# -*- coding: utf-8 -*- # $Id: base.py 69111 2017-10-17 14:26:02Z vboxsync $ # pylint: disable=C0302 """ Base testdriver module. """ __copyright__ = \ """ Copyright (C) 2010-2017 Oracle Corporation This file is part of VirtualBox Open Source Edition (OSE), as available from http://www.virtualbox.org. This file is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License (GPL) as published by the Free Software Foundation, in version 2 as it comes in the "COPYING" file of the VirtualBox OSE distribution. VirtualBox OSE is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. The contents of this file may alternatively be used under the terms of the Common Development and Distribution License Version 1.0 (CDDL) only, as it comes in the "COPYING.CDDL" file of the VirtualBox OSE distribution, in which case the provisions of the CDDL are applicable instead of those of the GPL. You may elect to license modified versions of this file under the terms and conditions of either the GPL or the CDDL or both. """ __version__ = "$Revision: 69111 $" # Standard Python imports. import os import os.path import signal import socket import stat import subprocess import sys import time import thread import threading import traceback import tempfile; import unittest; # Validation Kit imports. from common import utils; from common.constants import rtexitcode; from testdriver import reporter; if sys.platform == 'win32': from testdriver import winbase; # Figure where we are. try: __file__ except: __file__ = sys.argv[0]; g_ksValidationKitDir = os.path.dirname(os.path.dirname(os.path.abspath(__file__))); # # Some utility functions. # def exeSuff(): """ Returns the executable suffix. """ if os.name == 'nt' or os.name == 'os2': return '.exe'; return ''; def searchPath(sExecName): """ Searches the PATH for the specified executable name, returning the first existing file/directory/whatever. The return is abspath'ed. """ sSuff = exeSuff(); sPath = os.getenv('PATH', os.getenv('Path', os.path.defpath)); aPaths = sPath.split(os.path.pathsep) for sDir in aPaths: sFullExecName = os.path.join(sDir, sExecName); if os.path.exists(sFullExecName): return os.path.abspath(sFullExecName); sFullExecName += sSuff; if os.path.exists(sFullExecName): return os.path.abspath(sFullExecName); return sExecName; def getEnv(sVar, sLocalAlternative = None): """ Tries to get an environment variable, optionally with a local run alternative. Will raise an exception if sLocalAlternative is None and the variable is empty or missing. """ try: sVal = os.environ.get(sVar, None); if sVal is None: raise GenError('environment variable "%s" is missing' % (sVar)); if sVal == "": raise GenError('environment variable "%s" is empty' % (sVar)); except: if sLocalAlternative is None or not reporter.isLocal(): raise sVal = sLocalAlternative; return sVal; def getDirEnv(sVar, sAlternative = None, fLocalReq = False, fTryCreate = False): """ Tries to get an environment variable specifying a directory path. Resolves it into an absolute path and verifies its existance before returning it. If the environment variable is empty or isn't set, or if the directory doesn't exist or isn't a directory, sAlternative is returned instead. If sAlternative is None, then we'll raise a GenError. For local runs we'll only do this if fLocalReq is True. """ assert sAlternative is None or fTryCreate is False; try: sVal = os.environ.get(sVar, None); if sVal is None: raise GenError('environment variable "%s" is missing' % (sVar)); if sVal == "": raise GenError('environment variable "%s" is empty' % (sVar)); sVal = os.path.abspath(sVal); if not os.path.isdir(sVal): if not fTryCreate or os.path.exists(sVal): reporter.error('the value of env.var. "%s" is not a dir: "%s"' % (sVar, sVal)); raise GenError('the value of env.var. "%s" is not a dir: "%s"' % (sVar, sVal)); try: os.makedirs(sVal, 0700); except: reporter.error('makedirs failed on the value of env.var. "%s": "%s"' % (sVar, sVal)); raise GenError('makedirs failed on the value of env.var. "%s": "%s"' % (sVar, sVal)); except: if sAlternative is None: if reporter.isLocal() and fLocalReq: raise; sVal = None; else: sVal = os.path.abspath(sAlternative); return sVal; def timestampMilli(): """ Gets a millisecond timestamp. """ if sys.platform == 'win32': return long(time.clock() * 1000); return long(time.time() * 1000); def timestampNano(): """ Gets a nanosecond timestamp. """ if sys.platform == 'win32': return long(time.clock() * 1000000000); return long(time.time() * 1000000000); def tryGetHostByName(sName): """ Wrapper around gethostbyname. """ if sName is not None: try: sIpAddr = socket.gethostbyname(sName); except: reporter.errorXcpt('gethostbyname(%s)' % (sName)); else: if sIpAddr != '0.0.0.0': sName = sIpAddr; else: reporter.error('gethostbyname(%s) -> %s' % (sName, sIpAddr)); return sName; def __processSudoKill(uPid, iSignal, fSudo): """ Does the sudo kill -signal pid thing if fSudo is true, else uses os.kill. """ try: if fSudo: return utils.sudoProcessCall(['/bin/kill', '-%s' % (iSignal,), str(uPid)]) == 0; os.kill(uPid, iSignal); return True; except: reporter.logXcpt('uPid=%s' % (uPid,)); return False; def processInterrupt(uPid, fSudo = False): """ Sends a SIGINT or equivalent to interrupt the specified process. Returns True on success, False on failure. On Windows hosts this may not work unless the process happens to be a process group leader. """ if sys.platform == 'win32': fRc = winbase.processInterrupt(uPid) else: fRc = __processSudoKill(uPid, signal.SIGINT, fSudo); return fRc; def sendUserSignal1(uPid, fSudo = False): """ Sends a SIGUSR1 or equivalent to nudge the process into shutting down (VBoxSVC) or something. Returns True on success, False on failure or if not supported (win). On Windows hosts this may not work unless the process happens to be a process group leader. """ if sys.platform == 'win32': fRc = False; else: fRc = __processSudoKill(uPid, signal.SIGUSR1, fSudo); # pylint: disable=E1101 