"""Support for remote Python debugging.
Some ASCII art to describe the structure:
IN PYTHON SUBPROCESS # IN IDLE PROCESS
#
# oid='gui_adapter'
+----------+ # +------------+ +-----+
| GUIProxy |--remote#call-->| GUIAdapter |--calls-->| GUI |
+-----+--calls-->+----------+ # +------------+ +-----+
| Idb | # /
+-----+<-calls--+------------+ # +----------+<--calls-/
| IdbAdapter |<--remote#call--| IdbProxy |
+------------+ # +----------+
oid='idb_adapter' #
The purpose of the Proxy and Adapter classes is to translate certain
arguments and return values that cannot be transported through the RPC
barrier, in particular frame and traceback objects.
"""
import reprlib
import types
from idlelib import debugger
debugging = 0
idb_adap_oid = "idb_adapter"
gui_adap_oid = "gui_adapter"
#=======================================
#
# In the PYTHON subprocess:
frametable = {}
dicttable = {}
codetable = {}
tracebacktable = {}
def wrap_frame(frame):
fid = id(frame)
frametable[fid] = frame
return fid
def wrap_info(info):
"replace info[2], a traceback instance, by its ID"
if info is None:
return None
else:
traceback = info[2]
assert isinstance(traceback, types.TracebackType)
traceback_id = id(traceback)
tracebacktable[traceback_id] = traceback
modified_info = (info[0], info[1], traceback_id)
return modified_info
class GUIProxy:
def __init__(self, conn, gui_adap_oid):
self.conn = conn
self.oid = gui_adap_oid
def interaction(self, message, frame, info=None):
# calls rpc.SocketIO.remotecall() via run.MyHandler instance
# pass frame and traceback object IDs instead of the objects themselves
self.conn.remotecall(self.oid, "interaction",
(message, wrap_frame(frame), wrap_info(info)),
{})
class IdbAdapter:
def __init__(self, idb):
self.idb = idb
#----------called by an IdbProxy----------
def set_step(self):
self.idb.set_step()
def set_quit(self):
self.idb.set_quit()
def set_continue(self):
self.idb.set_continue()
def set_next(self, fid):
frame = frametable[fid]
self.idb.set_next(frame)
def set_return(self, fid):
frame = frametable[fid]
self.idb.set_return(frame)
def get_stack(self, fid, tbid):
frame = frametable[fid]
if tbid is None:
tb = None
else:
tb = tracebacktable[tbid]
stack, i = self.idb.get_stack(frame, tb)
stack = [(wrap_frame(frame2), k) for frame2, k in stack]
return stack, i
def run(self, cmd):
import __main__
self.idb.run(cmd, __main__.__dict__)
def set_break(self, filename, lineno):
msg = self.idb.set_break(filename, lineno)
return msg
def clear_break(self, filename, lineno):
msg = self.idb.clear_break(filename, lineno)
return msg
def clear_all_file_breaks(self, filename):
msg = self.idb.clear_all_file_breaks(filename)
return msg
#----------called by a FrameProxy----------
def frame_attr(self, fid, name):
frame = frametable[fid]
return getattr(frame, name)
def frame_globals(self, fid):
frame = frametable[fid]
gdict = frame.f_globals
did = id(gdict)
dicttable[did] = gdict
return did
def frame_locals(self, fid):
frame = frametable[fid]
ldict = frame.f_locals
did = id(ldict)
dicttable[did] = ldict
return did
def frame_code(self, fid):
frame = frametable[fid]
code = frame.f_code
cid = id(code)
codetable[cid] = code
return cid
#----------called by a CodeProxy----------
def code_name(self, cid):
code = codetable[cid]
return code.co_name
def code_filename(self, cid):
code = codetable[cid]
return code.co_filename
#----------called by a DictProxy----------
def dict_keys(self, did):
raise NotImplementedError("dict_keys not public or pickleable")
## return dicttable[did].keys()
### Needed until dict_keys type is finished and pickleable.
# xxx finished. pickleable?
### Will probably need to extend rpc.py:SocketIO._proxify at that time.
def dict_keys_list(self, did):
return list(dicttable[did].keys())
def dict_item(self, did, key):
value = dicttable[did][key]
return reprlib.repr(value) # Can't pickle module 'builtins'.
#----------end class IdbAdapter----------
def start_debugger(rpchandler, gui_adap_oid):
"""Start the debugger and its RPC link in the Python subprocess
Start the subprocess side of the split debugger and set up that side of the
RPC link by instantiating the GUIProxy, Idb debugger, and IdbAdapter
objects and linking them together. Register the IdbAdapter with the
RPCServer to handle RPC requests from the split debugger GUI via the
IdbProxy.
