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authorahothan <ahothan@cisco.com>2017-09-16 00:17:22 -0700
committerahothan <ahothan@cisco.com>2017-09-16 00:17:22 -0700
commite2bf4ed6d951fe9d65b6bf8af8f8dca60ed173c9 (patch)
tree2bfd77144f4a206cefd31519bf70b425c5d0e492 /nfvbench/connection.py
parent836341027030bcb12973cb91f7d1dbdfdb3317d7 (diff)
StatsManager must clean up self when there is an exception in __init__1.0.8
ALso remove unused connection.py Change-Id: I1bf688ade511f2054e9d67edf8938df1988e4cb2 Signed-off-by: ahothan <ahothan@cisco.com>
Diffstat (limited to 'nfvbench/connection.py')
-rw-r--r--nfvbench/connection.py725
1 files changed, 0 insertions, 725 deletions
diff --git a/nfvbench/connection.py b/nfvbench/connection.py
deleted file mode 100644
index 0ef994f..0000000
--- a/nfvbench/connection.py
+++ /dev/null
@@ -1,725 +0,0 @@
-# Copyright 2013: Mirantis Inc.
-# All Rights Reserved.
-#
-# 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.
-
-
-"""High level ssh library.
-Usage examples:
-Execute command and get output:
- ssh = sshclient.SSH('root', 'example.com', port=33)
- status, stdout, stderr = ssh.execute('ps ax')
- if status:
- raise Exception('Command failed with non-zero status.')
- print stdout.splitlines()
-Execute command with huge output:
- class PseudoFile(object):
- def write(chunk):
- if 'error' in chunk:
- email_admin(chunk)
- ssh = sshclient.SSH('root', 'example.com')
- ssh.run('tail -f /var/log/syslog', stdout=PseudoFile(), timeout=False)
-Execute local script on remote side:
- ssh = sshclient.SSH('user', 'example.com')
- status, out, err = ssh.execute('/bin/sh -s arg1 arg2',
- stdin=open('~/myscript.sh', 'r'))
-Upload file:
- ssh = sshclient.SSH('user', 'example.com')
- ssh.run('cat > ~/upload/file.gz', stdin=open('/store/file.gz', 'rb'))
-Eventlet:
- eventlet.monkey_patch(select=True, time=True)
- or
- eventlet.monkey_patch()
- or
- sshclient = eventlet.import_patched("opentstack.common.sshclient")
-"""
-
-import re
-import select
-import shlex
-import socket
-import StringIO
-import subprocess
-import sys
-import threading
-import time
-
-from log import LOG
-import paramiko
-
-# from rally.openstack.common.gettextutils import _
-
-
-class ConnectionError(Exception):
- pass
-
-
-class Connection(object):
-
- '''
- A base connection class. Not intended to be constructed.
- '''
-
- def __init__(self):
- self.distro_id = None
- self.distro_id_like = None
- self.distro_version = None
- self.__get_distro()
-
- def close(self):
- pass
-
- def execute(self, cmd, stdin=None, timeout=3600):
- pass
-
- def __extract_property(self, name, input_str):
- expr = name + r'="?([\w\.]*)"?'
- match = re.search(expr, input_str)
- if match:
- return match.group(1)
- return 'Unknown'
-
- # Get the linux distro
- def __get_distro(self):
- '''cat /etc/*-release | grep ID
- Ubuntu:
- DISTRIB_ID=Ubuntu
- ID=ubuntu
- ID_LIKE=debian
- VERSION_ID="14.04"
- RHEL:
- ID="rhel"
- ID_LIKE="fedora"
- VERSION_ID="7.0"
- '''
- distro_cmd = "grep ID /etc/*-release"
- (status, distro_out, _) = self.execute(distro_cmd)
- if status:
- distro_out = ''
- self.distro_id = self.__extract_property('ID', distro_out)
- self.distro_id_like = self.__extract_property('ID_LIKE', distro_out)
- self.distro_version = self.__extract_property('VERSION_ID', distro_out)
-
- def pidof(self, proc_name):
- '''
- Return a list containing the pids of all processes of a given name
- the list is empty if there is no pid
- '''
- # the path update is necessary for RHEL
- cmd = "PATH=$PATH:/usr/sbin pidof " + proc_name
- (status, cmd_output, _) = self.execute(cmd)
- if status:
- return []
- cmd_output = cmd_output.strip()
- result = cmd_output.split()
- return result
-
- # kill pids in the given list of pids
- def kill_proc(self, pid_list):
- cmd = "kill -9 " + ' '.join(pid_list)
- self.execute(cmd)
-
- # check stats for a given path
- def stat(self, path):
- (status, cmd_output, _) = self.execute('stat ' + path)
- if status:
- return None
- return cmd_output
-
- def ping_check(self, target_ip, ping_count=2, pass_threshold=80):
- '''helper function to ping from one host to an IP address,
- for a given count and pass_threshold;
- Steps:
- ssh to the host and then ping to the target IP
- then match the output and verify that the loss% is
- less than the pass_threshold%
- Return 1 if the criteria passes
- Return 0, if it fails
- '''
- cmd = "ping -c " + str(ping_count) + " " + str(target_ip)
- (_, cmd_output, _) = self.execute(cmd)
-
- match = re.search(r'(\d*)% packet loss', cmd_output)
- pkt_loss = match.group(1)
- if int(pkt_loss) < int(pass_threshold):
- return 1
- else:
- LOG.error('Ping to %s failed: %s', target_ip, cmd_output)
- return 0
-
- def read_remote_file(self, from_path):
- '''
- Read a remote file and save it to a buffer.