return fRc; def processTerminate(uPid, fSudo = False): """ Terminates the process in a nice manner (SIGTERM or equivalent). Returns True on success, False on failure (logged). """ fRc = False; if sys.platform == 'win32': fRc = winbase.processTerminate(uPid); else: fRc = __processSudoKill(uPid, signal.SIGTERM, fSudo); return fRc; def processKill(uPid, fSudo = False): """ Terminates the process with extreme prejudice (SIGKILL). Returns True on success, False on failure. """ fRc = False; if sys.platform == 'win32': fRc = winbase.processKill(uPid); else: fRc = __processSudoKill(uPid, signal.SIGKILL, fSudo); # pylint: disable=E1101 return fRc; def processKillWithNameCheck(uPid, sName): """ Like processKill(), but checks if the process name matches before killing it. This is intended for killing using potentially stale pid values. Returns True on success, False on failure. """ if processCheckPidAndName(uPid, sName) is not True: return False; return processKill(uPid); def processExists(uPid): """ Checks if the specified process exits. This will only work if we can signal/open the process. Returns True if it positively exists, False otherwise. """ if sys.platform == 'win32': fRc = winbase.processExists(uPid); else: try: os.kill(uPid, 0); fRc = True; except: reporter.logXcpt('uPid=%s' % (uPid,)); fRc = False; return fRc; def processCheckPidAndName(uPid, sName): """ Checks if a process PID and NAME matches. """ if sys.platform == 'win32': fRc = winbase.processCheckPidAndName(uPid, sName); else: if sys.platform in ('linux2', ): asPsCmd = ['/bin/ps', '-p', '%u' % (uPid,), '-o', 'fname=']; elif sys.platform in ('sunos5',): asPsCmd = ['/usr/bin/ps', '-p', '%u' % (uPid,), '-o', 'fname=']; elif sys.platform in ('darwin',): asPsCmd = ['/bin/ps', '-p', '%u' % (uPid,), '-o', 'ucomm=']; else: asPsCmd = None; if asPsCmd is not None: try: oPs = subprocess.Popen(asPsCmd, stdout=subprocess.PIPE); sCurName = oPs.communicate()[0]; iExitCode = oPs.wait(); except: reporter.logXcpt(); return False; # ps fails with non-zero exit code if the pid wasn't found. if iExitCode is not 0: return False; if sCurName is None: return False; sCurName = sCurName.strip(); if sCurName == '': return False; if os.path.basename(sName) == sName: sCurName = os.path.basename(sCurName); elif os.path.basename(sCurName) == sCurName: sName = os.path.basename(sName); if sCurName != sName: return False; fRc = True; return fRc; # # Classes # class GenError(Exception): """ Exception class which only purpose it is to allow us to only catch our own exceptions. Better design later. """ def __init__(self, sWhat = "whatever"): Exception.__init__(self); self.sWhat = sWhat def str(self): """Get the message string.""" return self.sWhat; class InvalidOption(GenError): """ Exception thrown by TestDriverBase.parseOption(). It contains the error message. """ def __init__(self, sWhat): GenError.__init__(self, sWhat); class QuietInvalidOption(GenError): """ Exception thrown by TestDriverBase.parseOption(). Error already printed, just return failure. """ def __init__(self): GenError.__init__(self, ""); class TdTaskBase(object): """ The base task. """ def __init__(self, sCaller): self.sDbgCreated = '%s: %s' % (utils.getTimePrefix(), sCaller); self.fSignalled = False; self.__oRLock = threading.RLock(); self.oCv = threading.Condition(self.__oRLock); self.oOwner = None; self.msStart = timestampMilli(); self.oLocker = None; def __del__(self): """In case we need it later on.""" pass; def toString(self): """ Stringifies the object, mostly as a debug aid. """ return '<%s: fSignalled=%s, __oRLock=%s, oCv=%s, oOwner=%s, oLocker=%s, msStart=%s, sDbgCreated=%s>' \ % (type(self).__name__, self.fSignalled, self.__oRLock, self.oCv, repr(self.oOwner), self.oLocker, self.msStart, self.sDbgCreated,); def __str__(self): return self.toString(); def lockTask(self): """ Wrapper around oCv.acquire(). """ if True is True: # change to False for debugging deadlocks. self.oCv.acquire(); else: msStartWait = timestampMilli(); while self.oCv.acquire(0) is False: if timestampMilli() - msStartWait > 30*1000: reporter.error('!!! timed out waiting for %s' % (self, )); traceback.print_stack(); reporter.logAllStacks() self.oCv.acquire(); break; time.sleep(0.5); self.oLocker = thread.get_ident() return None; def unlockTask(self): """ Wrapper around oCv.release(). """ self.oLocker = None; self.oCv.release(); return None; def getAgeAsMs(self): """ Returns the number of milliseconds the task has existed. """ return timestampMilli() - self.msStart; def setTaskOwner(self, oOwner): """ Sets or clears the task owner. (oOwner can be None.) Returns the previous owner, this means None if not owned. """ self.lockTask(); oOldOwner = self.oOwner; self.oOwner = oOwner; self.unlockTask(); return oOldOwner; def signalTaskLocked(self): """ Variant of signalTask that can be called while owning the lock. """ fOld = self.fSignalled; if not fOld: reporter.log2('signalTaskLocked(%s)' % (self,)); self.fSignalled = True; self.oCv.notifyAll() if self.oOwner is not None: self.oOwner.notifyAboutReadyTask(self); return fOld; def signalTask(self): """ Signals the task, internal use only. Returns the previous state. """ self.lockTask(); fOld = self.signalTaskLocked(); self.unlockTask(); return fOld def resetTaskLocked(self): """ Variant of resetTask that can be called while owning the lock. """ fOld = self.fSignalled; self.fSignalled = False; return fOld; def resetTask(self): """ Resets the task signal, internal use only. Returns the previous state. """ self.lockTask(); fOld = self.resetTaskLocked(); self.unlockTask(); return fOld def pollTask(self, fLocked = False): """ Poll the signal status of the task. Returns True if signalled, False if not. Override this method. """ if not fLocked: self.lockTask(); fState = self.fSignalled; if not fLocked: self.unlockTask(); return fState def waitForTask(self, cMsTimeout = 0): """ Waits for the task to be signalled. Returns True if the task is/became ready before the timeout expired. Returns False if the task is still not after cMsTimeout have elapsed. Overriable. """ self.lockTask(); fState = self.pollTask(True); if not fState: # Don't wait more than 1s. This allow lazy state polling. msStart = timestampMilli(); while not fState: cMsElapsed = timestampMilli() - msStart; if cMsElapsed >= cMsTimeout: break; cMsWait = cMsTimeout - cMsElapsed if cMsWait > 1000: cMsWait = 1000; try: self.oCv.wait(cMsWait / 1000.0); except: pass; reporter.doPollWork('TdTaskBase.waitForTask'); fState = self.pollTask(True); self.unlockTask(); return fState; class Process(TdTaskBase): """ Child Process. """ def __init__(self, sName, asArgs, uPid, hWin = None, uTid = None): TdTaskBase.