TestON/bin/cli.py - OnosSystemTest - Gitiles

 #!/usr/bin/env python
 '''
 Created on 20-Dec-2012
 Copyright 2012 Open Networking Foundation

 Please refer questions to either the onos test mailing list at <onos-test@onosproject.org>,
 the System Testing Plans and Results wiki page at <https://wiki.onosproject.org/x/voMg>,
 or the System Testing Guide page at <https://wiki.onosproject.org/x/WYQg>

     TestON 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 2 of the License, or
     (at your option) any later version.

     TestON 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 TestON.  If not, see <http://www.gnu.org/licenses/>.


 '''


 """
 cli will provide the CLI shell for teston framework.

 A simple command-line interface for TestON.

 The TestON CLI provides a simple console which
 makes it easy to launch the test. For example, the command run will execute the test.

 teston> run test DpctlTest
 Several useful commands are provided.
 """

 from subprocess import call
 from cmd import Cmd
 from os import isatty
 import sys
 import re
 import os
 import time
 import threading
 import __builtin__
 import pprint
 dump = pprint.PrettyPrinter( indent=4 )
 __builtin__.testthread = False
 introduction = "TestON is the testing framework \nDeveloped by Paxterra Solutions (www.paxterrasolutions.com)"
 __builtin__.COLORS = False

 path = re.sub( "/bin$", "", sys.path[ 0 ] )
 sys.path.insert( 1, path )
 from core.teston import *

 class CLI( threading.Thread, Cmd, object ):
     "command-line interface to execute the test."

     prompt = 'teston> '

     def __init__( self, teston, stdin=sys.stdin ):
         self.teston = teston

         self._mainevent = threading.Event()
         threading.Thread.__init__( self )
         self.main_stop = False
         self.locals = { 'test': teston }
         self.stdin = stdin
         Cmd.__init__( self )
         self.pause = False
         self.stop = False
         __builtin__.cli = self

     def emptyline( self ):
         "Don't repeat last command when you hit return."
         pass

     helpStr = (
               " teston help"
     )

     def do_help( self, line ):
         "Describe available CLI commands."
         Cmd.do_help( self, line )
         if line is '':
             output( self.helpStr )

     def do_run( self, args ):
         '''
         run command will execute the test with following optional command line arguments
         logdir <directory to store logs in>
         testcases <list of testcases separated by comma or range of testcases separated by hypen>
         mail <mail-id or list of mail-ids seperated by comma>
         example 1, to execute the examples specified in the ~/examples diretory.
         '''
         try:
             args = args.split()
             options = {}
             options = self.parseArgs( args, options )
             options = dictToObj( options )
             if not testthread:
                 test = TestThread( options )
                 test.start()
                 while test.isAlive():
                     test.join( 1 )
             else:
                 print main.TEST + " test execution paused, please resume that before executing to another test"
         except KeyboardInterrupt, SystemExit:
             print "Interrupt called, Exiting."
             test._Thread__stop()
             main.cleanup()
             main.exit()

     def do_resume( self, line ):
         '''
         resume command will continue the execution of paused test.
         teston>resume
         [2013-01-07 23:03:44.640723] [PoxTest] [STEP]  1.1: Checking the host reachability using pingHost
         2013-01-07 23:03:44,858 - PoxTest - INFO - Expected Prompt Found
         ....
         '''
         if testthread:
             testthread.play()
         else:
             print "There is no test to resume"

     def do_nextstep( self, line ):
         '''
         nextstep will execute the next-step of the paused test and
         it will pause the test after finishing of step.

         teston> nextstep
         Will pause the test's execution, after completion of this step.....

         teston> [2013-01-07 21:24:26.286601] [PoxTest] [STEP]  1.8: Checking the host reachability using pingHost
         2013-01-07 21:24:26,455 - PoxTest - INFO - Expected Prompt Found
         .....
         teston>