- '''
- cmd = "cat " + from_path
- (status, cmd_output, _) = self.execute(cmd)
- if status:
- return None
- return cmd_output
-
- def get_host_os_version(self):
- '''
- Identify the host distribution/relase.
- '''
- os_release_file = "/etc/os-release"
- sys_release_file = "/etc/system-release"
- name = ""
- version = ""
-
- if self.stat(os_release_file):
- data = self.read_remote_file(os_release_file)
- if data is None:
- LOG.error("Failed to read file %s", os_release_file)
- return None
-
- for line in data.splitlines():
- mobj = re.match(r'NAME=(.*)', line)
- if mobj:
- name = mobj.group(1).strip("\"")
-
- mobj = re.match(r'VERSION_ID=(.*)', line)
- if mobj:
- version = mobj.group(1).strip("\"")
-
- os_name = name + " " + version
- return os_name
-
- if self.stat(sys_release_file):
- data = self.read_remote_file(sys_release_file)
- if data is None:
- LOG.error("Failed to read file %s", sys_release_file)
- return None
-
- for line in data.splitlines():
- mobj = re.match(r'Red Hat.*', line)
- if mobj:
- return mobj.group(0)
-
- return None
-
- def check_rpm_package_installed(self, rpm_pkg):
- '''
- Given a host and a package name, check if it is installed on the
- system.
- '''
- check_pkg_cmd = "rpm -qa | grep " + rpm_pkg
-
- (status, cmd_output, _) = self.execute(check_pkg_cmd)
- if status:
- return None
-
- pkg_pattern = ".*" + rpm_pkg + ".*"
- rpm_pattern = re.compile(pkg_pattern, re.IGNORECASE)
-
- for line in cmd_output.splitlines():
- mobj = rpm_pattern.match(line)
- if mobj:
- return mobj.group(0)
-
- LOG.info("%s pkg installed ", rpm_pkg)
-
- return None
-
- def get_openstack_release(self, ver_str):
- '''
- Get the release series name from the package version
- Refer to here for release tables:
- https://wiki.openstack.org/wiki/Releases
- '''
- ver_table = {"2015.1": "Kilo",
- "2014.2": "Juno",
- "2014.1": "Icehouse",
- "2013.2": "Havana",
- "2013.1": "Grizzly",
- "2012.2": "Folsom",
- "2012.1": "Essex",
- "2011.3": "Diablo",
- "2011.2": "Cactus",
- "2011.1": "Bexar",
- "2010.1": "Austin"}
-
- ver_prefix = re.search(r"20\d\d\.\d", ver_str).group(0)
- if ver_prefix in ver_table:
- return ver_table[ver_prefix]
- else:
- return "Unknown"
-
- def check_openstack_version(self):
- '''
- Identify the openstack version running on the controller.
- '''
- nova_cmd = "nova-manage --version"
- (status, _, err_output) = self.execute(nova_cmd)
-
- if status:
- return "Unknown"
-
- ver_str = err_output.strip()
- release_str = self.get_openstack_release(err_output)
- return release_str + " (" + ver_str + ")"
-
- def get_cpu_info(self):
- '''
- Get the CPU info of the controller.
- Note: Here we are assuming the controller node has the exact
- hardware as the compute nodes.
