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diff --git a/fence/agents/lib/fencing.py.py b/fence/agents/lib/fencing.py.py
index 56a8a1a0..c84476f2 100644
--- a/fence/agents/lib/fencing.py.py
+++ b/fence/agents/lib/fencing.py.py
@@ -1,1126 +1,1128 @@
#!/usr/bin/python -tt
import sys, getopt, time, os, uuid, pycurl, stat
import pexpect, re, atexit, syslog
import logging
import subprocess
import threading
import shlex
import __main__
## do not add code here.
#BEGIN_VERSION_GENERATION
RELEASE_VERSION = "New fence lib agent - test release on steroids"
REDHAT_COPYRIGHT = ""
BUILD_DATE = "March, 2008"
#END_VERSION_GENERATION
__all__ = [ 'atexit_handler', 'check_input', 'process_input', 'all_opt', 'show_docs',
'fence_login', 'fence_action' ]
EC_GENERIC_ERROR = 1
EC_BAD_ARGS = 2
EC_LOGIN_DENIED = 3
EC_CONNECTION_LOST = 4
EC_TIMED_OUT = 5
EC_WAITING_ON = 6
EC_WAITING_OFF = 7
EC_STATUS = 8
EC_STATUS_HMC = 9
EC_PASSWORD_MISSING = 10
EC_INVALID_PRIVILEGES = 11
TELNET_PATH = "/usr/bin/telnet"
SSH_PATH = "/usr/bin/ssh"
SSL_PATH = "@GNUTLSCLI_PATH@"
SUDO_PATH = "/usr/bin/sudo"
all_opt = {
"help" : {
"getopt" : "h",
"longopt" : "help",
"help" : "-h, --help Display this help and exit",
"required" : "0",
"shortdesc" : "Display help and exit",
"order" : 54 },
"version" : {
"getopt" : "V",
"longopt" : "version",
"help" : "-V, --version Output version information and exit",
"required" : "0",
"shortdesc" : "Display version information and exit",
"order" : 53 },
"verbose" : {
"getopt" : "v",
"longopt" : "verbose",
"help" : "-v, --verbose Verbose mode",
"required" : "0",
"shortdesc" : "Verbose mode",
"order" : 51 },
"debug" : {
"getopt" : "D:",
"longopt" : "debug-file",
"help" : "-D, --debug-file=[debugfile] Debugging to output file",
"required" : "0",
"shortdesc" : "Write debug information to given file",
"order" : 52 },
"delay" : {
"getopt" : "f:",
"longopt" : "delay",
"help" : "--delay=[seconds] Wait X seconds before fencing is started",
"required" : "0",
"shortdesc" : "Wait X seconds before fencing is started",
"default" : "0",
"order" : 200 },
"agent" : {
"getopt" : "",
"help" : "",
"order" : 1 },
"web" : {
"getopt" : "",
"help" : "",
"order" : 1 },
"action" : {
"getopt" : "o:",
"longopt" : "action",
"help" : "-o, --action=[action] Action: status, reboot (default), off or on",
"required" : "1",
"shortdesc" : "Fencing Action",
"default" : "reboot",
"order" : 1 },
"fabric_fencing" : {
"getopt" : "",
"help" : "",
"order" : 1 },
"ipaddr" : {
"getopt" : "a:",
"longopt" : "ip",
"help" : "-a, --ip=[ip] IP address or hostname of fencing device",
"required" : "1",
"shortdesc" : "IP Address or Hostname",
"order" : 1 },
"ipport" : {
"getopt" : "u:",
"longopt" : "ipport",
"help" : "-u, --ipport=[port] TCP/UDP port to use",
"required" : "0",
"shortdesc" : "TCP/UDP port to use for connection with device",
"order" : 1 },
"login" : {
"getopt" : "l:",
"longopt" : "username",
"help" : "-l, --username=[name] Login name",
"required" : "?",
"shortdesc" : "Login Name",
"order" : 1 },
"no_login" : {
"getopt" : "",
"help" : "",
"order" : 1 },
"no_password" : {
"getopt" : "",
"help" : "",
"order" : 1 },
"no_port" : {
"getopt" : "",
"help" : "",
"order" : 1 },
"passwd" : {
"getopt" : "p:",
"longopt" : "password",
"help" : "-p, --password=[password] Login password or passphrase",
"required" : "0",
"shortdesc" : "Login password or passphrase",
"order" : 1 },
"passwd_script" : {
"getopt" : "S:",
"longopt" : "password-script",
"help" : "-S, --password-script=[script] Script to run to retrieve password",
"required" : "0",
"shortdesc" : "Script to retrieve password",
"order" : 1 },
"identity_file" : {
"getopt" : "k:",
"longopt" : "identity-file",
"help" : "-k, --identity-file=[filename] Identity file (private key) for ssh ",
"required" : "0",
"shortdesc" : "Identity file for ssh",
"order" : 1 },
"cmd_prompt" : {
"getopt" : "c:",
"longopt" : "command-prompt",
"help" : "-c, --command-prompt=[prompt] Force Python regex for command prompt",
"shortdesc" : "Force Python regex for command prompt",
"required" : "0",
"order" : 1 },
"secure" : {
"getopt" : "x",
"longopt" : "ssh",
"help" : "-x, --ssh Use ssh connection",
"shortdesc" : "SSH connection",
"required" : "0",
"order" : 1 },
"ssh_options" : {
"getopt" : "X:",
"longopt" : "ssh-options",
"help" : "--ssh-options=[options] SSH options to use",