__init__(self, utils.getCallerName()); self.sName = sName; self.asArgs = asArgs; self.uExitCode = -127; self.uPid = uPid; self.hWin = hWin; self.uTid = uTid; self.sKindCrashReport = None; self.sKindCrashDump = None; def toString(self): return '<%s uExitcode=%s, uPid=%s, sName=%s, asArgs=%s, hWin=%s, uTid=%s>' \ % (TdTaskBase.toString(self), self.uExitCode, self.uPid, self.sName, self.asArgs, self.hWin, self.uTid); # # Instantiation methods. # @staticmethod def spawn(sName, *asArgsIn): """ Similar to os.spawnl(os.P_NOWAIT,). """ # Make argument array (can probably use asArgsIn directly, but wtf). asArgs = []; for sArg in asArgsIn: asArgs.append(sArg); # Special case: Windows. if sys.platform == 'win32': (uPid, hProcess, uTid) = winbase.processCreate(searchPath(sName), asArgs); if uPid == -1: return None; return Process(sName, asArgs, uPid, hProcess, uTid); # Unixy. try: uPid = os.spawnv(os.P_NOWAIT, sName, asArgs); except: reporter.logXcpt('sName=%s' % (sName,)); return None; return Process(sName, asArgs, uPid); @staticmethod def spawnp(sName, *asArgsIn): """ Similar to os.spawnlp(os.P_NOWAIT,). """ return Process.spawn(searchPath(sName), *asArgsIn); # # Task methods # def pollTask(self, fLocked = False): """ Overridden pollTask method. """ if not fLocked: self.lockTask(); fRc = self.fSignalled; if not fRc: if sys.platform == 'win32': if winbase.processPollByHandle(self.hWin): try: (uPid, uStatus) = os.waitpid(self.hWin, 0); if uPid == self.hWin or uPid == self.uPid: self.hWin = None; # waitpid closed it, so it's now invalid. uPid = self.uPid; except: reporter.logXcpt(); uPid = self.uPid; uStatus = 0xffffffff; else: uPid = 0; uStatus = 0; # pylint: disable=redefined-variable-type else: try: (uPid, uStatus) = os.waitpid(self.uPid, os.WNOHANG); # pylint: disable=E1101 except: reporter.logXcpt(); uPid = self.uPid; uStatus = 0xffffffff; # Got anything? if uPid == self.uPid: self.uExitCode = uStatus; reporter.log('Process %u -> %u (%#x)' % (uPid, uStatus, uStatus)); self.signalTaskLocked(); if self.uExitCode != 0 and (self.sKindCrashReport is not None or self.sKindCrashDump is not None): reporter.error('Process "%s" returned/crashed with a non-zero status code!! rc=%u sig=%u%s (raw=%#x)' % ( self.sName, self.uExitCode >> 8, self.uExitCode & 0x7f, ' w/ core' if self.uExitCode & 0x80 else '', self.uExitCode)) utils.processCollectCrashInfo(self.uPid, reporter.log, self._addCrashFile); fRc = self.fSignalled; if not fLocked: self.unlockTask(); return fRc; def _addCrashFile(self, sFile, fBinary): """ Helper for adding a crash report or dump to the test report. """ sKind = self.sKindCrashDump if fBinary else self.sKindCrashReport; if sKind is not None: reporter.addLogFile(sFile, sKind); return None; # # Methods # def enableCrashReporting(self, sKindCrashReport, sKindCrashDump): """ Enabling (or disables) automatic crash reporting on systems where that is possible. The two file kind parameters are on the form 'crash/log/client' and 'crash/dump/client'. If both are None, reporting will be disabled. """ self.sKindCrashReport = sKindCrashReport; self.sKindCrashDump = sKindCrashDump; return True; def isRunning(self): """ Returns True if the process is still running, False if not. """ return not self.pollTask(); def wait(self, cMsTimeout = 0): """ Wait for the process to exit. Returns True if the process exited withint the specified wait period. Returns False if still running. """ return self.waitForTask(cMsTimeout); def getExitCode(self): """ Returns the exit code of the process. The process must have exited or the result will be wrong. """ if self.isRunning(): return -127; return self.uExitCode >> 8; def interrupt(self): """ Sends a SIGINT or equivalent to interrupt the process. Returns True on success, False on failure. On Windows hosts this may not work unless the process happens to be a process group leader. """ if sys.platform == 'win32': return winbase.postThreadMesssageQuit(self.uTid); return processInterrupt(self.uPid); def sendUserSignal1(self): """ Sends a SIGUSR1 or equivalent to nudge the process into shutting down (VBoxSVC) or something. Returns True on success, False on failure. On Windows hosts this may not work unless the process happens to be a process group leader. """ #if sys.platform == 'win32': # return winbase.postThreadMesssageClose(self.uTid); return sendUserSignal1(self.uPid); def terminate(self): """ Terminates the process in a nice manner (SIGTERM or equivalent). Returns True on success, False on failure (logged). """ if sys.platform == 'win32': return winbase.processTerminateByHandle(self.hWin); return processTerminate(self.uPid); def getPid(self): """ Returns the process id. """ return self.uPid; class SubTestDriverBase(object): """ The base sub-test driver. It helps thinking of these as units/sets/groups of tests, where the test cases are (mostly) realized in python. The sub-test drivers are subordinates of one or more test drivers. They can be viewed as test code libraries that is responsible for parts of a test driver run in different setups. One example would be testing a guest additions component, which is applicable both to freshly installed guest additions and VMs with old guest. The test drivers invokes the sub-test drivers in a