Revonzy Mini Shell
"""
Provides an emulator/replacement for Python's standard import system.
@@TR: Be warned that Import Hooks are in the deepest, darkest corner of Python's
jungle. If you need to start hacking with this, be prepared to get lost for a
while. Also note, this module predates the newstyle import hooks in Python 2.3
http://www.python.org/peps/pep-0302.html.
This is a hacked/documented version of Gordon McMillan's iu.py. I have:
- made it a little less terse
- added docstrings and explanatations
- standardized the variable naming scheme
- reorganized the code layout to enhance readability
"""
import sys
import imp
import marshal
_installed = False
# _globalOwnerTypes is defined at the bottom of this file
_os_stat = _os_path_join = _os_getcwd = _os_path_dirname = None
##################################################
## FUNCTIONS
def _os_bootstrap():
"""Set up 'os' module replacement functions for use during import bootstrap."""
names = sys.builtin_module_names
join = dirname = None
if 'posix' in names:
sep = '/'
from posix import stat, getcwd
elif 'nt' in names:
sep = '\\'
from nt import stat, getcwd
elif 'dos' in names:
sep = '\\'
from dos import stat, getcwd
elif 'os2' in names:
sep = '\\'
from os2 import stat, getcwd
elif 'mac' in names:
from mac import stat, getcwd
def join(a, b):
if a == '':
return b
if ':' not in a:
a = ':' + a
if a[-1:] != ':':
a = a + ':'
return a + b
else:
raise ImportError('no os specific module found')
if join is None:
def join(a, b, sep=sep):
if a == '':
return b
lastchar = a[-1:]
if lastchar == '/' or lastchar == sep:
return a + b
return a + sep + b
if dirname is None:
def dirname(a, sep=sep):
for i in range(len(a)-1, -1, -1):
c = a[i]
if c == '/' or c == sep:
return a[:i]
return ''
global _os_stat
_os_stat = stat
global _os_path_join
_os_path_join = join
global _os_path_dirname
_os_path_dirname = dirname
global _os_getcwd
_os_getcwd = getcwd
_os_bootstrap()
def packageName(s):
for i in range(len(s)-1, -1, -1):
if s[i] == '.':
break
else:
return ''
return s[:i]
def nameSplit(s):
rslt = []
i = j = 0
for j in range(len(s)):
if s[j] == '.':
rslt.append(s[i:j])
i = j+1
if i < len(s):
rslt.append(s[i:])
return rslt
def getPathExt(fnm):
for i in range(len(fnm)-1, -1, -1):
if fnm[i] == '.':
return fnm[i:]
return ''
def pathIsDir(pathname):
"Local replacement for os.path.isdir()."
try:
s = _os_stat(pathname)
except OSError:
return None
return (s[0] & 0170000) == 0040000
def getDescr(fnm):
ext = getPathExt(fnm)
for (suffix, mode, typ) in imp.get_suffixes():
if suffix == ext:
return (suffix, mode, typ)
##################################################
## CLASSES
class Owner:
"""An Owner does imports from a particular piece of turf That is, there's
an Owner for each thing on sys.path There are owners for directories and
.pyz files. There could be owners for zip files, or even URLs. A
shadowpath (a dictionary mapping the names in sys.path to their owners) is
used so that sys.path (or a package's __path__) is still a bunch of strings,
"""
def __init__(self, path):
self.path = path
def __str__(self):
return self.path
def getmod(self, nm):
return None
class DirOwner(Owner):
def __init__(self, path):
if path == '':
path = _os_getcwd()
if not pathIsDir(path):
raise ValueError("%s is not a directory" % path)
Owner.__init__(self, path)
def getmod(self, nm,
getsuffixes=imp.get_suffixes, loadco=marshal.loads, newmod=imp.new_module):
pth = _os_path_join(self.path, nm)
possibles = [(pth, 0, None)]
if pathIsDir(pth):
possibles.insert(0, (_os_path_join(pth, '__init__'), 1, pth))
py = pyc = None
for pth, ispkg, pkgpth in possibles:
for ext, mode, typ in getsuffixes():
attempt = pth+ext
try:
st = _os_stat(attempt)
except:
pass
else:
if typ == imp.C_EXTENSION:
fp = open(attempt, 'rb')
mod = imp.load_module(nm, fp, attempt, (ext, mode, typ))
mod.__file__ = attempt
return mod
elif typ == imp.PY_SOURCE:
py = (attempt, st)
else:
pyc = (attempt, st)
if py or pyc:
break
if py is None and pyc is None:
return None
while True:
if pyc is None or py and pyc[1][8] < py[1][8]:
try:
co = compile(open(py[0], 'r').read()+'\n', py[0], 'exec')
break
except SyntaxError, e:
print("Invalid syntax in %s" % py[0])
