# Copyright 2016 Pierre Chifflier # # SSH + lxc-attach connection module for Ansible 2.0 # # Adapted from ansible/plugins/connection/ssh.py # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # import fcntl import os import pipes import pty import select import shlex import subprocess from ansible import constants as C from ansible.compat.six import text_type, binary_type from ansible.plugins.connection import ConnectionBase from ansible.utils.path import unfrackpath, makedirs_safe from ansible.module_utils._text import to_bytes, to_text try: from __main__ import display except ImportError: from ansible.utils.display import Display display = Display() class Connection(ConnectionBase): transport = 'lxc_ssh' has_pipelining = True def __init__(self, play_context, new_stdin, *args, **kwargs): #print args #print kwargs super(Connection, self).__init__(play_context, new_stdin, *args, **kwargs) self.host=self._play_context.remote_addr self.container_name = play_context.docker_extra_args # XXX def _connect(self): ''' connect to the lxc; nothing to do here ''' display.vvv('XXX connect') super(Connection, self)._connect() #self.container_name = self.ssh._play_context.remote_addr # self._play_context.ssh_extra_args = "" #self.container = None @staticmethod def _persistence_controls(command): ''' Takes a command array and scans it for ControlPersist and ControlPath settings and returns two booleans indicating whether either was found. This could be smarter, e.g. returning false if ControlPersist is 'no', but for now we do it simple way. ''' controlpersist = False controlpath = False for arg in command: if 'controlpersist' in arg.lower(): controlpersist = True elif 'controlpath' in arg.lower(): controlpath = True return controlpersist, controlpath @staticmethod def _split_args(argstring): """ Takes a string like '-o Foo=1 -o Bar="foo bar"' and returns a list ['-o', 'Foo=1', '-o', 'Bar=foo bar'] that can be added to the argument list. The list will not contain any empty elements. """ return [to_text(x.strip()) for x in shlex.split(to_bytes(argstring)) if x.strip()] def _add_args(self, explanation, args): """ Adds the given args to self._command and displays a caller-supplied explanation of why they were added. """ self._command += args display.vvvvv('SSH: ' + explanation + ': (%s)' % ')('.join(args), host=self._play_context.remote_addr) def _build_command(self, binary, *other_args): self._command = [] self._command += [binary] self._command += ['-C'] if self._play_context.verbosity > 3: self._command += ['-vvv'] elif binary == 'ssh': # Older versions of ssh (e.g. in RHEL 6) don't accept sftp -q. self._command += ['-q'] # Next, we add [ssh_connection]ssh_args from ansible.cfg. # if self._play_context.ssh_args: # args = self._split_args(self._play_context.ssh_args) # self._add_args("ansible.cfg set ssh_args", args) # Now we add various arguments controlled by configuration file settings # (e.g. host_key_checking) or inventory variables (ansible_ssh_port) or # a combination thereof. if not C.HOST_KEY_CHECKING: self._add_args( "ANSIBLE_HOST_KEY_CHECKING/host_key_checking disabled", ("-o", "StrictHostKeyChecking=no") ) if self._play_context.port is not None: self._add_args( "ANSIBLE_REMOTE_PORT/remote_port/ansible_port set", ("-o", "Port={0}".format(self._play_context.port)) ) key = self._play_context.private_key_file if key: self._add_args( "ANSIBLE_PRIVATE_KEY_FILE/private_key_file/ansible_ssh_private_key_file set", ("-o", "IdentityFile=\"{0}\"".format(os.path.expanduser(key))) ) if not self._play_context.password: self._add_args( "ansible_password/ansible_ssh_pass not set", ( "-o", "KbdInteractiveAuthentication=no", "-o", "PreferredAuthentications=gssapi-with-mic,gssapi-keyex,hostbased,publickey", "-o", "PasswordAuthentication=no" ) ) user = self._play_context.remote_user if user: self._add_args( "ANSIBLE_REMOTE_USER/remote_user/ansible_user/user/-u