+++ /dev/null
-import time
-import os
-from emuvim.test.base import SimpleTestTopology
-from emuvim.dcemulator.resourcemodel import BaseResourceModel, ResourceFlavor
-from emuvim.dcemulator.resourcemodel.upb.simple import UpbSimpleCloudDcRM
-from emuvim.dcemulator.resourcemodel import ResourceModelRegistrar
-
-
-class testResourceModel(SimpleTestTopology):
- """
- Test the general resource model API and functionality.
- """
-
- def testBaseResourceModelApi(self):
- """
- Tast bare API without real resource madel.
- :return:
- """
- r = BaseResourceModel()
- # check if default flavors are there
- self.assertTrue(len(r._flavors) == 5)
- # check addFlavor functionality
- f = ResourceFlavor("test", {"testmetric": 42})
- r.addFlavour(f)
- self.assertTrue("test" in r._flavors)
- self.assertTrue(r._flavors.get("test").get("testmetric") == 42)
-
- def testAddRmToDc(self):
- """
- Test is allocate/free is called when a RM is added to a DC.
- :return:
- """
- # create network
- self.createNet(nswitches=0, ndatacenter=1, nhosts=2, ndockers=0)
- # setup links
- self.net.addLink(self.dc[0], self.h[0])
- self.net.addLink(self.h[1], self.dc[0])
- # add resource model
- r = BaseResourceModel()
- self.dc[0].assignResourceModel(r)
- # start Mininet network
- self.startNet()
- # check number of running nodes
- self.assertTrue(len(self.getDockernetContainers()) == 0)
- self.assertTrue(len(self.net.hosts) == 2)
- self.assertTrue(len(self.net.switches) == 1)
- # check resource model and resource model registrar
- self.assertTrue(self.dc[0]._resource_model is not None)
- self.assertTrue(len(self.net.rm_registrar.resource_models) == 1)
-
- # check if alloc was called during startCompute
- self.assertTrue(len(r._allocated_compute_instances) == 0)
- self.dc[0].startCompute("tc1")
- time.sleep(1)
- self.assertTrue(len(r._allocated_compute_instances) == 1)
- # check if free was called during stopCompute
- self.dc[0].stopCompute("tc1")
- self.assertTrue(len(r._allocated_compute_instances) == 0)
- # check connectivity by using ping
- self.assertTrue(self.net.ping([self.h[0], self.h[1]]) <= 0.0)
- # stop Mininet network
- self.stopNet()
-
-
-def createDummyContainerObject(name, flavor):
-
- class DummyContainer(object):
-
- def __init__(self):
- self.cpu_period = -1
- self.cpu_quota = -1
- self.mem_limit = -1
- self.memswap_limit = -1
-
- def updateCpuLimit(self, cpu_period, cpu_quota):
- self.cpu_period = cpu_period
- self.cpu_quota = cpu_quota
-
- def updateMemoryLimit(self, mem_limit):
- self.mem_limit = mem_limit
-
- d = DummyContainer()
- d.name = name
- d.flavor_name = flavor
- return d
-
-
-
-
-class testUpbSimpleCloudDcRM(SimpleTestTopology):
- """
- Test the UpbSimpleCloudDc resource model.
- """
-
- def testAllocation(self):
- """
- Test the allocation procedures and correct calculations.
- :return:
- """
- # config
- E_CPU = 1.0
- MAX_CU = 100
- E_MEM = 512
- MAX_MU = 2048
- # create dummy resource model environment
- reg = ResourceModelRegistrar(dc_emulation_max_cpu=E_CPU, dc_emulation_max_mem=E_MEM)
- rm = UpbSimpleCloudDcRM(max_cu=MAX_CU, max_mu=MAX_MU)
- reg.register("test_dc", rm)
-
- c1 = createDummyContainerObject("c1", flavor="tiny")
- rm.allocate(c1) # calculate allocation
- self.assertEqual(float(c1.cpu_quota) / c1.cpu_period, E_CPU / MAX_CU * 0.5) # validate compute result
- self.assertEqual(float(c1.mem_limit/1024/1024), float(E_MEM) / MAX_MU * 32) # validate memory result
-
- c2 = createDummyContainerObject("c2", flavor="small")
- rm.allocate(c2) # calculate allocation
- self.assertEqual(float(c2.cpu_quota) / c2.cpu_period, E_CPU / MAX_CU * 1) # validate compute result
- self.assertEqual(float(c2.mem_limit/1024/1024), float(E_MEM) / MAX_MU * 128) # validate memory result
-
-
- c3 = createDummyContainerObject("c3", flavor="medium")
- res = rm.allocate(c3) # calculate allocation
- self.assertEqual(float(c3.cpu_quota) / c3.cpu_period, E_CPU / MAX_CU * 4) # validate compute result
- self.assertEqual(float(c3.mem_limit/1024/1024), float(E_MEM) / MAX_MU * 256) # validate memory result
-
-
- c4 = createDummyContainerObject("c4", flavor="large")
- rm.allocate(c4) # calculate allocation
- self.assertEqual(float(c4.cpu_quota) / c4.cpu_period, E_CPU / MAX_CU * 8) # validate compute result
- self.assertEqual(float(c4.mem_limit/1024/1024), float(E_MEM) / MAX_MU * 512) # validate memory result
-
-