         '''
         if testthread:
             main.log.info( "Executing the nextstep, Will pause test execution, after completion of the step" )
             testthread.play()
             time.sleep( .1 )
             testthread.pause()
         else:
             print "There is no paused test "

     def do_dumpvar( self, line ):
         '''
         dumpvar will print all the test data in raw format.
         usgae :
         teston>dumpvar main
         Here 'main' will be the test object.

         teston>dumpvar params
         here 'params' will be the parameters specified in the params file.

         teston>dumpvar topology
         here 'topology' will be topology specification of the test specified in topo file.
         '''
         if testthread:
             if line == "main":
                 dump.pprint( vars( main ) )
             else:
                 try:
                     dump.pprint( vars( main )[ line ] )
                 except KeyError as e:
                     print e
         else:
             print "There is no paused test "

     def do_currentcase( self, line ):
         '''
         currentcase will return the current case in the test execution.

         teston>currentcase
         Currently executing test case is: 2

         '''
         if testthread:
             print "Currently executing test case is: " + str( main.CurrentTestCaseNumber )
         else:
             print "There is no paused test "

     def do_currentstep( self, line ):
         '''
         currentstep will return the current step in the test execution.

         teston>currentstep
         Currently executing test step is: 2.3
         '''
         if testthread:
             print "Currently executing test step is: " + str( main.CurrentTestCaseNumber ) + '.' + str( main.stepCount )
         else:
             print "There is no paused test "

     def do_stop( self, line ):
         '''
         Will stop the paused test, if any !
         '''
         if testthread:
             testthread.stop()

         return 'exited by user command'

     def do_gettest( self, line ):
         '''
         gettest will return the test name which is under execution or recently executed.

         Test under execution:
         teston>gettest
         Currently executing Test is: PoxTest

         Test recently executed:
         Recently executed test is: MininetTest
         '''
         try:
             if testthread:
                 print "Currently executing Test is: " + main.TEST
             else:
                 print "Recently executed test is: " + main.TEST

         except NameError:
             print "There is no previously executed Test"

     def do_showlog( self, line ):
         '''
         showlog will show the test's Log
         teston>showlog
         Last executed test's log is : //home/openflow/TestON/logs/PoxTest_07_Jan_2013_21_42_11/PoxTest_07_Jan_2013_21_42_11.log
         .....
         teston>showlog
         Currently executing Test's log is: /home/openflow/TestON/logs/PoxTest_07_Jan_2013_21_46_58/PoxTest_07_Jan_2013_21_46_58.log
         .....
         '''
         try:
             if testthread:
                 print "Currently executing Test's log is: " + main.LogFileName

             else:
                 print "Last executed test's log is : " + main.LogFileName

             logFile = main.LogFileName
             logFileHandler = open( logFile, 'r' )
             for msg in logFileHandler.readlines():
                 print msg,

             logFileHandler.close()

         except NameError:
             print "There is no previously executed Test"

     def parseArgs( self, args, options ):
         '''
         This will parse the command line arguments.
         '''
         options = self.initOptions( options )
         try:
             index = 0
             while index < len( args ):
                 option = args[ index ]
                 if index > 0:
                     if re.match( "--params-file", option, flags=0 ):
                         # The more specific match must be before --params
                         options[ 'paramsFile' ] = args[ index + 1 ]
                     elif re.match( "--topo-file", option, flags=0 ):
                         options[ 'topoFile' ] = args[ index + 1 ]
                     elif re.match( "--params", option, flags=0 ):
                         # check if there is a params
                         options[ 'params' ].append( args[ index + 1 ] )
                     elif re.match( "logdir|mail|example|testdir|testcases|onoscell",
                                    option, flags=0 ):
                         options[ option ] = args[ index + 1 ]
                         options = self.testcasesInRange( index + 1, option, args, options )
                     index += 2
                 else:
                     options[ 'testname' ] = option
                     index += 1
         except IndexError as e:
             print ( e )
             main.cleanup()
             main.exit()