set", ("-o", "User={0}".format(to_bytes(self._play_context.remote_user))) ) self._add_args( "ANSIBLE_TIMEOUT/timeout set", ("-o", "ConnectTimeout={0}".format(self._play_context.timeout)) ) # Check if ControlPersist is enabled and add a ControlPath if one hasn't # already been set. controlpersist, controlpath = self._persistence_controls(self._command) if controlpersist: self._persistent = True if not controlpath: cpdir = unfrackpath('$HOME/.ansible/cp') # The directory must exist and be writable. makedirs_safe(cpdir, 0o700) if not os.access(cpdir, os.W_OK): raise AnsibleError("Cannot write to ControlPath %s" % cpdir) args = ("-o", "ControlPath={0}".format( to_bytes(C.ANSIBLE_SSH_CONTROL_PATH % dict(directory=cpdir))) ) self._add_args("found only ControlPersist; added ControlPath", args) ## Finally, we add any caller-supplied extras. if other_args: self._command += other_args return self._command def _send_initial_data(self, fh, in_data): ''' Writes initial data to the stdin filehandle of the subprocess and closes it. (The handle must be closed; otherwise, for example, "sftp -b -" will just hang forever waiting for more commands.) ''' display.debug('Sending initial data') try: fh.write(in_data) fh.close() except (OSError, IOError): raise AnsibleConnectionFailure('SSH Error: data could not be sent to the remote host. Make sure this host can be reached over ssh') display.debug('Sent initial data (%d bytes)' % len(in_data)) # Used by _run() to kill processes on failures @staticmethod def _terminate_process(p): """ Terminate a process, ignoring errors """ try: p.terminate() except (OSError, IOError): pass # This is separate from _run() because we need to do the same thing for stdout # and stderr. def _examine_output(self, source, state, chunk, sudoable): ''' Takes a string, extracts complete lines from it, tests to see if they are a prompt, error message, etc., and sets appropriate flags in self. Prompt and success lines are removed. Returns the processed (i.e. possibly-edited) output and the unprocessed remainder (to be processed with the next chunk) as strings. ''' output = [] for l in chunk.splitlines(True): suppress_output = False #display.debug("Examining line (source=%s, state=%s): '%s'" % (source, state, l.rstrip('\r\n'))) if self._play_context.prompt and self.check_password_prompt(l): display.debug("become_prompt: (source=%s, state=%s): '%s'" % (source, state, l.rstrip('\r\n'))) self._flags['become_prompt'] = True suppress_output = True elif self._play_context.success_key and self.check_become_success(l): display.debug("become_success: (source=%s, state=%s): '%s'" % (source, state, l.rstrip('\r\n'))) self._flags['become_success'] = True suppress_output = True elif sudoable and self.check_incorrect_password(l): display.debug("become_error: (source=%s, state=%s): '%s'" % (source, state, l.rstrip('\r\n'))) self._flags['become_error'] = True elif sudoable and self.check_missing_password(l): display.debug("become_nopasswd_error: (source=%s, state=%s): '%s'" % (source, state, l.rstrip('\r\n'))) self._flags['become_nopasswd_error'] = True if not suppress_output: output.append(l) # The chunk we read was most likely a series of complete lines, but just # in case the last line was incomplete (and not a prompt, which we would # have removed from the output), we retain it to be processed with the # next chunk. remainder = '' if output and not output[-1].endswith('\n'): remainder = output[-1] output = output[:-1] return ''.join(output), remainder def _run(self, cmd, in_data, sudoable=True): ''' Starts the command and communicates with it until it ends. ''' display_cmd = map(to_text, map(pipes.quote, cmd)) display.vvv(u'SSH: EXEC {0}'.format(u' '.join(display_cmd)), host=self.host) # Start the given command. If we don't need to pipeline data, we can try # to use a pseudo-tty (ssh will have been invoked with -tt). If we are # pipelining data, or can't create a pty, we fall back to using plain # old