- '''
-
- cmd = 'cat /proc/cpuinfo | grep -m1 "model name"'
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
- model_name = re.search(r":\s(.*)", std_output).group(1)
-
- cmd = 'cat /proc/cpuinfo | grep "model name" | wc -l'
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
- cores = std_output.strip()
-
- return (cores + " * " + model_name)
-
- def get_nic_name(self, agent_type, encap, internal_iface_dict):
- '''
- Get the NIC info of the controller.
- Note: Here we are assuming the controller node has the exact
- hardware as the compute nodes.
- '''
-
- # The internal_ifac_dict is a dictionary contains the mapping between
- # hostname and the internal interface name like below:
- # {u'hh23-4': u'eth1', u'hh23-5': u'eth1', u'hh23-6': u'eth1'}
-
- cmd = "hostname"
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
- hostname = std_output.strip()
-
- if hostname in internal_iface_dict:
- iface = internal_iface_dict[hostname]
- else:
- return "Unknown"
-
- # Figure out which interface is for internal traffic
- if 'Linux bridge' in agent_type:
- ifname = iface
- elif 'Open vSwitch' in agent_type:
- if encap == 'vlan':
- # [root@hh23-10 ~]# ovs-vsctl list-ports br-inst
- # eth1
- # phy-br-inst
- cmd = 'ovs-vsctl list-ports ' + \
- iface + ' | grep -E "^[^phy].*"'
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
- ifname = std_output.strip()
- elif encap == 'vxlan' or encap == 'gre':
- # This is complicated. We need to first get the local IP address on
- # br-tun, then do a reverse lookup to get the physical interface.
- #
- # [root@hh23-4 ~]# ip addr show to "23.23.2.14"
- # 3: eth1: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP qlen 1000
- # inet 23.23.2.14/24 brd 23.23.2.255 scope global eth1
- # valid_lft forever preferred_lft forever
- cmd = "ip addr show to " + iface + " | awk -F: '{print $2}'"
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
- ifname = std_output.strip()
- else:
- return "Unknown"
-
- cmd = 'ethtool -i ' + ifname + ' | grep bus-info'
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
- bus_info = re.search(r":\s(.*)", std_output).group(1)
-
- cmd = 'lspci -s ' + bus_info
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
- nic_name = re.search(
- r"Ethernet controller:\s(.*)",
- std_output).group(1)
-
- return (nic_name)
-
- def get_l2agent_version(self, agent_type):
- '''
- Get the L2 agent version of the controller.
- Note: Here we are assuming the controller node has the exact
- hardware as the compute nodes.
- '''
- if 'Linux bridge' in agent_type:
- cmd = "brctl --version | awk -F',' '{print $2}'"
- ver_string = "Linux Bridge "
- elif 'Open vSwitch' in agent_type:
- cmd = "ovs-vsctl --version | awk -F')' '{print $2}'"
- ver_string = "OVS "
- else:
- return "Unknown"
-
- (status, std_output, _) = self.execute(cmd)
- if status:
- return "Unknown"
-
- return ver_string + std_output.strip()
-
-
-class SSHError(Exception):
- pass
-
-
-class SSHTimeout(SSHError):
- pass
-
-# Check IPv4 address syntax - not completely fool proof but will catch
-# some invalid formats
-
-
-def is_ipv4(address):
- try:
- socket.inet_aton(address)
- except socket.error:
- return False
- return True
-
-
-class SSHAccess(object):
-
- '''
- A class to contain all the information needed to access a host
- (native or virtual) using SSH
- '''
-
- def __init__(self, arg_value=None):
- '''
- decode user@host[:pwd]
- 'hugo@1.1.1.1:secret' -> ('hugo', '1.1.1.1', 'secret', None)
- 'huggy@2.2.2.2' -> ('huggy', '2.2.2.2', None, None)
- None ->(None, None, None, None)
- Examples of fatal errors (will call exit):
- 'hutch@q.1.1.1' (invalid IP)
- '@3.3.3.3' (missing username)
- 'hiro@' or 'buggy' (missing host IP)
- The error field will be None in case of success or will
- contain a string describing the error
- '''
- self.username = None
- self.host = None
- self.password = None
- # name of the file that contains the private key
- self.private_key_file = None
- # this is the private key itself (a long string starting with
- # -----BEGIN RSA PRIVATE KEY-----
- # used when the private key is not saved in any file
- self.private_key = None
- self.public_key_file = None
- self.port = 22
- self.error = None
-
- if not arg_value:
- return
- match = re.search(r'^([^@]+)@([0-9\.]+):?(.*)$', arg_value)
- if not match:
- self.error = 'Invalid argument: ' + arg_value
- return
- if not is_ipv4(match.group(2)):
- self.error = 'Invalid IPv4 address ' + match.group(2)
- return
- (self.username, self.host, self.password) = match.groups()
-
- def copy_from(self, ssh_access):
- self.username = ssh_access.username
- self.host = ssh_access.host
- self.port = ssh_access.port
- self.password = ssh_access.password
- self.private_key = ssh_access.private_key
- self.public_key_file = ssh_access.public_key_file
- self.private_key_file = ssh_access.private_key_file
-
-
-class SSH(Connection):
-
- """Represent ssh connection."""
