blob: 263e95baf602d6ca8ea0013ddf60a06fcfb264d7 [file] [log] [blame]
# /usr/bin/env python
'''
Created on 07-Jan-2013
Modified 2015 by 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/>.
'''
import logging
import datetime
import re
import os
class Logger:
'''
Add continuous logs and reports of the test.
@author: Raghav Kashyap(raghavkashyap@paxterrasolutions.com)
'''
def _printHeader( self, main ):
'''
Log's header will be append to the Log file
'''
logmsg = "\n" + " " * 32 + "+----------------+\n" + "-" * 30 + " { Script And Files } " + "-" * 30 + "\n" + " " * 32 + "+----------------+\n"
logmsg = logmsg + "\n\tScript Log File : " + main.LogFileName + ""
logmsg = logmsg + "\n\tReport Log File : " + main.ReportFileName + ""
for component in main.componentDictionary.keys():
logmsg = logmsg + "\n\t" + component + " Session Log : " + main.logdir + "/" + component + ".session" + ""
logmsg = logmsg + "\n\tTest Script : " + main.testFile + ""
logmsg = logmsg + "\n\tTest Params : " + main.testDir + "/" + main.paramsFile + ""
logmsg = logmsg + "\n\tTopology : " + main.testDir + "/" + main.topoFile + ""
logmsg = logmsg + "\n" + " " * 30 + "+" + "-" * 18 + "+" + "\n" + "-" * 27 + " { Script Exec Params } " + "-" * 27 + "\n" + " " * 30 + "+" + "-" * 18 + "+\n"
values = "\n\t" + str( main.params )
values = re.sub( ",", "\n\t", values )
values = re.sub( "{", "\n\t", values )
values = re.sub( "}", "\n\t", values )
logmsg = logmsg + values
logmsg = logmsg + "\n\n" + " " * 31 + "+---------------+\n" + "-" * 29 + " { Components Used } " + "-" * 29 + "\n" + " " * 31 + "+---------------+\n"
component_list = []
component_list.append( None )
# Listing the components in the order of test_target component should be first.
if type( main.componentDictionary ) == dict:
for key in main.componentDictionary.keys():
if main.test_target == key:
component_list[ 0 ] = key + "-Test Target"
else:
component_list.append( key )
for index in range( len( component_list ) ):
if index == 0:
if component_list[ index ]:
logmsg += "\t" + component_list[ index ] + "\n"
elif index > 0:
logmsg += "\t" + str( component_list[ index ] ) + "\n"
logmsg = logmsg + "\n\n" + " " * 30 + "+--------+\n" + "-" * 28 + " { Topology } " + "-" * 28 + "\n" + " " * 30 + "+--------+\n"
values = "\n\t" + str( main.topology[ 'COMPONENT' ] )
values = re.sub( ",", "\n\t", values )
values = re.sub( "{", "\n\t", values )
values = re.sub( "}", "\n\t", values )
logmsg = logmsg + values
logmsg = logmsg + "\n" + "-" * 60 + "\n"
# enter into log file all headers
logfile = open( main.LogFileName, "w+" )
logfile.write( logmsg )
print logmsg
main.logHeader = logmsg
logfile.close()
# enter into report file all headers
main.reportFile = open( main.ReportFileName, "w+" )
main.reportFile.write( logmsg )
main.reportFile.close()
# Sumamry file header
currentTime = str( main.STARTTIME.strftime( "%d %b %Y %H:%M:%S" ) )
main.summaryFile = open( main.SummaryFileName, "w+" )
main.summaryFile.write( main.TEST + " at " + currentTime + "\n" )
main.summaryFile.close()
# wiki file header
currentTime = str( main.STARTTIME.strftime( "%d %b %Y %H:%M:%S" ) )
main.wikiFile = open( main.WikiFileName, "w+" )
main.wikiFile.write( main.TEST + " at " + currentTime + "<p></p>\n" )
main.wikiFile.close()
def initlog( self, main ):
'''
Initialise all the log handles.
