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- #!/usr/bin/python2
- # -*- coding: utf-8 -*-
- # pylint: skip-file
- #
- # The Qubes OS Project, http://www.qubes-os.org
- #
- # Copyright (C) 2010 Rafal Wojtczuk <rafal@invisiblethingslab.com>
- # Copyright (C) 2013 Marek Marczykowski <marmarek@invisiblethingslab.com>
- #
- # This program 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; either version 2
- # of the License, or (at your option) any later version.
- #
- # This program 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 this program; if not, write to the Free Software
- # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
- #
- #
- import logging
- import os
- import string
- import time
- import xen.lowlevel.xc
- import xen.lowlevel.xs
- import qubes
- import qubes.qmemman.algo
- no_progress_msg="VM refused to give back requested memory"
- slow_memset_react_msg="VM didn't give back all requested memory"
- class DomainState:
- def __init__(self, id):
- self.meminfo = None #dictionary of memory info read from client
- self.memory_current = 0 # the current memory size
- self.memory_actual = None # the current memory allocation (what VM
- # is using or can use at any time)
- self.memory_maximum = None #the maximum memory size
- self.mem_used = None #used memory, computed based on meminfo
- self.id = id #domain id
- self.last_target = 0 #the last memset target
- self.no_progress = False #no react to memset
- self.slow_memset_react = False #slow react to memset (after few tries still above target)
- def __repr__(self):
- return self.__dict__.__repr__()
- class SystemState(object):
- def __init__(self):
- self.log = logging.getLogger('qmemman.systemstate')
- self.log.debug('SystemState()')
- self.domdict = {}
- self.xc = xen.lowlevel.xc.xc()
- self.xs = xen.lowlevel.xs.xs()
- self.BALOON_DELAY = 0.1
- self.XEN_FREE_MEM_LEFT = 50*1024*1024
- self.XEN_FREE_MEM_MIN = 25*1024*1024
- # Overhead of per-page Xen structures, taken from OpenStack nova/virt/xenapi/driver.py
- # see https://wiki.openstack.org/wiki/XenServer/Overhead
- # we divide total and free physical memory by this to get "assignable" memory
- self.MEM_OVERHEAD_FACTOR = 1.0 / 1.00781
- try:
- self.ALL_PHYS_MEM = int(self.xc.physinfo()['total_memory']*1024 * self.MEM_OVERHEAD_FACTOR)
- except xen.lowlevel.xc.Error:
- self.ALL_PHYS_MEM = 0
- def add_domain(self, id):
- self.log.debug('add_domain(id={!r})'.format(id))
- self.domdict[id] = DomainState(id)
- # TODO: move to DomainState.__init__
- target_str = self.xs.read('', '/local/domain/' + id + '/memory/target')
- if target_str:
- self.domdict[id].last_target = int(target_str) * 1024
- def del_domain(self, id):
- self.log.debug('del_domain(id={!r})'.format(id))
- self.domdict.pop(id)
- def get_free_xen_memory(self):
- xen_free = int(self.xc.physinfo()['free_memory']*1024 *
- self.MEM_OVERHEAD_FACTOR)
- # now check for domains which have assigned more memory than really
- # used - do not count it as "free", because domain is free to use it
- # at any time
- # assumption: self.refresh_memactual was called before
- # (so domdict[id].memory_actual is up to date)
- assigned_but_unused = reduce(
- lambda acc, dom: acc + max(0, dom.last_target-dom.memory_current),
- self.domdict.values(),
- 0
- )
- # If, at any time, Xen have less memory than XEN_FREE_MEM_MIN,
- # it is a failure of qmemman. Collect as much data as possible to
