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# Copyright (c) 2016 Cisco and/or its affiliates.
# 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.
"""Library for SSH connection management."""
import StringIO
from time import time, sleep
import socket
import paramiko
from paramiko import RSAKey
from paramiko.ssh_exception import SSHException
from scp import SCPClient
from robot.api import logger
from robot.utils.asserts import assert_equal
__all__ = ["exec_cmd", "exec_cmd_no_error"]
# TODO: load priv key
class SSH(object):
"""Contains methods for managing and using SSH connections."""
__MAX_RECV_BUF = 10*1024*1024
__existing_connections = {}
def __init__(self):
self._ssh = None
self._node = None
@staticmethod
def _node_hash(node):
"""Get IP address and port hash from node dictionary.
:param node: Node in topology.
:type node: dict
:return: IP address and port for the specified node.
:rtype: int
"""
return hash(frozenset([node['host'], node['port']]))
def connect(self, node):
"""Connect to node prior to running exec_command or scp.
If there already is a connection to the node, this method reuses it.
"""
self._node = node
node_hash = self._node_hash(node)
if node_hash in SSH.__existing_connections:
self._ssh = SSH.__existing_connections[node_hash]
logger.debug('reusing ssh: {0}'.format(self._ssh))
else:
start = time()
pkey = None
if 'priv_key' in node:
pkey = RSAKey.from_private_key(
StringIO.StringIO(node['priv_key']))
self._ssh = paramiko.SSHClient()
self._ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy())
self._ssh.connect(node['host'], username=node['username'],
password=node.get('password'), pkey=pkey,
port=node['port'])
self._ssh.get_transport().set_keepalive(10)
SSH.__existing_connections[node_hash] = self._ssh
logger.trace('connect took {} seconds'.format(time() - start))
logger.debug('new ssh: {0}'.format(self._ssh))
logger.debug('Connect peer: {0}'.
format(self._ssh.get_transport().getpeername()))
logger.debug('Connections: {0}'.format(str(SSH.__existing_connections)))
def disconnect(self, node):
"""Close SSH connection to the node.
:param node: The node to disconnect from.
:type node: dict
"""
node_hash = self._node_hash(node)
if node_hash in SSH.__existing_connections:
logger.debug('Disconnecting peer: {}, {}'.
format(node['host'], node['port']))
ssh = SSH.__existing_connections.pop(node_hash)
ssh.close()
def _reconnect(self):
"""Close the SSH connection and open it again."""
node = self._node
self.disconnect(node)
self.connect(node)
logger.debug('Reconnecting peer done: {}'.
format(self._ssh.get_transport().getpeername()))
def exec_command(self, cmd, timeout=10):
"""Execute SSH command on a new channel on the connected Node.
:param cmd: Command to run on the Node.
:param timeout: Maximal time in seconds to wait until the command is
done. If set to None then wait forever.
:type cmd: str
:type timeout: int
:return return_code, stdout, stderr
:rtype: tuple(int, str, str)
:raise socket.timeout: If command is not finished in timeout time.
"""
start = time()
stdout = StringIO.StringIO()
stderr = StringIO.StringIO()
try:
chan = self._ssh.get_transport().open_session(timeout=5)
except AttributeError:
self._reconnect()
chan = self._ssh.get_transport().open_session(timeout=5)
except SSHException:
self._reconnect()
chan = self._ssh.get_transport().open_session(timeout=5)
chan.settimeout(timeout)
logger.trace('exec_command on {0}: {1}'
.format(self._ssh.get_transport().getpeername(), cmd))
chan.exec_command(cmd)
while not chan.exit_status_ready() and timeout is not None:
if chan.recv_ready():
stdout.write(chan.recv(self.__MAX_RECV_BUF))
if chan.recv_stderr_ready():
stderr.write(chan.recv_stderr(self.__MAX_RECV_BUF))
if time() - start > timeout:
raise socket.timeout(
'Timeout exception.\n'
'Current contents of stdout buffer: {0}\n'
'Current contents of stderr buffer: {1}\n'
.format(stdout.getvalue(), stderr.getvalue())
)
sleep(0.1)
return_code = chan.recv_exit_status()
while chan.recv_ready():
stdout.write(chan.recv(self.__MAX_RECV_BUF))
while chan.recv_stderr_ready():
stderr.write(chan.recv_stderr(self.__MAX_RECV_BUF))
end = time()
logger.trace('exec_command on {0} took {1} seconds'.format(
self._ssh.get_transport().getpeername(), end-start))
logger.trace('chan_recv/_stderr took {} seconds'.format(time()-end))
logger.trace('return RC {}'.format(return_code))
logger.trace('return STDOUT {}'.format(stdout.getvalue()))
logger.trace('return STDERR {}'.format(stderr.getvalue()))
return return_code, stdout.getvalue(), stderr.getvalue()
def exec_command_sudo(self, cmd, cmd_input=None, timeout=30):
"""Execute SSH command with sudo on a new channel on the connected Node.