-
- def __init__(self, ssh_access,
- connect_timeout=60,
- connect_retry_count=30,
- connect_retry_wait_sec=2):
- """Initialize SSH client.
- :param user: ssh username
- :param host: hostname or ip address of remote ssh server
- :param port: remote ssh port
- :param pkey: RSA or DSS private key string or file object
- :param key_filename: private key filename
- :param password: password
- :param connect_timeout: timeout when connecting ssh
- :param connect_retry_count: how many times to retry connecting
- :param connect_retry_wait_sec: seconds to wait between retries
- """
-
- self.ssh_access = ssh_access
- if ssh_access.private_key:
- self.pkey = self._get_pkey(ssh_access.private_key)
- else:
- self.pkey = None
- self._client = False
- self.connect_timeout = connect_timeout
- self.connect_retry_count = connect_retry_count
- self.connect_retry_wait_sec = connect_retry_wait_sec
- super(SSH, self).__init__()
-
- def _get_pkey(self, key):
- '''Get the binary form of the private key
- from the text form
- '''
- if isinstance(key, basestring):
- key = StringIO.StringIO(key)
- errors = []
- for key_class in (paramiko.rsakey.RSAKey, paramiko.dsskey.DSSKey):
- try:
- return key_class.from_private_key(key)
- except paramiko.SSHException as exc:
- errors.append(exc)
- raise SSHError('Invalid pkey: %s' % (errors))
-
- def _is_active(self):
- if self._client:
- try:
- transport = self._client.get_transport()
- session = transport.open_session()
- session.close()
- return True
- except Exception:
- return False
- else:
- return False
-
- def _get_client(self, force=False):
- if not force and self._is_active():
- return self._client
- if self._client:
- LOG.info('Re-establishing ssh connection with %s' % (self.ssh_access.host))
- self._client.close()
- self._client = paramiko.SSHClient()
- self._client.set_missing_host_key_policy(paramiko.AutoAddPolicy())
- for _ in range(self.connect_retry_count):
- try:
- self._client.connect(self.ssh_access.host,
- username=self.ssh_access.username,
- port=self.ssh_access.port,
- pkey=self.pkey,
- key_filename=self.ssh_access.private_key_file,
- password=self.ssh_access.password,
- timeout=self.connect_timeout)
- self._client.get_transport().set_keepalive(5)
- return self._client
- except (paramiko.AuthenticationException,
- paramiko.BadHostKeyException,
- paramiko.SSHException,
- socket.error,
- Exception):
- time.sleep(self.connect_retry_wait_sec)
-
- self._client = None
- msg = '[%s] SSH Connection failed after %s attempts' % (self.ssh_access.host,
- self.connect_retry_count)
- raise SSHError(msg)
-
- def _get_session(self):
- client = self._get_client()
- for _ in range(self.connect_retry_count):
- try:
- transport = client.get_transport()
- session = transport.open_session()
- return session
- except Exception:
- client = self._get_client(force=True)
- return None
-
- def close(self):
- super(SSH, self).close()
- if self._client:
- self._client.close()
- self._client = False
-
- def run(self, cmd, stdin=None, stdout=None, stderr=None,
- raise_on_error=True, timeout=3600, sudo=False):
- """Execute specified command on the server.
- :param cmd: Command to be executed.
- :param stdin: Open file or string to pass to stdin.
- :param stdout: Open file to connect to stdout.
- :param stderr: Open file to connect to stderr.
- :param raise_on_error: If False then exit code will be return. If True
- then exception will be raized if non-zero code.
- :param timeout: Timeout in seconds for command execution.
- Default 1 hour. No timeout if set to 0.