- # debug it
- if xen_free < self.XEN_FREE_MEM_MIN:
- self.log.error("Xen free = {!r} below acceptable value! "
- "assigned_but_unused={!r}, domdict={!r}".format(
- xen_free, assigned_but_unused, self.domdict))
- elif xen_free < assigned_but_unused+self.XEN_FREE_MEM_MIN:
- self.log.error("Xen free = {!r} too small for satisfy assignments! "
- "assigned_but_unused={!r}, domdict={!r}".format(
- xen_free, assigned_but_unused, self.domdict))
- return xen_free - assigned_but_unused
- #refresh information on memory assigned to all domains
- def refresh_memactual(self):
- for domain in self.xc.domain_getinfo():
- id = str(domain['domid'])
- if self.domdict.has_key(id):
- # real memory usage
- self.domdict[id].memory_current = domain['mem_kb']*1024
- # what VM is using or can use
- self.domdict[id].memory_actual = max(
- self.domdict[id].memory_current,
- self.domdict[id].last_target
- )
- self.domdict[id].memory_maximum = self.xs.read('', '/local/domain/%s/memory/static-max' % str(id))
- if self.domdict[id].memory_maximum:
- self.domdict[id].memory_maximum = int(self.domdict[id].memory_maximum)*1024
- else:
- self.domdict[id].memory_maximum = self.ALL_PHYS_MEM
- # the previous line used to be
- # self.domdict[id].memory_maximum = domain['maxmem_kb']*1024
- # but domain['maxmem_kb'] changes in self.mem_set as well, and this results in
- # the memory never increasing
- # in fact, the only possible case of nonexisting memory/static-max is dom0
- # see #307
- def clear_outdated_error_markers(self):
- # Clear outdated errors
- for i in self.domdict.keys():
- if self.domdict[i].slow_memset_react and \
- self.domdict[i].memory_actual <= self.domdict[i].last_target + self.XEN_FREE_MEM_LEFT/4:
- dom_name = self.xs.read('', '/local/domain/%s/name' % str(i))
- if dom_name is not None:
- try:
- qubes.Qubes().domains[str(dom_name)].fire_event(
- 'status:no-error', 'no-error',
- slow_memset_react_msg)
- except LookupError:
- pass
- self.domdict[i].slow_memset_react = False
- if self.domdict[i].no_progress and \
- self.domdict[i].memory_actual <= self.domdict[i].last_target + self.XEN_FREE_MEM_LEFT/4:
- dom_name = self.xs.read('', '/local/domain/%s/name' % str(i))
- if dom_name is not None:
- try:
- qubes.Qubes().domains[str(dom_name)].fire_event(
- 'status:no-error', 'no-error',
- no_progress_msg)
- except LookupError:
- pass
- self.domdict[i].no_progress = False
- #the below works (and is fast), but then 'xm list' shows unchanged memory value
- def mem_set(self, id, val):
- self.log.info('mem-set domain {} to {}'.format(id, val))
- self.domdict[id].last_target = val
- #can happen in the middle of domain shutdown
- #apparently xc.lowlevel throws exceptions too
- try:
- self.xc.domain_setmaxmem(int(id), int(val/1024) + 1024) # LIBXL_MAXMEM_CONSTANT=1024
- self.xc.domain_set_target_mem(int(id), int(val/1024))
- except:
- pass
- self.xs.write('', '/local/domain/' + id + '/memory/target', str(int(val/1024)))
- # this is called at the end of ballooning, when we have Xen free mem already
- # make sure that past mem_set will not decrease Xen free mem
- def inhibit_balloon_up(self):
- self.log.debug('inhibit_balloon_up()')
- for i in self.domdict.keys():
- dom = self.domdict[i]
- if dom.memory_actual is not None and dom.memory_actual + 200*1024 < dom.last_target:
- self.log.info(
- 'Preventing balloon up to {}'.format(dom.last_target))
- self.mem_set(i, dom.memory_actual)
