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confluent/confluent_client/bin/confetty
Jarrod Johnson 0b0f325240 Shorten power check interval
The interval can be shorter with little ill-effect.
2017-11-13 14:22:30 -05:00

947 lines
32 KiB
Python
Executable File

#!/usr/bin/env python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2014 IBM Corporation
# Copyright 2015-2016 Lenovo
#
# 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.
# ultimately, this should provide an interactive cli for navigating confluent
# tree and doing console with a socket. <ESC>]0;<string><BELL> can be used to
# present info such as whether it is in a console or other mode and, if in
# console, how many other connections are live and looking
# this means 'wcons' simply needs to make a terminal run and we'll take care of
# the title while providing more info
# this also means the socket interface needs to have ways to convey more
# interesting pieces of data (like concurrent connection count)
# socket will probably switch to a TLV scheme:
# 32 bit TL, 8 bits of type code and 24 bit size
# type codes:
# 0: string data
# 1: json data
# 24 bit size allows the peer to avoid having to do any particular parsing to
# understand message boundaries (which is a significant burden on the xCAT
# protocol)
# When in a console client mode, will recognize two escape sequences by
# default:
# Ctrl-E, c, ?: mimic conserver behavior
# ctrl-]: go to interactive prompt (telnet escape, but not telnet prompt)
# esc-( would interfere with normal esc use too much
# ~ I will not use for now...
import math
import getpass
import optparse
import os
import select
import shlex
import signal
import socket
import sys
import time
try:
import fcntl
import termios
import tty
except ImportError:
pass
try:
signal.signal(signal.SIGPIPE, signal.SIG_DFL)
except AttributeError:
pass
exitcode = 0
consoleonly = False
consolename = ""
didconsole = False
target = "/"
path = os.path.dirname(os.path.realpath(__file__))
path = os.path.realpath(os.path.join(path, '..', 'lib', 'python'))
if path.startswith('/opt'):
sys.path.append(path)
import confluent.termhandler as termhandler
import confluent.tlvdata as tlvdata
import confluent.client as client
conserversequence = '\x05c' # ctrl-e, c
clearpowermessage = False
oldtcattr = None
fd = sys.stdin
try:
if fd.isatty():
oldtcattr = termios.tcgetattr(fd.fileno())
except NameError:
pass
netserver = None
laststate = {}
def print_help():
print("confetty provides a filesystem like interface to confluent. "
"Navigation is done using the same commands as would be used in a "
"filesystem. Tab completion is supported to aid in navigation,"
"as is up arrow to recall previous commands and control-r to search"
"previous command history, similar to using bash\n\n"
"The supported commands are:\n"
"cd [location] - Set the current command context, similar to a "
"working directory.\n"
"show [resource] - Present the information about the specified "
"resource, or current context if omitted.\n"
"create [resource] attributename=value attributename=value - Create "
"a new instance of a resource.\n"
"remove [resource] - Remove a resource from a list\n"
"set [resource] attributename=value attributename=value - Change "
"the specified attributes value for the given resource name\n"
"unset [resource] attributename - Clear any value for the given "
"attribute names on a resource.\n"
"start [resource] - When used on a text session resource, it "
"enters remote terminal mode. In this mode, use 'ctrl-e, c, ?' for "
"help"
)
#TODO(jjohnson2): lookup context help for 'target' variable, perhaps
#common with the api document
def updatestatus(stateinfo={}):
global powerstate, powertime, clearpowermessage
status = consolename
info = []
for statekey in stateinfo:
laststate[statekey] = stateinfo[statekey]
if ('connectstate' in laststate and
laststate['connectstate'] != 'connected'):
info.append(laststate['connectstate'])
if laststate['connectstate'] == 'closed':
quitconfetty(fullexit=consoleonly)
if 'error' in laststate:
info.append(laststate['error'])
# error will be repeated if relevant
# avoid keeping it around as stale
del laststate['error']