         return options

     def initOptions( self, options ):
         '''
         This will initialize the commandline options.
         '''
         options[ 'logdir' ] = None
         options[ 'mail' ] = None
         options[ 'example' ] = None
         options[ 'testdir' ] = None
         options[ 'testcases' ] = None
         options[ 'onoscell' ] = None
         # init params as a empty list
         options[ 'params' ] = []
         options[ 'paramsFile' ] = None
         options[ 'topoFile' ] = None
         return options

     def testcasesInRange( self, index, option, args, options ):
         '''
         This method will handle testcases list,specified in range [1-10].
         '''
         if re.match( "testcases", option, 1 ):
             testcases = []
             args[ index ] = re.sub( "\[|\]", "", args[ index ], 0 )
             m = re.match( "(\d+)\-(\d+)", args[ index ], flags=0 )
             if m:
                 start_case = eval( m.group( 1 ) )
                 end_case = eval( m.group( 2 ) )
                 if ( start_case <= end_case ):
                     i = start_case
                     while i <= end_case:
                         testcases.append( i )
                         i = i + 1
                 else:
                     print "Please specify testcases properly like 1-5"
             else:
                 options[ option ] = args[ index ]
                 return options
             options[ option ] = str( testcases )

         return options

     def cmdloop( self, intro=introduction ):
         print introduction
         while True:
             try:
                 super( CLI, self ).cmdloop( intro="" )
                 self.postloop()
             except KeyboardInterrupt:
                 if testthread:
                     testthread.pause()
                 else:
                     print "KeyboardInterrupt, Exiting."
                     sys.exit()

     def do_echo( self, line ):
         '''
         Echoing of given input.
         '''
         output( line )

     def do_sh( self, line ):
         '''
         Run an external shell command
         sh pwd
         sh ifconfig etc.
         '''
         call( line, shell=True )

     def do_py( self, line ):
         '''
         Evaluate a Python expression.

         py main.log.info("Sample Log Information")
         2013-01-07 12:07:26,804 - PoxTest - INFO - Sample Log Information

         '''
         try:
             exec( line )
         except Exception as e:
             output( str( e ) + '\n' )

     def do_interpret( self, line ):
         '''
         interpret will translate the single line openspeak statement to equivalent python script.

         teston> interpret ASSERT result EQUALS main.TRUE ONPASS "Ping executed successfully" ONFAIL "Ping failed"
         utilities.assert_equals(expect=main.TRUE,actual=result,onpass="Ping executed successfully",onfail="Ping failed")

         '''
         from core import openspeak
         ospk = openspeak.OpenSpeak()
         try:
             translated_code = ospk.interpret( text=line )
             print translated_code
         except AttributeError as e:
             print 'Dynamic params are not allowed in single statement translations'

     def do_do( self, line ):
         '''
         Do will translate and execute the openspeak statement for the paused test.
         do <OpenSpeak statement>
         '''
         if testthread:
             from core import openspeak
             ospk = openspeak.OpenSpeak()
             try:
                 translated_code = ospk.interpret( text=line )
                 eval( translated_code )
             except ( AttributeError, SyntaxError ) as e:
                 print 'Dynamic params are not allowed in single statement translations:'
                 print e
         else:
             print "Do will translate and execute the openspeak statement for the paused test.\nPlease use interpret to translate the OpenSpeak statement."

     def do_compile( self, line ):
         '''
         compile will translate the openspeak (.ospk) file into TestON test script (python).
         It will receive the openspeak file path as input and will generate
         equivalent test-script file in the same directory.

         usage:
         -----
         teston>compile /home/openflow/TestON/PoxTest.ospk

         Auto-generated test-script file is /home/openflow/TestON/PoxTest.py
         '''
         from core import openspeak
         openspeak = openspeak.OpenSpeak()
         openspeakfile = line
         if os.path.exists( openspeakfile ):
             openspeak.compiler( openspeakfile=openspeakfile, writetofile=1 )
             print "Auto-generated test-script file is " + re.sub( "ospk", "py", openspeakfile, 0 )
         else:
             print 'There is no such file : ' + line

     def do_exit( self, _line ):
         "Exit"
         if testthread:
             testthread.stop()

         sys.exit()

         return 'exited by user command'

     def do_quit( self, line ):
         "Exit"
         return self.do_exit( line )

     def do_EOF( self, line ):
         "Exit"
         output( '\n' )
         return self.do_exit( line )

     def isatty( self ):
         "Is our standard input a tty?"
         return isatty( self.stdin.fileno() )

     def do_source( self, line ):
         '''
         Read shell commands from an input file and execute them sequentially.
         cmdsource.txt :