"shortdesc" : "SSH options to use",
"required" : "0",
"order" : 1 },
"ssl" : {
"getopt" : "z",
"longopt" : "ssl",
"help" : "-z, --ssl Use ssl connection",
"required" : "0",
"shortdesc" : "SSL connection",
"order" : 1 },
"notls" : {
"getopt" : "t",
"longopt" : "notls",
"help" : "-t, --notls "
"Disable TLS negotiation and force SSL3.0.\n"
" "
"This should only be used for devices that do not support TLS1.0 and up.",
"required" : "0",
"shortdesc" : "Disable TLS negotiation",
"order" : 1 },
"port" : {
"getopt" : "n:",
"longopt" : "plug",
"help" : "-n, --plug=[id] Physical plug number on device, UUID or\n" +
" identification of machine",
"required" : "1",
"shortdesc" : "Physical plug number, name of virtual machine or UUID",
"order" : 1 },
"switch" : {
"getopt" : "s:",
"longopt" : "switch",
"help" : "-s, --switch=[id] Physical switch number on device",
"required" : "0",
"shortdesc" : "Physical switch number on device",
"order" : 1 },
"exec" : {
"getopt" : "e:",
"longopt" : "exec",
"help" : "-e, --exec=[command] Command to execute",
"required" : "0",
"shortdesc" : "Command to execute",
"order" : 1 },
"vmware_type" : {
"getopt" : "d:",
"longopt" : "vmware_type",
"help" : "-d, --vmware_type=[type] Type of VMware to connect",
"required" : "0",
"shortdesc" : "Type of VMware to connect",
"order" : 1 },
"vmware_datacenter" : {
"getopt" : "s:",
"longopt" : "vmware-datacenter",
"help" : "-s, --vmware-datacenter=[dc] VMWare datacenter filter",
"required" : "0",
"shortdesc" : "Show only machines in specified datacenter",
"order" : 2 },
"snmp_version" : {
"getopt" : "d:",
"longopt" : "snmp-version",
"help" : "-d, --snmp-version=[version] Specifies SNMP version to use",
"required" : "0",
"shortdesc" : "Specifies SNMP version to use (1,2c,3)",
"choices" : [ "1", "2c", "3" ],
"order" : 1 },
"community" : {
"getopt" : "c:",
"longopt" : "community",
"help" : "-c, --community=[community] Set the community string",
"required" : "0",
"shortdesc" : "Set the community string",
"order" : 1},
"snmp_auth_prot" : {
"getopt" : "b:",
"longopt" : "snmp-auth-prot",
"help" : "-b, --snmp-auth-prot=[prot] Set authentication protocol (MD5|SHA)",
"required" : "0",
"shortdesc" : "Set authentication protocol (MD5|SHA)",
"choices" : [ "MD5" , "SHA" ],
"order" : 1},
"snmp_sec_level" : {
"getopt" : "E:",
"longopt" : "snmp-sec-level",
"help" : "-E, --snmp-sec-level=[level] Set security level\n"+
" (noAuthNoPriv|authNoPriv|authPriv)",
"required" : "0",
"shortdesc" : "Set security level (noAuthNoPriv|authNoPriv|authPriv)",
"choices" : [ "noAuthNoPriv", "authNoPriv", "authPriv" ],
"order" : 1},
"snmp_priv_prot" : {
"getopt" : "B:",
"longopt" : "snmp-priv-prot",
"help" : "-B, --snmp-priv-prot=[prot] Set privacy protocol (DES|AES)",
"required" : "0",
"shortdesc" : "Set privacy protocol (DES|AES)",
"choices" : [ "DES", "AES" ],
"order" : 1},
"snmp_priv_passwd" : {
"getopt" : "P:",
"longopt" : "snmp-priv-passwd",
"help" : "-P, --snmp-priv-passwd=[pass] Set privacy protocol password",
"required" : "0",
"shortdesc" : "Set privacy protocol password",
"order" : 1},
"snmp_priv_passwd_script" : {
"getopt" : "R:",
"longopt" : "snmp-priv-passwd-script",
"help" : "-R, --snmp-priv-passwd-script Script to run to retrieve privacy password",
"required" : "0",
"shortdesc" : "Script to run to retrieve privacy password",
"order" : 1},
"inet4_only" : {
"getopt" : "4",
"longopt" : "inet4-only",
"help" : "-4, --inet4-only Forces agent to use IPv4 addresses only",
"required" : "0",
"shortdesc" : "Forces agent to use IPv4 addresses only",
"order" : 1 },
"inet6_only" : {
"getopt" : "6",
"longopt" : "inet6-only",
"help" : "-6, --inet6-only Forces agent to use IPv6 addresses only",
"required" : "0",
"shortdesc" : "Forces agent to use IPv6 addresses only",
"order" : 1 },
"separator" : {
"getopt" : "C:",
"longopt" : "separator",
"help" : "-C, --separator=[char] Separator for CSV created by 'list' operation",
"default" : ",",
"required" : "0",
"shortdesc" : "Separator for CSV created by operation list",
"order" : 100 },
"login_timeout" : {
"getopt" : "y:",
"longopt" : "login-timeout",
"help" : "--login-timeout=[seconds] Wait X seconds for cmd prompt after login",
"default" : "5",
"required" : "0",
"shortdesc" : "Wait X seconds for cmd prompt after login",
"order" : 200 },
"shell_timeout" : {
"getopt" : "Y:",
"longopt" : "shell-timeout",