print(e.args)
raise
elif pyc:
stuff = open(pyc[0], 'rb').read()
try:
co = loadco(stuff[8:])
break
except (ValueError, EOFError):
pyc = None
else:
return None
mod = newmod(nm)
mod.__file__ = co.co_filename
if ispkg:
mod.__path__ = [pkgpth]
subimporter = PathImportDirector(mod.__path__)
mod.__importsub__ = subimporter.getmod
mod.__co__ = co
return mod
class ImportDirector(Owner):
"""ImportDirectors live on the metapath There's one for builtins, one for
frozen modules, and one for sys.path Windows gets one for modules gotten
from the Registry Mac would have them for PY_RESOURCE modules etc. A
generalization of Owner - their concept of 'turf' is broader"""
pass
class BuiltinImportDirector(ImportDirector):
"""Directs imports of builtin modules"""
def __init__(self):
self.path = 'Builtins'
def getmod(self, nm, isbuiltin=imp.is_builtin):
if isbuiltin(nm):
mod = imp.load_module(nm, None, nm, ('', '', imp.C_BUILTIN))
return mod
return None
class FrozenImportDirector(ImportDirector):
"""Directs imports of frozen modules"""
def __init__(self):
self.path = 'FrozenModules'
def getmod(self, nm,
isFrozen=imp.is_frozen, loadMod=imp.load_module):
if isFrozen(nm):
mod = loadMod(nm, None, nm, ('', '', imp.PY_FROZEN))
if hasattr(mod, '__path__'):
mod.__importsub__ = lambda name, pname=nm, owner=self: owner.getmod(pname+'.'+name)
return mod
return None
class RegistryImportDirector(ImportDirector):
"""Directs imports of modules stored in the Windows Registry"""
def __init__(self):
self.path = "WindowsRegistry"
self.map = {}
try:
import win32api
## import win32con
except ImportError:
pass
else:
HKEY_CURRENT_USER = -2147483647
HKEY_LOCAL_MACHINE = -2147483646
KEY_ALL_ACCESS = 983103
subkey = r"Software\Python\PythonCore\%s\Modules" % sys.winver
for root in (HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE):
try:
hkey = win32api.RegOpenKeyEx(root, subkey, 0, KEY_ALL_ACCESS)
except:
pass
else:
numsubkeys, numvalues, lastmodified = win32api.RegQueryInfoKey(hkey)
for i in range(numsubkeys):
subkeyname = win32api.RegEnumKey(hkey, i)
hskey = win32api.RegOpenKeyEx(hkey, subkeyname, 0, KEY_ALL_ACCESS)
val = win32api.RegQueryValueEx(hskey, '')
desc = getDescr(val[0])
self.map[subkeyname] = (val[0], desc)
hskey.Close()
hkey.Close()
break
def getmod(self, nm):
stuff = self.map.get(nm)
if stuff:
fnm, desc = stuff
fp = open(fnm, 'rb')
mod = imp.load_module(nm, fp, fnm, desc)
mod.__file__ = fnm
return mod
return None
class PathImportDirector(ImportDirector):
"""Directs imports of modules stored on the filesystem."""
def __init__(self, pathlist=None, importers=None, ownertypes=None):
if pathlist is None:
self.path = sys.path
else:
self.path = pathlist
if ownertypes == None:
self._ownertypes = _globalOwnerTypes
else:
self._ownertypes = ownertypes
if importers:
self._shadowPath = importers
else:
self._shadowPath = {}
self._inMakeOwner = False
self._building = {}
def getmod(self, nm):
mod = None
for thing in self.path:
if isinstance(thing, basestring):
owner = self._shadowPath.get(thing, -1)
if owner == -1:
owner = self._shadowPath[thing] = self._makeOwner(thing)
if owner:
mod = owner.getmod(nm)
else:
mod = thing.getmod(nm)
if mod:
break
return mod
def _makeOwner(self, path):
if self._building.get(path):
return None
self._building[path] = 1
owner = None
for klass in self._ownertypes:
try:
# this may cause an import, which may cause recursion
# hence the protection
owner = klass(path)
except:
pass
else:
break
del self._building[path]
return owner
#=================ImportManager============================#
# The one-and-only ImportManager
# ie, the builtin import
UNTRIED = -1
class ImportManager:
# really the equivalent of builtin import
def __init__(self):
self.metapath = [
BuiltinImportDirector(),
FrozenImportDirector(),
RegistryImportDirector(),
PathImportDirector()
]
self.threaded = 0
self.rlock = None
self.locker = None
self.setThreaded()
def setThreaded(self):
thread = sys.modules.get('thread', None)
if thread and not self.threaded:
self.threaded = 1
self.rlock = thread.allocate_lock()
self._get_ident = thread.get_ident
def install(self):
import __builtin__
