#! /usr/bin/python2 -E # Authors: Martin Kosek # # Copyright (C) 2011 Red Hat # see file 'COPYING' for use and warranty information # # This program 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. # # This program 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 this program. If not, see . # from ipapython.config import IPAOptionParser from ipapython import version from ipapython import ipautil from ipapython import dogtag from ipapython.ipautil import CalledProcessError from ipaserver.install import installutils import ipaclient.ipachangeconf from optparse import OptionGroup from ipapython.ipa_log_manager import * import sys import os import signal import tempfile import socket import time import threading import errno from socket import SOCK_STREAM, SOCK_DGRAM import distutils.spawn from ipaplatform.paths import paths CONNECT_TIMEOUT = 5 RESPONDERS = [ ] QUIET = False CCACHE_FILE = paths.CONNCHECK_CCACHE KRB5_CONFIG = None class SshExec(object): def __init__(self, user, addr): self.user = user self.addr = addr self.cmd = distutils.spawn.find_executable('ssh') def __call__(self, command, verbose=False): # Bail if ssh is not installed if self.cmd is None: print "WARNING: ssh not installed, skipping ssh test" return ('', '', 0) tmpf = tempfile.NamedTemporaryFile() cmd = [ self.cmd, '-o StrictHostKeychecking=no', '-o UserKnownHostsFile=%s' % tmpf.name, '%s@%s' % (self.user, self.addr), command ] if verbose: cmd.insert(1, '-v') env = {'KRB5_CONFIG': KRB5_CONFIG, 'KRB5CCNAME': CCACHE_FILE} return ipautil.run(cmd, env=env, raiseonerr=False) class CheckedPort(object): def __init__(self, port, port_type, description): self.port = port self.port_type = port_type self.description = description BASE_PORTS = [ CheckedPort(389, SOCK_STREAM, "Directory Service: Unsecure port"), CheckedPort(636, SOCK_STREAM, "Directory Service: Secure port"), CheckedPort(88, SOCK_STREAM, "Kerberos KDC: TCP"), CheckedPort(88, SOCK_DGRAM, "Kerberos KDC: UDP"), CheckedPort(464, SOCK_STREAM, "Kerberos Kpasswd: TCP"), CheckedPort(464, SOCK_DGRAM, "Kerberos Kpasswd: UDP"), CheckedPort(80, SOCK_STREAM, "HTTP Server: Unsecure port"), CheckedPort(443, SOCK_STREAM, "HTTP Server: Secure port"), ] def print_info(msg): if not QUIET: print msg def parse_options(): parser = IPAOptionParser(version=version.VERSION) replica_group = OptionGroup(parser, "on-replica options") replica_group.add_option("-m", "--master", dest="master", help="Master address with running IPA for output connection check") replica_group.add_option("-a", "--auto-master-check", dest="auto_master_check", action="store_true", default=False, help="Automatically execute connection check on master") replica_group.add_option("-r", "--realm", dest="realm", help="Realm name") replica_group.add_option("-k", "--kdc", dest="kdc", help="Master KDC. Defaults to master address") replica_group.add_option("-p", "--principal", dest="principal", default="admin", help="Principal to use to log in to remote master") replica_group.add_option("-w", "--password", dest="password", sensitive=True, help="Password for the principal"), parser.add_option_group(replica_group) master_group = OptionGroup(parser, "on-master options") master_group.add_option("-R", "--replica", dest="replica", help="Address of remote replica machine to check against") parser.add_option_group(master_group) common_group = OptionGroup(parser, "common options") common_group.add_option("-c", "--check-ca", dest="check_ca", action="store_true", default=False, help="Check also ports for Certificate Authority " "(for servers installed before IPA 3.1)") common_group.add_option("", "--hostname", dest="hostname", help="The hostname of this server (FQDN). " "By default a nodename from uname(2) is used.") parser.add_option_group(common_group) parser.add_option("-d", "--debug", dest="debug", action="store_true", default=False, help="Print debugging information") parser.add_option("-q", "--quiet", dest="quiet", action="store_true", default=False, help="Output only errors") options, args = parser.parse_args() safe_options = parser.get_safe_opts(options) if options.master and options.replica: parser.error("on-master and on-replica options are mutually exclusive!") if options.master: if options.auto_master_check and not options.realm: parser.error("Realm is parameter is required to connect to remote master!") if not os.getegid() == 0: parser.error("You can only run on-replica part as root.") if options.master and not options.kdc: options.kdc = options.master if not options.master