pipes. p = None if isinstance(cmd, (text_type, binary_type)): cmd = to_bytes(cmd) else: cmd = map(to_bytes, cmd) if not in_data: try: # Make sure stdin is a proper pty to avoid tcgetattr errors master, slave = pty.openpty() p = subprocess.Popen(cmd, stdin=slave, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdin = os.fdopen(master, 'w', 0) os.close(slave) except (OSError, IOError): p = None if not p: p = subprocess.Popen(cmd, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdin = p.stdin # If we are using SSH password authentication, write the password into # the pipe we opened in _build_command. if self._play_context.password: os.close(self.sshpass_pipe[0]) os.write(self.sshpass_pipe[1], "{0}\n".format(to_bytes(self._play_context.password))) os.close(self.sshpass_pipe[1]) ## SSH state machine # # Now we read and accumulate output from the running process until it # exits. Depending on the circumstances, we may also need to write an # escalation password and/or pipelined input to the process. states = [ 'awaiting_prompt', 'awaiting_escalation', 'ready_to_send', 'awaiting_exit' ] # Are we requesting privilege escalation? Right now, we may be invoked # to execute sftp/scp with sudoable=True, but we can request escalation # only when using ssh. Otherwise we can send initial data straightaway. state = states.index('ready_to_send') if b'ssh' in cmd: if self._play_context.prompt: # We're requesting escalation with a password, so we have to # wait for a password prompt. state = states.index('awaiting_prompt') display.debug('Initial state: %s: %s' % (states[state], self._play_context.prompt)) elif self._play_context.become and self._play_context.success_key: # We're requesting escalation without a password, so we have to # detect success/failure before sending any initial data. state = states.index('awaiting_escalation') display.debug('Initial state: %s: %s' % (states[state], self._play_context.success_key)) # We store accumulated stdout and stderr output from the process here, # but strip any privilege escalation prompt/confirmation lines first. # Output is accumulated into tmp_*, complete lines are extracted into # an array, then checked and removed or copied to stdout or stderr. We # set any flags based on examining the output in self._flags. stdout = stderr = '' tmp_stdout = tmp_stderr = '' self._flags = dict( become_prompt=False, become_success=False, become_error=False, become_nopasswd_error=False ) # select timeout should be longer than the connect timeout, otherwise # they will race each other when we can't connect, and the connect # timeout usually fails timeout = 2 + self._play_context.timeout rpipes = [p.stdout, p.stderr] for fd in rpipes: fcntl.fcntl(fd, fcntl.F_SETFL, fcntl.fcntl(fd, fcntl.F_GETFL) | os.O_NONBLOCK) # If we can send initial data without waiting for anything, we do so # before we call select. if states[state] == 'ready_to_send' and in_data: self._send_initial_data(stdin, in_data) state += 1 while True: rfd, wfd, efd = select.select(rpipes, [], [], timeout) # We pay attention to timeouts only while negotiating a prompt. if not rfd: if state <= states.index('awaiting_escalation'): # If the process has already exited, then it's not really a # timeout; we'll let the normal error handling deal with it. if p.poll() is not None: break self._terminate_process(p) raise AnsibleError('Timeout (%ds) waiting for privilege escalation prompt: %s' % (timeout, stdout)) # Read whatever output is available on stdout and stderr, and stop # listening to the pipe if it's been closed. if p.stdout in rfd: chunk = p.stdout.read() if chunk == '': rpipes.remove(p.stdout) tmp_stdout += chunk display.debug("stdout chunk (state=%s):\n>>>%s<<<\n" % (state, chunk)) if p.stderr in rfd: chunk = p.stderr.read() if chunk == '': rpipes.remove(p.stderr) tmp_stderr += chunk display.debug("stderr chunk (state=%s):\n>>>%s<<<\n" % (state, chunk)) # We examine the output