if 'state' in stateinfo: # currently only read power means anything
newpowerstate = stateinfo['state']['value']
if newpowerstate != powerstate and newpowerstate == 'off':
sys.stdout.write("\x1b[2J\x1b[;H[powered off]\r\n")
clearpowermessage = True
if newpowerstate == 'on' and clearpowermessage:
sys.stdout.write("\x1b[2J\x1b[;H")
clearpowermessage = False
powerstate = newpowerstate
if 'clientcount' in laststate and laststate['clientcount'] != 1:
info.append('clients: %d' % laststate['clientcount'])
if 'bufferage' in stateinfo and stateinfo['bufferage'] is not None:
laststate['showtime'] = time.time() - stateinfo['bufferage']
if 'showtime' in laststate:
showtime = laststate['showtime']
age = time.time() - laststate['showtime']
if age > 86400: # older than one day
# disambiguate by putting date in and time
info.append(time.strftime('%m-%dT%H:%M', time.localtime(showtime)))
else:
info.append(time.strftime('%H:%M', time.localtime(showtime)))
if info:
status += ' [' + ','.join(info) + ']'
if os.environ.get('TERM', '') not in ('linux'):
sys.stdout.write('\x1b]0;console: %s\x07' % status)
sys.stdout.flush()
def recurse_format(datum, levels=0):
ret = ''
import json
return json.dumps(datum, ensure_ascii=False, indent=1)
if isinstance(datum, dict):
for key in datum.iterkeys():
if datum[key] is None:
continue
ret += key + ':'
if type(datum[key]) in (str, unicode):
ret += datum[key] + '\n'
else:
ret += recurse_format(datum[key], levels + 1)
elif isinstance(datum, list):
if type(datum[0]) in (str, unicode):
ret += '[' + ",".join(datum) + ']\n'
else:
ret += '['
elems = []
for elem in datum:
elems.append('{' + recurse_format(elem, levels + 1) + '}')
ret += ','.join(elems)
ret += (' ' * levels) + ']\n'
return ret
def prompt():
if os.environ.get('TERM', '') not in ('linux'):
sys.stdout.write('\x1b]0;confetty: %s\x07' % target)
try:
return raw_input(target + ' -> ')
except KeyboardInterrupt:
print ""
return ""
except EOFError: # ctrl-d
print("exit")
return "exit"
# sys.stdout.write(target + ' -> ')
# sys.stdout.flush()
# username = raw_input("Name: ")
valid_commands = [
'start',
'cd',
'show',
'set',
'unset',
'create',
'remove',
'rm',
'delete',
'help',
]
candidates = None
session = None
def completer(text, state):
try:
return rcompleter(text, state)
except:
pass
#import traceback
#traceback.print_exc()
def rcompleter(text, state):
global candidates
global valid_commands
cline = readline.get_line_buffer()
cline = cline[:readline.get_endidx()]
if len(text):
cline = cline[:-len(text)]
args = shlex.split(cline, posix=True)
currpos = len(args)
if currpos and cline[-1] == ' ':
lastarg = ''
currpos += 1
elif currpos:
lastarg = args[-1]
else:
lastarg = ''
if currpos <= 1:
foundcount = 0
for cmd in valid_commands:
if cmd.startswith(text):
if foundcount == state:
return cmd
else:
foundcount += 1
candidates = None
return None
cmd = args[0]
if candidates is None:
candidates = []
targpath = fullpath_target(lastarg)
for res in session.read(targpath):
if 'item' in res: # a link relation
if type(res['item']) == dict:
candidates.append(res['item']["href"])
else:
for item in res['item']:
candidates.append(item["href"])
foundcount = 0
for elem in candidates:
if cmd == 'cd' and elem[-1] != '/':
continue
if elem.startswith(text):
if foundcount == state:
return elem
else:
foundcount += 1
candidates = None
return None
def parse_command(command):
try:
args = shlex.split(command, posix=True)
except ValueError as ve:
print('Error: ' + str(ve))
return []
return args
currchildren = None
def print_result(res):
if 'errorcode' in res or 'error' in res:
print res['error']
return
if 'databynode' in res:
print_result(res['databynode'])
return
for key in sorted(res):
notes = []
if res[key] is None:
attrstr = '%s=""' % key
elif type(res[key]) == list:
attrstr = '%s=%s' % (key, recurse_format(res[key]))
elif not isinstance(res[key], dict):
try:
print '{0}: {1}'.format(key, res[key])
except UnicodeEncodeError:
print '{0}: {1}'.format(key, repr(res[key]))
continue
elif 'value' in res[key] and res[key]['value'] is not None:
attrstr = '%s="%s"' % (key, res[key]['value'])
