from __future__ import print_function from __future__ import absolute_import import sys if not hasattr(sys, 'version_info'): print('*** Python version 1 is not supported. Please get the latest version from www.python.org ***') sys.exit(4) import pickle import subprocess import nargs # Uses threads to monitor running programs and time them out if they take too long useThreads = nargs.Arg.findArgument('useThreads', sys.argv[1:]) if useThreads == 'no' or useThreads == '0': useThreads = 0 elif useThreads == None or useThreads == 'yes' or useThreads == '1': useThreads = 1 else: raise RuntimeError('Unknown option value for --useThreads ',useThreads) useSelect = nargs.Arg.findArgument('useSelect', sys.argv[1:]) if useSelect == 'no' or useSelect == '0': useSelect = 0 elif useSelect is None or useSelect == 'yes' or useSelect == '1': useSelect = 1 else: raise RuntimeError('Unknown option value for --useSelect ',useSelect) # Run parts of configure in parallel, does not currently work; # see config/BuildSystem/config/framework.parallelQueueEvaluation() useParallel = nargs.Arg.findArgument('useParallel', sys.argv[1:]) if useParallel == 'no' or useParallel == '0': useParallel = 0 elif useParallel is None or useParallel == 'yes': useParallel = 5 else: if useParallel == '1': # handle case with --useParallel was used found = 0 for i in sys.argv[1:]: if i.startswith('--useParallel='): found = 1 break if found: useParallel = int(useParallel) else: useParallel = 5 useParallel = 0 import logger class Script(logger.Logger): def __init__(self, clArgs = None, argDB = None, log = None): self.checkPython() logger.Logger.__init__(self, clArgs, argDB, log) self.shell = '/bin/sh' self.showHelp = 1 return def hasHelpFlag(self): '''Decide whether to display the help message and exit''' import nargs if not self.showHelp: return 0 if nargs.Arg.findArgument('help', self.clArgs) is None and nargs.Arg.findArgument('h', self.clArgs) is None: return 0 return 1 def hasListFlag(self): '''Decide whether to display the list of download files and exit''' import nargs if not self.showHelp: return 0 if nargs.Arg.findArgument('with-packages-download-dir', self.clArgs) is None: return 0 return 1 def setupArguments(self, argDB): '''This method now also creates the help and action logs''' import help argDB = logger.Logger.setupArguments(self, argDB) self.help = help.Help(argDB) self.help.title = 'Script Help' self.actions = help.Info(argDB) self.actions.title = 'Script Actions' self.setupHelp(self.help) return argDB def setupHelp(self, help): '''This method should be overridden to provide help for arguments''' import nargs help.addArgument('Script', '-h', nargs.ArgBool(None, 0, 'Print this help message', isTemporary = 1), ignoreDuplicates = 1) help.addArgument('Script', '-help', nargs.ArgBool(None, 0, 'Print this help message', isTemporary = 1), ignoreDuplicates = 1) help.addArgument('Script', '-with-packages-download-dir=', nargs.ArgDir(None,None, 'Skip network download of package tarballs and locate them in specified dir. If not found in dir, print package URL - so it can be obtained manually.', isTemporary = 1), ignoreDuplicates = 1) return help def setup(self): ''' This method checks to see whether help was requested''' if hasattr(self, '_setup'): return logger.Logger.setup(self) self._setup = 1 if self.hasHelpFlag(): self.argDB.readonly = True if self.argDB.target == ['default']: sections = None else: sections = self.argDB.target self.help.output(sections = sections) sys.exit() if self.hasListFlag(): self.help.outputDownload() return def cleanup(self): '''This method outputs the action log''' self.actions.output(self.log) return def checkPython(self): if not hasattr(sys, 'version_info') or sys.version_info < (3,4): raise RuntimeError('BuildSystem requires Python version 3.4 or higher. Get Python at https://www.python.org/') return @staticmethod def getModule(root, name): '''Retrieve a specific module from the directory root, bypassing the usual paths''' if sys.version_info < (3,12): import imp (fp, pathname, description) = imp.find_module(name, [root]) try: return imp.load_module(name, fp, pathname, description) finally: if fp: fp.close() else: import importlib.util spec = importlib.util.spec_from_file_location(name, root) module = importlib.util.module_from_spec(spec) # novermin sys.modules[name] = module spec.loader.exec_module(module) @staticmethod def importModule(moduleName): '''Import the named module, and return the module object - Works properly for fully qualified names''' module = __import__(moduleName) components = moduleName.split('.') for comp in components[1:]: module = getattr(module, comp) return module @staticmethod def runShellCommand(command, log=None, cwd=None, env=None): return Script.runShellCommandSeq([command], log=log, cwd=cwd, env=env) @staticmethod def runShellCommandSeq(commandseq, log=None, cwd=None, env=None): Popen = subprocess.Popen PIPE = subprocess.PIPE output = '' error = '' ret = 0 for command in commandseq: useShell = isinstance(command, str) or isinstance(command, bytes) if log: log.write('Executing: %s\n' % (command,)) try: pipe = Popen(command, cwd=cwd, env=env, stdin=None, stdout=PIPE, stderr=PIPE, shell=useShell) (out, err) = pipe.communicate() out = out.decode(encoding='UTF-8',errors='replace') err = err.decode(encoding='UTF-8',errors='replace') ret = pipe.returncode except Exception as e: if hasattr(e,'message') and hasattr(e,'errno'): return ('', e.message, e.errno) else: return ('', str(e),1) output += out error += err if ret: break return (output, error, ret) @staticmethod def defaultCheckCommand(command, status, output, error): '''Raise an error if the exit status is nonzero Since output and error may be huge and the exception error message may be printed to the screen we cannot print the entire output''' if status: mlen = 512//2 if len(output) > 2*mlen: output = output[0:mlen]+'\n .... more output .....\n'+output[len(output)- mlen:] if len(error) > 2*mlen: error = error[0:mlen]+'\n .... more error .....\n'+error[len(error)- mlen:] raise RuntimeError('Could not execute "%s":\n%s' % (command,output+error)) @staticmethod def passCheckCommand(command, status, output, error): '''Does not check the command results''' @staticmethod def executeShellCommand(command, checkCommand = None, timeout = 600.0, log = None, lineLimit = 0, cwd=None, env=None, logOutputflg = True, threads = 0): '''Execute a shell command returning the output, and optionally provide a custom error checker - This returns a tuple of the (output, error, statuscode)''' '''The timeout is ignored unless the threads values is nonzero''' return Script.executeShellCommandSeq([command], checkCommand=checkCommand, timeout=timeout, log=log, lineLimit=lineLimit, cwd=cwd, env=env, logOutputflg = logOutputflg, threads = threads) @staticmethod def executeShellCommandSeq(commandseq, checkCommand = None, timeout = 600.0, log = None, lineLimit = 0, cwd=None, env=None, logOutputflg = True, threads = 0): '''Execute a sequence of shell commands (an && chain) returning the output, and optionally provide a custom error checker - This returns a tuple of the (output, error, statuscode)''' if not checkCommand: checkCommand = Script.defaultCheckCommand if log is None: log = logger.Logger.defaultLog def logOutput(log, output, logOutputflg): import re if not logOutputflg: return output # get rid of multiple blank lines output = re.sub('\n+','\n', output).strip() if output: if lineLimit: output = '\n'.join(output.split('\n')[:lineLimit]) if '\n' in output: # multi-line output log.write('stdout:\n'+output+'\n') else: log.write('stdout: '+output+'\n') return output def runInShell(commandseq, log, cwd, env): if useThreads and threads: import threading log.write('Running Executable with threads to time it out at '+str(timeout)+'\n') class InShell(threading.Thread): def __init__(self): threading.Thread.