def load_tunnels(self): # Clear the tunnels list form the collection self.tunnels.clear_tunnels() # Create the DBConnection database = DBConnection() # Create the SQL sql = "SELECT * FROM tunnels WHERE id_connection = {}" # Bind the value sql = sql.format(self.id) # Execute the query rows = database.select_query(sql) # Set the attrs for row in rows: tunnel = Tunnel() tunnel.id = row['id_tunnel'] tunnel.id_connection = self.id tunnel.local_port = row['local_port'] tunnel.address = row['address'] tunnel.remote_port = row['remote_port'] # Add on Tunnels self.tunnels.add_tunnel(tunnel)
def load(self): # Create the Password Manager password_manager = PasswordManager() # Create the DBConnection database = DBConnection() # Create the SQL sql = "SELECT * FROM connections WHERE id_connection = {}" # Bind the value sql = sql.format(self.id) # Execute the query rows = database.select_query(sql) # Set the attrs for row in rows: self.name = row['name'] self.host = row['host'] self.port = row['port'] self.user = row['user'] self.password = password_manager.decrypt_password(row['passwd']) self.use_key = True if int(row['use_key']) == 1 else False self.key_path = row['key_path']
class Connections: dbconnection = None connections = [] model = None def __init__(self): # Create the DB connection self.dbconnection = DBConnection() def load_connections(self): # Reset the List self.connections = [] # Create the SQL sql = "select * from connections order by name" # Execute the sql results = self.dbconnection.select_query(sql) # Create a model for every connection for row in results: # Create new Connection connection = Connection() connection.id = row['id_connection'] connection.name = row['name'] connection.host = row['host'] connection.user = row['user'] connection.port = row['port'] connection.use_key = True if row['use_key'] == 1 else False connection.key_path = row['key_path'] # Add to the list self.connections.append(connection) # Method to get ListStore of names def get_connection_names_model(self): # Create the ListStore self.model = Gtk.ListStore(str, int) # Looping passing by every connection for connection in self.connections: self.model.append([connection.name, connection.id]) # return the model return self.model # Return all Connection def get_connections(self): return self.connections
def load(self): # Create the databse database = DBConnection() # Make the select rows = database.select_query("SELECT * FROM settings") for row in rows: # Check the name of the property and set the value correctly if row['property'] == Settings.X11_FORWARD: self.x11_forward = int(row['value']) elif row['property'] == Settings.REQUEST_COMPRESSION: self.request_compression = int(row['value']) elif row['property'] == Settings.FORCE_IPV4: self.force_ipv4 = int(row['value']) elif row['property'] == Settings.FORCE_IPV6: self.force_ipv6 = int(row['value'])
class Tunnels: dbconnection = None tunnels = [] model = None def __init__(self): # Create the DB connection self.dbconnection = DBConnection() def add_tunnel(self, tunnel): # Add to the list self.tunnels.append(tunnel) def remove_tunnel_at(self, index): # Remove the tunnel if len(self.tunnels) > 0: self.tunnels.pop(index) def load_tunnels(self, id_connection): # Reset the List self.tunnels = [] # Create the SQL sql = "select * from tunnels where id_connection = {}" sql = sql.format(id_connection) # Execute the sql results = self.dbconnection.select_query(sql) # Create a model for every tunnel for row in results: # Create new Connection tunnel = Tunnel() tunnel.id = 0 if row['id_tunnel'] is None else row['id_tunnel'] tunnel.id_connection = 0 if row['id_connection'] is None else row['id_connection'] tunnel.local_port = row['local_port'] tunnel.address = row['address'] tunnel.remote_port = row['remote_port'] # Add to the list self.tunnels.append(tunnel) def clear_tunnels(self): # Clear list of tunnels self.tunnels = [] # Method to get ListStore of names def get_tunnels_model(self): # Create the ListStore self.model = Gtk.ListStore(int, str, int, int) # Looping passing by every tunnel index = 0 for tunnel in self.tunnels: # Add the model self.model.append([int(tunnel.local_port), tunnel.address, int(tunnel.remote_port), index]) # Increment the counter index += 1 # return the model return self.model # Return all Connection def get_tunnels(self): return self.tunnels