDER BY time, log_line_id '''.format(jids=', '.join('?' * len(jids))) return self._con.execute(sql, tuple(jids) + (date.timestamp(), (date + delta).timestamp())).fetchall() def search_log(self, account, jid, query, date=None): """ Search the conversation log for messages containing the `query` string. The search can either span the complete log for the given `account` and `jid` or be restriced to a single day by specifying `date`. :param account: The account :param jid: The jid for which we request the conversation :param query: A search string :param date: datetime.datetime instance example: datetime.datetime(year, month, day) returns a list of namedtuples """ jids = self._get_family_jids(account, jid) if date: delta = datetime.timedelta( hours=23, minutes=59, seconds=59, microseconds=999999) between = ''' AND time BETWEEN {start} AND {end} '''.format(start=date.timestamp(), end=(date + delta).timestamp()) sql = ''' SELECT contact_name, time, kind, show, message, subject, additional_data, log_line_id FROM logs NATURAL JOIN jids WHERE jid IN ({jids}) AND message LIKE like(?) {date_search} ORDER BY time, log_line_id '''.format(jids=', '.join('?' * len(jids)), date_search=between if date else '') return self._con.execute(sql, tuple(jids) + (query,)).fetchall() def get_days_with_logs(self, account, jid, year, month): """ Request the days in a month where we received messages for a given `jid`. :param account: The account :param jid: The jid for which we request the days :param year: The year :param month: The month returns a list of namedtuples """ jids = self._get_family_jids(account, jid) kinds = map(str, [KindConstant.STATUS, KindConstant.GCSTATUS]) # Calculate the start and end datetime of the month date = datetime.datetime(year, month, 1) days = calendar.monthrange(year, month)[1] - 1 delta = datetime.timedelta( days=days, hours=23, minutes=59, seconds=59, microseconds=999999) sql = """ SELECT DISTINCT CAST(strftime('%d', time, 'unixepoch', 'localtime') AS INTEGER) AS day FROM logs NATURAL JOIN jids WHERE jid IN ({jids}) AND time BETWEEN ? AND ? AND kind NOT IN ({kinds}) ORDER BY time """.format(jids=', '.join('?' * len(jids)), kinds=', '.join(kinds)) return self._con.execute(sql, tuple(jids) + (date.timestamp(), (date + delta).timestamp())).fetchall() def get_last_date_that_has_logs(self, account, jid): """ Get the timestamp of the last message we received for the jid. :param account: The account :param jid: The jid for which we request the last timestamp returns a timestamp or None """ jids = self._get_family_jids(account, jid) kinds = map(str, [KindConstant.STATUS, KindConstant.GCSTATUS]) sql = ''' SELECT MAX(time) as time FROM logs NATURAL JOIN jids WHERE jid IN ({jids}) AND kind NOT IN ({kinds}) '''.format(jids=', '.join('?' * len(jids)), kinds=', '.join(kinds)) # fetchone() returns always at least one Row with all # attributes set to None because of the MAX() function return self._con.execute(sql, tuple(jids)).fetchone().time def get_first_date_that_has_logs(self, account, jid): """ Get the timestamp of the first message we received for the jid. :param account: The account :param jid: The jid for which we request the first timestamp returns a timestamp or None """ jids = self._get_family_jids(account, jid) kinds = map(str, [KindConstant.STATUS, KindConstant.GCSTATUS]) sql = ''' SELECT MIN(time) as time FROM logs NATURAL JOIN jids WHERE jid IN ({jids}) AND kind NOT IN ({kinds}) '''.format(jids=', '.join('?' * len(jids)), kinds=', '.join(kinds)) # fetchone() returns always at least one Row with all # attributes set to None because of the MIN() function return self._con.execute(sql, tuple(jids)).fetchone().time def get_date_has_logs(self, account, jid, date): """ Get single timestamp of a message we received for the jid in the time range of one day. :param account: The account :param jid: The jid for which we request the first timestamp :param date: datetime.datetime instance example: datetime.datetime(year, month, day) returns a timestamp or None """ jids = self._get_family_jids(account, jid) delta = datetime.timedelta( hours=23, minutes=59, seconds=59, microseconds=999999) start = date.timestamp() end = (date + delta).timestamp() sql = ''' SELECT time FROM logs NATURAL JOIN jids WHERE jid IN ({jids}) AND time BETWEEN ? AND ? '''.format(jids=', '.join('?' * len(jids))) return self._con.execute( sql, tuple(jids) + (start, end)).fetchone() def get_room_last_message_time(self, account, jid): """ Get the timestamp of the last message we received in a room. :param account: The account :param jid: The jid for which we request the last timestamp returns a timestamp or None """ sql = ''' SELECT time FROM rooms_last_message_time NATURAL JOIN jids WHERE jid = ? ''' row = self._con.execute(sql, (jid,)).fetchone() if not row: return self.get_last_date_that_has_logs(account, jid) return row.time def set_room_last_message_time(self, jid, timestamp): """ Set the timestamp of the last message we received in a room. :param jid: The jid :param timestamp: The timestamp in epoch """ jid_id = self.get_jid_id(jid, type_=JIDConstant.ROOM_TYPE) sql = '''REPLACE INTO rooms_last_message_time VALUES (:jid_id, COALESCE( (SELECT time FROM rooms_last_message_time WHERE jid_id = :jid_id AND time >= :time), :time))''' self._con.execute(sql, {"jid_id": jid_id, "time": timestamp}) self._timeout_commit() def save_transport_type(self, jid, type_): """ Save the type of the transport in DB """ type_id = self.convert_human_transport_type_to_db_api_values(type_) if not type_id: # unknown type return result = self._con.execute( 'SELECT type from transports_cache WHERE transport = "%s"' % jid).fetchone() if result: if result.type == type_id: return sql = 'UPDATE transports_cache SET type = %d WHERE transport = "%s"' %\ (type_id, jid) self.simple_commit(sql) return sql = 'INSERT INTO transports_cache (transport, type) VALUES (?, ?)' self._con.execute(sql, (jid, type_id)) self._timeout_commit() def get_transports_type(self): """ Return all the type of the transports in DB """ results = self._con.execute('SELECT * from transports_cache').fetchall() if not results: return {} answer = {} for result in results: answer[result.transport] = self.convert_api_values_to_human_transport_type( result.type) return answer # A longer note here: # The database contains a blob field. Pysqlite seems to need special care for # such fields. # When storing, we need to convert string into buffer object (1). # When retrieving, we need to convert it back to a string to decompress it. # (2) # GzipFile needs a file-like object, StringIO emulates file for plain strings def iter_caps_data(self): """ Iterate over caps cache data stored in the database The iterator values are pairs of (node, ver, ext, identities, features): identities == {'category':'foo', 'type':'bar', 'name':'boo'}, features being a list of feature namespaces. """ # get data from table # the data field contains binary object (gzipped data), this is a hack # to get that data without trying to convert it to unicode try: rows = self._con.execute('SELECT hash_method, hash, data FROM caps_cache;') except sqlite.OperationalError: # might happen when there's no caps_cache table yet # -- there's no data to read anyway then return # list of corrupted entries that will be removed to_be_removed = [] for row in rows: # for each row: unpack the data field # (format: (category, type, name, category, type, name, ... # ..., 'FEAT', feature1, feature2, ...).join(' ')) # NOTE: if there's a need to do more gzip, put that to a function try: data = GzipFile(fileobj=BytesIO(row.data)).read().decode('utf-8').split('\0') except IOError: # This data is corrupted. It probably contains non-ascii chars to_be_removed.append((row.hash_method, row.hash)) continue i = 0 identities = list() features = list() while i < (len(data) - 3) and data[i] != 'FEAT': category = data[i] type_ = data[i + 1] lang = data[i + 2] name = data[i + 3] identities.append({'category': category, 'type': type_, 'xml:lang': lang, 'name': name}) i += 4 i += 1 while i < len(data): features.append(data[i]) i += 1 # yield the row yield row.hash_method, row.hash, identities, features for hash_method, hash_ in to_be_removed: sql = '''DELETE FROM caps_cache WHERE hash_method = "%s" AND hash = "%s"''' % (hash_method, hash_) self.simple_commit(sql) def add_caps_entry(self, hash_method, hash_, identities, features): data = [] for identity in identities: # there is no FEAT category if identity['category'] == 'FEAT': return data.extend((identity.get('category'), identity.get('type', ''), identity.get('xml:lang', ''), identity.get('name', ''))) data.append('FEAT') data.extend(features) data = '\0'.join(data) # if there's a need to do more gzip, put that to a function string = BytesIO() gzip = GzipFile(fileobj=string, mode='w') gzip.write(data.encode('utf-8')) gzip.close() data = string.getvalue() self._con.execute(''' INSERT INTO caps_cache ( hash_method, hash, data, last_seen ) VALUES (?, ?, ?, ?); ''', (hash_method, hash_, memoryview(data), int(time.time()))) # (1) -- note above self._timeout_commit() def update_caps_time(self, method, hash_): sql = '''UPDATE caps_cache SET last_seen = %d WHERE hash_method = "%s" and hash = "%s"''' % \ (int(time.time()), method, hash_) self.simple_commit(sql) def clean_caps_table(self): """ Remove caps which was not seen for 3 months """ sql = '''DELETE FROM caps_cache WHERE last_seen < %d''' % \ int(time.time() - 3*30*24*3600) self.simple_commit(sql) def replace_roster(self, account_name, roster_version, roster): """ Replace current roster in DB by a new one accout_name is the name of the account to change. roster_version is the version of the new roster. roster is the new version. """ # First we must reset roster_version value to ensure that the server # sends back all the roster at the next connexion if the replacement # didn't work properly. app.config.set_per('accounts', account_name, 'roster_version', '') account_jid = app.get_jid_from_account(account_name) # Execute get_jid_id() because this ensures on new accounts that the # jid_id will be created self.get_jid_id(account_jid, type_=JIDConstant.NORMAL_TYPE) # Delete old roster self.remove_roster(account_jid) # Fill roster tables with the new roster for jid in roster: self.add_or_update_contact(account_jid, jid, roster[jid]['name'], roster[jid]['subscription'], roster[jid]['ask'], roster[jid]['groups'], commit=False) self._timeout_commit() # At this point, we are sure the replacement works properly so we can # set the new roster_version value. app.config.set_per('accounts', account_name, 'roster_version', roster_version) def del_contact(self, account_jid, jid): """ Remove jid from account_jid roster """ try: account_jid_id = self.get_jid_id(account_jid) jid_id = self.get_jid_id(jid) except exceptions.PysqliteOperationalError as e: raise exceptions.PysqliteOperationalError(str(e)) self._con.execute( 'DELETE FROM roster_group WHERE account_jid_id=? AND jid_id=?', (account_jid_id, jid_id)) self._con.execute( 'DELETE FROM roster_entry WHERE account_jid_id=? AND jid_id=?', (account_jid_id, jid_id)) self._timeout_commit() def add_or_update_contact(self, account_jid, jid, name, sub, ask, groups, commit=True): """ Add or update a contact from account_jid roster """ if sub == 'remove': self.del_contact(account_jid, jid) return try: account_jid_id = self.get_jid_id(account_jid) jid_id = self.get_jid_id(jid, type_=JIDConstant.NORMAL_TYPE) except exceptions.PysqliteOperationalError as error: raise exceptions.PysqliteOperationalError(str(error)) # Update groups information # First we delete all previous groups information sql = 'DELETE FROM roster_group WHERE account_jid_id=? AND jid_id=?' self._con.execute(sql, (account_jid_id, jid_id)) # Then we add all new groups information sql = '''INSERT INTO roster_group (account_jid_id, jid_id, group_name) VALUES (?, ?, ?)''' for group in groups: self._con.execute(sql, (account_jid_id, jid_id, group)) if name is None: name = '' sql = '''REPLACE INTO roster_entry (account_jid_id, jid_id, name, subscription, ask) VALUES(?, ?, ?, ?, ?)''' self._con.execute(sql, (account_jid_id, jid_id, name, self.convert_xmpp_sub(sub), bool(ask))) if commit: self._timeout_commit() def get_roster(self, account_jid): """ Return the accound_jid roster in NonBlockingRoster format """ data = {} account_jid_id = self.get_jid_id(account_jid, type_=JIDConstant.NORMAL_TYPE) # First we fill data with roster_entry informations rows = self._con.execute(''' SELECT j.jid, re.jid_id, re.name, re.subscription, re.ask, re.avatar_sha FROM roster_entry re, jids j WHERE re.account_jid_id=? AND j.jid_id=re.jid_id''', (account_jid_id,)) for row in rows: #jid, jid_id, name, subscription, ask jid = row.jid name = row.name data[jid] = {} data[jid]['avatar_sha'] = row.avatar_sha if name: data[jid]['name'] = name else: data[jid]['name'] = None data[jid]['subscription'] = self.convert_db_sub(row.subscription) data[jid]['groups'] = [] data[jid]['resources'] = {} if row.ask: data[jid]['ask'] = 'subscribe' else: data[jid]['ask'] = None data[jid]['id'] = row.jid_id # Then we add group for roster entries for jid in data: rows = self._con.execute(''' SELECT group_name FROM roster_group WHERE account_jid_id=? AND jid_id=?''', (account_jid_id, data[jid]['id'])) for row in rows: group_name = row.group_name data[jid]['groups'].append(group_name) del data[jid]['id'] return data def remove_roster(self, account_jid): """ Remove the roster of an account :param account_jid: The jid of the account """ try: jid_id = self.get_jid_id(account_jid) except ValueError: # This happens if the JID never made it to the Database # because the account was never connected return sql = ''' DELETE FROM roster_entry WHERE account_jid_id = {jid_id}; DELETE FROM roster_group WHERE account_jid_id = {jid_id}; '''.format(jid_id=jid_id) self._con.executescript(sql) self._timeout_commit() def search_for_duplicate(self, account, jid, timestamp, msg): """ Check if a message is already in the `logs` table :param account: The account :param jid: The jid as string :param timestamp: The timestamp in UTC epoch :param msg: The message text """ # Add 10 seconds around the timestamp start_time = timestamp - 30 end_time = timestamp + 30 account_id = self.get_account_id(account) log.debug('start: %s, end: %s, jid: %s, message: %s', start_time, end_time, jid, msg) sql = ''' SELECT * FROM logs NATURAL JOIN jids WHERE jid = ? AND message = ? AND account_id = ? AND time BETWEEN ? AND ? ''' result = self._con.execute( sql, (jid, msg, account_id, start_time, end_time)).fetchone() if result is not None: log.debug('Message already in DB') return True return False def find_stanza_id(self, account, archive_jid, stanza_id, origin_id=None, groupchat=False): """ Checks if a stanza-id is already in the `logs` table :param account: The account :param archive_jid: The jid of the archive the stanza-id belongs to only used if groupchat=True :param stanza_id: The stanza-id :param origin_id: The origin-id :param groupchat: stanza-id is from a groupchat return True if the stanza-id was found """ ids = [] if stanza_id is not None: ids.append(stanza_id) if origin_id is not None: ids.append(origin_id) if not ids: return False type_ = JIDConstant.NORMAL_TYPE if groupchat: type_ = JIDConstant.ROOM_TYPE archive_id = self.get_jid_id(archive_jid, type_=type_) account_id = self.get_account_id(account) if groupchat: # Stanza ID is only unique within a specific archive. # So a Stanza ID could be repeated in different MUCs, so we # filter also for the archive JID which is the bare MUC jid. sql = ''' SELECT stanza_id FROM logs WHERE stanza_id IN ({values}) AND jid_id = ? AND account_id = ? LIMIT 1 '''.format(values=', '.join('?' * len(ids))) result = self._con.execute( sql, tuple(ids) + (archive_id, account_id)).fetchone() else: sql = ''' SELECT stanza_id FROM logs WHERE stanza_id IN ({values}) AND account_id = ? AND kind != ? LIMIT 1 '''.format(values=', '.join('?' * len(ids))) result = self._con.execute( sql, tuple(ids) + (account_id, KindConstant.GC_MSG)).fetchone() if result is not None: log.info('Found duplicated message, stanza-id: %s, origin-id: %s, ' 'archive-jid: %s, account: %s', stanza_id, origin_id, archive_jid, account_id) return True return False def insert_jid(self, jid, kind=None, type_=JIDConstant.NORMAL_TYPE): """ Insert a new jid into the `jids` table. This is an alias of get_jid_id() for better readablility. :param jid: The jid as string :param kind: A KindConstant :param type_: A JIDConstant """ return self.get_jid_id(jid, kind, type_) def insert_into_logs(self, account, jid, time_, kind, unread=True, **kwargs): """ Insert a new message into the `logs` table :param jid: The jid as string :param time_: The timestamp in UTC epoch :param kind: A KindConstant :param unread: If True the message is added to the`unread_messages` table. Only if kind == CHAT_MSG_RECV :param kwargs: Every additional named argument must correspond to a field in the `logs` table """ jid_id = self.get_jid_id(jid, kind=kind) account_id = self.get_account_id(account) if 'additional_data' in kwargs: if not kwargs['additional_data']: del kwargs['additional_data'] else: serialized_dict = json.dumps(kwargs["additional_data"].data) kwargs['additional_data'] = serialized_dict sql = ''' INSERT INTO logs (account_id, jid_id, time, kind, {columns}) VALUES (?, ?, ?, ?, {values}) '''.format(columns=', '.join(kwargs.keys()), values=', '.join('?' * len(kwargs))) lastrowid = self._con.execute( sql, (account_id, jid_id, time_, kind) + tuple(kwargs.values())).lastrowid log.info('Insert into DB: jid: %s, time: %s, kind: %s, stanza_id: %s', jid, time_, kind, kwargs.get('stanza_id', None)) if unread and kind == KindConstant.CHAT_MSG_RECV: sql = '''INSERT INTO unread_messages (message_id, jid_id) VALUES (?, (SELECT jid_id FROM jids WHERE jid = ?))''' self._con.execute(sql, (lastrowid, jid)) self._timeout_commit() return lastrowid def set_avatar_sha(self, account_jid, jid, sha=None): """ Set the avatar sha of a jid on an account :param account_jid: The jid of the account :param jid: The jid that belongs to the avatar :param sha: The sha of the avatar """ account_jid_id = self.get_jid_id(account_jid) jid_id = self.get_jid_id(jid, type_=JIDConstant.NORMAL_TYPE) sql = ''' UPDATE roster_entry SET avatar_sha = ? WHERE account_jid_id = ? AND jid_id = ? ''' self._con.execute(sql, (sha, account_jid_id, jid_id)) self._timeout_commit() def get_archive_infos(self, jid): """ Get the archive infos :param jid: The jid that belongs to the avatar """ jid_id = self.get_jid_id(jid, type_=JIDConstant.ROOM_TYPE) sql = '''SELECT * FROM last_archive_message WHERE jid_id = ?''' return self._con.execute(sql, (jid_id,)).fetchone() def set_archive_infos(self, jid, **kwargs): """ Set archive infos :param jid: The jid that belongs to the avatar :param last_mam_id: The last MAM result id :param oldest_mam_timestamp: The oldest date we requested MAM history for :param last_muc_timestamp: The timestamp of the last message we received in a MUC :param sync_threshold: The max days that we request from a MUC archive """ jid_id = self.get_jid_id(jid) exists = self.get_archive_infos(jid) if not exists: sql = '''INSERT INTO last_archive_message (jid_id, last_mam_id, oldest_mam_timestamp, last_muc_timestamp, sync_threshold) VALUES (?, ?, ?, ?, ?)''' self._con.execute(sql, ( jid_id, kwargs.get('last_mam_id', None), kwargs.get('oldest_mam_timestamp', None), kwargs.get('last_muc_timestamp', None), kwargs.get('sync_threshold', None) )) else: args = ' = ?, '.join(kwargs.keys()) + ' = ?' sql = '''UPDATE last_archive_message SET {} WHERE jid_id = ?'''.format(args) self._con.execute(sql, tuple(kwargs.values()) + (jid_id,)) log.info('Save archive infos: %s', kwargs) self._timeout_commit()