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-rw-r--r--tools/hugepages.py112
-rw-r--r--tools/namespace.py4
-rw-r--r--tools/pkt_gen/moongen/moongen.py48
-rw-r--r--tools/pkt_gen/xena/XenaDriver.py16
4 files changed, 147 insertions, 33 deletions
diff --git a/tools/hugepages.py b/tools/hugepages.py
index 3a434d6e..02e4f29c 100644
--- a/tools/hugepages.py
+++ b/tools/hugepages.py
@@ -20,6 +20,7 @@ import re
import subprocess
import logging
import locale
+import math
from tools import tasks
from conf import settings
@@ -31,29 +32,105 @@ _LOGGER = logging.getLogger(__name__)
#
+def get_hugepage_size():
+ """Return the size of the configured hugepages
+ """
+ hugepage_size_re = re.compile(r'^Hugepagesize:\s+(?P<size_hp>\d+)\s+kB',
+ re.IGNORECASE)
+ with open('/proc/meminfo', 'r') as fh:
+ data = fh.readlines()
+ for line in data:
+ match = hugepage_size_re.search(line)
+ if match:
+ _LOGGER.info('Hugepages size: %s', match.group('size_hp'))
+ return int(match.group('size_hp'))
+ else:
+ _LOGGER.error('Could not parse for hugepage size')
+ return 0
+
+
+def allocate_hugepages():
+ """Allocate hugepages on the fly
+ """
+ hp_size = get_hugepage_size()
+
+ if hp_size > 0:
+ nr_hp = int(math.ceil(settings.getValue('HUGEPAGE_RAM_ALLOCATION')/hp_size))
+ _LOGGER.info('Will allocate %s hugepages.', nr_hp)
+
+ nr_hugepages = 'vm.nr_hugepages=' + str(nr_hp)
+ try:
+ tasks.run_task(['sudo', 'sysctl', nr_hugepages],
+ _LOGGER, 'Trying to allocate hugepages..', True)
+ except subprocess.CalledProcessError:
+ _LOGGER.error('Unable to allocate hugepages.')
+ return False
+ return True
+
+ else:
+ _LOGGER.error('Division by 0 will be supported in next release')
+ return False
+
+
+def get_free_hugepages(socket=None):
+ """Get the free hugepage totals on the system.
+
+ :param socket: optional socket param to get free hugepages on a socket. To
+ be passed a string.
+ :returns: hugepage amount as int
+ """
+ hugepage_free_re = re.compile(r'HugePages_Free:\s+(?P<free_hp>\d+)$')
+ if socket:
+ if os.path.exists(
+ '/sys/devices/system/node/node{}/meminfo'.format(socket)):
+ meminfo_path = '/sys/devices/system/node/node{}/meminfo'.format(
+ socket)
+ else:
+ _LOGGER.info('No hugepage info found for socket {}'.format(socket))
+ return 0
+ else:
+ meminfo_path = '/proc/meminfo'
+
+ with open(meminfo_path, 'r') as fh:
+ data = fh.readlines()
+ for line in data:
+ match = hugepage_free_re.search(line)
+ if match:
+ _LOGGER.info('Hugepages free: %s %s', match.group('free_hp'),
+ 'on socket {}'.format(socket) if socket else '')
+ return int(match.group('free_hp'))
+ else:
+ _LOGGER.info('Could not parse for hugepage size')
+ return 0
+
+
def is_hugepage_available():
- """Check if hugepages are available on the system.
+ """Check if hugepages are configured/available on the system.
"""
- hugepage_re = re.compile(r'^HugePages_Free:\s+(?P<num_hp>\d+)$')
+ hugepage_size_re = re.compile(r'^Hugepagesize:\s+(?P<size_hp>\d+)\s+kB',
+ re.IGNORECASE)
# read in meminfo
with open('/proc/meminfo') as mem_file:
mem_info = mem_file.readlines()
- # first check if module is loaded
+ # see if the hugepage size is the recommended value
for line in mem_info:
- result = hugepage_re.match(line)
- if not result:
- continue
-
- num_huge = result.group('num_hp')
- if not num_huge:
- _LOGGER.info('No free hugepages.')
- else:
- _LOGGER.info('Found \'%s\' free hugepage(s).', num_huge)
- return True
-
- return False
+ match_size = hugepage_size_re.match(line)
+ if match_size:
+ if match_size.group('size_hp') != '1048576':
+ _LOGGER.info(
+ '%s%s%s kB',
+ 'Hugepages not configured for recommend 1GB size. ',
+ 'Currently set at ', match_size.group('size_hp'))
+ num_huge = get_free_hugepages()
+ if num_huge == 0:
+ _LOGGER.info('No free hugepages.')
+ if not allocate_hugepages():
+ return False
+ else:
+ _LOGGER.info('Found \'%s\' free hugepage(s).', num_huge)
+ return True
def is_hugepage_mounted():
@@ -69,10 +146,11 @@ def is_hugepage_mounted():
def mount_hugepages():
- """Ensure hugepages are mounted.
+ """Ensure hugepages are mounted. Raises RuntimeError if no configured
+ hugepages are available.