- c5 = createDummyContainerObject("c5", flavor="xlarge")
- rm.allocate(c5) # calculate allocation
- self.assertEqual(float(c5.cpu_quota) / c5.cpu_period, E_CPU / MAX_CU * 16) # validate compute result
- self.assertEqual(float(c5.mem_limit/1024/1024), float(E_MEM) / MAX_MU * 1024) # validate memory result
-
-
- def testAllocationCpuLimit(self):
- """
- Test CPU allocation limit
- :return:
- """
- # config
- E_CPU = 1.0
- MAX_CU = 40
- E_MEM = 512
- MAX_MU = 4096
- # create dummy resource model environment
- reg = ResourceModelRegistrar(dc_emulation_max_cpu=E_CPU, dc_emulation_max_mem=E_MEM)
- rm = UpbSimpleCloudDcRM(max_cu=MAX_CU, max_mu=MAX_MU)
- reg.register("test_dc", rm)
-
- # test over provisioning exeption
- exception = False
- try:
- c6 = createDummyContainerObject("c6", flavor="xlarge")
- c7 = createDummyContainerObject("c7", flavor="xlarge")
- c8 = createDummyContainerObject("c8", flavor="xlarge")
- c9 = createDummyContainerObject("c9", flavor="xlarge")
- rm.allocate(c6) # calculate allocation
- rm.allocate(c7) # calculate allocation
- rm.allocate(c8) # calculate allocation
- rm.allocate(c9) # calculate allocation
- except Exception as e:
- self.assertIn("Not enough compute", e.message)
- exception = True
- self.assertTrue(exception)
-
- def testAllocationMemLimit(self):
- """
- Test MEM allocation limit
- :return:
- """
- # config
- E_CPU = 1.0
- MAX_CU = 500
- E_MEM = 512
- MAX_MU = 2048
- # create dummy resource model environment
- reg = ResourceModelRegistrar(dc_emulation_max_cpu=E_CPU, dc_emulation_max_mem=E_MEM)
- rm = UpbSimpleCloudDcRM(max_cu=MAX_CU, max_mu=MAX_MU)
- reg.register("test_dc", rm)
-
- # test over provisioning exeption
- exception = False
- try:
- c6 = createDummyContainerObject("c6", flavor="xlarge")
- c7 = createDummyContainerObject("c7", flavor="xlarge")
- c8 = createDummyContainerObject("c8", flavor="xlarge")
- rm.allocate(c6) # calculate allocation
- rm.allocate(c7) # calculate allocation
- rm.allocate(c8) # calculate allocation
- except Exception as e:
- self.assertIn("Not enough memory", e.message)
- exception = True
- self.assertTrue(exception)
-
- def testFree(self):
- """
- Test the free procedure.
- :return:
- """
- # config
- E_CPU = 1.0
- MAX_CU = 100
- # create dummy resource model environment
- reg = ResourceModelRegistrar(dc_emulation_max_cpu=1.0, dc_emulation_max_mem=512)
- rm = UpbSimpleCloudDcRM(max_cu=100, max_mu=100)
- reg.register("test_dc", rm)
- c1 = createDummyContainerObject("c6", flavor="tiny")
- rm.allocate(c1) # calculate allocation
- self.assertTrue(rm.dc_alloc_cu == 0.5)
- rm.free(c1)
- self.assertTrue(rm.dc_alloc_cu == 0)
-
- def testInRealTopo(self):
- """
- Start a real container and check if limitations are really passed down to Dockernet.
- :return:
- """
- # ATTENTION: This test should only be executed if emu runs not inside a Docker container,
- # because it manipulates cgroups.
- if os.environ.get("SON_EMU_IN_DOCKER") is not None:
- return
- # create network
- self.createNet(nswitches=0, ndatacenter=1, nhosts=2, ndockers=0)
- # setup links
- self.net.addLink(self.dc[0], self.h[0])
- self.net.addLink(self.h[1], self.dc[0])
- # add resource model
- r = UpbSimpleCloudDcRM(max_cu=100, max_mu=100)
- self.dc[0].assignResourceModel(r)
- # start Mininet network
- self.startNet()
- # check number of running nodes
- self.assertTrue(len(self.getDockernetContainers()) == 0)
- self.assertTrue(len(self.net.hosts) == 2)
- self.assertTrue(len(self.net.switches) == 1)
- # check resource model and resource model registrar
- self.assertTrue(self.dc[0]._resource_model is not None)
- self.assertTrue(len(self.net.rm_registrar.resource_models) == 1)
-
- # check if alloc was called during startCompute
- self.assertTrue(len(r._allocated_compute_instances) == 0)
- tc1 = self.dc[0].startCompute("tc1", flavor_name="tiny")
- time.sleep(1)
- self.assertTrue(len(r._allocated_compute_instances) == 1)
-
- # check if there is a real limitation set for containers cgroup
- # deactivated for now, seems not to work in docker-in-docker setup used in CI
- self.assertEqual(float(tc1.cpu_quota)/tc1.cpu_period, 0.005)
-
- # check if free was called during stopCompute
- self.dc[0].stopCompute("tc1")
- self.assertTrue(len(r._allocated_compute_instances) == 0)
- # check connectivity by using ping
- self.assertTrue(self.net.ping([self.h[0], self.h[1]]) <= 0.0)
- # stop Mininet network
- self.stopNet()
-
-
-