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# Copyright (c) 2018 Intel Corporation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import errno
import logging
import copy
import time
from yardstick.common.process import check_if_process_failed
from yardstick.network_services.utils import get_nsb_option
from yardstick.network_services.vnf_generic.vnf.prox_vnf import ProxApproxVnf
from yardstick.network_services.vnf_generic.vnf.sample_vnf import SampleVNFTrafficGen
from yardstick.benchmark.contexts.base import Context
from yardstick.network_services.vnf_generic.vnf.prox_helpers import CoreSocketTuple
LOG = logging.getLogger(__name__)
class ProxIrq(SampleVNFTrafficGen):
def __init__(self, name, vnfd, setup_env_helper_type=None,
resource_helper_type=None):
vnfd_cpy = copy.deepcopy(vnfd)
super(ProxIrq, self).__init__(name, vnfd_cpy)
self._vnf_wrapper = ProxApproxVnf(
name, vnfd, setup_env_helper_type, resource_helper_type)
self.bin_path = get_nsb_option('bin_path', '')
self.name = self._vnf_wrapper.name
self.ssh_helper = self._vnf_wrapper.ssh_helper
self.setup_helper = self._vnf_wrapper.setup_helper
self.resource_helper = self._vnf_wrapper.resource_helper
self.scenario_helper = self._vnf_wrapper.scenario_helper
self.irq_cores = None
def terminate(self):
self._vnf_wrapper.terminate()
super(ProxIrq, self).terminate()
def instantiate(self, scenario_cfg, context_cfg):
self._vnf_wrapper.instantiate(scenario_cfg, context_cfg)
self._tg_process = self._vnf_wrapper._vnf_process
def wait_for_instantiate(self):
self._vnf_wrapper.wait_for_instantiate()
def get_irq_cores(self):
cores = []
mode = "irq"
for section_name, section in self.setup_helper.prox_config_data:
if not section_name.startswith("core"):
continue
irq_mode = task_present = False
task_present_task = 0
for key, value in section:
if key == "mode" and value == mode:
irq_mode = True
if key == "task":
task_present = True
task_present_task = int(value)
if irq_mode:
if not task_present:
task_present_task = 0
core_tuple = CoreSocketTuple(section_name)
core = core_tuple.core_id
cores.append((core, task_present_task))
return cores
class ProxIrqVNF(ProxIrq, SampleVNFTrafficGen):
APP_NAME = 'ProxIrqVNF'
def __init__(self, name, vnfd, setup_env_helper_type=None,
resource_helper_type=None):
ProxIrq.__init__(self, name, vnfd, setup_env_helper_type,
resource_helper_type)
self.start_test_time = None
self.end_test_time = None
def vnf_execute(self, cmd, *args, **kwargs):
ignore_errors = kwargs.pop("_ignore_errors", False)
try:
return self.resource_helper.execute(cmd, *args, **kwargs)
except OSError as e:
if e.errno in {errno.EPIPE, errno.ESHUTDOWN, errno.ECONNRESET}:
if ignore_errors:
LOG.debug("ignoring vnf_execute exception %s for command %s", e, cmd)
else:
raise
else:
raise
def collect_kpi(self):
# check if the tg processes have exited
physical_node = Context.get_physical_node_from_server(
self.scenario_helper.nodes[self.name])
result = {"physical_node": physical_node}
for proc in (self._tg_process, self._traffic_process):
check_if_process_failed(proc)
if self.resource_helper is None:
return result
if self.irq_cores is None:
self.setup_helper.build_config_file()
self.irq_cores = self.get_irq_cores()
data = self.vnf_execute('irq_core_stats', self.irq_cores)
new_data = copy.deepcopy(data)
self.end_test_time = time.time()
self.vnf_execute('reset_stats')
if self.start_test_time is None:
new_data = {}
else:
test_time = self.end_test_time - self.start_test_time
for index, item in data.items():
for counter, value in item.items():
if counter.startswith("bucket_")or \
counter.startswith("overflow"):
if value is 0:
del new_data[index][counter]
else:
new_data[index][counter] = float(value) / test_time
self.start_test_time = time.time()
result["collect_stats"] = new_data
LOG.debug("%s collect KPIs %s", self.APP_NAME, result)
return result
class ProxIrqGen(ProxIrq, SampleVNFTrafficGen):
APP_NAME = 'ProxIrqGen'
def __init__(self, name, vnfd, setup_env_helper_type=None,
resource_helper_type=None):
ProxIrq.__init__(self, name, vnfd, setup_env_helper_type,
resource_helper_type)
self.start_test_time = None
self.end_test_time = None
def collect_kpi(self):
# check if the tg processes have exited
physical_node = Context.get_physical_node_from_server(
self.scenario_helper.nodes[self.name])
result = {"physical_node": physical_node}
for proc in (self._tg_process, self._traffic_process):
check_if_process_failed(proc)
if self.resource_helper is None:
return result
if self.irq_cores is None:
self.setup_helper.build_config_file()
self.irq_cores = self.get_irq_cores()
data = self.resource_helper.sut.irq_core_stats(self.irq_cores)
new_data = copy.deepcopy(data)
self.end_test_time = time.time()
self.resource_helper.sut.reset_stats()
if self.start_test_time is None:
new_data = {}
else:
test_time = self.end_test_time - self.start_test_time
for index, item in data.items():
for counter, value in item.items():
if counter.startswith("bucket_") or \
counter.startswith("overflow"):
if value is 0:
del new_data[index][counter]
else:
new_data[index][counter] = float(value) / test_time
self.start_test_time = time.time()
result["collect_stats"] = new_data
LOG.debug("%s collect KPIs %s", self.APP_NAME, result)
return result
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