- #perform memory ballooning, across all domains, to add "memsize" to Xen free memory
- def do_balloon(self, memsize):
- self.log.info('do_balloon(memsize={!r})'.format(memsize))
- CHECK_PERIOD_S = 3
- CHECK_MB_S = 100
- niter = 0
- prev_memory_actual = None
- for i in self.domdict.keys():
- self.domdict[i].no_progress = False
- #: number of loop iterations for CHECK_PERIOD_S seconds
- check_period = max(1, int((CHECK_PERIOD_S + 0.0) / self.BALOON_DELAY))
- #: number of free memory bytes expected to get during CHECK_PERIOD_S
- #: seconds
- check_delta = CHECK_PERIOD_S * CHECK_MB_S * 1024 * 1024
- #: helper array for holding free memory size, CHECK_PERIOD_S seconds
- #: ago, at every loop iteration
- xenfree_ring = [0] * check_period
- while True:
- self.log.debug('niter={:2d}'.format(niter))
- self.refresh_memactual()
- xenfree = self.get_free_xen_memory()
- self.log.info('xenfree={!r}'.format(xenfree))
- if xenfree >= memsize + self.XEN_FREE_MEM_MIN:
- self.inhibit_balloon_up()
- return True
- # fail the request if over past CHECK_PERIOD_S seconds,
- # we got less than CHECK_MB_S MB/s on average
- ring_slot = niter % check_period
- if niter >= check_period and xenfree < xenfree_ring[ring_slot] + check_delta:
- return False
- xenfree_ring[ring_slot] = xenfree
- if prev_memory_actual is not None:
- for i in prev_memory_actual.keys():
- if prev_memory_actual[i] == self.domdict[i].memory_actual:
- #domain not responding to memset requests, remove it from donors
- self.domdict[i].no_progress = True
- self.log.info('domain {} stuck at {}'.format(i, self.domdict[i].memory_actual))
- memset_reqs = qubes.qmemman.algo.balloon(memsize + self.XEN_FREE_MEM_LEFT - xenfree, self.domdict)
- self.log.info('memset_reqs={!r}'.format(memset_reqs))
- if len(memset_reqs) == 0:
- return False
- prev_memory_actual = {}
- for i in memset_reqs:
- dom, mem = i
- self.mem_set(dom, mem)
- prev_memory_actual[dom] = self.domdict[dom].memory_actual
- self.log.debug('sleeping for {} s'.format(self.BALOON_DELAY))
- time.sleep(self.BALOON_DELAY)
- niter = niter + 1
- def refresh_meminfo(self, domid, untrusted_meminfo_key):
- self.log.debug(
- 'refresh_meminfo(domid={}, untrusted_meminfo_key={!r})'.format(
- domid, untrusted_meminfo_key))
- qubes.qmemman.algo.refresh_meminfo_for_domain(
- self.domdict[domid], untrusted_meminfo_key)
- self.do_balance()
- #is the computed balance request big enough ?
- #so that we do not trash with small adjustments
- def is_balance_req_significant(self, memset_reqs, xenfree):
- self.log.debug(
- 'is_balance_req_significant(memset_reqs={}, xenfree={})'.format(
- memset_reqs, xenfree))
- total_memory_transfer = 0
- MIN_TOTAL_MEMORY_TRANSFER = 150*1024*1024
- MIN_MEM_CHANGE_WHEN_UNDER_PREF = 15*1024*1024
- # If xenfree to low, return immediately
- if self.XEN_FREE_MEM_LEFT - xenfree > MIN_MEM_CHANGE_WHEN_UNDER_PREF:
- self.log.debug('xenfree is too low, returning')
- return True
- for rq in memset_reqs:
- dom, mem = rq
- last_target = self.domdict[dom].last_target
- memory_change = mem - last_target
- total_memory_transfer += abs(memory_change)
- pref = qubes.qmemman.algo.prefmem(self.domdict[dom])
- if last_target > 0 and last_target < pref and memory_change > MIN_MEM_CHANGE_WHEN_UNDER_PREF:
- self.log.info(
- 'dom {} is below pref, allowing balance'.format(dom))
- return True
- ret = total_memory_transfer + abs(xenfree - self.XEN_FREE_MEM_LEFT) > MIN_TOTAL_MEMORY_TRANSFER