elif 'value' in res[key] and res[key]['value'] is None:
attrstr = '%s=""' % key
elif 'isset' in res[key] and res[key]['isset']:
attrstr = '%s="********"' % key
elif 'isset' in res[key] or not res[key]:
attrstr = '%s=""' % key
else:
sys.stdout.write('{0}: '.format(key))
if isinstance(res[key], str) or isinstance(res[key], unicode):
print res[key]
else:
print_result(res[key])
continue
if res[key] is not None and 'inheritedfrom' in res[key]:
notes.append(
'Inherited from %s' % res[key]['inheritedfrom'])
if res[key] is not None and 'expression' in res[key]:
notes.append(
('Derived from expression "%s"' %
res[key]['expression']))
if notes:
notestr = '(' + ', '.join(notes) + ')'
output = '{0:<40} {1:>39}'.format(attrstr, notestr)
else:
output = attrstr
try:
print(output)
except (UnicodeDecodeError, UnicodeEncodeError):
print(output.encode('utf-8'))
def do_command(command, server):
global exitcode
global target
global currconsole
global currchildren
exitcode = 0
argv = parse_command(command)
if len(argv) == 0:
return
argv[0] = argv[0].lower()
if argv[0] == 'exit':
if os.environ.get('TERM', '') not in ('linux'):
sys.stdout.write('\x1b]0;\x07')
sys.exit(0)
elif argv[0] in ('help', '?'):
return print_help()
elif argv[0] == 'cd':
otarget = target
if len(argv) > 1:
target = fullpath_target(argv[1], forcepath=True)
else: # cd by itself, go 'home'
target = '/'
if target[-1] == '/':
parentpath = target[:-1]
else:
parentpath = target
if parentpath:
childname = '{0}/'.format(parentpath[parentpath.rindex('/') + 1:])
parentpath = parentpath[:parentpath.rindex('/') + 1]
if parentpath == '/noderange/':
for res in session.read(target, server):
if 'errorcode' in res:
exitcode = res['errorcode']
target = otarget
if 'error' in res:
sys.stderr.write(target + ': ' + res['error'] + '\n')
target = otarget
else:
foundchild = False
for res in session.read(parentpath, server):
try:
if res['item']['href'] == childname:
foundchild = True
except KeyError:
pass
if 'errorcode' in res:
exitcode = res['errorcode']
target = otarget
if 'error' in res:
sys.stderr.write(target + ': ' + res['error'] + '\n')
target = otarget
if not foundchild:
sys.stderr.write(target + ': Target not found - \n')
target = otarget
elif argv[0] in ('cat', 'show', 'ls', 'dir'):
if len(argv) > 1:
targpath = fullpath_target(argv[1])
if argv[0] in ('ls', 'dir'):
if targpath[-1] != '/':
# could still be a directory, fetch the parent..
childname = targpath[targpath.rindex('/') + 1:]
parentpath = targpath[:targpath.rindex('/') + 1]
if parentpath != '/noderange/':
# if it were /noderange/, then it's a directory
# even though parent won't tell us that
for res in session.read(parentpath, server):
try:
if res['item']['href'] == childname:
print(childname)
return
except KeyError:
pass
else:
targpath = target
for res in session.read(targpath):
if 'item' in res: # a link relation
if type(res['item']) == dict:
print res['item']["href"]
else:
for item in res['item']:
print item["href"]
else: # generic attributes to list
if 'error' in res:
sys.stderr.write(res['error'] + '\n')
if 'errorcode' in res:
exitcode = res['errorcode']
continue
print_result(res)
elif argv[0] == 'start':
targpath = fullpath_target(argv[1])
nodename = targpath.split('/')[-3]
currconsole = targpath
startrequest = {'operation': 'start', 'path': targpath,
'parameters': {}}
for param in argv[2:]:
(parmkey, parmval) = param.split("=")
startrequest['parameters'][parmkey] = parmval
tlvdata.send(
session.connection, startrequest)
status = tlvdata.recv(session.connection)
if 'error' in status:
if 'errorcode' in status:
exitcode = status['errorcode']
sys.stderr.write('Error: ' + status['error'] + '\n')
while '_requestdone' not in status:
status = tlvdata.recv(session.connection)
return
startconsole(nodename)
return
elif argv[0] == 'set':
setvalues(argv[1:])
elif argv[0] == 'create':
createresource(argv[1:])
elif argv[0] in ('rm', 'delete', 'remove'):
delresource(argv[1])
elif argv[0] in ('unset', 'clear'):
clearvalues(argv[1], argv[2:])
elif argv[0] == 'shutdown':
shutdown()
else:
sys.stderr.write("%s: command not found...\n" % argv[0])
def shutdown():