"help" : "--shell-timeout=[seconds] Wait X seconds for cmd prompt after issuing command",
"default" : "3",
"required" : "0",
"shortdesc" : "Wait X seconds for cmd prompt after issuing command",
"order" : 200 },
"power_timeout" : {
"getopt" : "g:",
"longopt" : "power-timeout",
"help" : "--power-timeout=[seconds] Test X seconds for status change after ON/OFF",
"default" : "20",
"required" : "0",
"shortdesc" : "Test X seconds for status change after ON/OFF",
"order" : 200 },
"power_wait" : {
"getopt" : "G:",
"longopt" : "power-wait",
"help" : "--power-wait=[seconds] Wait X seconds after issuing ON/OFF",
"default" : "0",
"required" : "0",
"shortdesc" : "Wait X seconds after issuing ON/OFF",
"order" : 200 },
"missing_as_off" : {
"getopt" : "M",
"longopt" : "missing-as-off",
"help" : "--missing-as-off Missing port returns OFF instead of failure",
"required" : "0",
"shortdesc" : "Missing port returns OFF instead of failure",
"order" : 200 },
"retry_on" : {
"getopt" : "F:",
"longopt" : "retry-on",
"help" : "--retry-on=[attempts] Count of attempts to retry power on",
"default" : "1",
"required" : "0",
"shortdesc" : "Count of attempts to retry power on",
"order" : 201 },
"session_url" : {
"getopt" : "s:",
"longopt" : "session-url",
"help" : "-s, --session-url URL to connect to XenServer on",
"required" : "1",
"shortdesc" : "The URL of the XenServer host.",
"order" : 1},
"sudo" : {
"getopt" : "d",
"longopt" : "use-sudo",
"help" : "--use-sudo Use sudo (without password) when calling 3rd party software",
"required" : "0",
"shortdesc" : "Use sudo (without password) when calling 3rd party sotfware.",
"order" : 205},
"method" : {
"getopt" : "m:",
"longopt" : "method",
"help" : "-m, --method=[method] Method to fence (onoff|cycle) (Default: onoff)",
"required" : "0",
"shortdesc" : "Method to fence (onoff|cycle)",
"default" : "onoff",
"choices" : [ "onoff", "cycle" ],
"order" : 1}
}
# options which are added automatically if 'key' is encountered ("default" is always added)
DEPENDENCY_OPT = {
"default" : [ "help", "debug", "verbose", "version", "action", "agent", \
"power_timeout", "shell_timeout", "login_timeout", "power_wait", "retry_on", "delay" ],
"passwd" : [ "passwd_script" ],
"secure" : [ "identity_file", "ssh_options" ],
"ipaddr" : [ "ipport", "inet4_only", "inet6_only" ],
"port" : [ "separator" ],
"community" : [ "snmp_auth_prot", "snmp_sec_level", "snmp_priv_prot", \
"snmp_priv_passwd", "snmp_priv_passwd_script" ]
}
class fspawn(pexpect.spawn):
def __init__(self, options, command):
logging.info("Running command: %s" % command)
pexpect.spawn.__init__(self, command)
self.opt = options
def log_expect(self, options, pattern, timeout):
result = self.expect(pattern, timeout)
logging.debug("Received: %s" % (self.before + self.after))
return result
def send(self, message):
logging.debug("Sent: %s" % message)
pexpect.spawn.send(self, message)
# send EOL according to what was detected in login process (telnet)
def send_eol(self, message):
self.send(message + self.opt["eol"])
def atexit_handler():
try:
sys.stdout.close()
os.close(1)
except IOError:
logging.error("%s failed to close standard output\n" % (sys.argv[0]))
syslog.syslog(syslog.LOG_ERR, "Failed to close standard output")
sys.exit(EC_GENERIC_ERROR)
def add_dependency_options(options):
## Add also options which are available for every fence agent
added_opt = []
for opt in options + ["default"]:
if DEPENDENCY_OPT.has_key(opt):
added_opt.extend([y for y in DEPENDENCY_OPT[opt] if options.count(y) == 0])
return added_opt
def fail_usage(message = ""):
if len(message) > 0:
logging.error("%s\n" % message)
logging.error("Please use '-h' for usage\n")
sys.exit(EC_GENERIC_ERROR)
def fail(error_code):
message = {
EC_LOGIN_DENIED : "Unable to connect/login to fencing device",
EC_CONNECTION_LOST : "Connection lost",
EC_TIMED_OUT : "Connection timed out",
EC_WAITING_ON : "Failed: Timed out waiting to power ON",
EC_WAITING_OFF : "Failed: Timed out waiting to power OFF",
EC_STATUS : "Failed: Unable to obtain correct plug status or plug is not available",
EC_STATUS_HMC : "Failed: Either unable to obtain correct plug status, "
"partition is not available or incorrect HMC version used",
EC_PASSWORD_MISSING : "Failed: You have to set login password",
EC_INVALID_PRIVILEGES : "Failed: The user does not have the correct privileges to do the requested action."