         "pwd
          ls "

         teston>source /home/openflow/cmdsource.txt
         /home/openflow/TestON/bin/
         cli.py  __init__.py

         '''

         args = line.split()
         if len( args ) != 1:
             error( 'usage: source <file>\n' )
             return
         try:
             self.inputFile = open( args[ 0 ] )
             while True:
                 line = self.inputFile.readline()
                 if len( line ) > 0:
                     call( line, shell=True )
                 else:
                     break
         except IOError:
             error( 'error reading file %s\n' % args[ 0 ] )

     def do_time( self, line ):
         "Measure time taken for any command in TestON."
         start = time.time()
         self.onecmd( line )
         elapsed = time.time() - start
         self.stdout.write( "*** Elapsed time: %0.6f secs\n" % elapsed )

     def default( self, line ):
         """Called on an input line when the command prefix is not recognized."""
         first, args, line = self.parseline( line )
         if not args:
             return
         if args and len( args ) > 0 and args[ -1 ] == '\n':
             args = args[:-1 ]
         rest = args.split( ' ' )

         error( '*** Unknown command: %s\n' % first )

 class TestThread( threading.Thread ):
     '''
     TestThread class will handle the test execution and will communicate with the thread in the do_run.
     '''
     def __init__( self, options ):
         self._stopevent = threading.Event()
         threading.Thread.__init__( self )
         self.is_stop = False
         self.options = options
         __builtin__.testthread = self

     def run( self ):
         '''
         Will execute the test.
         '''
         while not self.is_stop:
             if not self._stopevent.isSet():
                 self.test_on = TestON( self.options )
                 try:
                     if self.test_on.init_result:
                         result = self.test_on.run()
                         if not self.is_stop:
                             result = self.test_on.cleanup()
                         self.is_stop = True
                 except KeyboardInterrupt:
                     print "Recevied Interrupt, cleaning-up the logs and drivers before exiting"
                     result = self.test_on.cleanup()
                     self.is_stop = True

         __builtin__.testthread = False

     def pause( self ):
         '''
         Will pause the test.
         '''
         if not cli.pause:
             print "Will pause the test's execution, after completion of this step.....\n\n\n\n"
             cli.pause = True
             self._stopevent.set()
         elif cli.pause and self.is_stop:
             print "KeyboardInterrupt, Exiting."
             self.test_on.exit()
         else:
             print "Recevied Interrupt, cleaning-up the logs and drivers before exiting"
             result = self.test_on.cleanup()
             self.is_stop = True

     def play( self ):
         '''
         Will resume the paused test.
         '''
         self._stopevent.clear()
         cli.pause = False

     def stop( self ):
         '''
         Will stop the test execution.
         '''

         print "Stopping the test"
         self.is_stop = True
         cli.stop = True
         __builtin__.testthread = False

 def output( msg ):
     '''
     Simply, print the message in console
     '''
     print msg

 def error( msg ):
     '''
     print the error message.
     '''
     print msg

 def dictToObj( dictionary ):
     '''
     This will facilitates the converting of the dictionary to the object.
     This method will help to send options as object format to the test.
     '''
     if isinstance( dictionary, list ):
         dictionary = [ dictToObj( x ) for x in dictionary ]
     if not isinstance( dictionary, dict ):
         return dictionary

     class Convert( object ):
         pass
     obj = Convert()
     for k in dictionary:
         obj.__dict__[ k ] = dictToObj( dictionary[ k ] )
     return obj


 if __name__ == '__main__':
     if len( sys.argv ) > 1:
         __builtin__.COLORS = True
         CLI( "test" ).onecmd( ' '.join( sys.argv[ 1: ] ) )
     else:
         __builtin__.COLORS = False
         CLI( "test" ).cmdloop()
	#!/usr/bin/env python
	'''
	Created on 20-Dec-2012
	Copyright 2012 Open Networking Foundation

	Please refer questions to either the onos test mailing list at <onos-test@onosproject.org>,
	the System Testing Plans and Results wiki page at <https://wiki.onosproject.org/x/voMg>,
	or the System Testing Guide page at <https://wiki.onosproject.org/x/WYQg>

	TestON 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 2 of the License, or
	(at your option) any later version.