'''
main._getTest()
main.STARTTIME = datetime.datetime.now()
currentTime = re.sub( "-|\s|:|\.", "_", str( main.STARTTIME.strftime( "%d %b %Y %H:%M:%S" ) ) )
if main.logdir:
main.logdir = main.logdir + "/" + main.TEST + "_" + currentTime
else:
main.logdir = main.logs_path + main.TEST + "_" + currentTime
os.mkdir( main.logdir )
main.LogFileName = main.logdir + "/" + main.TEST + "_" + str( currentTime ) + ".log"
main.ReportFileName = main.logdir + "/" + main.TEST + "_" + str( currentTime ) + ".rpt"
main.WikiFileName = main.logdir + "/" + main.TEST + "Wiki.txt"
main.SummaryFileName = main.logdir + "/" + main.TEST + "Summary.txt"
main.JenkinsCSV = main.logdir + "/" + main.TEST + ".csv"
main.resultFile = main.logdir + "/" + main.TEST + "Result.txt"
main.alarmFileName = main.logdir + "/" + main.TEST + "Alarm.txt"
main.TOTAL_TC_SUCCESS_PERCENT = 0
# Add log-level - Report
logging.addLevelName( 9, "REPORT" )
logging.addLevelName( 7, "EXACT" )
logging.addLevelName( 11, "CASE" )
logging.addLevelName( 12, "STEP" )
main.log = logging.getLogger( main.TEST )
def report( msg ):
'''
Will append the report message to the logs.
'''
main.log._log( 9, msg, "OpenFlowAutoMattion", "OFAutoMation" )
currentTime = datetime.datetime.now()
currentTime = currentTime.strftime( "%d %b %Y %H:%M:%S" )
newmsg = "\n[REPORT] " + "[" + str( currentTime ) + "] " + msg
print newmsg
main.reportFile = open( main.ReportFileName, "a+" )
main.reportFile.write( newmsg )
main.reportFile.close()
main.log.report = report
def summary( msg ):
'''
Will append the message to the txt file for the summary.
'''
main.log._log( 6, msg, "OpenFlowAutoMattion", "OFAutoMation" )
main.summaryFile = open( main.SummaryFileName, "a+" )
main.summaryFile.write( msg + "\n" )
main.summaryFile.close()
main.log.summary = summary
def wiki( msg ):
'''
Will append the message to the txt file for the wiki.
'''
main.log._log( 6, msg, "OpenFlowAutoMattion", "OFAutoMation" )
main.wikiFile = open( main.WikiFileName, "a+" )
main.wikiFile.write( msg + "\n" )
main.wikiFile.close()
main.log.wiki = wiki
def exact( exmsg ):
'''
Will append the raw formatted message to the logs
'''
main.log._log( 7, exmsg, "OpenFlowAutoMattion", "OFAutoMation" )
main.reportFile = open( main.ReportFileName, "a+" )
main.reportFile.write( exmsg )
main.reportFile.close()
logfile = open( main.LogFileName, "a" )
logfile.write( "\n" + str( exmsg ) + "\n" )
logfile.close()
print exmsg
main.log.exact = exact
def case( msg ):
'''
Format of the case type log defined here.
'''
main.log._log( 9, msg, "OpenFlowAutoMattion", "OFAutoMation" )
currentTime = datetime.datetime.now()
newmsg = "[" + str( currentTime ) + "] " + "[" + main.TEST + "] " + "[CASE] " + msg
logfile = open( main.LogFileName, "a" )
logfile.write( "\n" + str( newmsg ) + "\n" )
logfile.close()
print newmsg
main.log.case = case
def step( msg ):
'''
Format of the step type log defined here.
'''
main.log._log( 9, msg, "OpenFlowAutoMattion", "OFAutoMation" )
currentTime = datetime.datetime.now()
newmsg = "[" + str( currentTime ) + "] " + "[" + main.TEST + "] " + "[STEP] " + msg
logfile = open( main.LogFileName, "a" )
logfile.write( "\n" + str( newmsg ) + "\n" )
logfile.close()
print newmsg
main.log.step = step
def alarm( msg ):
'''
Format of the alarm type log defined here.