- self.log.debug('is_balance_req_significant return {}'.format(ret))
- return ret
- def print_stats(self, xenfree, memset_reqs):
- for i in self.domdict.keys():
- if self.domdict[i].meminfo is not None:
- self.log.info('stat: dom {!r} act={} pref={}'.format(i,
- self.domdict[i].memory_actual,
- qubes.qmemman.algo.prefmem(self.domdict[i])))
- self.log.info('stat: xenfree={} memset_reqs={}'.format(xenfree, memset_reqs))
- def do_balance(self):
- self.log.debug('do_balance()')
- if os.path.isfile('/var/run/qubes/do-not-membalance'):
- self.log.debug('do-not-membalance file preset, returning')
- return
- self.refresh_memactual()
- self.clear_outdated_error_markers()
- xenfree = self.get_free_xen_memory()
- memset_reqs = qubes.qmemman.algo.balance(xenfree - self.XEN_FREE_MEM_LEFT, self.domdict)
- if not self.is_balance_req_significant(memset_reqs, xenfree):
- return
- self.print_stats(xenfree, memset_reqs)
- prev_memactual = {}
- for i in self.domdict.keys():
- prev_memactual[i] = self.domdict[i].memory_actual
- for rq in memset_reqs:
- dom, mem = rq
- # Force to always have at least 0.9*self.XEN_FREE_MEM_LEFT (some
- # margin for rounding errors). Before giving memory to
- # domain, ensure that others have gived it back.
- # If not - wait a little.
- ntries = 5
- while self.get_free_xen_memory() - (mem - self.domdict[dom].memory_actual) < 0.9*self.XEN_FREE_MEM_LEFT:
- self.log.debug('do_balance dom={!r} sleeping ntries={}'.format(
- dom, ntries))
- time.sleep(self.BALOON_DELAY)
- self.refresh_memactual()
- ntries -= 1
- if ntries <= 0:
- # Waiting haven't helped; Find which domain get stuck and
- # abort balance (after distributing what we have)
- for rq2 in memset_reqs:
- dom2, mem2 = rq2
- if dom2 == dom:
- # All donors have been procesed
- break
- # allow some small margin
- if self.domdict[dom2].memory_actual > self.domdict[dom2].last_target + self.XEN_FREE_MEM_LEFT/4:
- # VM didn't react to memory request at all, remove from donors
- if prev_memactual[dom2] == self.domdict[dom2].memory_actual:
- self.log.warning(
- 'dom {!r} didnt react to memory request'
- ' (holds {}, requested balloon down to {})'
- .format(dom2,
- self.domdict[dom2].memory_actual,
- mem2))
- self.domdict[dom2].no_progress = True
- dom_name = self.xs.read('', '/local/domain/%s/name' % str(dom2))
- if dom_name is not None:
- try:
- qubes.Qubes().domains[str(
- dom_name)].fire_event(
- 'status:error', 'error',
- no_progress_msg)
- except LookupError:
- pass
- else:
- self.log.warning('dom {!r} still hold more'
- ' memory than have assigned ({} > {})'
- .format(dom2,
- self.domdict[dom2].memory_actual,
- mem2))
- self.domdict[dom2].slow_memset_react = True
- dom_name = self.xs.read('', '/local/domain/%s/name' % str(dom2))
- if dom_name is not None:
- try:
- qubes.Qubes().domains[str(
- dom_name)].fire_event(
- 'status:error', 'error',
- slow_memset_react_msg)
- except LookupError:
- pass
- self.mem_set(dom, self.get_free_xen_memory() + self.domdict[dom].memory_actual - self.XEN_FREE_MEM_LEFT)
- return
- self.mem_set(dom, mem)
- # for i in self.domdict.keys():
- # print 'domain ', i, ' meminfo=', self.domdict[i].meminfo, 'actual mem', self.domdict[i].memory_actual
- # print 'domain ', i, 'actual mem', self.domdict[i].memory_actual
- # print 'xen free mem', self.get_free_xen_memory()
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