__init__(self) self.name = 'Shell Command' self.setDaemon(1) def run(self): (self.output, self.error, self.status) = ('', '', -1) # So these fields exist even if command fails with no output (self.output, self.error, self.status) = Script.runShellCommandSeq(commandseq, log, cwd, env) thread = InShell() thread.start() thread.join(timeout) if thread.is_alive(): error = 'Runaway process exceeded time limit of '+str(timeout)+'\n' log.write(error) return ('', error, -1) else: return (thread.output, thread.error, thread.status) else: return Script.runShellCommandSeq(commandseq, log, cwd, env) (output, error, status) = runInShell(commandseq, log, cwd, env) output = logOutput(log, output,logOutputflg) logOutput(log, error,logOutputflg) checkCommand(commandseq, status, output, error) return (output, error, status) def loadConfigure(self, argDB = None): if argDB is None: argDB = self.argDB if not 'configureCache' in argDB: self.logPrint('No cached configure in RDict at '+str(argDB.saveFilename)) return None try: cache = argDB['configureCache'] framework = pickle.loads(cache) framework.framework = framework framework.argDB = argDB self.logPrint('Loaded configure to cache: size '+str(len(cache))) except pickle.UnpicklingError as e: framework = None self.logPrint('Invalid cached configure: '+str(e)) return framework import args class LanguageProcessor(args.ArgumentProcessor): def __init__(self, clArgs = None, argDB = None, framework = None, versionControl = None): self.languageModule = {} self.preprocessorObject = {} self.compilerObject = {} self.linkerObject = {} self.sharedLinkerObject = {} self.dynamicLinkerObject = {} self.framework = framework self.versionControl = versionControl args.ArgumentProcessor.__init__(self, clArgs, argDB) self.outputFiles = {} self.modulePath = 'config.compile' return def getCompilers(self): if self.framework is None: return return self.framework.require('config.compilers', None) compilers = property(getCompilers, doc = 'The config.compilers configure object') def getLibraries(self): if self.framework is None: return return self.framework.require('config.libraries', None) libraries = property(getLibraries, doc = 'The config.libraries configure object') def __getstate__(self, d = None): '''We only want to pickle the language module names and output files. The other objects are set by configure.''' if d is None: d = args.ArgumentProcessor.__getstate__(self) if 'languageModule' in d: d['languageModule'] = dict([(lang,mod._loadName) for lang,mod in d['languageModule'].items()]) for member in ['preprocessorObject', 'compilerObject', 'linkerObject', 'sharedLinkerObject', 'dynamicLinkerObject', 'framework']: if member in d: del d[member] return d def __setstate__(self, d): '''We must create the language modules''' args.ArgumentProcessor.__setstate__(self, d) self.__dict__.update(d) [self.getLanguageModule(language, moduleName) for language,moduleName in self.languageModule.items()] self.preprocessorObject = {} self.compilerObject = {} self.linkerObject = {} self.sharedLinkerObject = {} self.dynamicLinkerObject = {} return def setArgDB(self, argDB): args.ArgumentProcessor.setArgDB(self, argDB) for obj in self.preprocessorObject.values(): if not hasattr(obj, 'argDB') or not obj.argDB == argDB: obj.argDB = argDB for obj in self.compilerObject.values(): if not hasattr(obj, 'argDB') or not obj.argDB == argDB: obj.argDB = argDB for obj in self.linkerObject.values(): if not hasattr(obj, 'argDB') or not obj.argDB == argDB: obj.argDB = argDB for obj in self.sharedLinkerObject.values(): if not hasattr(obj, 'argDB') or not obj.argDB == argDB: obj.argDB = argDB for obj in self.dynamicLinkerObject.values(): if not hasattr(obj, 'argDB') or not obj.argDB == argDB: obj.argDB = argDB if not self.compilers is None: self.compilers.argDB = argDB for obj in self.preprocessorObject.values(): if hasattr(obj, 'configCompilers'): obj.configCompilers.argDB = argDB for obj in self.compilerObject.values(): if hasattr(obj, 'configCompilers'): obj.configCompilers.argDB = argDB for obj in self.linkerObject.values(): if hasattr(obj, 'configCompilers'): obj.configCompilers.argDB = argDB for obj in self.sharedLinkerObject.values(): if hasattr(obj, 'configCompilers'): obj.configCompilers.argDB = argDB for obj in self.dynamicLinkerObject.values(): if hasattr(obj, 'configCompilers'): obj.configCompilers.argDB = argDB if not self.libraries is None: self.libraries.argDB = argDB for obj in self.linkerObject.values(): if hasattr(obj, 'configLibraries'): obj.configLibraries.argDB = argDB for obj in self.sharedLinkerObject.values(): if hasattr(obj, 'configLibraries'): obj.configLibraries.argDB = argDB for obj in self.dynamicLinkerObject.values(): if hasattr(obj, 'configLibraries'): obj.configLibraries.argDB = argDB return argDB = property(args.ArgumentProcessor.getArgDB, setArgDB, doc = 'The RDict argument database') def getLanguageModule(self, language, moduleName = None): '''Return the module associated with operations for a given language - Giving a moduleName explicitly forces a reimport''' if not language in self.languageModule or not moduleName is None: try: if moduleName is None: moduleName = self.modulePath+'.'