tlvdata.send(session.connection, {'operation': 'shutdown', 'path': '/'})
def createresource(args):
resname = args[0]
attribs = args[1:]
keydata = parameterize_attribs(attribs)
if keydata is None:
return
targpath = fullpath_target(resname)
if targpath.startswith('/noderange//'):
collection = targpath
else:
collection, _, resname = targpath.rpartition('/')
keydata['name'] = resname
makecall(session.create, (collection, keydata))
def makecall(callout, args):
global exitcode
for response in callout(*args):
if 'deleted' in response:
print("Deleted: " + response['deleted'])
if 'created' in response:
print("Created: " + response['created'])
if 'error' in response:
if 'errorcode' in response:
exitcode = response['errorcode']
sys.stderr.write('Error: ' + response['error'] + '\n')
def clearvalues(resource, attribs):
global exitcode
targpath = fullpath_target(resource)
keydata = {}
for attrib in attribs:
keydata[attrib] = None
for res in session.update(targpath, keydata):
if 'error' in res:
if 'errorcode' in res:
exitcode = res['errorcode']
sys.stderr.write('Error: ' + res['error'] + '\n')
def delresource(resname):
resname = fullpath_target(resname)
makecall(session.delete, (resname,))
def setvalues(attribs):
global exitcode
if '=' in attribs[0]: # going straight to attribute
resource = attribs[0][:attribs[0].index("=")]
if '/' in resource:
lastslash = resource.rindex('/')
attribs[0] = attribs[0][lastslash + 1:]
else: # an actual resource
resource = attribs[0]
attribs = attribs[1:]
keydata = parameterize_attribs(attribs)
if not keydata:
return
targpath = fullpath_target(resource)
for res in session.update(targpath, keydata):
if 'error' in res:
if 'errorcode' in res:
exitcode = res['errorcode']
sys.stderr.write('Error: ' + res['error'] + '\n')
print_result(res)
def parameterize_attribs(attribs):
keydata = {}
for attrib in attribs:
if '=' not in attrib:
sys.stderr.write("Invalid syntax %s\n" % attrib)
return None
key = attrib[:attrib.index("=")]
value = attrib[attrib.index("=") + 1:]
if key == 'groups':
value = value.split(',')
keydata[key] = value
return keydata
def fullpath_target(currpath, forcepath=False):
global target
if currpath == '':
return target
pathcomponents = currpath.split("/")
if pathcomponents[-1] == "": # preserve path
forcepath = True
if pathcomponents[0] == "": # absolute path
ntarget = currpath
else:
targparts = target.split("/")[:-1]
for component in pathcomponents:
if component in ('.', ''): # ignore these
continue
elif component == '..':
if len(targparts) > 0:
del targparts[-1]
else:
targparts.append(component)
if forcepath and (len(targparts) == 0 or targparts[-1] != ""):
targparts.append('')
ntarget = '/'.join(targparts)
if forcepath and (len(ntarget) == 0 or ntarget[-1] != '/'):
ntarget += '/'
return ntarget
def startconsole(nodename):
global inconsole
global consolename
global didconsole
didconsole = True
consolename = nodename
tty.setraw(sys.stdin.fileno())
currfl = fcntl.fcntl(sys.stdin.fileno(), fcntl.F_GETFL)
fcntl.fcntl(sys.stdin.fileno(), fcntl.F_SETFL, currfl | os.O_NONBLOCK)
inconsole = True
def quitconfetty(code=0, fullexit=False, fixterm=True):
global inconsole
global currconsole
global didconsole
if fixterm or didconsole:
currfl = fcntl.fcntl(sys.stdin.fileno(), fcntl.F_GETFL)
fcntl.fcntl(sys.stdin.fileno(), fcntl.F_SETFL, currfl ^ os.O_NONBLOCK)
if oldtcattr is not None:
termios.tcsetattr(sys.stdin.fileno(), termios.TCSANOW, oldtcattr)
# Request default color scheme, to undo potential weirdness of terminal
sys.stdout.write('\x1b[m')
if fullexit:
if os.environ.get('TERM', '') not in ('linux'):
sys.stdout.write('\x1b]0;\x07')
sys.exit(code)
else:
tlvdata.send(session.connection, {'operation': 'stop',
'path': currconsole})
inconsole = False
def get_session_node(shellargs):
# straight to node console
if len(shellargs) == 1 and ' ' not in shellargs[0]:
return shellargs[0]
if len(shellargs) == 2 and shellargs[0] == 'start':
args = [s for s in shellargs[1].split('/') if s]
if len(args) == 4 and args[0] == 'nodes' and args[2] == 'console' and \
args[3] == 'session':
return args[1]
return None
def conserver_command(filehandle, localcommand):