}[error_code] + "\n"
logging.error("%s\n" % message)
syslog.syslog(syslog.LOG_ERR, message)
sys.exit(EC_GENERIC_ERROR)
def usage(avail_opt):
print "Usage:"
print "\t" + os.path.basename(sys.argv[0]) + " [options]"
print "Options:"
sorted_list = [ (key, all_opt[key]) for key in avail_opt ]
sorted_list.sort(lambda x, y: cmp(x[1]["order"], y[1]["order"]))
for key, value in sorted_list:
if len(value["help"]) != 0:
print " " + value["help"]
def metadata(avail_opt, options, docs):
# avail_opt has to be unique, if there are duplicities then they should be removed
sorted_list = [ (key, all_opt[key]) for key in list(set(avail_opt)) ]
sorted_list.sort(lambda x, y: cmp(x[1]["order"], y[1]["order"]))
print "<?xml version=\"1.0\" ?>"
print "<resource-agent name=\"" + os.path.basename(sys.argv[0]) + \
"\" shortdesc=\"" + docs["shortdesc"] + "\" >"
if "symlink" in docs:
for (symlink, desc) in docs["symlink"]:
print "<symlink name=\"" + symlink + "\" shortdesc=\"" + desc + "\"/>"
print "<longdesc>" + docs["longdesc"] + "</longdesc>"
if docs.has_key("vendorurl"):
print "<vendor-url>" + docs["vendorurl"] + "</vendor-url>"
print "<parameters>"
for option, _ in sorted_list:
if all_opt[option].has_key("shortdesc"):
print "\t<parameter name=\"" + option + "\" unique=\"0\" required=\"" + all_opt[option]["required"] + "\">"
default = ""
if all_opt[option].has_key("default"):
default = str(all_opt[option]["default"])
elif options.has_key("--" + all_opt[option]["longopt"]) and all_opt[option]["getopt"].endswith(":"):
if options["--" + all_opt[option]["longopt"]]:
try:
default = options["--" + all_opt[option]["longopt"]]
except TypeError:
## @todo/@note: Currently there is no clean way how to handle lists
## we can create a string from it but we can't set it on command line
default = str(options["--" + all_opt[option]["longopt"]])
elif options.has_key("--" + all_opt[option]["longopt"]):
default = "true"
if default:
default = default.replace("&", "&amp;" )
default = default.replace('"', "&quot;" )
default = default.replace('<', "&lt;" )
default = default.replace('>', "&gt;" )
default = default.replace("'", "&apos;" )
default = "default=\"" + default + "\" "
mixed = all_opt[option]["help"]
## split it between option and help text
res = re.compile(r"^(.*--\S+)\s+", re.IGNORECASE | re.S).search(mixed)
if None != res:
mixed = res.group(1)
mixed = mixed.replace("<", "&lt;").replace(">", "&gt;")
print "\t\t<getopt mixed=\"" + mixed + "\" />"
if all_opt[option].has_key("choices"):
print "\t\t<content type=\"select\" "+default+" >"
for choice in all_opt[option]["choices"]:
print "\t\t\t<option value=\"%s\" />" % (choice)
print "\t\t</content>"
elif all_opt[option]["getopt"].count(":") > 0:
print "\t\t<content type=\"string\" "+default+" />"
else:
print "\t\t<content type=\"boolean\" "+default+" />"
print "\t\t<shortdesc lang=\"en\">" + all_opt[option]["shortdesc"] + "</shortdesc>"
print "\t</parameter>"
print "</parameters>"
print "<actions>"
if avail_opt.count("fabric_fencing") == 1:
## do 'unfence' at the start
print "\t<action name=\"on\" automatic=\"1\"/>"
else:
print "\t<action name=\"on\" automatic=\"0\"/>"
print "\t<action name=\"off\" />"
if avail_opt.count("fabric_fencing") == 0:
print "\t<action name=\"reboot\" />"
print "\t<action name=\"status\" />"
print "\t<action name=\"list\" />"
print "\t<action name=\"monitor\" />"
print "\t<action name=\"metadata\" />"
print "</actions>"
print "</resource-agent>"
def process_input(avail_opt):
avail_opt.extend(add_dependency_options(avail_opt))
##
## Set standard environment
#####
os.putenv("LANG", "C")
os.putenv("LC_ALL", "C")
##
## Prepare list of options for getopt
#####
getopt_string = ""
longopt_list = [ ]
for k in avail_opt:
if all_opt.has_key(k):
getopt_string += all_opt[k]["getopt"]
else:
fail_usage("Parse error: unknown option '"+k+"'")
if all_opt.has_key(k) and all_opt[k].has_key("longopt"):
if all_opt[k]["getopt"].endswith(":"):
longopt_list.append(all_opt[k]["longopt"] + "=")
else:
longopt_list.append(all_opt[k]["longopt"])
##
## Read options from command line or standard input
#####
if len(sys.argv) > 1:
try:
opt, _args = getopt.gnu_getopt(sys.argv[1:], getopt_string, longopt_list)
except getopt.GetoptError, error:
fail_usage("Parse error: " + error.msg)
## Transform short getopt to long one which are used in fencing agents
#####
old_opt = opt
opt = { }
for o in dict(old_opt).keys():
if o.startswith("--"):
for x in all_opt.keys():
if all_opt[x].has_key("longopt") and "--" + all_opt[x]["longopt"] == o:
opt["--" + all_opt[x]["longopt"]] = dict(old_opt)[o]
else:
for x in all_opt.keys():
if x in avail_opt and all_opt[x].has_key("getopt") and all_opt[x].has_key("longopt") and \
