def cdlopen_close(self):
libhandle = self.libhandle
self.libhandle = rffi.cast(DLLHANDLE, 0)
if not libhandle:
raise oefmt(self.ffi.w_FFIError, "library '%s' is already closed",
self.libname)
# Clear the dict to force further accesses to do cdlopen_fetch()
# again, and fail because the library was closed. Note that the
# JIT may have elided some accesses, and so has addresses as
# constants. We could work around it with a quasi-immutable flag
# but unsure it's worth it.
self.dict_w.clear()
if dlclose(libhandle) < 0:
raise oefmt(self.ffi.w_FFIError, "error closing library '%s'",
self.libname)
def cdlopen_close(self):
libhandle = self.libhandle
self.libhandle = rffi.cast(DLLHANDLE, 0)
if not libhandle:
return
self.may_unregister_rpython_finalizer(self.ffi.space)
# Clear the dict to force further accesses to do cdlopen_fetch()
# again, and fail because the library was closed. Note that the
# JIT may have elided some accesses, and so has addresses as
# constants. We could work around it with a quasi-immutable flag
# but unsure it's worth it.
self.dict_w.clear()
if dlclose(libhandle) < 0:
raise oefmt(self.ffi.w_FFIError, "error closing library '%s'",
self.libname)
def _finalize_(self):
h = self.handle
if h != rffi.cast(DLLHANDLE, 0):
self.handle = rffi.cast(DLLHANDLE, 0)
dlclose(h)
def __del__(self):
if self.lib:
dlclose(self.lib)
self.lib = rffi.cast(DLLHANDLE, 0)
def __del__(self):
if self.lib != rffi.cast(DLLHANDLE, -1):
dlclose(self.lib)
self.lib = rffi.cast(DLLHANDLE, -1)
def __del__(self):
h = self.handle
if h != rffi.cast(DLLHANDLE, 0):
self.handle = rffi.cast(DLLHANDLE, 0)
dlclose(h)
class _InterpreterProxy(object):
_immutable_fields_ = ['vm_initialized?']
def __init__(self):
self.vm_proxy = lltype.nullptr(VMPtr.TO)
self.vm_initialized = False
self.space = None
self._next_oop = 0
self.oop_map = {}
self.object_map = {}
self.loaded_modules = {}
self.remappable_objects = []
self.trace_proxy = objspace.ConstantFlag()
self.reset()
def reset(self):
self.interp = None
self.s_frame = None
self.argcount = 0
self.w_method = None
self.fail_reason = 0
self.trace_proxy.deactivate()
def call(self, signature, interp, s_frame, argcount, w_method):
self.initialize_from_call(signature, interp, s_frame, argcount, w_method)
try:
# eventual errors are caught by the calling function (EXTERNAL_CALL)
external_function = rffi.cast(func_bool_void,
self.loadFunctionFrom(signature[0], signature[1]))
if interp.is_tracing():
interp.print_padded("Calling %s >> %s" % (signature[0], signature[1]))
external_function()
if not self.fail_reason == 0:
raise error.PrimitiveFailedError
finally:
self.reset()
def loadFunctionFrom(self, module_name, function_name):
from rpython.rlib.rdynload import dlsym
if module_name not in self.loaded_modules:
module = self.load_and_initialize(module_name)
else:
module = self.loaded_modules[module_name]
if function_name in module[1]:
return module[1][function_name]
else:
try:
_external_function = dlsym(module[0], function_name)
except KeyError:
raise ProxyFunctionFailed
else:
module[1][function_name] = _external_function
return _external_function
def initialize_from_call(self, signature, interp, s_frame, argcount, w_method):
self.interp = interp
self.s_frame = s_frame
self.argcount = argcount
self.w_method = w_method
self.space = interp.space
self.trace_proxy.set(interp.trace_proxy.is_set())
# ensure that space.w_nil gets the first possible oop
self.object_to_oop(self.space.w_nil)
def failed(self, reason=1):
assert reason != 0
self.fail_reason = reason
def oop_to_object(self, oop):
try:
return self.oop_map[oop]
except KeyError:
raise ProxyFunctionFailed
def object_to_oop(self, w_object):
try:
return self.object_map[w_object]
except KeyError:
new_index = self.next_oop()
# print "Mapping new Object: %d -> %s" % (new_index, w_object)
self.oop_map[new_index] = w_object
self.object_map[w_object] = new_index
return new_index
def next_oop(self):
next_oop = self._next_oop
self._next_oop = next_oop + 1
return next_oop
def pop_remappable(self):
try:
return self.remappable_objects.pop()
except IndexError:
self.failed()
return self.space.w_nil
def push_remappable(self, w_object):
self.remappable_objects.append(w_object)
return w_object
def top_remappable(self):
if len(self.remappable_objects) == 0:
raise ProxyFunctionFailed
return self.remappable_objects[-1]
def load_and_initialize(self, module_name):
from rpython.rlib.rdynload import dlopen, dlsym, dlclose, DLOpenError
import os
c_name = rffi.str2charp(os.path.join(IProxy.space.executable_path(), module_name))
try:
module = dlopen(c_name)
except DLOpenError, e:
rffi.free_charp(c_name)
raise error.PrimitiveFailedError
try:
try:
_getModuleName = dlsym(module, "getModuleName")
except KeyError:
pass # the method does not need to exist
else:
getModuleName = rffi.cast(func_str_void, _getModuleName)
if not rffi.charp2str(getModuleName()).startswith(module_name):
raise error.PrimitiveFailedError
try:
_setInterpreter = dlsym(module, "setInterpreter")
except KeyError:
raise error.PrimitiveFailedError
else:
setInterpreter = rffi.cast(func_bool_vm, _setInterpreter)
if not setInterpreter(getInterpreterProxy()):
print "Failed setting interpreter on: %s" % module_name
raise error.PrimitiveFailedError
try:
_initialiseModule = dlsym(module, "initialiseModule")
except KeyError:
pass # the method does not need to exist
else:
initialiseModule = rffi.cast(func_bool_void, _initialiseModule)
if not initialiseModule():
print "Failed initialization of: %s" % module_name
raise error.PrimitiveFailedError
module_tuple = (module, {})
self.loaded_modules[module_name] = module_tuple
return module_tuple
except error.PrimitiveFailedError:
dlclose(module)
raise
finally:
rffi.free_charp(c_name)
def __del__(self):
if self.libhandle:
dlclose(self.libhandle)
def __del__(self):
if self.libhandle:
dlclose(self.libhandle)
def __del__(self):
h = self.handle
if h != rffi.cast(DLLHANDLE, 0):
self.handle = rffi.cast(DLLHANDLE, 0)
dlclose(h)
def _finalize_(self):
h = self.handle
if h != rffi.cast(DLLHANDLE, 0):
self.handle = rffi.cast(DLLHANDLE, 0)
dlclose(h)