'''
main.log._log( 6, msg, "OpenFlowAutoMattion", "OFAutoMation" )
main.alarmFile = open( main.alarmFileName, "a+" )
main.alarmFile.write( msg + "\n" )
main.alarmFile.close()
main.log.alarm = alarm
main.LogFileHandler = logging.FileHandler( main.LogFileName )
self._printHeader( main )
# initializing logging module and settig log level
main.log.setLevel( logging.INFO )
main.log.setLevel( logging.DEBUG ) # Temporary
main.LogFileHandler.setLevel( logging.INFO )
# create console handler with a higher log level
main.ConsoleHandler = logging.StreamHandler()
main.ConsoleHandler.setLevel( logging.INFO )
main.ConsoleHandler.setLevel( logging.DEBUG ) # Temporary
# create formatter and add it to the handlers
# formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
class MyFormatter( logging.Formatter ):
colors = { 'cyan': '\033[96m', 'purple': '\033[95m',
'blue': '\033[94m', 'green': '\033[92m',
'yellow': '\033[93m', 'red': '\033[91m',
'end': '\033[0m' }
FORMATS = { 'DEFAULT': '%(asctime)s - %(name)s - %(levelname)s - %(message)s' }
if COLORS: # NOTE:colors will only be loaded if command is run from one line
# IE: './cli.py run testname'
# This is to prevent issues with Jenkins parsing
# TODO: Make colors configurable
levels = { logging.ERROR: colors[ 'red' ] +
FORMATS[ 'DEFAULT' ] +
colors[ 'end' ],
logging.WARN: colors[ 'yellow' ] +
FORMATS[ 'DEFAULT' ] +
colors[ 'end' ],
logging.DEBUG: colors[ 'purple' ] +
FORMATS[ 'DEFAULT' ] +
colors[ 'end' ] }
FORMATS.update( levels )
def format( self, record ):
self._fmt = self.FORMATS.get( record.levelno,
self.FORMATS[ 'DEFAULT' ] )
return logging.Formatter.format( self, record )
formatter = MyFormatter()
main.ConsoleHandler.setFormatter( formatter )
main.LogFileHandler.setFormatter( formatter )
# add the handlers to logger
main.log.addHandler( main.ConsoleHandler )
main.log.addHandler( main.LogFileHandler )
def testSummary( self, main ):
'''
testSummary will take care about the Summary of test.
'''
main.ENDTIME = datetime.datetime.now()
main.EXECTIME = main.ENDTIME - main.STARTTIME
if ( main.TOTAL_TC_PASS == 0 ):
main.TOTAL_TC_SUCCESS_PERCENT = 0
else:
main.TOTAL_TC_SUCCESS_PERCENT = main.TOTAL_TC_PASS * 100 / main.TOTAL_TC_RUN
if ( main.TOTAL_TC_RUN == 0 ):
main.TOTAL_TC_EXECPERCENT = 0
else:
main.TOTAL_TC_EXECPERCENT = str( ( main.TOTAL_TC_RUN*100 )/main.TOTAL_TC_PLANNED )
testResult = "\n\n" + "*" * 37 + "\n" + "\tTest Execution Summary\n" + "\n" + "*" * 37 + " \n"
testResult = testResult + "\n Test Start : " + str( main.STARTTIME.strftime( "%d %b %Y %H:%M:%S" ) )
testResult = testResult + "\n Test End : " + str( main.ENDTIME.strftime( "%d %b %Y %H:%M:%S" ) )
testResult = testResult + "\n Execution Time : " + str( main.EXECTIME )
testResult = testResult + "\n Total Tests Planned : " + str( main.TOTAL_TC_PLANNED )
testResult = testResult + "\n Total Tests Run : " + str( main.TOTAL_TC_RUN )
testResult = testResult + "\n Total Pass : " + str( main.TOTAL_TC_PASS )
testResult = testResult + "\n Total Fail : " + str( main.TOTAL_TC_FAIL )
testResult = testResult + "\n Total No Result : " + str( main.TOTAL_TC_NORESULT )