# x - conserver has that as 'show baud', I am inclined to replace that with
# 'request exclusive'
# b - conserver has that as 'broadcast message', I'm tempted to use that
# for break
# r - replay
# p - replay (this is the one I've always used)
# f - force attach read/write
# a - attach read/write
# s - spy mode
# l[n] - send a particular break, tempted to do l0 for compatibility
# o - reopen tty, this should mean reconnect console
# d - down a console... never used this...
# L - toggle logging
# w - who is on console
cmdlen = 1
localcommand = get_command_bytes(filehandle, localcommand, cmdlen)
if localcommand[0] == '.':
print("disconnect]\r")
quitconfetty(fullexit=consoleonly)
elif localcommand[0] == 'o':
tlvdata.send(session.connection, {'operation': 'reopen',
'path': currconsole})
print('reopen]\r')
elif localcommand[0] == 'b':
tlvdata.send(session.connection, {'operation': 'break',
'path': currconsole})
print("break sent]\r")
elif localcommand[0] == 'p': # power
cmdlen += 1
localcommand = get_command_bytes(filehandle, localcommand, cmdlen)
if localcommand[1] == 'o': # off
print("powering off...")
session.simple_noderange_command(consolename, '/power/state', 'off')
print("complete]\r")
elif localcommand[1] == 's': # shutdown
print("shutting down...")
session.simple_noderange_command(consolename, '/power/state', 'shutdown')
print("complete]\r")
elif localcommand[1] == 'b': # boot
cmdlen += 1
localcommand = get_command_bytes(filehandle, localcommand, cmdlen)
if localcommand[2] == 's': # boot to setup
print("booting to setup...")
bootmode = 'uefi'
bootdev = 'setup'
rc = session.simple_noderange_command(consolename, '/boot/nextdevice', bootdev, bootmode=bootmode)
if rc:
print("Error]\r")
else:
rc = session.simple_noderange_command(consolename, '/power/state', 'boot')
if rc:
print("Error]\r")
else:
print("complete]\r")
elif localcommand[2] == 'n': # boot to network
print("booting to network...")
bootmode = 'uefi'
bootdev = 'network'
rc = session.simple_noderange_command(consolename, '/boot/nextdevice', bootdev, bootmode=bootmode)
if rc:
print("Error]\r")
else:
rc = session.simple_noderange_command(consolename, '/power/state', 'boot')
if rc:
print("Error]\r")
else:
print("complete]\r")
elif localcommand[2] == '\x0d': # boot to default
print("booting to default...")
bootmode = 'uefi'
bootdev = 'default'
rc = session.simple_noderange_command(consolename, '/boot/nextdevice', bootdev, bootmode=bootmode)
if rc:
print("Error]\r")
else:
rc = session.simple_noderange_command(consolename, '/power/state', 'boot')
if rc:
print("Error]\r")
else:
print("complete]\r")
else:
print("Unknown boot state.]\r")
else:
print("Unknown power state.]\r")
check_power_state()
elif localcommand[0] == 'r':
sys.stdout.write('\x1b7\x1b[999;999H\x1b[6n')
sys.stdout.flush()
reply = ''
while 'R' not in reply:
try:
reply += sys.stdin.read(1)
except IOError:
pass
reply = reply.replace('\x1b[', '')
reply = reply.replace('R', '')
height, width = reply.split(';')
sys.stdout.write('\x1b8')
sys.stdout.flush()
print('sending stty commands]')
return 'stty columns {0}\rstty rows {1}\r'.format(width, height)
elif localcommand[0] == '?':
print("help]\r")
print(". exit console\r")
print("b break\r")
print("o reopen\r")
print("po power off\r")
print("ps shutdown\r")
print("pbs boot to setup\r")
print("pbn boot to network\r")
print("pb<ent> boot to default\r")
print("r send stty command to resize terminal\r")
print("<cr> abort command\r")
elif localcommand[0] == '\x0d':
print("ignored]\r")
else: # not a command at all..
