# Copyright (C) 2015-2016 Red Hat, Inc. All rights reserved. # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions # of the GNU General Public License v.2. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import xml.etree.ElementTree as Et import sys import inspect import ctypes import os import string import datetime import dbus from lvmdbusd import cfg # noinspection PyUnresolvedReferences from gi.repository import GLib import threading STDOUT_TTY = os.isatty(sys.stdout.fileno()) def rtype(dbus_type): """ Decorator making sure that the decorated function returns a value of specified type. :param dbus_type: The specific dbus type to return value as """ def decorator(fn): def decorated(*args, **kwargs): return dbus_type(fn(*args, **kwargs)) return decorated return decorator # Field is expected to be a number, handle the corner cases when parsing @rtype(dbus.UInt64) def n(v): if not v: return 0 return int(float(v)) @rtype(dbus.UInt32) def n32(v): if not v: return 0 return int(float(v)) # noinspection PyProtectedMember def init_class_from_arguments(obj_instance): for k, v in list(sys._getframe(1).f_locals.items()): if k != 'self': nt = k # If the current attribute has a value, but the incoming does # not, don't overwrite it. Otherwise the default values on the # property decorator don't work as expected. cur = getattr(obj_instance, nt, v) # print 'Init class %s = %s' % (nt, str(v)) if not (cur and len(str(cur)) and (v is None or len(str(v))) == 0): setattr(obj_instance, nt, v) def get_properties(f): """ Walks through an object instance or it's parent class(es) and determines which attributes are properties and if they were created to be used for dbus. :param f: Object to inspect :return: A dictionary of tuples with each tuple being: 0 = An array of dicts with the keys being: p_t, p_name, p_access(type, name, access) 1 = Hash of property names and current value """ interfaces = dict() for c in inspect.getmro(f.__class__): h = vars(c) for p, value in h.items(): if isinstance(value, property): # We found a property, see if it has a metadata type key = attribute_type_name(p) if key in h: interface = h[key][1] if interface not in interfaces: interfaces[interface] = ([], {}) access = '' if getattr(f.__class__, p).fget: access += 'read' if getattr(f.__class__, p).fset: access += 'write' interfaces[interface][0].append( dict( p_t=getattr(f, key)[0], p_name=p, p_access=access)) interfaces[interface][1][p] = getattr(f, p) return interfaces def get_object_property_diff(o_prop, n_prop): """ Walk through each object properties and report what has changed and with the new values :param o_prop: Old keys/values :param n_prop: New keys/values :return: hash of properties that have changed and their new value """ rc = {} for intf_k, intf_v in o_prop.items(): for k, v in list(intf_v[1].items()): # print('Comparing %s:%s to %s:%s' % # (k, o_prop[intf_k][1][k], k, str(n_prop[intf_k][1][k]))) if o_prop[intf_k][1][k] != n_prop[intf_k][1][k]: new_value = n_prop[intf_k][1][k] if intf_k not in rc: rc[intf_k] = dict() rc[intf_k][k] = new_value return rc def add_properties(xml, interface, props): """ Given xml that describes the interface, add property values to the XML for the specified interface. :param xml: XML to edit :param interface: Interface to add the properties too :param props: Output from get_properties :return: updated XML string """ if props: root = Et.fromstring(xml) interface_element = None # Check to see if interface is present for c in root: if c.attrib['name'] == interface: interface_element = c break # Interface is not present, lets create it so we have something to # attach the properties too if interface_element is None: interface_element = Et.Element("interface", name=interface) root.append(interface_element) # Add the properties for p in props: temp = '\n' % \ (p['p_t'], p['p_name'], p['p_access']) interface_element.append(Et.fromstring(temp)) return Et.tostring(root, encoding='utf8') return xml def attribute_type_name(name): """ Given the property name, return string of the attribute type :param name: :return: """ return "_%s_meta" % name _type_map = dict( s=dbus.String, o=dbus.ObjectPath, t=dbus.UInt64, x=dbus.Int64, u=dbus.UInt32, i=dbus.Int32, n=dbus.Int16, q=dbus.UInt16, d=dbus.Double, y=dbus.Byte, b=dbus.Boolean) def _pass_through(v): """ If we have something which is not a simple type we return the original value un-wrapped. :param v: :return: """ return v def _dbus_type(t, value): return _type_map.get(t, _pass_through)(value) def dbus_property(interface_name, name, dbus_type, doc=None): """ Creates the get/set properties for the given name. It assumes that the actual attribute is '_' + name and the attribute metadata is stuffed in _name_type. There is probably a better way todo this. :param interface_name: Dbus interface this property is associated with :param name: Name of property :param dbus_type: dbus string type eg. s,t,i,x :param doc: Python __doc__ for the property :return: """ attribute_name = '_' + name def getter(self): t = getattr(self, attribute_name + '_meta')[0] return _dbus_type(t, getattr(self.state, attribute_name[1:])) prop = property(getter, None, None, doc) def decorator(cls): setattr(cls, attribute_name + '_meta', (dbus_type, interface_name)) setattr(cls, name, prop) return cls return decorator def parse_tags(tags): if len(tags): if ',' in tags: return tags.split(',') return dbus.Array(sorted([tags]), signature='s') return dbus.Array([], signature='s') def _common_log(msg, *attributes): cfg.stdout_lock.acquire() tid = ctypes.CDLL('libc.so.6').syscall(186) if STDOUT_TTY: msg = "%s: %d:%d - %s" % \ (datetime.datetime.now().strftime("%b %d %H:%M:%S.%f"), os.getpid(), tid, msg) else: msg = "%d:%d - %s" % (os.getpid(), tid, msg) if STDOUT_TTY and attributes: print(color(msg, *attributes)) else: print(msg) cfg.stdout_lock.release() sys.stdout.flush() # Serializes access to stdout to prevent interleaved output # @param msg Message to output to stdout # @return None def log_debug(msg, *attributes): if cfg.args and cfg.args.debug: _common_log(msg, *attributes) def log_error(msg, *attributes): _common_log(msg, *attributes) # noinspection PyUnusedLocal def handler(signum, frame): cfg.run.value = 0 log_debug('Signal handler called with signal %d' % signum) if cfg.loop is not None: cfg.loop.quit() def pv_obj_path_generate(): return cfg.PV_OBJ_PATH + "/%d" % next(cfg.pv_id) def vg_obj_path_generate(): return cfg.VG_OBJ_PATH + "/%d" % next(cfg.vg_id) def lv_object_path_method(name, meta): if name[0] == '[': return _hidden_lv_obj_path_generate elif meta[0][0] == 't': return _thin_pool_obj_path_generate elif meta[0][0] == 'C' and 'pool' in meta[1]: return _cache_pool_obj_path_generate return _lv_obj_path_generate # Note: None of the individual LV path generate functions should be called # directly, they should only be dispatched through lv_object_path_method def _lv_obj_path_generate(): return cfg.LV_OBJ_PATH + "/%d" % next(cfg.lv_id) def _thin_pool_obj_path_generate(): return cfg.THIN_POOL_PATH + "/%d" % next(cfg.thin_id) def _cache_pool_obj_path_generate(): return cfg.CACHE_POOL_PATH + "/%d" % next(cfg.cache_pool_id) def _hidden_lv_obj_path_generate(): return cfg.HIDDEN_LV_PATH + "/%d" % next(cfg.hidden_lv) def job_obj_path_generate(): return cfg.JOB_OBJ_PATH + "/%d" % next(cfg.job_id) def color(text, *user_styles): styles = { # styles 'reset': '\033[0m', 'bold': '\033[01m', 'disabled': '\033[02m', 'underline': '\033[04m', 'reverse': '\033[07m', 'strike_through': '\033[09m', 'invisible': '\033[08m', # text colors 'fg_black': '\033[30m', 'fg_red': '\033[31m', 'fg_green': '\033[32m', 'fg_orange': '\033[33m', 'fg_blue': '\033[34m', 'fg_purple': '\033[35m', 'fg_cyan': '\033[36m', 'fg_light_grey': '\033[37m', 'fg_dark_grey': '\033[90m', 'fg_light_red': '\033[91m', 'fg_light_green': '\033[92m', 'fg_yellow': '\033[93m', 'fg_light_blue': '\033[94m', 'fg_pink': '\033[95m', 'fg_light_cyan': '\033[96m', # background colors 'bg_black': '\033[40m', 'bg_red': '\033[41m', 'bg_green': '\033[42m', 'bg_orange': '\033[43m', 'bg_blue': '\033[44m', 'bg_purple': '\033[45m', 'bg_cyan': '\033[46m', 'bg_light_grey': '\033[47m' } color_text = '' for style in user_styles: try: color_text += styles[style] except KeyError: return 'def color: parameter {} does not exist'.format(style) color_text += text return '\033[0m{0}\033[0m'.format(color_text) def pv_range_append(cmd, device, start, end): if (start, end) == (0, 0): cmd.append(device) else: if start != 0 and end == 0: cmd.append("%s:%d-" % (device, start)) else: cmd.append( "%s:%d-%d" % (device, start, end)) def pv_dest_ranges(cmd, pv_dest_range_list): if len(pv_dest_range_list): for i in pv_dest_range_list: pv_range_append(cmd, *i) def round_size(size_bytes): bs = 512 remainder = size_bytes % bs if not remainder: return size_bytes return size_bytes + bs - remainder _ALLOWABLE_CH = string.ascii_letters + string.digits + '#+-.:=@_\/%' _ALLOWABLE_CH_SET = set(_ALLOWABLE_CH) _ALLOWABLE_VG_LV_CH = string.ascii_letters + string.digits + '.-_+' _ALLOWABLE_VG_LV_CH_SET = set(_ALLOWABLE_VG_LV_CH) _LV_NAME_RESERVED = ("_cdata", "_cmeta", "_corig", "_mimage", "_mlog", "_pmspare", "_rimage", "_rmeta", "_tdata", "_tmeta", "_vorigin") # Tags can have the characters, based on the code # a-zA-Z0-9._-+/=!:&# _ALLOWABLE_TAG_CH = string.ascii_letters + string.digits + "._-+/=!:&#" _ALLOWABLE_TAG_CH_SET = set(_ALLOWABLE_TAG_CH) def _allowable_tag(tag_name): # LVM should impose a length restriction return set(tag_name) <= _ALLOWABLE_TAG_CH_SET def _allowable_vg_name(vg_name): if vg_name is None: raise ValueError("VG name is None or empty") vg_len = len(vg_name) if vg_len == 0 or vg_len > 127: raise ValueError("VG name (%s) length (%d) not in the domain 1..127" % (vg_name, vg_len)) if not set(vg_name) <= _ALLOWABLE_VG_LV_CH_SET: raise ValueError("VG name (%s) contains invalid character, " "allowable set(%s)" % (vg_name, _ALLOWABLE_VG_LV_CH)) if vg_name == "." or vg_name == "..": raise ValueError('VG name (%s) cannot be "." or ".."' % (vg_name)) def _allowable_lv_name(vg_name, lv_name): if lv_name is None: raise ValueError("LV name is None or empty") lv_len = len(lv_name) # This length is derived from empirical testing if lv_len == 0 or (len(vg_name) + lv_len) > 125: raise ValueError("LV name (%s) length (%d) + VG name length " "not in the domain 1..125" % (lv_name, lv_len)) if not set(lv_name) <= _ALLOWABLE_VG_LV_CH_SET: raise ValueError("LV name (%s) contains invalid character, " "allowable (%s)" % (lv_name, _ALLOWABLE_VG_LV_CH)) if any(x in lv_name for x in _LV_NAME_RESERVED): raise ValueError("LV name (%s) contains a reserved word, " "reserved