	TestON 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 TestON. If not, see <http://www.gnu.org/licenses/>.


	'''


	"""
	cli will provide the CLI shell for teston framework.

	A simple command-line interface for TestON.

	The TestON CLI provides a simple console which
	makes it easy to launch the test. For example, the command run will execute the test.

	teston> run test DpctlTest
	Several useful commands are provided.
	"""

	from subprocess import call
	from cmd import Cmd
	from os import isatty
	import sys
	import re
	import os
	import time
	import threading
	import __builtin__
	import pprint
	dump = pprint.PrettyPrinter( indent=4 )
	__builtin__.testthread = False
	introduction = "TestON is the testing framework \nDeveloped by Paxterra Solutions (www.paxterrasolutions.com)"
	__builtin__.COLORS = False

	path = re.sub( "/bin$", "", sys.path[ 0 ] )
	sys.path.insert( 1, path )
	from core.teston import *

	class CLI( threading.Thread, Cmd, object ):
	"command-line interface to execute the test."

	prompt = 'teston> '

	def __init__( self, teston, stdin=sys.stdin ):
	self.teston = teston

	self._mainevent = threading.Event()
	threading.Thread.__init__( self )
	self.main_stop = False
	self.locals = { 'test': teston }
	self.stdin = stdin
	Cmd.__init__( self )
	self.pause = False
	self.stop = False
	__builtin__.cli = self

	def emptyline( self ):
	"Don't repeat last command when you hit return."
	pass

	helpStr = (
	" teston help"
	)

	def do_help( self, line ):
	"Describe available CLI commands."
	Cmd.do_help( self, line )
	if line is '':
	output( self.helpStr )

	def do_run( self, args ):
	'''
	run command will execute the test with following optional command line arguments
	logdir <directory to store logs in>
	testcases <list of testcases separated by comma or range of testcases separated by hypen>
	mail <mail-id or list of mail-ids seperated by comma>
	example 1, to execute the examples specified in the ~/examples diretory.
	'''
	try:
	args = args.split()
	options = {}
	options = self.parseArgs( args, options )
	options = dictToObj( options )
	if not testthread:
	test = TestThread( options )
	test.start()
	while test.isAlive():
	test.join( 1 )
	else:
	print main.TEST + " test execution paused, please resume that before executing to another test"
	except KeyboardInterrupt, SystemExit:
	print "Interrupt called, Exiting."
	test._Thread__stop()
	main.cleanup()
	main.exit()

	def do_resume( self, line ):
	'''
	resume command will continue the execution of paused test.
	teston>resume
	[2013-01-07 23:03:44.640723] [PoxTest] [STEP] 1.1: Checking the host reachability using pingHost
	2013-01-07 23:03:44,858 - PoxTest - INFO - Expected Prompt Found
	....
	'''
	if testthread:
	testthread.play()
	else:
	print "There is no test to resume"

	def do_nextstep( self, line ):
	'''
	nextstep will execute the next-step of the paused test and
	it will pause the test after finishing of step.

	teston> nextstep
	Will pause the test's execution, after completion of this step.....

	teston> [2013-01-07 21:24:26.286601] [PoxTest] [STEP] 1.8: Checking the host reachability using pingHost
	2013-01-07 21:24:26,455 - PoxTest - INFO - Expected Prompt Found
	.....
	teston>

