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##
## Copyright (c) 2010-2017 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.
##
from __future__ import print_function
import os
import subprocess
import socket
class prox_ctrl(object):
def __init__(self, ip, key=None, user=None):
self._ip = ip
self._key = key
self._user = user
self._children = []
self._proxsock = []
def ip(self):
return self._ip
def connect(self):
"""Simply try to run 'true' over ssh on remote system.
On failure, raise RuntimeWarning exception when possibly worth
retrying, and raise RuntimeError exception otherwise.
"""
return self.run_cmd('true', True)
def close(self):
"""Must be called before program termination."""
# for prox in self._proxsock:
# prox.quit()
children = len(self._children)
if children == 0:
return
if children > 1:
print('Waiting for %d child processes to complete ...' % children)
for child in self._children:
ret = os.waitpid(child[0], os.WNOHANG)
if ret[0] == 0:
print("Waiting for child process '%s' to complete ..." % child[1])
ret = os.waitpid(child[0], 0)
rc = ret[1]
if os.WIFEXITED(rc):
if os.WEXITSTATUS(rc) == 0:
print("Child process '%s' completed successfully" % child[1])
else:
print("Child process '%s' returned exit status %d" % (
child[1], os.WEXITSTATUS(rc)))
elif os.WIFSIGNALED(rc):
print("Child process '%s' exited on signal %d" % (
child[1], os.WTERMSIG(rc)))
else:
print("Wait status for child process '%s' is 0x%04x" % (
child[1], rc))
def run_cmd(self, command, _connect=False):
"""Execute command over ssh on remote system.
Wait for remote command completion.
Return command output (combined stdout and stderr).
_connect argument is reserved for connect() method.
"""
cmd = self._build_ssh(command)
try:
return subprocess.check_output(cmd, stderr=subprocess.STDOUT)
except subprocess.CalledProcessError as ex:
if _connect and ex.returncode == 255:
raise RuntimeWarning(ex.output.strip())
raise RuntimeError('ssh returned exit status %d:\n%s'
% (ex.returncode, ex.output.strip()))
def fork_cmd(self, command, name=None):
"""Execute command over ssh on remote system, in a child process.
Do not wait for remote command completion.
Return child process id.
"""
if name is None:
name = command
cmd = self._build_ssh(command)
pid = os.fork()
if (pid != 0):
# In the parent process
self._children.append((pid, name))
return pid
# In the child process: use os._exit to terminate
try:
# Actually ignore output on success, but capture stderr on failure
subprocess.check_output(cmd, stderr=subprocess.STDOUT)
except subprocess.CalledProcessError as ex:
raise RuntimeError("Child process '%s' failed:\n"
'ssh returned exit status %d:\n%s'
% (name, ex.returncode, ex.output.strip()))
os._exit(0)
def prox_sock(self, port=8474):
"""Connect to the PROX instance on remote system.
Return a prox_sock object on success, None on failure.
"""
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
try:
sock.connect((self._ip, port))
prox = prox_sock(sock)
self._proxsock.append(prox)
return prox
except:
return None
def scp_put(self, src, dst):
"""Copy src file from local system to dst on remote system."""
cmd = [ 'scp',
'-B',
'-oStrictHostKeyChecking=no',
'-oUserKnownHostsFile=/dev/null',
'-oLogLevel=ERROR' ]
if self._key is not None:
cmd.extend(['-i', self._key])
cmd.append(src)
remote = ''
if self._user is not None:
remote += self._user + '@'
remote += self._ip + ':' + dst
cmd.append(remote)
try:
# Actually ignore output on success, but capture stderr on failure
subprocess.check_output(cmd, stderr=subprocess.STDOUT)
except subprocess.CalledProcessError as ex:
raise RuntimeError('scp returned exit status %d:\n%s'
% (ex.returncode, ex.output.strip()))
def _build_ssh(self, command):
cmd = [ 'ssh',
'-oBatchMode=yes',
'-oStrictHostKeyChecking=no',
'-oUserKnownHostsFile=/dev/null',
'-oLogLevel=ERROR' ]
if self._key is not None:
cmd.extend(['-i', self._key])
remote = ''
if self._user is not None:
remote += self._user + '@'
remote += self._ip
cmd.append(remote)
cmd.append(command)
return cmd
class prox_sock(object):
def __init__(self, sock):
self._sock = sock
self._rcvd = b''
def quit(self):
if self._sock is not None:
self._send('quit')
self._sock.close()
self._sock = None
def start(self, cores):
self._send('start %s' % ','.join(map(str, cores)))
def stop(self, cores):
self._send('stop %s' % ','.join(map(str, cores)))
def speed(self, speed, cores, tasks=None):
if tasks is None:
tasks = [ 0 ] * len(cores)
elif len(tasks) != len(cores):
raise ValueError('cores and tasks must have the same len')
for (core, task) in zip(cores, tasks):
self._send('speed %s %s %s' % (core, task, speed))
def reset_stats(self):
self._send('reset stats')
def lat_stats(self, cores, task=0):
min_lat = 999999999
max_lat = avg_lat = 0
self._send('lat stats %s %s' % (','.join(map(str, cores)), task))
for core in cores:
stats = self._recv().split(',')
min_lat = min(int(stats[0]),min_lat)
max_lat = max(int(stats[1]),max_lat)
avg_lat += int(stats[2])
avg_lat = avg_lat/len(cores)
self._send('stats latency(0).used')
used = float(self._recv())
self._send('stats latency(0).total')
total = float(self._recv())
return min_lat, max_lat, avg_lat, (used/total)
def irq_stats(self, core, bucket, task=0):
self._send('stats task.core(%s).task(%s).irq(%s)' % (core, task, bucket))
stats = self._recv().split(',')
return int(stats[0])
def show_irq_buckets(self, core, task=0):
rx = tx = drop = tsc = hz = 0
self._send('show irq buckets %s %s' % (core,task))
buckets = self._recv().split(';')
buckets = buckets[:-1]
return buckets
def core_stats(self, cores, task=0):
rx = tx = drop = tsc = hz = rx_non_dp = tx_non_dp = 0
self._send('dp core stats %s %s' % (','.join(map(str, cores)), task))
for core in cores:
stats = self._recv().split(',')
rx += int(stats[0])
tx += int(stats[1])
rx_non_dp += int(stats[2])
tx_non_dp += int(stats[3])
drop += int(stats[4])
tsc = int(stats[5])
hz = int(stats[6])
return rx-rx_non_dp, tx-tx_non_dp, drop, tsc, hz
def set_random(self, cores, task, offset, mask, length):
self._send('set random %s %s %s %s %s' % (','.join(map(str, cores)), task, offset, mask, length))
def set_size(self, cores, task, pkt_size):
self._send('pkt_size %s %s %s' % (','.join(map(str, cores)), task, pkt_size))
def set_value(self, cores, task, offset, value, length):
self._send('set value %s %s %s %s %s' % (','.join(map(str, cores)), task, offset, value, length))
def _send(self, cmd):
"""Append LF and send command to the PROX instance."""
if self._sock is None:
raise RuntimeError("PROX socket closed, cannot send '%s'" % cmd)
self._sock.sendall(cmd.encode() + b'\n')
def _recv(self):
"""Receive response from PROX instance, and return it with LF removed."""
if self._sock is None:
raise RuntimeError("PROX socket closed, cannot receive anymore")
pos = self._rcvd.find(b'\n')
while pos == -1:
self._rcvd += self._sock.recv(256)
pos = self._rcvd.find(b'\n')
rsp = self._rcvd[:pos]
self._rcvd = self._rcvd[pos+1:]
return rsp.decode()
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