set(%s)" % (lv_name, str(_LV_NAME_RESERVED))) if lv_name.startswith("snapshot") or lv_name.startswith("pvmove"): raise ValueError("LV name (%s) starts with a reserved word, " "reserved set(%s)" % (lv_name, str(["snapshot", "pvmove"]))) if lv_name[0] == '-': raise ValueError("LV name (%s) cannot start with a '-' " "character" % lv_name) def validate_device_path(interface, device): if not set(device) <= _ALLOWABLE_CH_SET: raise dbus.exceptions.DBusException( interface, 'Device path (%s) has invalid characters, ' 'allowable (%s)' % (device, _ALLOWABLE_CH)) def validate_vg_name(interface, vg_name): try: _allowable_vg_name(vg_name) except ValueError as ve: raise dbus.exceptions.DBusException( interface, str(ve)) def validate_lv_name(interface, vg_name, lv_name): try: _allowable_lv_name(vg_name, lv_name) except ValueError as ve: raise dbus.exceptions.DBusException( interface, str(ve)) def validate_tag(interface, tag): if not _allowable_tag(tag): raise dbus.exceptions.DBusException( interface, 'tag (%s) contains invalid character, allowable set(%s)' % (tag, _ALLOWABLE_TAG_CH)) def add_no_notify(cmdline): """ Given a command line to execute we will see if `--config` is present, if it is we will add the global/notify_dbus=0 to it, otherwise we will append it to the end of the list. :param: cmdline: The command line to inspect :type: cmdline: list :return: cmdline with notify_dbus config option present :rtype: list """ # Only after we have seen an external event will be disable lvm from sending # us one when we call lvm if cfg.got_external_event: if 'help' in cmdline: return cmdline if '--config' in cmdline: for i, arg in enumerate(cmdline): if arg == '--config': if len(cmdline) <= i+1: raise dbus.exceptions.DBusException("Missing value for --config option.") cmdline[i+1] += " global/notify_dbus=0" break else: cmdline.extend(['--config', 'global/notify_dbus=0']) return cmdline # The methods below which start with mt_* are used to execute the desired code # on the the main thread of execution to alleviate any issues the dbus-python # library with regards to multi-threaded access. Essentially, we are trying to # ensure all dbus library interaction is done from the same thread! def _async_result(call_back, results): log_debug('Results = %s' % str(results)) call_back(results) # Return result in main thread def mt_async_result(call_back, results): GLib.idle_add(_async_result, call_back, results) # Take the supplied function and run it on the main thread and not wait for # a result! def mt_run_no_wait(function, param): GLib.idle_add(function, param) # Run the supplied function and arguments on the main thread and wait for them # to complete while allowing the ability to get the return value too. # # Example: # result = MThreadRunner(foo, arg1, arg2).done() # class MThreadRunner(object): @staticmethod def runner(obj): # noinspection PyProtectedMember obj._run() with obj.cond: obj.function_complete = True obj.cond.notify_all() def __init__(self, function, *args): self.f = function self.rc = None self.args = args self.function_complete = False self.cond = threading.Condition(threading.Lock()) def done(self): GLib.idle_add(MThreadRunner.runner, self) with self.cond: if not self.function_complete: self.cond.wait() return self.rc def _run(self): if len(self.args): self.rc = self.f(*self.args) else: self.rc = self.f() def _remove_objects(dbus_objects_rm): for o in dbus_objects_rm: cfg.om.remove_object(o, emit_signal=True) # Remove dbus objects from main thread def mt_remove_dbus_objects(objs): MThreadRunner(_remove_objects, objs).done()