	'''
	if testthread:
	main.log.info( "Executing the nextstep, Will pause test execution, after completion of the step" )
	testthread.play()
	time.sleep( .1 )
	testthread.pause()
	else:
	print "There is no paused test "

	def do_dumpvar( self, line ):
	'''
	dumpvar will print all the test data in raw format.
	usgae :
	teston>dumpvar main
	Here 'main' will be the test object.

	teston>dumpvar params
	here 'params' will be the parameters specified in the params file.

	teston>dumpvar topology
	here 'topology' will be topology specification of the test specified in topo file.
	'''
	if testthread:
	if line == "main":
	dump.pprint( vars( main ) )
	else:
	try:
	dump.pprint( vars( main )[ line ] )
	except KeyError as e:
	print e
	else:
	print "There is no paused test "

	def do_currentcase( self, line ):
	'''
	currentcase will return the current case in the test execution.

	teston>currentcase
	Currently executing test case is: 2

	'''
	if testthread:
	print "Currently executing test case is: " + str( main.CurrentTestCaseNumber )
	else:
	print "There is no paused test "

	def do_currentstep( self, line ):
	'''
	currentstep will return the current step in the test execution.

	teston>currentstep
	Currently executing test step is: 2.3
	'''
	if testthread:
	print "Currently executing test step is: " + str( main.CurrentTestCaseNumber ) + '.' + str( main.stepCount )
	else:
	print "There is no paused test "

	def do_stop( self, line ):
	'''
	Will stop the paused test, if any !
	'''
	if testthread:
	testthread.stop()

	return 'exited by user command'

	def do_gettest( self, line ):
	'''
	gettest will return the test name which is under execution or recently executed.

	Test under execution:
	teston>gettest
	Currently executing Test is: PoxTest

	Test recently executed:
	Recently executed test is: MininetTest
	'''
	try:
	if testthread:
	print "Currently executing Test is: " + main.TEST
	else:
	print "Recently executed test is: " + main.TEST

	except NameError:
	print "There is no previously executed Test"

	def do_showlog( self, line ):
	'''
	showlog will show the test's Log
	teston>showlog
	Last executed test's log is : //home/openflow/TestON/logs/PoxTest_07_Jan_2013_21_42_11/PoxTest_07_Jan_2013_21_42_11.log
	.....
	teston>showlog
	Currently executing Test's log is: /home/openflow/TestON/logs/PoxTest_07_Jan_2013_21_46_58/PoxTest_07_Jan_2013_21_46_58.log
	.....
	'''
	try:
	if testthread:
	print "Currently executing Test's log is: " + main.LogFileName

	else:
	print "Last executed test's log is : " + main.LogFileName

	logFile = main.LogFileName
	logFileHandler = open( logFile, 'r' )
	for msg in logFileHandler.readlines():
	print msg,

	logFileHandler.close()

	except NameError:
	print "There is no previously executed Test"

	def parseArgs( self, args, options ):
	'''
	This will parse the command line arguments.
	'''
	options = self.initOptions( options )
	try:
	index = 0
	while index < len( args ):
	option = args[ index ]
	if index > 0:
	if re.match( "--params-file", option, flags=0 ):
	# The more specific match must be before --params
	options[ 'paramsFile' ] = args[ index + 1 ]
	elif re.match( "--topo-file", option, flags=0 ):
	options[ 'topoFile' ] = args[ index + 1 ]
	elif re.match( "--params", option, flags=0 ):
	# check if there is a params
	options[ 'params' ].append( args[ index + 1 ] )
	elif re.match( "logdir\|mail\|example\|testdir\|testcases\|onoscell",
	option, flags=0 ):
	options[ option ] = args[ index + 1 ]
	options = self.testcasesInRange( index + 1, option, args, options )
	index += 2
	else:
	options[ 'testname' ] = option
	index += 1
	except IndexError as e:
	print ( e )
	main.cleanup()
	main.exit()

	return options

	def initOptions( self, options ):
	'''
	This will initialize the commandline options.
	'''
	options[ 'logdir' ] = None
	options[ 'mail' ] = None
	options[ 'example' ] = None
	options[ 'testdir' ] = None
	options[ 'testcases' ] = None
	options[ 'onoscell' ] = None
	# init params as a empty list
	options[ 'params' ] = []
	options[ 'paramsFile' ] = None
	options[ 'topoFile' ] = None
	return options