line-by-line until we have negotiated any # privilege escalation prompt and subsequent success/error message. # Afterwards, we can accumulate output without looking at it. if state < states.index('ready_to_send'): if tmp_stdout: output, unprocessed = self._examine_output('stdout', states[state], tmp_stdout, sudoable) stdout += output tmp_stdout = unprocessed if tmp_stderr: output, unprocessed = self._examine_output('stderr', states[state], tmp_stderr, sudoable) stderr += output tmp_stderr = unprocessed else: stdout += tmp_stdout stderr += tmp_stderr tmp_stdout = tmp_stderr = '' # If we see a privilege escalation prompt, we send the password. # (If we're expecting a prompt but the escalation succeeds, we # didn't need the password and can carry on regardless.) if states[state] == 'awaiting_prompt': if self._flags['become_prompt']: display.debug('Sending become_pass in response to prompt') stdin.write('{0}\n'.format(to_bytes(self._play_context.become_pass ))) self._flags['become_prompt'] = False state += 1 elif self._flags['become_success']: state += 1 # We've requested escalation (with or without a password), now we # wait for an error message or a successful escalation. if states[state] == 'awaiting_escalation': if self._flags['become_success']: display.debug('Escalation succeeded') self._flags['become_success'] = False state += 1 elif self._flags['become_error']: display.debug('Escalation failed') self._terminate_process(p) self._flags['become_error'] = False raise AnsibleError('Incorrect %s password' % self._play_context.become_method) elif self._flags['become_nopasswd_error']: display.debug('Escalation requires password') self._terminate_process(p) self._flags['become_nopasswd_error'] = False raise AnsibleError('Missing %s password' % self._play_context.become_method) elif self._flags['become_prompt']: # This shouldn't happen, because we should see the "Sorry, # try again" message first. display.debug('Escalation prompt repeated') self._terminate_process(p) self._flags['become_prompt'] = False raise AnsibleError('Incorrect %s password' % self._play_context.become_method) # Once we're sure that the privilege escalation prompt, if any, has # been dealt with, we can send any initial data and start waiting # for output. if states[state] == 'ready_to_send': if in_data: self._send_initial_data(stdin, in_data) state += 1 # Now we're awaiting_exit: has the child process exited? If it has, # and we've read all available output from it, we're done. if p.poll() is not None: if not rpipes or not rfd: break # When ssh has ControlMaster (+ControlPath/Persist) enabled, the # first connection goes into the background and we never see EOF # on stderr. If we see EOF on stdout and the process has exited, # we're probably done. We call select again with a zero timeout, # just to make certain we don't miss anything that may have been # written to stderr between the time we called select() and when # we learned that the process had finished. if p.stdout not in rpipes: timeout = 0 continue # If the process has not yet exited, but we've already read EOF from # its stdout and stderr (and thus removed both from rpipes), we can # just wait for it to exit. elif not rpipes: p.wait() break # Otherwise there may still be outstanding data to read. # close stdin after process is terminated and stdout/stderr are read # completely (see also issue #848) stdin.close() if C.HOST_KEY_CHECKING: if cmd[0] == b"sshpass" and p.returncode == 6: raise AnsibleError('Using a SSH password instead of a key is not possible because Host Key checking is enabled and sshpass does not support this. Please add this host\'s fingerprint to your known_hosts file to manage this host.') controlpersisterror = 'Bad configuration option: ControlPersist' in stderr or 'unknown configuration option: ControlPersist' in stderr if p.returncode != 0 and controlpersisterror: raise AnsibleError('using -c ssh on certain older ssh