# 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. import paramiko from paramiko import RSAKey import StringIO from scp import SCPClient from time import time from robot.api import logger from interruptingcow import timeout from robot.utils.asserts import assert_equal, assert_not_equal __all__ = ["exec_cmd", "exec_cmd_no_error"] # TODO: load priv key class SSH(object): __MAX_RECV_BUF = 10*1024*1024 __existing_connections = {} def __init__(self): pass def _node_hash(self, node): 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. """ 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) 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 exec_command(self, cmd, timeout=10): """Execute SSH command on a new channel on the connected Node. Returns (return_code, stdout, stderr). """ logger.trace('exec_command on {0}: {1}' .format(self._ssh.get_transport().getpeername(), cmd)) start = time() chan = self._ssh.get_transport().open_session() if timeout is not None: chan.settimeout(int(timeout)) chan.exec_command(cmd) end = time() logger.trace('exec_command on {0} took {1} seconds'.format( self._ssh.get_transport().getpeername(), end-start)) stdout = "" while True: buf = chan.recv(self.__MAX_RECV_BUF) stdout += buf if not buf: break stderr = "" while True: buf = chan.recv_stderr(self.__MAX_RECV_BUF) stderr += buf if not buf: break return_code = chan.recv_exit_status() logger.trace('chan_recv/_stderr took {} seconds'.format(time()-end)) return (return_code, stdout, stderr) def exec_command_sudo(self, cmd, cmd_input=None, timeout=10): """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=10): """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)) buf = '' try: with timeout(time_out, exception=RuntimeError): while not buf.endswith(':~$ '): if chan.recv_ready(): buf = chan.recv(4096) except RuntimeError: raise Exception('Open interactive terminal timeout.') return chan def interactive_terminal_exec_command(self, chan, cmd, prompt, time_out=10): """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. :param time_out: Timeout in seconds. :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 = '' try: with timeout(time_out, exception=RuntimeError): while not buf.endswith(prompt): if chan.recv_ready(): buf += chan.recv(4096) except RuntimeError: raise Exception("Exec '{c}' timeout.".format(c=cmd)) tmp = buf.replace(cmd.replace('\n', ''), '') return tmp.replace(prompt, '') def interactive_terminal_close(self, 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=None, 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 Exception, e: logger.error("Failed to connect to node" + e) return 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 Exception, e: logger.error(e) return None return (ret_code, stdout, stderr) def exec_cmd_no_error(node, cmd, timeout=None, sudo=False): """Convenience function to ssh/exec/return out & err. Verifies that return code is zero. Returns (stdout, stderr). """ (rc, stdout, stderr) = exec_cmd(node, cmd, timeout=timeout, sudo=sudo) assert_equal(rc, 0, 'Command execution failed: "{}"\n{}'. format(cmd, stderr)) return (stdout, stderr)