testResult = testResult + "\n Success Percentage : " + str( main.TOTAL_TC_SUCCESS_PERCENT ) + "%"
testResult = testResult + "\n Execution Percentage : " + str( main.TOTAL_TC_EXECPERCENT ) + "%\n"
if main.failedCase:
testResult = testResult + "\n Case Failed : " + str( main.failedCase )
if main.noResultCase:
testResult = testResult + "\n Case NoResult : " + str( main.noResultCase )
testResult = testResult + "\n Case Executed : " + str( main.executedCase )
testResult = testResult + "\n Case Not Executed : " + str( main.leftCase )
# main.log.report(testResult)
main.testResult = testResult
main.log.exact( testResult )
# Write to alarm log if Success Percentage is lower than expected
if 'ALARM' in main.params.keys() and 'minPassPercent' in main.params[ 'ALARM' ].keys():
minPassPercent = int( main.params[ 'ALARM' ][ 'minPassPercent' ] )
if main.TOTAL_TC_SUCCESS_PERCENT < minPassPercent:
main.log.alarm( 'Success percentage: {}% < {}%'.format( main.TOTAL_TC_SUCCESS_PERCENT, minPassPercent ) )
# CSV output needed for Jenkin's plot plugin
# NOTE: the elements were orded based on the colors assigned to the data
logfile = open( main.JenkinsCSV , "w" )
logfile.write( ",".join( [ 'Tests Failed', 'Tests Passed', 'Tests Planned' ] ) + "\n" )
logfile.write( ",".join( [ str( int( main.TOTAL_TC_FAIL ) ), str( int( main.TOTAL_TC_PASS ) ), str( int( main.TOTAL_TC_PLANNED ) ) ] ) + "\n" )
logfile.close()
executedStatus = open( main.resultFile, "w" )
if main.TOTAL_TC_FAIL == 0 and main.TOTAL_TC_NORESULT + main.TOTAL_TC_PASS == main.TOTAL_TC_PLANNED:
executedStatus.write( "1\n" )
else:
executedStatus.write( "0\n" )
executedStatus.write( "[Total]:" + str( main.TOTAL_TC_PLANNED ) + " [Executed]:" + str( main.TOTAL_TC_RUN ) + " [Failed]:" + str( main.TOTAL_TC_FAIL ) + "\n" )
executedStatus.close()
def updateCaseResults( self, main ):
'''
Update the case result based on the steps execution and asserting each step in the test-case
'''
case = str( main.CurrentTestCaseNumber )
currentResult = main.testCaseResult.get( case, 2 )
if currentResult == 2:
main.TOTAL_TC_RUN = main.TOTAL_TC_RUN + 1
main.TOTAL_TC_NORESULT = main.TOTAL_TC_NORESULT + 1
main.log.exact( "\n " + "*" * 29 + "\n" + "\n Result: No Assertion Called \n" + "*" * 29 + "\n" )
line = "Case " + case + ": " + main.CurrentTestCase + " - No Result"
elif currentResult == 1:
main.TOTAL_TC_RUN = main.TOTAL_TC_RUN + 1
main.TOTAL_TC_PASS = main.TOTAL_TC_PASS + 1
main.log.exact( "\n" + "*" * 29 + "\n Result: Pass \n" + "*" * 29 + "\n" )
line = "Case " + case + ": " + main.CurrentTestCase + " - PASS"
elif currentResult == 0:
main.TOTAL_TC_RUN = main.TOTAL_TC_RUN + 1
main.TOTAL_TC_FAIL = main.TOTAL_TC_FAIL + 1
main.log.exact( "\n" + "*" * 29 + "\n Result: Failed \n" + "*" * 29 + "\n" )
line = "Case " + case + ": " + main.CurrentTestCase + " - FAIL"
else:
main.log.error( " Unknown result of case " + case +
". Result was: " + currentResult )
line = "Case " + case + ": " + main.CurrentTestCase + " - ERROR"
main.log.wiki( "<h3>" + line + "</h3>" )
main.log.summary( line )