:param cmd: Command to be executed.
:param cmd_input: Input redirected to the command.
:param timeout: Timeout.
:return: return_code, stdout, stderr
:Example:
>>> from ssh import SSH
>>> ssh = SSH()
>>> ssh.connect(node)
>>> # Execute command without input (sudo -S cmd)
>>> ssh.exec_command_sudo("ifconfig eth0 down")
>>> # Execute command with input (sudo -S cmd <<< "input")
>>> ssh.exec_command_sudo("vpp_api_test", "dump_interface_table")
"""
if cmd_input is None:
command = 'sudo -S {c}'.format(c=cmd)
else:
command = 'sudo -S {c} <<< "{i}"'.format(c=cmd, i=cmd_input)
return self.exec_command(command, timeout)
def interactive_terminal_open(self, time_out=30):
"""Open interactive terminal on a new channel on the connected Node.
:param time_out: Timeout in seconds.
:return: SSH channel with opened terminal.
.. warning:: Interruptingcow is used here, and it uses
signal(SIGALRM) to let the operating system interrupt program
execution. This has the following limitations: Python signal
handlers only apply to the main thread, so you cannot use this
from other threads. You must not use this in a program that
uses SIGALRM itself (this includes certain profilers)
"""
chan = self._ssh.get_transport().open_session()
chan.get_pty()
chan.invoke_shell()
chan.settimeout(int(time_out))
chan.set_combine_stderr(True)
buf = ''
while not buf.endswith(':~$ '):
try:
chunk = chan.recv(self.__MAX_RECV_BUF)
if not chunk:
break
buf += chunk
if chan.exit_status_ready():
logger.error('Channel exit status ready')
break
except socket.timeout:
raise Exception('Socket timeout: {0}'.format(buf))
return chan
def interactive_terminal_exec_command(self, chan, cmd, prompt):
"""Execute command on interactive terminal.
interactive_terminal_open() method has to be called first!
:param chan: SSH channel with opened terminal.
:param cmd: Command to be executed.
:param prompt: Command prompt, sequence of characters used to
indicate readiness to accept commands.
:return: Command output.
.. warning:: Interruptingcow is used here, and it uses
signal(SIGALRM) to let the operating system interrupt program
execution. This has the following limitations: Python signal
handlers only apply to the main thread, so you cannot use this
from other threads. You must not use this in a program that
uses SIGALRM itself (this includes certain profilers)
"""
chan.sendall('{c}\n'.format(c=cmd))
buf = ''
while not buf.endswith(prompt):
try:
chunk = chan.recv(self.__MAX_RECV_BUF)
if not chunk:
break
buf += chunk
if chan.exit_status_ready():
logger.error('Channel exit status ready')
break
except socket.timeout:
raise Exception('Socket timeout: {0}'.format(buf))
tmp = buf.replace(cmd.replace('\n', ''), '')
return tmp.replace(prompt, '')
@staticmethod
def interactive_terminal_close(chan):
"""Close interactive terminal SSH channel.
:param: chan: SSH channel to be closed.
"""
chan.close()
def scp(self, local_path, remote_path):
"""Copy files from local_path to remote_path.
connect() method has to be called first!
"""
logger.trace('SCP {0} to {1}:{2}'.format(
local_path, self._ssh.get_transport().getpeername(), remote_path))
# SCPCLient takes a paramiko transport as its only argument
scp = SCPClient(self._ssh.get_transport())
start = time()
scp.put(local_path, remote_path)
scp.close()
end = time()
logger.trace('SCP took {0} seconds'.format(end-start))
def exec_cmd(node, cmd, timeout=600, sudo=False):
"""Convenience function to ssh/exec/return rc, out & err.
Returns (rc, stdout, stderr).
"""
if node is None:
raise TypeError('Node parameter is None')
if cmd is None:
raise TypeError('Command parameter is None')
if len(cmd) == 0:
raise ValueError('Empty command parameter')
ssh = SSH()
try:
ssh.connect(node)
except SSHException as err:
logger.error("Failed to connect to node" + str(err))
return None, None, None
try:
if not sudo:
(ret_code, stdout, stderr) = ssh.exec_command(cmd, timeout=timeout)
else:
(ret_code, stdout, stderr) = ssh.exec_command_sudo(cmd,
timeout=timeout)
except SSHException as err:
logger.error(err)
return None, None, None
return ret_code, stdout, stderr
def exec_cmd_no_error(node, cmd, timeout=600, sudo=False):
"""Convenience function to ssh/exec/return out & err.
Verifies that return code is zero.
Returns (stdout, stderr).
"""
(ret_code, stdout, stderr) = exec_cmd(node, cmd, timeout=timeout, sudo=sudo)
assert_equal(ret_code, 0, 'Command execution failed: "{}"\n{}'.
format(cmd, stderr))
return stdout, stderr
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