	def testcasesInRange( self, index, option, args, options ):
	'''
	This method will handle testcases list,specified in range [1-10].
	'''
	if re.match( "testcases", option, 1 ):
	testcases = []
	args[ index ] = re.sub( "\[\|\]", "", args[ index ], 0 )
	m = re.match( "(\d+)\-(\d+)", args[ index ], flags=0 )
	if m:
	start_case = eval( m.group( 1 ) )
	end_case = eval( m.group( 2 ) )
	if ( start_case <= end_case ):
	i = start_case
	while i <= end_case:
	testcases.append( i )
	i = i + 1
	else:
	print "Please specify testcases properly like 1-5"
	else:
	options[ option ] = args[ index ]
	return options
	options[ option ] = str( testcases )

	return options

	def cmdloop( self, intro=introduction ):
	print introduction
	while True:
	try:
	super( CLI, self ).cmdloop( intro="" )
	self.postloop()
	except KeyboardInterrupt:
	if testthread:
	testthread.pause()
	else:
	print "KeyboardInterrupt, Exiting."
	sys.exit()

	def do_echo( self, line ):
	'''
	Echoing of given input.
	'''
	output( line )

	def do_sh( self, line ):
	'''
	Run an external shell command
	sh pwd
	sh ifconfig etc.
	'''
	call( line, shell=True )

	def do_py( self, line ):
	'''
	Evaluate a Python expression.

	py main.log.info("Sample Log Information")
	2013-01-07 12:07:26,804 - PoxTest - INFO - Sample Log Information

	'''
	try:
	exec( line )
	except Exception as e:
	output( str( e ) + '\n' )

	def do_interpret( self, line ):
	'''
	interpret will translate the single line openspeak statement to equivalent python script.

	teston> interpret ASSERT result EQUALS main.TRUE ONPASS "Ping executed successfully" ONFAIL "Ping failed"
	utilities.assert_equals(expect=main.TRUE,actual=result,onpass="Ping executed successfully",onfail="Ping failed")

	'''
	from core import openspeak
	ospk = openspeak.OpenSpeak()
	try:
	translated_code = ospk.interpret( text=line )
	print translated_code
	except AttributeError as e:
	print 'Dynamic params are not allowed in single statement translations'

	def do_do( self, line ):
	'''
	Do will translate and execute the openspeak statement for the paused test.
	do <OpenSpeak statement>
	'''
	if testthread:
	from core import openspeak
	ospk = openspeak.OpenSpeak()
	try:
	translated_code = ospk.interpret( text=line )
	eval( translated_code )
	except ( AttributeError, SyntaxError ) as e:
	print 'Dynamic params are not allowed in single statement translations:'
	print e
	else:
	print "Do will translate and execute the openspeak statement for the paused test.\nPlease use interpret to translate the OpenSpeak statement."

	def do_compile( self, line ):
	'''
	compile will translate the openspeak (.ospk) file into TestON test script (python).
	It will receive the openspeak file path as input and will generate
	equivalent test-script file in the same directory.

	usage:
	-----
	teston>compile /home/openflow/TestON/PoxTest.ospk

	Auto-generated test-script file is /home/openflow/TestON/PoxTest.py
	'''
	from core import openspeak
	openspeak = openspeak.OpenSpeak()
	openspeakfile = line
	if os.path.exists( openspeakfile ):
	openspeak.compiler( openspeakfile=openspeakfile, writetofile=1 )
	print "Auto-generated test-script file is " + re.sub( "ospk", "py", openspeakfile, 0 )
	else:
	print 'There is no such file : ' + line

	def do_exit( self, _line ):
	"Exit"
	if testthread:
	testthread.stop()

	sys.exit()

	return 'exited by user command'

	def do_quit( self, line ):
	"Exit"
	return self.do_exit( line )

	def do_EOF( self, line ):
	"Exit"
	output( '\n' )
	return self.do_exit( line )

	def isatty( self ):
	"Is our standard input a tty?"
	return isatty( self.stdin.fileno() )

	def do_source( self, line ):
	'''
	Read shell commands from an input file and execute them sequentially.
	cmdsource.txt :