"""
gui_proxy = GUIProxy(rpchandler, gui_adap_oid)
idb = debugger.Idb(gui_proxy)
idb_adap = IdbAdapter(idb)
rpchandler.register(idb_adap_oid, idb_adap)
return idb_adap_oid
#=======================================
#
# In the IDLE process:
class FrameProxy:
def __init__(self, conn, fid):
self._conn = conn
self._fid = fid
self._oid = "idb_adapter"
self._dictcache = {}
def __getattr__(self, name):
if name[:1] == "_":
raise AttributeError(name)
if name == "f_code":
return self._get_f_code()
if name == "f_globals":
return self._get_f_globals()
if name == "f_locals":
return self._get_f_locals()
return self._conn.remotecall(self._oid, "frame_attr",
(self._fid, name), {})
def _get_f_code(self):
cid = self._conn.remotecall(self._oid, "frame_code", (self._fid,), {})
return CodeProxy(self._conn, self._oid, cid)
def _get_f_globals(self):
did = self._conn.remotecall(self._oid, "frame_globals",
(self._fid,), {})
return self._get_dict_proxy(did)
def _get_f_locals(self):
did = self._conn.remotecall(self._oid, "frame_locals",
(self._fid,), {})
return self._get_dict_proxy(did)
def _get_dict_proxy(self, did):
if did in self._dictcache:
return self._dictcache[did]
dp = DictProxy(self._conn, self._oid, did)
self._dictcache[did] = dp
return dp
class CodeProxy:
def __init__(self, conn, oid, cid):
self._conn = conn
self._oid = oid
self._cid = cid
def __getattr__(self, name):
if name == "co_name":
return self._conn.remotecall(self._oid, "code_name",
(self._cid,), {})
if name == "co_filename":
return self._conn.remotecall(self._oid, "code_filename",
(self._cid,), {})
class DictProxy:
def __init__(self, conn, oid, did):
self._conn = conn
self._oid = oid
self._did = did
## def keys(self):
## return self._conn.remotecall(self._oid, "dict_keys", (self._did,), {})
# 'temporary' until dict_keys is a pickleable built-in type
def keys(self):
return self._conn.remotecall(self._oid,
"dict_keys_list", (self._did,), {})
def __getitem__(self, key):
return self._conn.remotecall(self._oid, "dict_item",
(self._did, key), {})
def __getattr__(self, name):
##print("*** Failed DictProxy.__getattr__:", name)
raise AttributeError(name)
class GUIAdapter:
def __init__(self, conn, gui):
self.conn = conn
self.gui = gui
def interaction(self, message, fid, modified_info):
##print("*** Interaction: (%s, %s, %s)" % (message, fid, modified_info))
frame = FrameProxy(self.conn, fid)
self.gui.interaction(message, frame, modified_info)
class IdbProxy:
def __init__(self, conn, shell, oid):
self.oid = oid
self.conn = conn
self.shell = shell
def call(self, methodname, /, *args, **kwargs):
##print("*** IdbProxy.call %s %s %s" % (methodname, args, kwargs))
value = self.conn.remotecall(self.oid, methodname, args, kwargs)
##print("*** IdbProxy.call %s returns %r" % (methodname, value))
return value
def run(self, cmd, locals):
# Ignores locals on purpose!
seq = self.conn.asyncqueue(self.oid, "run", (cmd,), {})
self.shell.interp.active_seq = seq
def get_stack(self, frame, tbid):
# passing frame and traceback IDs, not the objects themselves
stack, i = self.call("get_stack", frame._fid, tbid)
stack = [(FrameProxy(self.conn, fid), k) for fid, k in stack]
return stack, i
def set_continue(self):
self.call("set_continue")
def set_step(self):
self.call("set_step")
def set_next(self, frame):
self.call("set_next", frame._fid)
def set_return(self, frame):
self.call("set_return", frame._fid)
def set_quit(self):
self.call("set_quit")
def set_break(self, filename, lineno):
msg = self.call("set_break", filename, lineno)
return msg
def clear_break(self, filename, lineno):
msg = self.call("clear_break", filename, lineno)
return msg
def clear_all_file_breaks(self, filename):
msg = self.call("clear_all_file_breaks", filename)
return msg
def start_remote_debugger(rpcclt, pyshell):
"""Start the subprocess debugger, initialize the debugger GUI and RPC link
Request the RPCServer start the Python subprocess debugger and link. Set
up the Idle side of the split debugger by instantiating the IdbProxy,
debugger GUI, and debugger GUIAdapter objects and linking them together.
Register the GUIAdapter with the RPCClient to handle debugger GUI
interaction requests coming from the subprocess debugger via the GUIProxy.
The IdbAdapter will pass execution and environment requests coming from the
Idle debugger GUI to the subprocess debugger via the IdbProxy.
"""
global idb_adap_oid
idb_adap_oid = rpcclt.remotecall("exec", "start_the_debugger",\
(gui_adap_oid,), {})
idb_proxy = IdbProxy(rpcclt, pyshell, idb_adap_oid)
gui = debugger.Debugger(pyshell, idb_proxy)
gui_adap = GUIAdapter(rpcclt, gui)
rpcclt.register(gui_adap_oid, gui_adap)
return gui
def close_remote_debugger(rpcclt):
"""Shut down subprocess debugger and Idle side of debugger RPC link
Request that the RPCServer shut down the subprocess debugger and link.
Unregister the GUIAdapter, which will cause a GC on the Idle process
debugger and RPC link objects. (The second reference to the debugger GUI
is deleted in pyshell.close_remote_debugger().)
"""
close_subprocess_debugger(rpcclt)
rpcclt.unregister(gui_adap_oid)
def close_subprocess_debugger(rpcclt):
rpcclt.remotecall("exec", "stop_the_debugger", (idb_adap_oid,), {})
def restart_subprocess_debugger(rpcclt):
idb_adap_oid_ret = rpcclt.remotecall("exec", "start_the_debugger",\
(gui_adap_oid,), {})
assert idb_adap_oid_ret == idb_adap_oid, 'Idb restarted with different oid'
if __name__ == "__main__":
from unittest import main
main('idlelib.idle_test.test_debugger_r', verbosity=2, exit=False)