print("unknown -- use '?']\r")
def get_command_bytes(filehandle, localcommand, cmdlen):
while len(localcommand) < cmdlen:
ready, _, _ = select.select((filehandle,), (), (), 1)
if ready:
localcommand += filehandle.read()
return localcommand
def check_escape_seq(currinput, filehandle):
while conserversequence.startswith(currinput):
if currinput.startswith(conserversequence): # We have full sequence
sys.stdout.write("[")
sys.stdout.flush()
return conserver_command(
filehandle, currinput[len(conserversequence):])
ready, _, _ = select.select((filehandle,), (), (), 3)
if not ready: # 3 seconds of no typing
break
currinput += filehandle.read()
return currinput
parser = optparse.OptionParser()
parser.add_option("-s", "--server", dest="netserver",
help="Confluent instance to connect to",
metavar="SERVER:PORT")
parser.add_option("-c", "--control", dest="controlpath",
help="Path to offer terminal control",
metavar="PATH")
opts, shellargs = parser.parse_args()
username = None
passphrase = None
def server_connect():
global session, username, passphrase
if opts.controlpath:
termhandler.TermHandler(opts.controlpath)
if opts.netserver: # going over a TLS network
session = client.Command(opts.netserver)
elif 'CONFLUENT_HOST' in os.environ:
session = client.Command(os.environ['CONFLUENT_HOST'])
else: # unix domain
session = client.Command()
# Next stop, reading and writing from whichever of stdin and server goes first.
#see pyghmi code for solconnect.py
if not session.authenticated and username is not None:
session.authenticate(username, passphrase)
if not session.authenticated and 'CONFLUENT_USER' in os.environ:
username = os.environ['CONFLUENT_USER']
passphrase = os.environ['CONFLUENT_PASSPHRASE']
session.authenticate(username, passphrase)
while not session.authenticated:
username = raw_input("Name: ")
passphrase = getpass.getpass("Passphrase: ")
session.authenticate(username, passphrase)
try:
server_connect()
except EOFError, KeyboardInterrupt:
sys.exit(0)
except socket.gaierror:
sys.stderr.write('Could not connect to confluent\n')
sys.exit(1)
# clear on start can help with readable of TUI, but it
# can be annoying, so for now don't do it.
# sys.stdout.write('\x1b[H\x1b[J')
# sys.stdout.flush()
if sys.stdout.isatty():
import readline
readline.parse_and_bind("tab: complete")
readline.parse_and_bind("set bell-style none")
dl = readline.get_completer_delims().replace('-', '')
readline.set_completer_delims(dl)
readline.set_completer(completer)
doexit = False
inconsole = False
pendingcommand = ""
session_node = get_session_node(shellargs)
if session_node is not None:
consoleonly = True
do_command("start /nodes/%s/console/session" % session_node, netserver)
doexit = True
elif shellargs:
command = " ".join(shellargs)
do_command(command, netserver)
quitconfetty(fullexit=True, fixterm=False)
powerstate = None
powertime = None
def check_power_state():
tlvdata.send(
session.connection,
{'operation': 'retrieve',
'path': '/nodes/' + consolename + '/power/state'})
return
while inconsole or not doexit:
if inconsole:
rdylist, _, _ = select.select(
(sys.stdin, session.connection), (), (), 10)
for fh in rdylist:
if fh == session.connection:
# this only should get called in the
# case of a console session
# each command should slurp up all relevant
# recv potential
#fh.read()
try:
data = tlvdata.recv(fh)
except Exception:
data = None
if type(data) == dict:
updatestatus(data)
continue
if data is not None:
if clearpowermessage:
sys.stdout.write("\x1b[2J\x1b[;H")
clearpowermessage = False
try:
sys.stdout.write(data)
except IOError: # Some times circumstances are bad
# resort to byte at a time...
for d in data:
sys.stdout.write(d)
now = time.time()
if ('showtime' not in laststate or
(now // 60) != laststate['showtime'] // 60):
# don't bother churning if minute does not change
laststate['showtime'] = now
updatestatus()
sys.stdout.flush()
else:
deadline = 5
connected = False
while not connected and deadline > 0:
try:
server_connect()
connected = True
except (socket.gaierror, socket.error):
pass
if not connected:
time.sleep(1)
deadline -=1
if connected:
do_command(
"start /nodes/%s/console/session skipreplay=True" % consolename,
netserver)
else:
doexit = True
inconsole = False
sys.stdout.write("\r\n[remote disconnected]\r\n")
break
else:
try:
myinput = fh.read()
myinput = check_escape_seq(myinput, fh)
if myinput:
tlvdata.send(session.connection, myinput)
except IOError:
pass
if powerstate is None or powertime < time.time() - 10: # Check powerstate every 10 seconds
powertime = time.time()
powerstate = True
check_power_state()
else:
currcommand = prompt()
try:
do_command(currcommand, netserver)
except socket.error:
try:
server_connect()
do_command(currcommand, netserver)
except socket.error:
doexit = True
sys.stdout.write('Lost connection to server')
quitconfetty(fullexit=True)