+language module = __import__(moduleName) except ImportError as e: if not moduleName is None: self.logPrint('Failure to find language module: '+str(e)) try: moduleName = self.modulePath+'.'+language module = __import__(moduleName) except ImportError as e: self.logPrint('Failure to find language module: '+str(e)) moduleName = 'config.compile.'+language module = __import__(moduleName) components = moduleName.split('.') for component in components[1:]: module = getattr(module, component) module._loadName = moduleName self.languageModule[language] = module return self.languageModule[language] def getPreprocessorObject(self, language): if not language in self.preprocessorObject: self.preprocessorObject[language] = self.getLanguageModule(language).Preprocessor(self.argDB) self.preprocessorObject[language].setup() if not self.compilers is None: self.preprocessorObject[language].configCompilers = self.compilers if not self.versionControl is None: self.preprocessorObject[language].versionControl = self.versionControl return self.preprocessorObject[language] def setPreprocessorObject(self, language, preprocessor): self.preprocessorObject[language] = preprocessor return self.getPreprocessorObject(language) def getCompilerObject(self, language): if not language in self.compilerObject: self.compilerObject[language] = self.getLanguageModule(language).Compiler(self.argDB) self.compilerObject[language].setup() if not self.compilers is None: self.compilerObject[language].configCompilers = self.compilers if not self.versionControl is None: self.compilerObject[language].versionControl = self.versionControl return self.compilerObject[language] def setCompilerObject(self, language, compiler): self.compilerObject[language] = compiler return self.getCompilerObject(language) def getLinkerObject(self, language): if not language in self.linkerObject: self.linkerObject[language] = self.getLanguageModule(language).Linker(self.argDB) self.linkerObject[language].setup() if not self.compilers is None: self.linkerObject[language].configCompilers = self.compilers if not self.libraries is None: self.linkerObject[language].configLibraries = self.libraries if not self.versionControl is None: self.linkerObject[language].versionControl = self.versionControl return self.linkerObject[language] def setLinkerObject(self, language, linker): self.linkerObject[language] = linker return self.getLinkerObject(language) def getSharedLinkerObject(self, language): if not language in self.sharedLinkerObject: self.sharedLinkerObject[language] = self.getLanguageModule(language).SharedLinker(self.argDB) self.sharedLinkerObject[language].setup() if not self.compilers is None: self.sharedLinkerObject[language].configCompilers = self.compilers if not self.libraries is None: self.sharedLinkerObject[language].configLibraries = self.libraries if not self.versionControl is None: self.sharedLinkerObject[language].versionControl = self.versionControl return self.sharedLinkerObject[language] def setSharedLinkerObject(self, language, linker): self.sharedLinkerObject[language] = linker return self.getSharedLinkerObject(language) def getDynamicLinkerObject(self, language): if not language in self.dynamicLinkerObject: self.dynamicLinkerObject[language] = self.getLanguageModule(language).DynamicLinker(self.argDB) self.dynamicLinkerObject[language].setup() if not self.compilers is None: self.dynamicLinkerObject[language].configCompilers = self.compilers if not self.libraries is None: self.dynamicLinkerObject[language].configLibraries = self.libraries if not self.versionControl is None: self.dynamicLinkerObject[language].versionControl = self.versionControl return self.dynamicLinkerObject[language] def setDynamicLinkerObject(self, language, linker): self.dynamicLinkerObject[language] = linker return self.getDynamicLinkerObject(language)