("-" + all_opt[x]["getopt"] == o or "-" + all_opt[x]["getopt"].rstrip(":") == o):
opt["--" + all_opt[x]["longopt"]] = dict(old_opt)[o]
opt[o] = dict(old_opt)[o]
## Compatibility Layer
#####
z = dict(opt)
if z.has_key("--plug") == 1:
z["-m"] = z["--plug"]
opt = z
##
#####
else:
opt = { }
name = ""
for line in sys.stdin.readlines():
line = line.strip()
if (line.startswith("#")) or (len(line) == 0):
continue
(name, value) = (line + "=").split("=", 1)
value = value[:-1]
if avail_opt.count(name) == 0:
logging.warning("Parse error: Ignoring unknown option '%s'\n" % line)
syslog.syslog(syslog.LOG_WARNING, "Parse error: Ignoring unknown option '"+line)
continue
if all_opt[name]["getopt"].endswith(":"):
opt["--"+all_opt[name]["longopt"].rstrip(":")] = value
elif value.lower() in [ "1", "yes", "on", "true" ]:
opt["--"+all_opt[name]["longopt"]] = "1"
return opt
##
## This function checks input and answers if we want to have same answers
## in each of the fencing agents. It looks for possible errors and run
## password script to set a correct password
######
def check_input(device_opt, opt):
device_opt.extend(add_dependency_options(device_opt))
options = dict(opt)
options["device_opt"] = device_opt
## Set requirements that should be included in metadata
#####
if device_opt.count("login") and device_opt.count("no_login") == 0:
all_opt["login"]["required"] = "1"
else:
all_opt["login"]["required"] = "0"
if device_opt.count("fabric_fencing"):
all_opt["action"]["default"] = "off"
all_opt["action"]["help"] = "-o, --action=[action] Action: status, off (default) or on"
- ## Set default values
- #####
- for opt in device_opt:
- if all_opt[opt].has_key("default"):
- getopt_long = "--" + all_opt[opt]["longopt"]
- if 0 == options.has_key(getopt_long):
- options[getopt_long] = all_opt[opt]["default"]
-
if device_opt.count("ipport"):
if options.has_key("--ipport"):
all_opt["ipport"]["help"] = "-u, --ipport=[port] " + \
"TCP/UDP port to use (default " + options["--ipport"] +")"
+ elif all_opt.has_key("ipport") and all_opt["ipport"].has_key("default"):
+ all_opt["ipport"]["help"] = "-u, --ipport=[port] " + \
+ "TCP/UDP port to use (default " + all_opt["ipport"]["default"] +")"
elif device_opt.count("snmp_version"):
all_opt["ipport"]["default"] = "161"
all_opt["ipport"]["help"] = "-u, --ipport=[port] TCP/UDP port to use (default 161)"
- elif options.has_key("--ssh"):
+ elif options.has_key("--ssh") or (all_opt["secure"].has_key("default") and all_opt["secure"]["default"] == '1'):
all_opt["ipport"]["default"] = 22
all_opt["ipport"]["help"] = "-u, --ipport=[port] TCP/UDP port to use (default 22)"
- elif options.has_key("--ssl"):
+ elif options.has_key("--ssl") or (all_opt["ssl"].has_key("default") and all_opt["ssl"]["default"] == '1'):
all_opt["ipport"]["default"] = 443
all_opt["ipport"]["help"] = "-u, --ipport=[port] TCP/UDP port to use (default 443)"
elif device_opt.count("web"):
all_opt["ipport"]["default"] = 80
if device_opt.count("ssl") == 0:
all_opt["ipport"]["help"] = "-u, --ipport=[port] TCP/UDP port to use (default 80)"
else:
all_opt["ipport"]["help"] = "-u, --ipport=[port] TCP/UDP port to use\n\
(default 80, 443 if --ssl option is used)"
else:
all_opt["ipport"]["default"] = 23
if device_opt.count("secure") == 0:
all_opt["ipport"]["help"] = "-u, --ipport=[port] TCP/UDP port to use (default 23)"
else:
all_opt["ipport"]["help"] = "-u, --ipport=[port] TCP/UDP port to use\n\
- (default 23, 22 if --ssh option is used)"
+ (default 23, 22 if --ssh option is used)"
+ ## Set default values
+ #####
+ for opt in device_opt:
+ if all_opt[opt].has_key("default"):
+ getopt_long = "--" + all_opt[opt]["longopt"]
+ if 0 == options.has_key(getopt_long):
+ options[getopt_long] = all_opt[opt]["default"]
## In special cases (show help, metadata or version) we don't need to check anything
#####
if options.has_key("--help") or options.has_key("--version") or \
(options.has_key("--action") and options["--action"].lower() == "metadata"):
return options
options["--action"] = options["--action"].lower()
if options.has_key("--verbose"):
logging.getLogger().setLevel(logging.DEBUG)
acceptable_actions = [ "on", "off", "status", "list", "monitor" ]
if 1 == device_opt.count("fabric_fencing"):
## Compatibility layer
#####
acceptable_actions.extend(["enable", "disable"])
else:
acceptable_actions.extend(["reboot"])
if 0 == acceptable_actions.count(options["--action"]):
fail_usage("Failed: Unrecognised action '" + options["--action"] + "'")
## Compatibility layer
#####
if options["--action"] == "enable":
options["--action"] = "on"
if options["--action"] == "disable":
options["--action"] = "off"
## automatic detection and set of valid UUID from --plug
if (0 == options.has_key("--username")) and \
device_opt.count("login") and (device_opt.count("no_login") == 0):