versions may not support ControlPersist, set ANSIBLE_SSH_ARGS="" (or ssh_args in [ssh_connection] section of the config file) before running again') if p.returncode == 255 and in_data: raise AnsibleConnectionFailure('SSH Error: data could not be sent to the remote host. Make sure this host can be reached over ssh') return (p.returncode, stdout, stderr) def _exec_command(self, cmd, in_data=None, sudoable=True): ''' run a command on the remote host ''' super(Connection, self).exec_command(cmd, in_data=in_data, sudoable=sudoable) display.vvv(u"ESTABLISH SSH CONNECTION FOR USER: {0}".format(self._play_context.remote_user), host=self._play_context.remote_addr) # we can only use tty when we are not pipelining the modules. piping # data into /usr/bin/python inside a tty automatically invokes the # python interactive-mode but the modules are not compatible with the # interactive-mode ("unexpected indent" mainly because of empty lines) if in_data: cmd = self._build_command('ssh', self.host, cmd) else: cmd = self._build_command('ssh', '-tt', self.host, cmd) (returncode, stdout, stderr) = self._run(cmd, in_data, sudoable=sudoable) return (returncode, stdout, stderr) def dir_print(self,obj): for attr_name in dir(obj): try: attr_value = getattr(obj, attr_name) print(attr_name, attr_value, callable(attr_value)) except: pass def exec_command(self, cmd, in_data=None, sudoable=False): ''' run a command on the chroot ''' display.vvv('XXX exec_command: %s' % cmd) super(Connection, self).exec_command(cmd, in_data=in_data, sudoable=sudoable) # print dir(self) # print dir(self._play_context) # print self._play_context._attributes # self.dir_print(self._play_context) # print dir(self._play_context._vars) # print self._play_context._attributes['vars'] # vm = self._play_context.get_ds() # print( vm ) # raise "blah" h = self.container_name lxc_cmd = 'lxc-attach --name %s -- /bin/sh -c %s' \ % (pipes.quote(h), pipes.quote(cmd)) if in_data: cmd = self._build_command('ssh', self.host, lxc_cmd) else: cmd = self._build_command('ssh', '-tt', self.host, lxc_cmd) #self.ssh.exec_command(lxc_cmd,in_data,sudoable) (returncode, stdout, stderr) = self._run(cmd, in_data, sudoable=sudoable) return (returncode, stdout, stderr) def put_file(self, in_path, out_path): ''' transfer a file from local to lxc ''' display.vvv('XXX put_file %s %s' % (in_path,out_path)) super(Connection, self).put_file(in_path, out_path) if not os.path.exists(in_path): raise errors.AnsibleFileNotFound("file or module does not exist: %s" % in_path) with open(in_path,'r') as in_f: in_data = in_f.read() cmd = ('cat > %s; echo -n done' % pipes.quote(out_path)) h = self.container_name lxc_cmd = 'lxc-attach --name %s -- /bin/sh -c %s' \ % (pipes.quote(h), pipes.quote(cmd)) if in_data: cmd = self._build_command('ssh', self.host, lxc_cmd) else: cmd = self._build_command('ssh', '-tt', self.host, lxc_cmd) #self.ssh.exec_command(lxc_cmd,in_data,sudoable) (returncode, stdout, stderr) = self._run(cmd, in_data, sudoable=False) return (returncode, stdout, stderr) def fetch_file(self, in_path, out_path): ''' fetch a file from lxc to local ''' display.vvv('XXX fetch_file %s %s' % (in_path,out_path)) super(Connection, self).fetch_file(in_path, out_path) cmd = ('cat %s' % pipes.quote(in_path)) h = self.container_name lxc_cmd = 'lxc-attach --name %s -- /bin/sh -c %s' \ % (pipes.quote(h), pipes.quote(cmd)) in_data = None if in_data: cmd = self._build_command('ssh', self.host, lxc_cmd) else: cmd = self._build_command('ssh', '-tt', self.host, lxc_cmd) (returncode, stdout, stderr) = self._run(cmd, in_data, sudoable=False) if returncode != 0: raise AnsibleError("failed to transfer file from {0}:\n{1}\n{2}".format(in_path, stdout, stderr)) with open(out_path,'w') as out_f: out_f.write(stdout) def close(self): ''' terminate the connection; nothing to do here ''' display.vvv('XXX close') super(Connection, self).close() #self.ssh.close() self._connected = False