"""
if not is_hugepage_available():
- return
+ raise RuntimeError('No Hugepages configured.')
if is_hugepage_mounted():
return
diff --git a/tools/namespace.py b/tools/namespace.py
index e6bcd819..9131398f 100644
--- a/tools/namespace.py
+++ b/tools/namespace.py
@@ -108,8 +108,8 @@ def get_system_namespace_list():
Return tuple of strings for namespaces on the system
:return: tuple of namespaces as string
"""
- return tuple(os.listdir('/var/run/netns'))
-
+ return tuple(os.listdir('/var/run/netns')) if os.path.exists(
+ '/var/run/netns') else tuple()
def get_vsperf_namespace_list():
"""
diff --git a/tools/pkt_gen/moongen/moongen.py b/tools/pkt_gen/moongen/moongen.py
index 47f288a4..86a39a77 100644
--- a/tools/pkt_gen/moongen/moongen.py
+++ b/tools/pkt_gen/moongen/moongen.py
@@ -20,10 +20,11 @@ Moongen Traffic Generator Model
"""
# python imports
-import logging
from collections import OrderedDict
-import subprocess
+import logging
+import math
import re
+import subprocess
# VSPerf imports
from conf import settings
@@ -49,6 +50,13 @@ class Moongen(ITrafficGenerator):
self._moongen_user = settings.getValue('TRAFFICGEN_MOONGEN_USER')
self._moongen_ports = settings.getValue('TRAFFICGEN_MOONGEN_PORTS')
+ if settings.getValue('TRAFFICGEN_MOONGEN_LINE_SPEED_GBPS') == '10':
+ self._moongen_line_speed = math.pow(10, 10)
+ else:
+ raise RuntimeError(
+ 'MOONGEN: Invalid line speed in configuration ' + \
+ 'file (today 10Gbps supported)')
+
@property
def traffic_defaults(self):
"""Default traffic values.
@@ -157,10 +165,17 @@ class Moongen(ITrafficGenerator):
if one_shot:
out_file.write("oneShot = true,\n")
- # Assume 10G line rates at the moment. Need to convert VSPERF
- # frame_rate (percentage of line rate) to Mpps for Moongen
+ # Need to convert VSPERF frame_rate (percentage of line rate)
+ # to Mpps for Moongen
+ start_rate = str(
+ (traffic['frame_rate'] / 100) * (self._moongen_line_speed / \
+ (8 * (traffic['l2']['framesize'] + 20)) / math.pow(10, 6)))
+
+ logging.debug("startRate = " + start_rate)
+
+ out_file.write("startRate = " + \
+ start_rate + "\n")
- out_file.write("startRate = " + str((traffic['frame_rate'] / 100) * 14.88) + "\n")
out_file.write("}" + "\n")
out_file.close()
@@ -473,10 +488,21 @@ class Moongen(ITrafficGenerator):
'PARAMETERS section of Moongen log file')
frame_size = 0
- if results_match and parameters_match:
+ # Each packet stream in the MoonGen report is prefaced with the
+ # words '[REPORT]Device'. Count the instances of this string to
+ # get the total aggregrate throughput. For example:
+ #
+ # - If num_traffic_streams = 1, there is a single
+ # unidirectional stream
+ #
+ # - If num_traffic_streams = 2, there is a bidirectional
+ # traffic stream
+ num_traffic_streams = mytext.count('[REPORT]Device')
+
+ if results_match and parameters_match and num_traffic_streams:
# Assume for now 10G link speed
- max_theoretical_mfps = (
- (10000000000 / 8) / (frame_size + 20))
+ max_theoretical_fps = (
+ num_traffic_streams * (10000000000 / 8) / (frame_size + 20))
moongen_results[ResultsConstants.THROUGHPUT_RX_FPS] = (
float(results_match.group(6)) * 1000000)
@@ -485,8 +511,7 @@ class Moongen(ITrafficGenerator):
(float(results_match.group(6)) * frame_size + 20) * 8)
moongen_results[ResultsConstants.THROUGHPUT_RX_PERCENT] = (
- float(results_match.group(6)) * \
- 1000000 / max_theoretical_mfps * 100)
+ (100 * float(results_match.group(6)) * 1000000) / max_theoretical_fps)
moongen_results[ResultsConstants.TX_RATE_FPS] = (
float(results_match.group(5)) * 1000000)
@@ -495,8 +520,7 @@ class Moongen(ITrafficGenerator):
float(results_match.group(5)) * (frame_size + 20) * 8)
moongen_results[ResultsConstants.TX_RATE_PERCENT] = (
- float(results_match.group(5)) *
- 1000000 / max_theoretical_mfps * 100)
+ (100 * float(results_match.group(5)) * 1000000) / max_theoretical_fps)
moongen_results[ResultsConstants.B2B_TX_COUNT] = (
float(results_match.group(1)))
diff --git a/tools/pkt_gen/xena/XenaDriver.py b/tools/pkt_gen/xena/XenaDriver.py
index aa8443c9..d3862312 100644
--- a/tools/pkt_gen/xena/XenaDriver.py
+++ b/tools/pkt_gen/xena/XenaDriver.py
@@ -1001,9 +1001,21 @@ class XenaTXStats(object):
mydict = statdict
return mydict
-
def aggregate_stats(stat1, stat2):
"""
+ Judge whether stat1 and stat2 both have same key, if both have same key,
+ call the aggregate fuction, else use the stat1's value
+ """
+ newstat = dict()
+ for keys in stat1.keys():
+ if keys in stat2 and isinstance(stat1[keys], dict):
+ newstat[keys] = aggregate(stat1[keys], stat2[keys])
+ else:
+ newstat[keys] = stat1[keys]
+ return newstat
+
+def aggregate(stat1, stat2):
+ """
Recursive function to aggregate two sets of statistics. This is used when
bi directional traffic is done and statistics need to be calculated based
on two sets of statistics.
@@ -1014,7 +1026,7 @@ def aggregate_stats(stat1, stat2):
newstat = dict()
for (keys1, keys2) in zip(stat1.keys(), stat2.keys()):
if isinstance(stat1[keys1], dict):
- newstat[keys1] = aggregate_stats(stat1[keys1], stat2[keys2])
+ newstat[keys1] = aggregate(stat1[keys1], stat2[keys2])
else:
if not isinstance(stat1[keys1], int) and not isinstance(
[keys1], float):