fail_usage("Failed: You have to set login name")
if device_opt.count("ipaddr") and 0 == options.has_key("--ip") and 0 == options.has_key("--managed"):
fail_usage("Failed: You have to enter fence address")
if device_opt.count("no_password") == 0:
if 0 == device_opt.count("identity_file"):
if 0 == (options.has_key("--password") or options.has_key("--password-script")):
fail_usage("Failed: You have to enter password or password script")
else:
if 0 == (options.has_key("--password") or \
options.has_key("--password-script") or options.has_key("--identity-file")):
fail_usage("Failed: You have to enter password, password script or identity file")
if 0 == options.has_key("--ssh") and 1 == options.has_key("--identity-file"):
fail_usage("Failed: You have to use identity file together with ssh connection (-x)")
if 1 == options.has_key("--identity-file"):
if 0 == os.path.isfile(options["--identity-file"]):
fail_usage("Failed: Identity file " + options["--identity-file"] + " does not exist")
if (0 == ["list", "monitor"].count(options["--action"].lower())) and \
0 == options.has_key("--plug") and device_opt.count("port") and device_opt.count("no_port") == 0:
fail_usage("Failed: You have to enter plug number or machine identification")
if options.has_key("--password-script"):
options["--password"] = os.popen(options["--password-script"]).read().rstrip()
if options.has_key("--debug-file"):
try:
fh = logging.FileHandler(options["--debug-file"])
fh.setLevel(logging.DEBUG)
logging.getLogger().addHandler(fh)
except IOError:
logging.error("Unable to create file %s" % options["--debug-file"])
fail_usage("Failed: Unable to create file " + options["--debug-file"])
if options.has_key("--snmp-priv-passwd-script"):
options["--snmp-priv-passwd"] = os.popen(options["--snmp-priv-passwd-script"]).read().rstrip()
if options.has_key("--ipport") == False:
if options.has_key("--ssh"):
options["--ipport"] = 22
elif options.has_key("--ssl"):
options["--ipport"] = 443
elif device_opt.count("web"):
options["--ipport"] = 80
else:
options["--ipport"] = 23
if options.has_key("--plug") and len(options["--plug"].split(",")) > 1 and \
options.has_key("--method") and options["--method"] == "cycle":
fail_usage("Failed: Cannot use --method cycle for more than 1 plug")
for opt in device_opt:
if all_opt[opt].has_key("choices"):
longopt = "--" + all_opt[opt]["longopt"]
possible_values_upper = [y.upper() for y in all_opt[opt]["choices"]]
if options.has_key(longopt):
options[longopt] = options[longopt].upper()
if not options["--" + all_opt[opt]["longopt"]] in possible_values_upper:
fail_usage("Failed: You have to enter a valid choice " + \
"for %s from the valid values: %s" % \
("--" + all_opt[opt]["longopt"] , str(all_opt[opt]["choices"])))
return options
def wait_power_status(tn, options, get_power_fn):
for dummy in xrange(int(options["--power-timeout"])):
if get_multi_power_fn(tn, options, get_power_fn) != options["--action"]:
time.sleep(1)
else:
return 1
return 0
## Obtain a power status from possibly more than one plug
## "on" is returned if at least one plug is ON
######
def get_multi_power_fn(tn, options, get_power_fn):
status = "off"
if options.has_key("--plugs"):
for plug in options["--plugs"]:
try:
options["--uuid"] = str(uuid.UUID(plug))
except ValueError:
pass
except KeyError:
pass
options["--plug"] = plug
plug_status = get_power_fn(tn, options)
if plug_status != "off":
status = plug_status
else:
status = get_power_fn(tn, options)
return status
def set_multi_power_fn(tn, options, set_power_fn):
if options.has_key("--plugs"):
for plug in options["--plugs"]:
try:
options["--uuid"] = str(uuid.UUID(plug))
except ValueError:
pass
except KeyError:
pass
options["--plug"] = plug
set_power_fn(tn, options)
else:
set_power_fn(tn, options)
def show_docs(options, docs = None):
device_opt = options["device_opt"]
if docs == None:
docs = { }
docs["shortdesc"] = "Fence agent"
docs["longdesc"] = ""
## Process special options (and exit)
#####
if options.has_key("--help"):
usage(device_opt)
sys.exit(0)
if options.has_key("--action") and options["--action"].lower() == "metadata":
metadata(device_opt, options, docs)
sys.exit(0)
if options.has_key("--version"):
print __main__.RELEASE_VERSION, __main__.BUILD_DATE
print __main__.REDHAT_COPYRIGHT
sys.exit(0)
def fence_action(tn, options, set_power_fn, get_power_fn, get_outlet_list = None, reboot_cycle_fn = None):
result = 0
try:
if options.has_key("--plug"):
options["--plugs"] = options["--plug"].split(",")
## Process options that manipulate fencing device
#####
if options["--action"] == "list" and 0 == options["device_opt"].count("port"):
print "N/A"
return
elif options["--action"] == "list" and get_outlet_list == None:
## @todo: exception?
## This is just temporal solution, we will remove default value
## None as soon as all existing agent will support this operation
print "NOTICE: List option is not working on this device yet"
return
elif (options["--action"] == "list") or \
((options["--action"] == "monitor") and 1 == options["device_opt"].count("port")):
outlets = get_outlet_list(tn, options)
## keys can be numbers (port numbers) or strings (names of VM)
for outlet_id in outlets.keys():
(alias, status) = outlets[outlet_id]
if options["--action"] != "monitor":
print outlet_id + options["--separator"] + alias
return
status = get_multi_power_fn(tn, options, get_power_fn)
if status != "on" and status != "off":
fail(EC_STATUS)
if options["--action"] == "on":
if status == "on":
print "Success: Already ON"
else:
power_on = False
for _ in range(1, 1 + int(options["--retry-on"])):
set_multi_power_fn(tn, options, set_power_fn)
time.sleep(int(options["--power-wait"]))
if wait_power_status(tn, options, get_power_fn):
power_on = True
break
if power_on:
print "Success: Powered ON"
else:
fail(EC_WAITING_ON)
elif options["--action"] == "off":
if status == "off":
print "Success: Already OFF"
else:
set_multi_power_fn(tn, options, set_power_fn)
time.sleep(int(options["--power-wait"]))
if wait_power_status(tn, options, get_power_fn):
print "Success: Powered OFF"
else:
fail(EC_WAITING_OFF)
elif options["--action"] == "reboot":
power_on = False
if options.has_key("--method") and options["--method"].lower() == "cycle" and reboot_cycle_fn is not None:
for _ in range(1, 1 + int(options["--retry-on"])):
if reboot_cycle_fn(tn, options):
power_on = True
break
if not power_on:
fail(EC_TIMED_OUT)
else:
if status != "off":
options["--action"] = "off"
set_multi_power_fn(tn, options, set_power_fn)
time.sleep(int(options["--power-wait"]))
if wait_power_status(tn, options, get_power_fn) == 0:
fail(EC_WAITING_OFF)
options["--action"] = "on"
try:
for _ in range(1, 1 + int(options["--retry-on"])):
set_multi_power_fn(tn, options, set_power_fn)
time.sleep(int(options["--power-wait"]))
if wait_power_status(tn, options, get_power_fn) == 1:
power_on = True
break
except Exception, ex:
# an error occured during power ON phase in reboot
# fence action was completed succesfully even in that case
logging.error("%s\n", str(ex))
syslog.syslog(syslog.LOG_NOTICE, str(ex))
if power_on == False:
# this should not fail as node was fenced succesfully
logging.error('Timed out waiting to power ON\n')
syslog.syslog(syslog.LOG_NOTICE, "Timed out waiting to power ON")
print "Success: Rebooted"
elif options["--action"] == "status":
print "Status: " + status.upper()
if status.upper() == "OFF":
result = 2
elif options["--action"] == "monitor":
pass
except pexpect.EOF:
fail(EC_CONNECTION_LOST)
except pexpect.TIMEOUT:
fail(EC_TIMED_OUT)
except pycurl.error, ex:
logging.error("%s\n" % str(ex))
syslog.syslog(syslog.LOG_ERR, ex[1])
fail(EC_TIMED_OUT)
return result
def fence_login(options, re_login_string = r"(login\s*: )|(Login Name: )|(username: )|(User Name :)"):
force_ipvx = ""
if options.has_key("--inet6-only"):
force_ipvx = "-6 "
if options.has_key("--inet4-only"):
force_ipvx = "-4 "
if not options.has_key("eol"):
options["eol"] = "\r\n"
if options.has_key("--command-prompt") and type(options["--command-prompt"]) is not list:
options["--command-prompt"] = [ options["--command-prompt"] ]
## Do the delay of the fence device before logging in
## Delay is important for two-node clusters fencing but we do not need to delay 'status' operations
if options["--action"] in ["off", "reboot"]:
logging.info("Delay %s second(s) before logging in to the fence device" % options["--delay"])
time.sleep(int(options["--delay"]))
try:
re_login = re.compile(re_login_string, re.IGNORECASE)
re_pass = re.compile("(password)|(pass phrase)", re.IGNORECASE)
if options.has_key("--ssl"):
gnutls_opts = ""
if options.has_key("--notls"):
gnutls_opts = "--priority \"NORMAL:-VERS-TLS1.2:-VERS-TLS1.1:-VERS-TLS1.0:+VERS-SSL3.0\""
command = '%s %s --insecure --crlf -p %s %s' % \
(SSL_PATH, gnutls_opts, options["--ipport"], options["--ip"])
try:
conn = fspawn(options, command)
except pexpect.ExceptionPexpect, ex:
logging.error("%s\n" % str(ex))
syslog.syslog(syslog.LOG_ERR, str(ex))
sys.exit(EC_GENERIC_ERROR)
elif options.has_key("--ssh") and 0 == options.has_key("--identity-file"):
command = '%s %s %s@%s -p %s -o PubkeyAuthentication=no' % \
(SSH_PATH, force_ipvx, options["--username"], options["--ip"], options["--ipport"])
if options.has_key("--ssh-options"):