private manner during test execution, but some of the generic bits are done automagically by the base class: options, help, various other actions. """ def __init__(self, sName, oTstDrv): self.sName = sName; self.oTstDrv = oTstDrv; def showUsage(self): """ Show usage information if any. The default implementation only prints the name. """ reporter.log(''); reporter.log('Options for sub-test driver %s:' % (self.sName,)); return True; def parseOption(self, asArgs, iArg): """ Parse an option. Override this. @param asArgs The argument vector. @param iArg The index of the current argument. @returns The index of the next argument if consumed, @a iArg if not. @throws InvalidOption or QuietInvalidOption on syntax error or similar. """ _ = asArgs; return iArg; class TestDriverBase(object): # pylint: disable=R0902 """ The base test driver. """ def __init__(self): self.fInterrupted = False; # Actions. self.asSpecialActions = ['extract', 'abort']; self.asNormalActions = ['cleanup-before', 'verify', 'config', 'execute', 'cleanup-after' ]; self.asActions = []; self.sExtractDstPath = None; # Options. self.fNoWipeClean = False; # Tasks - only accessed by one thread atm, so no need for locking. self.aoTasks = []; # Host info. self.sHost = utils.getHostOs(); self.sHostArch = utils.getHostArch(); # # Get our bearings and adjust the environment. # if not utils.isRunningFromCheckout(): self.sBinPath = os.path.join(g_ksValidationKitDir, utils.getHostOs(), utils.getHostArch()); else: self.sBinPath = os.path.join(g_ksValidationKitDir, os.pardir, os.pardir, os.pardir, 'out', utils.getHostOsDotArch(), os.environ.get('KBUILD_TYPE', os.environ.get('BUILD_TYPE', 'debug')), 'validationkit', utils.getHostOs(), utils.getHostArch()); self.sOrgShell = os.environ.get('SHELL'); self.sOurShell = os.path.join(self.sBinPath, 'vts_shell' + exeSuff()); # No shell yet. os.environ['SHELL'] = self.sOurShell; self.sScriptPath = getDirEnv('TESTBOX_PATH_SCRIPTS'); if self.sScriptPath is None: self.sScriptPath = os.path.abspath(os.path.join(os.getcwd(), '..')); os.environ['TESTBOX_PATH_SCRIPTS'] = self.sScriptPath; self.sScratchPath = getDirEnv('TESTBOX_PATH_SCRATCH', fTryCreate = True); if self.sScratchPath is None: sTmpDir = tempfile.gettempdir(); if sTmpDir == '/tmp': # /var/tmp is generally more suitable on all platforms. sTmpDir = '/var/tmp'; self.sScratchPath = os.path.abspath(os.path.join(sTmpDir, 'VBoxTestTmp')); if not os.path.isdir(self.sScratchPath): os.makedirs(self.sScratchPath, 0700); os.environ['TESTBOX_PATH_SCRATCH'] = self.sScratchPath; self.sTestBoxName = getEnv( 'TESTBOX_NAME', 'local'); self.sTestSetId = getEnv( 'TESTBOX_TEST_SET_ID', 'local'); self.sBuildPath = getDirEnv('TESTBOX_PATH_BUILDS'); self.sUploadPath = getDirEnv('TESTBOX_PATH_UPLOAD'); self.sResourcePath = getDirEnv('TESTBOX_PATH_RESOURCES'); if self.sResourcePath is None: if self.sHost == 'darwin': self.sResourcePath = "/Volumes/testrsrc/"; elif self.sHost == 'freebsd': self.sResourcePath = "/mnt/testrsrc/"; elif self.sHost == 'linux': self.sResourcePath = "/mnt/testrsrc/"; elif self.sHost == 'os2': self.sResourcePath = "T:/"; elif self.sHost == 'solaris': self.sResourcePath = "/mnt/testrsrc/"; elif self.sHost == 'win': self.sResourcePath = "T:/"; else: raise GenError('unknown host OS "%s"' % (self.sHost)); # PID file for the testdriver. self.sPidFile = os.path.join(self.sScratchPath, 'testdriver.pid'); # Some stuff for the log... reporter.log('scratch: %s' % (self.sScratchPath,)); # Get the absolute timeout (seconds since epoch, see # utils.timestampSecond()). None if not available. self.secTimeoutAbs = os.environ.get('TESTBOX_TIMEOUT_ABS', None); if self.secTimeoutAbs is not None: self.secTimeoutAbs = long(self.secTimeoutAbs); reporter.log('secTimeoutAbs: %s' % (self.secTimeoutAbs,)); else: reporter.log('TESTBOX_TIMEOUT_ABS not found in the environment'); # Distance from secTimeoutAbs that timeouts should be adjusted to. self.secTimeoutFudge = 30; # List of sub-test drivers (SubTestDriverBase derivatives). self.aoSubTstDrvs = []; # Use the scratch path for temporary files. if self.sHost in ['win', 'os2']: os.environ['TMP'] = self.sScratchPath; os.environ['TEMP'] = self.sScratchPath; os.environ['TMPDIR'] = self.sScratchPath; os.environ['IPRT_TMPDIR'] = self.sScratchPath; # IPRT/VBox specific. def dump(self): """ For debugging. --> __str__? """ print >> sys.stderr, "testdriver.base: sBinPath = '%s'" % self.sBinPath; print >> sys.stderr, "testdriver.base: sScriptPath = '%s'" % self.sScriptPath; print >> sys.stderr, "testdriver.base: sScratchPath = '%s'" % self.sScratchPath; print >> sys.stderr, "testdriver.base: sTestBoxName = '%s'" % self.sTestBoxName; print >> sys.stderr, "testdriver.base: sBuildPath = '%s'" % self.sBuildPath; print >> sys.stderr, "testdriver.base: sResourcePath = '%s'" % self.sResourcePath; print >> sys.stderr, "testdriver.base: sUploadPath = '%s'" % self.sUploadPath; print >> sys.stderr, "testdriver.base: sTestSetId = '%s'" % self.sTestSetId; print >> sys.stderr, "testdriver.base: sHost = '%s'" % self.sHost; print >> sys.stderr, "testdriver.base: sHostArch = '%s'" % self.sHostArch; print >> sys.stderr, "testdriver.base: asSpecialActions = '%s'" % self.asSpecialActions; print >> sys.stderr, "testdriver.base: asNormalActions = '%s'" % self.asNormalActions; print >> sys.stderr, "testdriver.base: asActions = '%s'" % self.asActions; print >> sys.stderr, "testdriver.base: secTimeoutAbs = '%s'" % self.secTimeoutAbs; for sVar in sorted(os.environ): print >> sys.stderr, "os.environ[%s] = '%s'" % (sVar, os.environ[sVar],); # # Resource utility methods. # def isResourceFile(self, sFile): """ Checks if sFile is in in the resource set. """ ## @todo need to deal with stuff in the validationkit.zip and similar. asRsrcs = self.getResourceSet(); if sFile in asRsrcs: return os.path.isfile(os.path.join(self.sResourcePath, sFile)); for sRsrc in asRsrcs: if sFile.startswith(sRsrc): sFull = os.path.join(self.sResourcePath, sRsrc); if