__builtin__.__import__ = self.importHook
__builtin__.reload = self.reloadHook
def importHook(self, name, globals=None, locals=None, fromlist=None, level=-1):
'''
NOTE: Currently importHook will accept the keyword-argument "level"
but it will *NOT* use it (currently). Details about the "level" keyword
argument can be found here: http://www.python.org/doc/2.5.2/lib/built-in-funcs.html
'''
# first see if we could be importing a relative name
#print "importHook(%s, %s, locals, %s)" % (name, globals['__name__'], fromlist)
_sys_modules_get = sys.modules.get
contexts = [None]
if globals:
importernm = globals.get('__name__', '')
if importernm:
if hasattr(_sys_modules_get(importernm), '__path__'):
contexts.insert(0, importernm)
else:
pkgnm = packageName(importernm)
if pkgnm:
contexts.insert(0, pkgnm)
# so contexts is [pkgnm, None] or just [None]
# now break the name being imported up so we get:
# a.b.c -> [a, b, c]
nmparts = nameSplit(name)
_self_doimport = self.doimport
threaded = self.threaded
for context in contexts:
ctx = context
for i in range(len(nmparts)):
nm = nmparts[i]
#print " importHook trying %s in %s" % (nm, ctx)
if ctx:
fqname = ctx + '.' + nm
else:
fqname = nm
if threaded:
self._acquire()
mod = _sys_modules_get(fqname, UNTRIED)
if mod is UNTRIED:
mod = _self_doimport(nm, ctx, fqname)
if threaded:
self._release()
if mod:
ctx = fqname
else:
break
else:
# no break, point i beyond end
i = i + 1
if i:
break
if i<len(nmparts):
if ctx and hasattr(sys.modules[ctx], nmparts[i]):
#print "importHook done with %s %s %s (case 1)" % (name, globals['__name__'], fromlist)
return sys.modules[nmparts[0]]
del sys.modules[fqname]
raise ImportError("No module named %s" % fqname)
if fromlist is None:
#print "importHook done with %s %s %s (case 2)" % (name, globals['__name__'], fromlist)
if context:
return sys.modules[context+'.'+nmparts[0]]
return sys.modules[nmparts[0]]
bottommod = sys.modules[ctx]
if hasattr(bottommod, '__path__'):
fromlist = list(fromlist)
i = 0
while i < len(fromlist):
nm = fromlist[i]
if nm == '*':
fromlist[i:i+1] = list(getattr(bottommod, '__all__', []))
if i >= len(fromlist):
break
nm = fromlist[i]
i = i + 1
if not hasattr(bottommod, nm):
if self.threaded:
self._acquire()
mod = self.doimport(nm, ctx, ctx+'.'+nm)
if self.threaded:
self._release()
if not mod:
raise ImportError("%s not found in %s" % (nm, ctx))
#print "importHook done with %s %s %s (case 3)" % (name, globals['__name__'], fromlist)
return bottommod
def doimport(self, nm, parentnm, fqname):
# Not that nm is NEVER a dotted name at this point
#print "doimport(%s, %s, %s)" % (nm, parentnm, fqname)
if parentnm:
parent = sys.modules[parentnm]
if hasattr(parent, '__path__'):
importfunc = getattr(parent, '__importsub__', None)
if not importfunc:
subimporter = PathImportDirector(parent.__path__)
importfunc = parent.__importsub__ = subimporter.getmod
mod = importfunc(nm)
if mod:
setattr(parent, nm, mod)
else:
#print "..parent not a package"
return None
else:
# now we're dealing with an absolute import
for director in self.metapath:
mod = director.getmod(nm)
if mod:
break
if mod:
mod.__name__ = fqname
sys.modules[fqname] = mod
if hasattr(mod, '__co__'):
co = mod.__co__
del mod.__co__
exec(co, mod.__dict__)
if fqname == 'thread' and not self.threaded:
## print "thread detected!"
self.setThreaded()
else:
sys.modules[fqname] = None
#print "..found %s" % mod
return mod
def reloadHook(self, mod):
fqnm = mod.__name__
nm = nameSplit(fqnm)[-1]
parentnm = packageName(fqnm)
newmod = self.doimport(nm, parentnm, fqnm)
mod.__dict__.update(newmod.__dict__)
## return newmod
def _acquire(self):
if self.rlock.locked():
if self.locker == self._get_ident():
self.lockcount = self.lockcount + 1
## print "_acquire incrementing lockcount to", self.lockcount
return
self.rlock.acquire()
self.locker = self._get_ident()
self.lockcount = 0
## print "_acquire first time!"
def _release(self):
if self.lockcount:
self.lockcount = self.lockcount - 1
## print "_release decrementing lockcount to", self.lockcount
else:
self.rlock.release()
## print "_release releasing lock!"
##################################################
## MORE CONSTANTS & GLOBALS
_globalOwnerTypes = [
DirOwner,
Owner,
]
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