command += ' ' + options["--ssh-options"]
conn = fspawn(options, command)
if options.has_key("telnet_over_ssh"):
# This is for stupid ssh servers (like ALOM) which behave more like telnet
# (ignore name and display login prompt)
result = conn.log_expect(options, \
[ re_login, "Are you sure you want to continue connecting (yes/no)?" ],
int(options["--login-timeout"]))
if result == 1:
conn.sendline("yes") # Host identity confirm
conn.log_expect(options, re_login, int(options["--login-timeout"]))
conn.sendline(options["--username"])
conn.log_expect(options, re_pass, int(options["--login-timeout"]))
else:
result = conn.log_expect(options, \
[ "ssword:", "Are you sure you want to continue connecting (yes/no)?" ],
int(options["--login-timeout"]))
if result == 1:
conn.sendline("yes")
conn.log_expect(options, "ssword:", int(options["--login-timeout"]))
conn.sendline(options["--password"])
conn.log_expect(options, options["--command-prompt"], int(options["--login-timeout"]))
elif options.has_key("--ssh") and options.has_key("--identity-file"):
command = '%s %s %s@%s -i %s -p %s' % \
(SSH_PATH, force_ipvx, options["--username"], options["--ip"], \
options["--identity-file"], options["--ipport"])
if options.has_key("--ssh-options"):
command += ' ' + options["--ssh-options"]
conn = fspawn(options, command)
result = conn.log_expect(options, [ "Enter passphrase for key '" + options["--identity-file"] + "':", \
"Are you sure you want to continue connecting (yes/no)?" ] + \
options["--command-prompt"], int(options["--login-timeout"]))
if result == 1:
conn.sendline("yes")
result = conn.log_expect(options,
[ "Enter passphrase for key '" + options["--identity-file"]+"':"] + \
options["--command-prompt"], int(options["--login-timeout"]))
if result == 0:
if options.has_key("--password"):
conn.sendline(options["--password"])
conn.log_expect(options, options["--command-prompt"], int(options["--login-timeout"]))
else:
fail_usage("Failed: You have to enter passphrase (-p) for identity file")
else:
conn = fspawn(options, TELNET_PATH)
conn.send("set binary\n")
conn.send("open %s -%s\n"%(options["--ip"], options["--ipport"]))
result = conn.log_expect(options, re_login, int(options["--login-timeout"]))
conn.send_eol(options["--username"])
## automatically change end of line separator
screen = conn.read_nonblocking(size=100, timeout=int(options["--shell-timeout"]))
if re_login.search(screen) != None:
options["eol"] = "\n"
conn.send_eol(options["--username"])
result = conn.log_expect(options, re_pass, int(options["--login-timeout"]))
elif re_pass.search(screen) != None:
conn.log_expect(options, re_pass, int(options["--shell-timeout"]))
try:
conn.send_eol(options["--password"])
valid_password = conn.log_expect(options, [ re_login ] + \
options["--command-prompt"], int(options["--shell-timeout"]))
if valid_password == 0:
## password is invalid or we have to change EOL separator
options["eol"] = "\r"
conn.send_eol("")
screen = conn.read_nonblocking(size=100, timeout=int(options["--shell-timeout"]))
## after sending EOL the fence device can either show 'Login' or 'Password'
if re_login.search(screen) != None:
conn.send_eol("")
conn.send_eol(options["--username"])
conn.log_expect(options, re_pass, int(options["--login-timeout"]))
conn.send_eol(options["--password"])
conn.log_expect(options, options["--command-prompt"], int(options["--login-timeout"]))
except KeyError:
fail(EC_PASSWORD_MISSING)
except pexpect.EOF:
fail(EC_LOGIN_DENIED)
except pexpect.TIMEOUT:
fail(EC_LOGIN_DENIED)
return conn
def is_executable(path):
if os.path.exists(path):
stats = os.stat(path)
if stat.S_ISREG(stats.st_mode) and os.access(path, os.X_OK):
return True
return False
def run_command(options, command, timeout = None, env = None):
if timeout is None and "--power-timeout" in options:
timeout = options["--power-timeout"]
if timeout is not None:
timeout = float(timeout)
logging.info("Executing: %s\n" % command)
try:
process = subprocess.Popen(shlex.split(command), stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=env)
except OSError, ex:
fail_usage("Unable to run %s\n" % command)
thread = threading.Thread(target = process.wait)
thread.start()
thread.join(timeout)
if thread.is_alive():
process.kill()
fail(EC_TIMED_OUT)
status = process.wait()
(pipe_stdout, pipe_stderr) = process.communicate()
process.stdout.close()
process.stderr.close()
logging.debug("%s %s %s\n" % (str(status), str(pipe_stdout), str(pipe_stderr)))
return (status, pipe_stdout, pipe_stderr)

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