and not options.replica: parser.error("No action: you should select either --replica or --master option.") if not options.hostname: options.hostname = socket.getfqdn() if options.quiet: global QUIET QUIET = True return safe_options, options def logging_setup(options): log_file = None if os.getegid() == 0: log_file = paths.IPAREPLICA_CONNCHECK_LOG standard_logging_setup(log_file, debug=options.debug) def clean_responders(responders): if not responders: return for responder in responders: responder.stop() for responder in responders: responder.join() responders.remove(responder) def sigterm_handler(signum, frame): # do what SIGINT does (raise a KeyboardInterrupt) sigint_handler = signal.getsignal(signal.SIGINT) if callable(sigint_handler): sigint_handler(signum, frame) def configure_krb5_conf(realm, kdc, filename): krbconf = ipaclient.ipachangeconf.IPAChangeConf("IPA Installer") krbconf.setOptionAssignment((" = ", " ")) krbconf.setSectionNameDelimiters(("[","]")) krbconf.setSubSectionDelimiters(("{","}")) krbconf.setIndent((""," "," ")) opts = [{'name':'comment', 'type':'comment', 'value':'File created by ipa-replica-conncheck'}, {'name':'empty', 'type':'empty'}] #[libdefaults] libdefaults = [{'name':'default_realm', 'type':'option', 'value':realm}] libdefaults.append({'name':'dns_lookup_realm', 'type':'option', 'value':'false'}) libdefaults.append({'name':'dns_lookup_kdc', 'type':'option', 'value':'true'}) libdefaults.append({'name':'rdns', 'type':'option', 'value':'false'}) libdefaults.append({'name':'ticket_lifetime', 'type':'option', 'value':'24h'}) libdefaults.append({'name':'forwardable', 'type':'option', 'value':'yes'}) libdefaults.append({'name':'udp_preference_limit', 'type':'option', 'value':'0'}) opts.append({'name':'libdefaults', 'type':'section', 'value': libdefaults}) opts.append({'name':'empty', 'type':'empty'}) #the following are necessary only if DNS discovery does not work #[realms] realms_info =[{'name':'kdc', 'type':'option', 'value':ipautil.format_netloc(kdc, 88)}, {'name':'master_kdc', 'type':'option', 'value':ipautil.format_netloc(kdc, 88)}, {'name':'admin_server', 'type':'option', 'value':ipautil.format_netloc(kdc, 749)}] realms = [{'name':realm, 'type':'subsection', 'value':realms_info}] opts.append({'name':'realms', 'type':'section', 'value':realms}) opts.append({'name':'empty', 'type':'empty'}) #[appdefaults] pamopts = [{'name':'debug', 'type':'option', 'value':'false'}, {'name':'ticket_lifetime', 'type':'option', 'value':'36000'}, {'name':'renew_lifetime', 'type':'option', 'value':'36000'}, {'name':'forwardable', 'type':'option', 'value':'true'}, {'name':'krb4_convert', 'type':'option', 'value':'false'}] appopts = [{'name':'pam', 'type':'subsection', 'value':pamopts}] opts.append({'name':'appdefaults', 'type':'section', 'value':appopts}) root_logger.debug("Writing temporary Kerberos configuration to %s:\n%s" % (filename, krbconf.dump(opts))) krbconf.newConf(filename, opts) class PortResponder(threading.Thread): def __init__(self, port, port_type, socket_timeout=1): super(PortResponder, self).__init__() self.port = port self.port_type = port_type self.socket_timeout = socket_timeout self._stop_request = False def run(self): while not self._stop_request: try: ipautil.bind_port_responder(self.port, self.port_type, socket_timeout=self.socket_timeout, responder_data="FreeIPA") except socket.timeout: pass except socket.error, e: if e.errno == errno.EADDRINUSE: time.sleep(1) else: raise def stop(self): self._stop_request = True def port_check(host, port_list): ports_failed = [] ports_udp_warning = [] # conncheck could not verify that port is open for port in port_list: try: port_open = ipautil.host_port_open(host, port.port, port.port_type, socket_timeout=CONNECT_TIMEOUT) except socket.gaierror: raise RuntimeError("Port check failed! Unable to resolve host name '%s'" % host) if port_open: result = "OK" else: if port.port_type == socket.SOCK_DGRAM: ports_udp_warning.append(port) result = "WARNING" else: ports_failed.append(port) result = "FAILED" print_info(" %s (%d): %s" % (port.description, port.port, result)) if ports_udp_warning: print "The following UDP ports could not be verified as open: %s" \ % ", ".join(str(port.port) for port in ports_udp_warning) print "This can happen if they are already bound to an application" print "and ipa-replica-conncheck cannot attach own UDP responder." if ports_failed: msg_ports = [] for port in ports_failed: port_type_text = "TCP" if port.port_type == SOCK_STREAM else "UDP" msg_ports.append('%d (%s)' % (port.port, port_type_text)) raise RuntimeError("Port check failed! Inaccessible port(s): %s" \ % ", ".join(msg_ports)) def main(): safe_options, options = parse_options() logging_setup(options) root_logger.debug('%s was invoked with options: %s' % (sys.argv[0], safe_options)) root_logger.debug("missing options might be asked for interactively later\n") root_logger.debug('IPA version %s' % version.VENDOR_VERSION) signal.signal(signal.SIGTERM, sigterm_handler) required_ports = BASE_PORTS if options.check_ca: # Check old Dogtag CA replication port # New installs with unified databases use main DS port (checked above) required_ports.append(CheckedPort(dogtag.Dogtag9Constants.DS_PORT, SOCK_STREAM, "PKI-CA: Directory Service port")) if options.replica: print_info("Check connection from master to remote replica '%s':" % options.replica) port_check(options.replica, required_ports) print_info("\nConnection from master to replica is OK.") # kinit to foreign master if options.master: # check ports on master first print_info("Check connection from replica to remote master '%s':" % options.master) tcp_ports = [ port for port in required_ports if port.port_type == SOCK_STREAM ] udp_ports = [ port for port in required_ports if port.port_type == SOCK_DGRAM ] port_check(options.master, tcp_ports) if udp_ports: print_info("\nThe following list of ports use UDP protocol and would need to be") print_info("checked manually:") for port in udp_ports: result = "SKIPPED" print_info(" %s (%d): %s" % (port.description, port.port, result)) print_info("\nConnection from replica to master is OK.") # create listeners global RESPONDERS print_info("Start listening on required ports for remote master check") for port in required_ports: root_logger.debug("Start listening on port %d (%s)" % (port.port, port.description)) responder = PortResponder(port.port, port.port_type) responder.start() RESPONDERS.append(responder) remote_check_opts = ['--replica %s' % options.hostname] if options.auto_master_check: (krb_fd, krb_name) = tempfile.mkstemp() os.close(krb_fd) configure_krb5_conf(options.realm, options.kdc, krb_name) global KRB5_CONFIG KRB5_CONFIG = krb_name print_info("Get credentials to log in to remote master") if options.principal.find('@') == -1: principal = '%s@%s' % (options.principal, options.realm) user = options.principal else: principal = options.principal user = options.principal.partition('@')[0] if options.password: password=options.password else: password = installutils.read_password(principal, confirm=False, validate=False, retry=False) if password is None: sys.exit("Principal password required") stderr='' (stdout, stderr, returncode) = ipautil.run([paths.KINIT, principal], env={'KRB5_CONFIG':KRB5_CONFIG, 'KRB5CCNAME':CCACHE_FILE}, stdin=password, raiseonerr=False) if returncode != 0: raise RuntimeError("Cannot acquire Kerberos ticket: %s" % stderr) # Verify kinit was actually successful stderr='' (stdout, stderr, returncode) = ipautil.run([paths.BIN_KVNO, 'host/%s' % options.master], env={'KRB5_CONFIG':KRB5_CONFIG, 'KRB5CCNAME':CCACHE_FILE}, raiseonerr=False) if returncode != 0: raise RuntimeError("Could not get ticket for master server: %s" % stderr) ssh = SshExec(user, options.master) print_info("Check SSH connection to remote master") stdout, stderr, returncode = ssh('echo OK', verbose=True) if returncode != 0: print 'Could not SSH into remote host. Error output:' for line in stderr.splitlines(): print ' %s' % line raise RuntimeError('Could not SSH to remote host.') print_info("Execute check on remote master") stdout, stderr, returncode = ssh( "/usr/sbin/ipa-replica-conncheck " + " ".join(remote_check_opts)) print_info(stdout) if returncode != 0: raise RuntimeError("Remote master check failed with following error message(s):\n%s" % stderr) else: # wait until user test is ready print_info("Listeners are started. Use CTRL+C to terminate the listening part after the test.") print_info("") print_info("Please run the following command on remote master:") print_info("/usr/sbin/ipa-replica-conncheck " + " ".join(remote_check_opts)) time.sleep(3600) print_info("Connection check timeout: terminating listening program") if __name__ == "__main__": try: sys.exit(main()) except SystemExit, e: sys.exit(e) except KeyboardInterrupt: print_info("\nCleaning up...") sys.exit(1) except RuntimeError, e: sys.exit(e) finally: clean_responders(RESPONDERS) for file_name in (CCACHE_FILE, KRB5_CONFIG): if file_name: try: os.remove(file_name) except OSError: pass