"""
Playground for resource models created by University of Paderborn.
"""
+import time
+import json
import logging
from emuvim.dcemulator.resourcemodel import BaseResourceModel
LOG = logging.getLogger("rm.upb.simple")
LOG.setLevel(logging.DEBUG)
+CPU_PERIOD = 1000000
+
class UpbSimpleCloudDcRM(BaseResourceModel):
"""
self.dc_alloc_mu = 0
self.deactivate_cpu_limit = deactivate_cpu_limit
self.deactivate_mem_limit = deactivate_mem_limit
+ self.single_cu = 0
+ self.single_mu = 0
super(self.__class__, self).__init__()
def allocate(self, d):
# get cpu time fraction for entire emulation
e_cpu = self.registrar.e_cpu
# calculate cpu time fraction of a single compute unit
- single_cu = float(e_cpu) / sum([rm.dc_max_cu for rm in list(self.registrar.resource_models)])
+ self.single_cu = float(e_cpu) / sum([rm.dc_max_cu for rm in list(self.registrar.resource_models)])
# calculate cpu time fraction for container with given flavor
- cpu_time_percentage = single_cu * number_cu
- # calculate cpu period and quota for CFS
+ cpu_time_percentage = self.single_cu * number_cu
+ # calculate input values for CFS scheduler bandwidth limitation
+ cpu_period, cpu_quota = self._calculate_cpu_cfs_values(cpu_time_percentage)
+ # apply limits to container if changed
+ if d.cpu_period != cpu_period or d.cpu_quota != cpu_quota:
+ LOG.debug("Setting CPU limit for %r: cpu_quota = cpu_period * limit = %f * %f = %f" % (
+ d.name, cpu_period, cpu_time_percentage, cpu_quota))
+ d.updateCpuLimit(cpu_period=int(cpu_period), cpu_quota=int(cpu_quota))
+
+ def _calculate_cpu_cfs_values(self, cpu_time_percentage):
+ """
+ Calculate cpu period and quota for CFS
+ :param cpu_time_percentage: percentage of overall CPU to be used
+ :return: cpu_period, cpu_quota
+ """
# (see: https://www.kernel.org/doc/Documentation/scheduler/sched-bwc.txt)
# Attention minimum cpu_quota is 1ms (micro)
- cpu_period = 1000000 # lets consider a fixed period of 1000000 microseconds for now
+ cpu_period = CPU_PERIOD # lets consider a fixed period of 1000000 microseconds for now
cpu_quota = cpu_period * cpu_time_percentage # calculate the fraction of cpu time for this container
# ATTENTION >= 1000 to avoid a invalid argument system error ... no idea why
if cpu_quota < 1000:
cpu_quota = 1000
- LOG.warning("Increased CPU quota for %r to avoid system error." % d.name)
- # apply to container if changed
- if d.cpu_period != cpu_period or d.cpu_quota != cpu_quota:
- LOG.debug("Setting CPU limit for %r: cpu_quota = cpu_period * limit = %f * %f = %f" % (
- d.name, cpu_period, cpu_time_percentage, cpu_quota))
- d.updateCpuLimit(cpu_period=int(cpu_period), cpu_quota=int(cpu_quota))
+ LOG.warning("Increased CPU quota to avoid system error.")
+ return cpu_period, cpu_quota
def _apply_mem_limits(self, d):
"""
# get memory amount for entire emulation
e_mem = self.registrar.e_mem
# calculate amount of memory for a single mu
- single_mu = float(e_mem) / sum([rm.dc_max_mu for rm in list(self.registrar.resource_models)])
+ self.single_mu = float(e_mem) / sum([rm.dc_max_mu for rm in list(self.registrar.resource_models)])
# calculate mem for given flavor
- mem_limit = single_mu * number_mu
- # ATTENTION minimum mem_limit per container is 4MB
- if mem_limit < 4:
- mem_limit = 4
- LOG.warning("Increased MEM limit for %r because it was less than 4.0 MB." % name)
- # to byte!
- mem_limit = int(mem_limit*1024*1024)
+ mem_limit = self.single_mu * number_mu
+ mem_limit = self._calculate_mem_limit_value(mem_limit)
# apply to container if changed
if d.mem_limit != mem_limit:
LOG.debug("Setting MEM limit for %r: mem_limit = %f MB" % (d.name, mem_limit/1024/1024))
d.updateMemoryLimit(mem_limit=mem_limit)
+ def _calculate_mem_limit_value(self, mem_limit):
+ """
+ Calculate actual mem limit as input for cgroup API
+ :param mem_limit: abstract mem limit
+ :return: concrete mem limit
+ """
+ # ATTENTION minimum mem_limit per container is 4MB
+ if mem_limit < 4:
+ mem_limit = 4
+ LOG.warning("Increased MEM limit because it was less than 4.0 MB.")
+ # to byte!
+ return int(mem_limit*1024*1024)
+
def get_state_dict(self):
"""
Return the state of the resource model as simple dict.
Helper method for logging functionality.
:return:
"""
- # TODO update
+ # collect info about all allocated instances
+ allocation_state = dict()
+ for k, d in self._allocated_compute_instances.iteritems():
+ s = dict()
+ s["cpu_period"] = d.cpu_period
+ s["cpu_quota"] = d.cpu_quota
+ s["cpu_shares"] = d.cpu_shares
+ s["mem_limit"] = d.mem_limit
+ s["memswap_limit"] = d.memswap_limit
+ allocation_state[k] = s
+ # final result
r = dict()
r["e_cpu"] = self.registrar.e_cpu
r["e_mem"] = self.registrar.e_mem
r["dc_max_mu"] = self.dc_max_mu
r["dc_alloc_cu"] = self.dc_alloc_cu
r["dc_alloc_mu"] = self.dc_alloc_mu
- r["cu_cpu_percentage"] = -1
- r["mu_mem_percentage"] = -1
- r["allocated_compute_instances"] = None #self._allocated_compute_instances
+ r["single_cu_percentage"] = self.single_cu
+ r["single_mu_percentage"] = self.single_mu
+ r["allocation_state"] = allocation_state
return r
def _get_flavor(self, d):
if d.flavor_name not in self._flavors:
raise Exception("Flavor %r does not exist" % d.flavor_name)
return self._flavors.get(d.flavor_name)
+
+ def _write_log(self, d, path, action):
+ """
+ Helper to log RM info for experiments.
+ :param d: container
+ :param path: log path
+ :param action: allocate or free
+ :return:
+ """
+ if path is None:
+ return
+ # we have a path: write out RM info
+ l = dict()
+ l["t"] = time.time()
+ l["container_state"] = d.getStatus()
+ l["action"] = action
+ l["rm_state"] = self.get_state_dict()
+ # append to logfile
+ with open(path, "a") as f:
+ f.write("%s\n" % json.dumps(l))