os.path.isdir(sFull): return os.path.isfile(os.path.join(self.sResourcePath, sRsrc)); return False; def getFullResourceName(self, sName): """ Returns the full resource name. """ if os.path.isabs(sName): ## @todo Hack. Need to deal properly with stuff in the validationkit.zip and similar. return sName; return os.path.join(self.sResourcePath, sName); # # Scratch related utility methods. # def __wipeScratchRecurse(self, sDir): """ Deletes all file and sub-directories in sDir. Returns the number of errors. """ try: asNames = os.listdir(sDir); except: reporter.errorXcpt('os.listdir("%s")' % (sDir)); return False; cErrors = 0; for sName in asNames: # Build full path and lstat the object. sFullName = os.path.join(sDir, sName) try: oStat = os.lstat(sFullName); except: reporter.errorXcpt('lstat("%s")' % (sFullName)); cErrors = cErrors + 1; continue; if stat.S_ISDIR(oStat.st_mode): # Directory - recurse and try remove it. cErrors = cErrors + self.__wipeScratchRecurse(sFullName); try: os.rmdir(sFullName); except: reporter.errorXcpt('rmdir("%s")' % (sFullName)); cErrors = cErrors + 1; else: # File, symlink, fifo or something - remove/unlink. try: os.remove(sFullName); except: reporter.errorXcpt('remove("%s")' % (sFullName)); cErrors = cErrors + 1; return cErrors; def wipeScratch(self): """ Removes the content of the scratch directory. Returns True on no errors, False + log entries on errors. """ cErrors = self.__wipeScratchRecurse(self.sScratchPath); return cErrors == 0; # # Sub-test driver related methods. # def addSubTestDriver(self, oSubTstDrv): """ Adds a sub-test driver. Returns True on success, false on failure. """ assert isinstance(oSubTstDrv, SubTestDriverBase); if oSubTstDrv in self.aoSubTstDrvs: reporter.error('Attempt at adding sub-test driver %s twice.' % (oSubTstDrv.sName,)); return False; self.aoSubTstDrvs.append(oSubTstDrv); return True; def showSubTstDrvUsage(self): """ Shows the usage of the sub-test drivers. """ for oSubTstDrv in self.aoSubTstDrvs: oSubTstDrv.showUsage(); return True; def subTstDrvParseOption(self, asArgs, iArgs): """ Lets the sub-test drivers have a go at the option. Returns the index of the next option if handled, otherwise iArgs. """ for oSubTstDrv in self.aoSubTstDrvs: iNext = oSubTstDrv.parseOption(asArgs, iArgs) if iNext != iArgs: assert iNext > iArgs; assert iNext <= len(asArgs); return iNext; return iArgs; # # Task related methods. # def addTask(self, oTask): """ Adds oTask to the task list. Returns True if the task was added. Returns False if the task was already in the task list. """ if oTask in self.aoTasks: return False; #reporter.log2('adding task %s' % (oTask,)); self.aoTasks.append(oTask); oTask.setTaskOwner(self); #reporter.log2('tasks now in list: %d - %s' % (len(self.aoTasks), self.aoTasks)); return True; def removeTask(self, oTask): """ Removes oTask to the task list. Returns oTask on success and None on failure. """ try: #reporter.log2('removing task %s' % (oTask,)); self.aoTasks.remove(oTask); except: return None; else: oTask.setTaskOwner(None); #reporter.log2('tasks left: %d - %s' % (len(self.aoTasks), self.aoTasks)); return oTask; def removeAllTasks(self): """ Removes all the task from the task list. Returns None. """ aoTasks = self.aoTasks; self.aoTasks = []; for oTask in aoTasks: oTask.setTaskOwner(None); return None; def notifyAboutReadyTask(self, oTask): """ Notificiation that there is a ready task. May be called owning the task lock, so be careful wrt deadlocks. Remember to call super when overriding this. """ if oTask is None: pass; # lint return None; def pollTasks(self): """ Polls the task to see if any of them are ready. Returns the ready task, None if none are ready. """ for oTask in self.aoTasks: if oTask.pollTask(): return oTask; return None; def waitForTasksSleepWorker(self, cMsTimeout): """ Overriable method that does the sleeping for waitForTask(). cMsTimeout will not be larger than 1000, so there is normally no need to do any additional splitting up of the polling interval. Returns True if cMillieSecs elapsed. Returns False if some exception was raised while we waited or there turned out to be nothing to wait on. """ try: self.aoTasks[0].waitForTask(cMsTimeout); return True; except Exception, oXcpt: reporter.log("waitForTasksSleepWorker: %s" % (str(oXcpt),)); return False; def waitForTasks(self, cMsTimeout): """ Waits for any of the tasks to require attention or a KeyboardInterrupt. Returns the ready task on success, None on timeout or interrupt. """ try: #reporter.log2('waitForTasks: cMsTimeout=%d' % (cMsTimeout,)); if cMsTimeout == 0: return self.pollTasks(); if not self.aoTasks: return None; fMore = True; if cMsTimeout < 0: while fMore: oTask = self.pollTasks(); if oTask is not None: return oTask; fMore = self.waitForTasksSleepWorker(1000); else: msStart = timestampMilli(); while fMore: oTask = self.pollTasks(); if oTask is not None: #reporter.log2('waitForTasks: returning %s, msStart=%d' % \ # (oTask, msStart)); return oTask; cMsElapsed = timestampMilli() - msStart; if cMsElapsed > cMsTimeout: # not ==, we want the final waitForEvents. break; cMsSleep = cMsTimeout - cMsElapsed; if cMsSleep > 1000: cMsSleep = 1000; fMore = self.waitForTasksSleepWorker(cMsSleep); except KeyboardInterrupt: self.fInterrupted = True; reporter.errorXcpt('KeyboardInterrupt', 6); except: reporter.errorXcpt(None, 6); return None; # # PID file management methods. # def pidFileRead(self): """ Worker that reads the PID file. Returns dictionary of PID with value (sName, fSudo), empty if no file. """ dPids = {}; if os.path.isfile(self.sPidFile): try: oFile = utils.openNoInherit(self.sPidFile, 'r'); sContent = str(oFile.read()); oFile.close(); except: reporter.errorXcpt(); return dPids; sContent = str(sContent).strip().replace('\n', ' ').replace('\r', ' ').replace('\t', ' '); for sProcess in sContent.split(' '): asFields = sProcess.split(':'); if len(asFields) == 3 and asFields[0].isdigit(): try: dPids[int(asFields[0])] = (asFields[2], asFields[1] == 'sudo'); except: reporter.logXcpt('sProcess=%s' % (sProcess,)); else: reporter.log('%s: "%s"' % (self.sPidFile, sProcess)); return dPids; def pidFileAdd(self, iPid, sName, fSudo = False): """ Adds a PID to the PID file, creating the file if necessary. """ try: oFile = utils.openNoInherit(self.sPidFile, 'a'); oFile.write('%s:%s:%s\n' % ( iPid, 'sudo' if fSudo else 'normal', sName.replace(' ', '_').replace(':','_').replace('\n','_').replace('\r','_').replace('\t','_'),)); oFile.close(); except: reporter.errorXcpt(); return False; ## @todo s/log/log2/ reporter.log('pidFileAdd: added %s (%#x) %s fSudo=%s (new content: %s)' % (iPid, iPid, sName, fSudo, self.pidFileRead(),)); return True; def pidFileRemove(self, iPid, fQuiet = False): """ Removes a PID from the PID file. """ dPids = self.pidFileRead(); if iPid not in dPids: if not fQuiet: reporter.log('pidFileRemove could not find %s in the PID file (content: %s)' % (iPid, dPids)); return False; sName = dPids[iPid][0]; del dPids[iPid]; sPid = ''; for iPid2 in dPids: sPid += '%s:%s:%s\n' % (iPid2, 'sudo' if dPids[iPid2][1] else 'normal', dPids[iPid2][0]); try: oFile = utils.openNoInherit(self.sPidFile, 'w'); oFile.write(sPid); oFile.close(); except: reporter.errorXcpt(); return False; ## @todo s/log/log2/ reporter.log('pidFileRemove: removed PID %d [%s] (new content: %s)' % (iPid, sName, self.pidFileRead(),)); return True; def pidFileDelete(self): """Creates the testdriver PID file.""" if os.path.isfile(self.sPidFile): try: os.unlink(self.sPidFile); except: reporter.logXcpt(); return False; ## @todo s/log/log2/ reporter.log('pidFileDelete: deleted "%s"' % (self.sPidFile,)); return True; # # Misc helper methods. # def requireMoreArgs(self, cMinNeeded, asArgs, iArg): """ Checks that asArgs has at least cMinNeeded args following iArg. Returns iArg + 1 if it checks out fine. Raise appropritate exception if not, ASSUMING that the current argument is found at iArg. """ assert cMinNeeded >= 1; if iArg + cMinNeeded > len(asArgs): if cMinNeeded > 1: raise InvalidOption('The "%s" option takes %s values' % (asArgs[iArg], cMinNeeded,)); raise InvalidOption('The "%s" option takes 1 value' % (asArgs[iArg],)); return iArg + 1; def getBinTool(self, sName): """ Returns the full path to the given binary validation kit tool. """ return os.path.join(self.sBinPath, sName) + exeSuff(); def adjustTimeoutMs(self, cMsTimeout, cMsMinimum = None): """ Adjusts the given timeout (milliseconds) to take TESTBOX_TIMEOUT_ABS and cMsMinimum (optional) into account. Returns adjusted timeout. Raises no exceptions. """ if self.secTimeoutAbs is not None: cMsToDeadline = self.secTimeoutAbs * 1000 - utils.timestampMilli(); if cMsToDeadline >= 0: # Adjust for fudge and enforce the minimum timeout cMsToDeadline -= self.secTimeoutFudge * 1000; if cMsToDeadline < (cMsMinimum if cMsMinimum is not None else 10000): cMsToDeadline = cMsMinimum if cMsMinimum is not None else 10000; # Is the timeout beyond the (adjusted) deadline, if so change it. if cMsTimeout > cMsToDeadline: reporter.log('adjusting timeout: %s ms -> %s ms (deadline)\n' % (cMsTimeout, cMsToDeadline,)); return cMsToDeadline; reporter.log('adjustTimeoutMs: cMsTimeout (%s) > cMsToDeadline (%s)' % (cMsTimeout, cMsToDeadline,)); else: # Don't bother, we've passed the deadline. reporter.log('adjustTimeoutMs: ooops! cMsToDeadline=%s (%s), timestampMilli()=%s, timestampSecond()=%s' % (cMsToDeadline, cMsToDeadline*1000, utils.timestampMilli(), utils.timestampSecond())); # Only enforce the minimum timeout if specified. if cMsMinimum is not None and cMsTimeout < cMsMinimum: reporter.log('adjusting timeout: %s ms -> %s ms (minimum)\n' % (cMsTimeout, cMsMinimum,)); cMsTimeout = cMsMinimum; return cMsTimeout; def prepareResultFile(self, sName = 'results.xml'): """ Given a base name (no path, but extension if required), a scratch file name is computed and any previous file removed. Returns the full path to the file sName. Raises exception on failure. """ sXmlFile = os.path.join(self.sScratchPath, sName); if os.path.exists(sXmlFile): os.unlink(sXmlFile); return sXmlFile; # # Overridable methods. # def showUsage(self): """ Shows the usage. When overriding this, call super first. """ sName = os.path.basename(sys.argv[0]); reporter.log('Usage: %s [options] ' % (sName,)); reporter.log(''); reporter.log('Actions (in execution order):'); reporter.log(' cleanup-before'); reporter.log(' Cleanups done at the start of testing.'); reporter.log(' verify'); reporter.log(' Verify that all necessary resources are present.'); reporter.log(' config'); reporter.log(' Configure the tests.'); reporter.log(' execute'); reporter.log(' Execute the tests.'); reporter.log(' cleanup-after'); reporter.log(' Cleanups done at the end of the testing.'); reporter.log(''); reporter.log('Special Actions:'); reporter.log(' all'); reporter.log(' Alias for: %s' % (' '.join(self.asNormalActions),)); reporter.log(' extract '); reporter.log(' Extract the test resources and put them in the specified'); reporter.log(' path for off side/line testing.'); reporter.log(' abort'); reporter.log(' Aborts the test.'); reporter.log(''); reporter.log('Base Options:'); reporter.log(' -h, --help'); reporter.log(' Show this help message.'); reporter.log(' -v, --verbose'); reporter.log(' Increase logging verbosity, repeat for more logging.'); reporter.log(' -d, --debug'); reporter.log(' Increase the debug logging level, repeat for more info.'); reporter.log(' --no-wipe-clean'); reporter.log(' Do not wipe clean the scratch area during the two clean up'); reporter.log(' actions. This is for facilitating nested test driver execution.'); return True; def parseOption(self, asArgs, iArg): """ Parse an option. Override this. Keyword arguments: asArgs -- The argument vector. iArg -- The index of the current argument. Returns iArg if the option was not recognized. Returns the index of the next argument when something is