from __future__ import with_statement import unittest from fcntl import flock, LOCK_EX, LOCK_SH, LOCK_UN import contextlib as clib import subprocess class InvirtConfigError(AttributeError): pass class struct(dict): 'A simple namespace object.' def __init__(self, d = {}, __prefix = None, __default=None, **kwargs): super(struct, self).__init__(d) self.__prefix = __prefix self.__default = __default self.update(kwargs) def __getattr__(self, key): try: return self[key] except KeyError: if self.__default is None: # XX ideally these would point a frame higher on the stack. prefix = self.__prefix if prefix is not None: raise InvirtConfigError('missing configuration variable ' '%s%s' % (prefix, key)) else: raise AttributeError("anonymous struct has no member '%s'" % (key,)) else: return struct({}, '', self.__default) def dicts2struct(x, prefix = None, default = None): """ Given a tree of lists/dicts, perform a deep traversal to transform all the dicts to structs. """ if prefix is not None: def newprefix(k): return prefix + str(k) + '.' else: def newprefix(k): return prefix if type(x) == dict: return struct(((k, dicts2struct(v, newprefix(k), default)) for k,v in x.iteritems()), prefix, default) elif type(x) == list: return [dicts2struct(v, newprefix(i), default) for i, v in enumerate(x)] elif x is None: return struct({}, prefix, default) else: return x @clib.contextmanager def lock_file(path, exclusive = True): with clib.closing(file(path, 'w')) as f: if exclusive: locktype = LOCK_EX else: locktype = LOCK_SH flock(f, locktype) try: yield finally: flock(f, LOCK_UN) def captureOutput(popen_args, stdin_str=None, *args, **kwargs): """Capture stdout from a command. This method will proxy the arguments to subprocess.Popen. It returns the output from the command if the call succeeded and raises an exception if the process returns a non-0 value. This is intended to be a variant on the subprocess.check_call function that also allows you access to the output from the command. """ if 'stdin' not in kwargs: kwargs['stdin'] = subprocess.PIPE if 'stdout' not in kwargs: kwargs['stdout'] = subprocess.PIPE if 'stderr' not in kwargs: kwargs['stderr'] = subprocess.PIPE p = subprocess.Popen(popen_args, *args, **kwargs) out, err = p.communicate(stdin_str) if p.returncode: raise subprocess.CalledProcessError(p.returncode, '%s, stdout: %s, stderr: %s' % (popen_args, out, err)) return out # # Exceptions. # class InvalidInput(Exception): """Exception for user-provided input is invalid but maybe in good faith. This would include setting memory to negative (which might be a typo) but not setting an invalid boot CD (which requires bypassing the select box). """ def __init__(self, err_field, err_value, expl=None): Exception.__init__(self, expl) self.err_field = err_field self.err_value = err_value class CodeError(Exception): """Exception for internal errors or bad faith input.""" pass # # Tests. # class common_tests(unittest.TestCase): def test_dicts2structs(self): dicts = { 'atom': 0, 'dict': { 'atom': 'atom', 'list': [1,2,3] }, 'list': [ 'atom', {'key': 'value'} ] } structs = dicts2struct(dicts, '') self.assertEqual(structs.atom, dicts['atom']) self.assertEqual(structs.dict.atom, dicts['dict']['atom']) self.assertEqual(structs.dict.list, dicts['dict']['list']) self.assertEqual(structs.list[0], dicts['list'][0]) self.assertEqual(structs.list[1].key, dicts['list'][1]['key']) self.assertEqual(set(structs), set(['atom', 'dict', 'list'])) if __name__ == '__main__': unittest.main()