- :param sudo: Executes command as sudo with default password
- """
-
- if isinstance(stdin, basestring):
- stdin = StringIO.StringIO(stdin)
-
- return self._run(cmd, stdin=stdin, stdout=stdout,
- stderr=stderr, raise_on_error=raise_on_error,
- timeout=timeout, sudo=sudo)
-
- def _run(self, cmd, stdin=None, stdout=None, stderr=None,
- raise_on_error=True, timeout=3600, sudo=False):
-
- session = self._get_session()
-
- if session is None:
- raise SSHError('Unable to open session to ssh connection')
-
- if sudo:
- cmd = "echo " + self.ssh_access.password + " | sudo -S -p '' " + cmd
- session.get_pty()
-
- session.exec_command(cmd)
- start_time = time.time()
-
- data_to_send = ''
- stderr_data = None
-
- # If we have data to be sent to stdin then `select' should also
- # check for stdin availability.
- if stdin and not stdin.closed:
- writes = [session]
- else:
- writes = []
-
- while True:
- # Block until data can be read/write.
- select.select([session], writes, [session], 1)
-
- if session.recv_ready():
- data = session.recv(4096)
- if stdout is not None:
- stdout.write(data)
- continue
-
- if session.recv_stderr_ready():
- stderr_data = session.recv_stderr(4096)
- if stderr is not None:
- stderr.write(stderr_data)
- continue
-
- if session.send_ready():
- if stdin is not None and not stdin.closed:
- if not data_to_send:
- data_to_send = stdin.read(4096)
- if not data_to_send:
- stdin.close()
- session.shutdown_write()
- writes = []
- continue
- sent_bytes = session.send(data_to_send)
- data_to_send = data_to_send[sent_bytes:]
-
- if session.exit_status_ready():
- break
-
- if timeout and (time.time() - timeout) > start_time:
- args = {'cmd': cmd, 'host': self.ssh_access.host}
- raise SSHTimeout(('Timeout executing command '
- '"%(cmd)s" on host %(host)s') % args)
- # if e:
- # raise SSHError('Socket error.')
-
- exit_status = session.recv_exit_status()
- if 0 != exit_status and raise_on_error:
- fmt = ('Command "%(cmd)s" failed with exit_status %(status)d.')
- details = fmt % {'cmd': cmd, 'status': exit_status}
- if stderr_data:
- details += (' Last stderr data: "%s".') % stderr_data
- raise SSHError(details)
- return exit_status
-
- def execute(self, cmd, stdin=None, timeout=3600, sudo=False):
- """Execute the specified command on the server.
- :param cmd: Command to be executed.
- :param stdin: Open file to be sent on process stdin.
- :param timeout: Timeout for execution of the command.
- Return tuple (exit_status, stdout, stderr)
- """
- stdout = StringIO.StringIO()
- stderr = StringIO.StringIO()
-
- exit_status = self.run(cmd, stderr=stderr,
- stdout=stdout, stdin=stdin,
- timeout=timeout, raise_on_error=False, sudo=sudo)
- stdout.seek(0)
- stderr.seek(0)
- return (exit_status, stdout.read(), stderr.read())
-
- def wait(self, timeout=120, interval=1):
- """Wait for the host will be available via ssh."""
- start_time = time.time()
- while True:
- try:
- return self.execute('uname')
- except (socket.error, SSHError):
- time.sleep(interval)
- if time.time() > (start_time + timeout):
- raise SSHTimeout(
- ('Timeout waiting for "%s"') %
- self.ssh_access.host)
-
-
-class SubprocessTimeout(Exception):
- pass
-
-
-class Subprocess(Connection):
-
- """Represent subprocess connection."""
-
- def execute(self, cmd, stdin=None, timeout=3600):
- process = subprocess.Popen(shlex.split(cmd), stderr=subprocess.PIPE,
- stdout=subprocess.PIPE,
- shell=True)
- timer = threading.Timer(timeout, process.kill)
- stdout, stderr = process.communicate(input=stdin)
- status = process.wait()
- if timer.is_alive():
- timer.cancel()
- raise SubprocessTimeout('Timeout executing command "%(cmd)s"')
- return (status, stdout, stderr)
-
-
-##################################################
-# Only invoke the module directly for test purposes. Should be
-# invoked from pns script.
-##################################################
-def main():
- # As argument pass the SSH access string, e.g. "localadmin@1.1.1.1:secret"
- test_ssh = SSH(SSHAccess(sys.argv[1]))
-
- print 'ID=' + test_ssh.distro_id
- print 'ID_LIKE=' + test_ssh.distro_id_like
- print 'VERSION_ID=' + test_ssh.distro_version
-
- # ssh.wait()
- # print ssh.pidof('bash')
- # print ssh.stat('/tmp')
- print test_ssh.check_openstack_version()
- print test_ssh.get_cpu_info()
- print test_ssh.get_l2agent_version("Open vSwitch agent")
-
-if __name__ == "__main__":
- main()