consumed. In the event of a syntax error, a InvalidOption or QuietInvalidOption should be thrown. """ if asArgs[iArg] in ('--help', '-help', '-h', '-?', '/?', '/help', '/H', '-H'): self.showUsage(); self.showSubTstDrvUsage(); raise QuietInvalidOption(); # options if asArgs[iArg] in ('--verbose', '-v'): reporter.incVerbosity() elif asArgs[iArg] in ('--debug', '-d'): reporter.incDebug() elif asArgs[iArg] == '--no-wipe-clean': self.fNoWipeClean = True; elif (asArgs[iArg] == 'all' or asArgs[iArg] in self.asNormalActions) \ and self.asActions in self.asSpecialActions: raise InvalidOption('selected special action "%s" already' % (self.asActions[0], )); # actions elif asArgs[iArg] == 'all': self.asActions = [ 'all' ]; elif asArgs[iArg] in self.asNormalActions: self.asActions.append(asArgs[iArg]) elif asArgs[iArg] in self.asSpecialActions: if self.asActions != []: raise InvalidOption('selected special action "%s" already' % (self.asActions[0], )); self.asActions = [ asArgs[iArg] ]; # extact if asArgs[iArg] == 'extract': iArg = iArg + 1; if iArg >= len(asArgs): raise InvalidOption('The "extract" action requires a destination directory'); self.sExtractDstPath = asArgs[iArg]; else: return iArg; return iArg + 1; def completeOptions(self): """ This method is called after parsing all the options. Returns success indicator. Use the reporter to complain. Overriable, call super. """ return True; def getResourceSet(self): """ Returns a set of file and/or directory names relative to TESTBOX_PATH_RESOURCES. Override this. """ return []; def actionExtract(self): """ Handle the action that extracts the test resources for off site use. Returns a success indicator and error details with the reporter. Usually no need to override this. """ reporter.error('the extract action is not implemented') return False; def actionVerify(self): """ Handle the action that verify the test resources. Returns a success indicator and error details with the reporter. There is usually no need to override this. """ asRsrcs = self.getResourceSet(); for sRsrc in asRsrcs: # Go thru some pain to catch escape sequences. if sRsrc.find("//") >= 0: reporter.error('Double slash test resource name: "%s"' % (sRsrc)); return False; if sRsrc == ".." \ or sRsrc.startswith("../") \ or sRsrc.find("/../") >= 0 \ or sRsrc.endswith("/.."): reporter.error('Relative path in test resource name: "%s"' % (sRsrc)); return False; sFull = os.path.normpath(os.path.abspath(os.path.join(self.sResourcePath, sRsrc))); if not sFull.startswith(os.path.normpath(self.sResourcePath)): reporter.error('sFull="%s" self.sResourcePath=%s' % (sFull, self.sResourcePath)); reporter.error('The resource "%s" seems to specify a relative path' % (sRsrc)); return False; reporter.log2('Checking for resource "%s" at "%s" ...' % (sRsrc, sFull)); if os.path.isfile(sFull): try: oFile = utils.openNoInherit(sFull, "rb"); oFile.close(); except Exception, oXcpt: reporter.error('The file resource "%s" cannot be accessed: %s' % (sFull, oXcpt)); return False; elif os.path.isdir(sFull): if not os.path.isdir(os.path.join(sFull, '.')): reporter.error('The directory resource "%s" cannot be accessed' % (sFull)); return False; elif os.path.exists(sFull): reporter.error('The resource "%s" is not a file or directory' % (sFull)); return False; else: reporter.error('The resource "%s" was not found' % (sFull)); return False; return True; def actionConfig(self): """ Handle the action that configures the test. Returns True (success), False (failure) or None (skip the test), posting complaints and explanations with the reporter. Override this. """ return True; def actionExecute(self): """ Handle the action that executes the test. Returns True (success), False (failure) or None (skip the test), posting complaints and explanations with the reporter. Override this. """ return True; def actionCleanupBefore(self): """ Handle the action that cleans up spills from previous tests before starting the tests. This is mostly about wiping the scratch space clean in local runs. On a testbox the testbox script will use the cleanup-after if the test is interrupted. Returns True (success), False (failure) or None (skip the test), posting complaints and explanations with the reporter. Override this, but call super to wipe the scratch directory. """ if self.fNoWipeClean is False: self.wipeScratch(); return True; def actionCleanupAfter(self): """ Handle the action that cleans up all spills from executing the test. Returns True (success) or False (failure) posting complaints and explanations with the reporter. Override this, but call super to wipe the scratch directory. """ if self.fNoWipeClean is False: self.wipeScratch(); return True; def actionAbort(self): """ Handle the action that aborts a (presumed) running testdriver, making sure to include all it's children. Returns True (success) or False (failure) posting complaints and explanations with the reporter. Override this, but call super to kill the testdriver script and any other process covered by the testdriver PID file. """ dPids = self.pidFileRead(); reporter.log('The pid file contained: %s' % (dPids,)); # # Try convince the processes to quit with increasing impoliteness. # if sys.platform == 'win32': afnMethods = [ processInterrupt, processTerminate ]; else: afnMethods = [ sendUserSignal1, processInterrupt, processTerminate, processKill ]; for fnMethod in afnMethods: for iPid in dPids: fnMethod(iPid, fSudo = dPids[iPid][1]); for i in range(10): if i > 0: time.sleep(1); for iPid in dPids.keys(): if not processExists(iPid): reporter.log('%s (%s) terminated' % (dPids[iPid][0], iPid,)); self.pidFileRemove(iPid, fQuiet = True); del dPids[iPid]; if not dPids: reporter.log('All done.'); return True; if i in [4, 8]: reporter.log('Still waiting for: %s (method=%s)' % (dPids, fnMethod,)); reporter.log('Failed to terminate the following processes: %s' % (dPids,)); return False; def onExit(self, iRc): """ Hook for doing very important cleanups on the