	"pwd
	ls "

	teston>source /home/openflow/cmdsource.txt
	/home/openflow/TestON/bin/
	cli.py __init__.py

	'''

	args = line.split()
	if len( args ) != 1:
	error( 'usage: source <file>\n' )
	return
	try:
	self.inputFile = open( args[ 0 ] )
	while True:
	line = self.inputFile.readline()
	if len( line ) > 0:
	call( line, shell=True )
	else:
	break
	except IOError:
	error( 'error reading file %s\n' % args[ 0 ] )

	def do_time( self, line ):
	"Measure time taken for any command in TestON."
	start = time.time()
	self.onecmd( line )
	elapsed = time.time() - start
	self.stdout.write( "*** Elapsed time: %0.6f secs\n" % elapsed )

	def default( self, line ):
	"""Called on an input line when the command prefix is not recognized."""
	first, args, line = self.parseline( line )
	if not args:
	return
	if args and len( args ) > 0 and args[ -1 ] == '\n':
	args = args[:-1 ]
	rest = args.split( ' ' )

	error( '*** Unknown command: %s\n' % first )

	class TestThread( threading.Thread ):
	'''
	TestThread class will handle the test execution and will communicate with the thread in the do_run.
	'''
	def __init__( self, options ):
	self._stopevent = threading.Event()
	threading.Thread.__init__( self )
	self.is_stop = False
	self.options = options
	__builtin__.testthread = self

	def run( self ):
	'''
	Will execute the test.
	'''
	while not self.is_stop:
	if not self._stopevent.isSet():
	self.test_on = TestON( self.options )
	try:
	if self.test_on.init_result:
	result = self.test_on.run()
	if not self.is_stop:
	result = self.test_on.cleanup()
	self.is_stop = True
	except KeyboardInterrupt:
	print "Recevied Interrupt, cleaning-up the logs and drivers before exiting"
	result = self.test_on.cleanup()
	self.is_stop = True

	__builtin__.testthread = False

	def pause( self ):
	'''
	Will pause the test.
	'''
	if not cli.pause:
	print "Will pause the test's execution, after completion of this step.....\n\n\n\n"
	cli.pause = True
	self._stopevent.set()
	elif cli.pause and self.is_stop:
	print "KeyboardInterrupt, Exiting."
	self.test_on.exit()
	else:
	print "Recevied Interrupt, cleaning-up the logs and drivers before exiting"
	result = self.test_on.cleanup()
	self.is_stop = True

	def play( self ):
	'''
	Will resume the paused test.
	'''
	self._stopevent.clear()
	cli.pause = False

	def stop( self ):
	'''
	Will stop the test execution.
	'''

	print "Stopping the test"
	self.is_stop = True
	cli.stop = True
	__builtin__.testthread = False

	def output( msg ):
	'''
	Simply, print the message in console
	'''
	print msg

	def error( msg ):
	'''
	print the error message.
	'''
	print msg

	def dictToObj( dictionary ):
	'''
	This will facilitates the converting of the dictionary to the object.
	This method will help to send options as object format to the test.
	'''
	if isinstance( dictionary, list ):
	dictionary = [ dictToObj( x ) for x in dictionary ]
	if not isinstance( dictionary, dict ):
	return dictionary

	class Convert( object ):
	pass
	obj = Convert()
	for k in dictionary:
	obj.__dict__[ k ] = dictToObj( dictionary[ k ] )
	return obj


	if __name__ == '__main__':
	if len( sys.argv ) > 1:
	__builtin__.COLORS = True
	CLI( "test" ).onecmd( ' '.join( sys.argv[ 1: ] ) )
	else:
	__builtin__.COLORS = False
	CLI( "test" ).cmdloop()