way out. iRc is the exit code or -1 in the case of an unhandled exception. Returns nothing and shouldn't raise exceptions (will be muted+ignored). """ _ = iRc; return None; # # main() - don't override anything! # def main(self, asArgs = None): """ The main function of the test driver. Keyword arguments: asArgs -- The argument vector. Defaults to sys.argv. Returns exit code. No exceptions. """ # # Wrap worker in exception handler and always call a 'finally' like # method to do crucial cleanups on the way out. # try: iRc = self.innerMain(asArgs); except: try: self.onExit(-1); except: reporter.logXcpt(); raise; self.onExit(iRc); return iRc; def innerMain(self, asArgs = None): # pylint: disable=R0915 """ Exception wrapped main() worker. """ # parse the arguments. if asArgs is None: asArgs = list(sys.argv); iArg = 1; try: while iArg < len(asArgs): iNext = self.parseOption(asArgs, iArg); if iNext == iArg: iNext = self.subTstDrvParseOption(asArgs, iArg); if iNext == iArg: raise InvalidOption('unknown option: %s' % (asArgs[iArg])) iArg = iNext; except QuietInvalidOption, oXcpt: return rtexitcode.RTEXITCODE_SYNTAX; except InvalidOption, oXcpt: reporter.error(oXcpt.str()); return rtexitcode.RTEXITCODE_SYNTAX; except: reporter.error('unexpected exception while parsing argument #%s' % (iArg)); traceback.print_exc(); return rtexitcode.RTEXITCODE_SYNTAX; if not self.completeOptions(): return rtexitcode.RTEXITCODE_SYNTAX; if self.asActions == []: reporter.error('no action was specified'); reporter.error('valid actions: %s' % (self.asNormalActions + self.asSpecialActions + ['all'])); return rtexitcode.RTEXITCODE_SYNTAX; # execte the actions. fRc = True; # Tristate - True (success), False (failure), None (skipped). asActions = self.asActions; if 'extract' in asActions: reporter.log('*** extract action ***'); asActions.remove('extract'); fRc = self.actionExtract(); reporter.log('*** extract action completed (fRc=%s) ***' % (fRc)); elif 'abort' in asActions: reporter.appendToProcessName('/abort'); # Make it easier to spot in the log. reporter.log('*** abort action ***'); asActions.remove('abort'); fRc = self.actionAbort(); reporter.log('*** abort action completed (fRc=%s) ***' % (fRc)); else: if asActions == [ 'all' ]: asActions = self.asNormalActions; if 'verify' in asActions: reporter.log('*** verify action ***'); asActions.remove('verify'); fRc = self.actionVerify(); if fRc is True: reporter.log("verified succeeded"); else: reporter.log("verified failed (fRc=%s)" % (fRc,)); reporter.log('*** verify action completed (fRc=%s) ***' % (fRc,)); if 'cleanup-before' in asActions: reporter.log('*** cleanup-before action ***'); asActions.remove('cleanup-before'); fRc2 = self.actionCleanupBefore(); if fRc2 is not True: reporter.log("cleanup-before failed"); if fRc2 is not True and fRc is True: fRc = fRc2; reporter.log('*** cleanup-before action completed (fRc2=%s, fRc=%s) ***' % (fRc2, fRc,)); self.pidFileAdd(os.getpid(), os.path.basename(sys.argv[0])); if 'config' in asActions and fRc is True: asActions.remove('config'); reporter.log('*** config action ***'); fRc = self.actionConfig(); if fRc is True: reporter.log("config succeeded"); elif fRc is None: reporter.log("config skipping test"); else: reporter.log("config failed"); reporter.log('*** config action completed (fRc=%s) ***' % (fRc,)); if 'execute' in asActions and fRc is True: asActions.remove('execute'); reporter.log('*** execute action ***'); fRc = self.actionExecute(); if fRc is True: reporter.log("execute succeeded"); elif fRc is None: reporter.log("execute skipping test"); else: reporter.log("execute failed (fRc=%s)" % (fRc,)); reporter.testCleanup(); reporter.log('*** execute action completed (fRc=%s) ***' % (fRc,)); if 'cleanup-after' in asActions: reporter.log('*** cleanup-after action ***'); asActions.remove('cleanup-after'); fRc2 = self.actionCleanupAfter(); if fRc2 is not True: reporter.log("cleanup-after failed"); if fRc2 is not True and fRc is True: fRc = fRc2; reporter.log('*** cleanup-after action completed (fRc2=%s, fRc=%s) ***' % (fRc2, fRc,)); self.pidFileRemove(os.getpid()); if asActions != [] and fRc is True: reporter.error('unhandled actions: %s' % (asActions,)); fRc = False; # Done if fRc is None: reporter.log('*****************************************'); reporter.log('*** The test driver SKIPPED the test. ***'); reporter.log('*****************************************'); return rtexitcode.RTEXITCODE_SKIPPED; if fRc is not True: reporter.error('!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!'); reporter.error('!!! The test driver FAILED (in case we forgot to mention it). !!!'); reporter.error('!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!'); return rtexitcode.RTEXITCODE_FAILURE; reporter.log('*******************************************'); reporter.log('*** The test driver exits successfully. ***'); reporter.log('*******************************************'); return rtexitcode.RTEXITCODE_SUCCESS; # The old, deprecated name. TestDriver = TestDriverBase; # pylint: disable=C0103 # # Unit testing. # # pylint: disable=C0111 class TestDriverBaseTestCase(unittest.TestCase): def setUp(self): self.oTstDrv = TestDriverBase(); self.oTstDrv.pidFileDelete(); def tearDown(self): pass; # clean up scratch dir and such. def testPidFile(self): iPid1 = os.getpid() + 1; iPid2 = os.getpid() + 2; self.assertTrue(self.oTstDrv.pidFileAdd(iPid1, 'test1')); self.assertEqual(self.oTstDrv.pidFileRead(), {iPid1:('test1',False)}); self.assertTrue(self.oTstDrv.pidFileAdd(iPid2, 'test2', fSudo = True)); self.assertEqual(self.oTstDrv.pidFileRead(), {iPid1:('test1',False), iPid2:('test2',True)}); self.assertTrue(self.oTstDrv.pidFileRemove(iPid1)); self.assertEqual(self.oTstDrv.pidFileRead(), {iPid2:('test2',True)}); self.assertTrue(self.oTstDrv.pidFileRemove(iPid2)); self.assertEqual(self.oTstDrv.pidFileRead(), {}); self.assertTrue(self.oTstDrv.pidFileDelete()); if __name__ == '__main__': unittest.main(); # not reached.