import sys import linecache import time import socket import traceback import thread import threading import Queue from idlelib import CallTips from idlelib import AutoComplete from idlelib import RemoteDebugger from idlelib import RemoteObjectBrowser from idlelib import StackViewer from idlelib import rpc import __main__ LOCALHOST = '127.0.0.1' try: import warnings except ImportError: pass else: def idle_formatwarning_subproc(message, category, filename, lineno): """Format warnings the IDLE way""" s = "\nWarning (from warnings module):\n" s += ' File \"%s\", line %s\n' % (filename, lineno) line = linecache.getline(filename, lineno).strip() if line: s += " %s\n" % line s += "%s: %s\n" % (category.__name__, message) return s warnings.formatwarning = idle_formatwarning_subproc # Thread shared globals: Establish a queue between a subthread (which handles # the socket) and the main thread (which runs user code), plus global # completion, exit and interruptable (the main thread) flags: exit_now = False quitting = False interruptable = False def main(del_exitfunc=False): """Start the Python execution server in a subprocess In the Python subprocess, RPCServer is instantiated with handlerclass MyHandler, which inherits register/unregister methods from RPCHandler via the mix-in class SocketIO. When the RPCServer 'server' is instantiated, the TCPServer initialization creates an instance of run.MyHandler and calls its handle() method. handle() instantiates a run.Executive object, passing it a reference to the MyHandler object. That reference is saved as attribute rpchandler of the Executive instance. The Executive methods have access to the reference and can pass it on to entities that they command (e.g. RemoteDebugger.Debugger.start_debugger()). The latter, in turn, can call MyHandler(SocketIO) register/unregister methods via the reference to register and unregister themselves. """ global exit_now global quitting global no_exitfunc no_exitfunc = del_exitfunc port = 8833 #time.sleep(15) # test subprocess not responding if sys.argv[1:]: port = int(sys.argv[1]) sys.argv[:] = [""] sockthread = threading.Thread(target=manage_socket, name='SockThread', args=((LOCALHOST, port),)) sockthread.setDaemon(True) sockthread.start() while 1: try: if exit_now: try: exit() except KeyboardInterrupt: # exiting but got an extra KBI? Try again! continue try: seq, request = rpc.request_queue.get(block=True, timeout=0.05) except Queue.Empty: continue method, args, kwargs = request ret = method(*args, **kwargs) rpc.response_queue.put((seq, ret)) except KeyboardInterrupt: if quitting: exit_now = True continue except SystemExit: raise except: type, value, tb = sys.exc_info() try: print_exception() rpc.response_queue.put((seq, None)) except: # Link didn't work, print same exception to __stderr__ traceback.print_exception(type, value, tb, file=sys.__stderr__) exit() else: continue def manage_socket(address): for i in range(3): time.sleep(i) try: server = MyRPCServer(address, MyHandler) break except socket.error as err: print("IDLE Subprocess: socket error: " + err.args[1] + ", retrying....", file=sys.__stderr__) else: print("IDLE Subprocess: Connection to "\ "IDLE GUI failed, exiting.", file=sys.__stderr__) show_socket_error(err, address) global exit_now exit_now = True return server.handle_request() # A single request only def show_socket_error(err, address): import Tkinter import tkMessageBox root = Tkinter.Tk() root.withdraw() if err.args[0] == 61: # connection refused msg = "IDLE's subprocess can't connect to %s:%d. This may be due "\ "to your personal firewall configuration. It is safe to "\ "allow this internal connection because no data is visible on "\ "external ports." % address tkMessageBox.showerror("IDLE Subprocess Error", msg, parent=root) else: tkMessageBox.showerror("IDLE Subprocess Error", "Socket Error: %s" % err.args[1]) root.destroy() def print_exception(): import linecache linecache.checkcache() flush_stdout() efile = sys.stderr typ, val, tb = excinfo = sys.exc_info() sys.last_type, sys.last_value, sys.last_traceback = excinfo tbe = traceback.extract_tb(tb) print('Traceback (most recent call last):', file=efile) exclude = ("run.py", "rpc.py", "threading.py", "Queue.py", "RemoteDebugger.py", "bdb.py") cleanup_traceback(tbe, exclude) traceback.print_list(tbe, file=efile) lines = traceback.format_exception_only(typ, val) for line in lines: print(line, end='', file=efile) def cleanup_traceback(tb, exclude): "Remove excluded traces from beginning/end of tb; get cached lines" orig_tb = tb[:] while tb: for rpcfile in exclude: if tb[0][0].count(rpcfile): break # found an exclude, break for: and delete tb[0] else: break # no excludes, have left RPC code, break while: del tb[0] while tb: for rpcfile in exclude: if tb[-1][0].count(rpcfile): break else: break del tb[-1] if len(tb) == 0: # exception was in IDLE internals, don't prune! tb[:] = orig_tb[:] print("** IDLE Internal Exception: ", file=sys.stderr) rpchandler = rpc.objecttable['exec'].rpchandler for i in range(len(tb)): fn, ln, nm, line = tb[i] if nm == '?': nm = "-toplevel-" if not line and fn.startswith(">") if jit: self.rpchandler.interp.open_remote_stack_viewer() else: flush_stdout() def interrupt_the_server(self): if interruptable: thread.interrupt_main() def start_the_debugger(self, gui_adap_oid): return RemoteDebugger.start_debugger(self.rpchandler, gui_adap_oid) def stop_the_debugger(self, idb_adap_oid): "Unregister the Idb Adapter. Link objects and Idb then subject to GC" self.rpchandler.unregister(idb_adap_oid) def get_the_calltip(self, name): return self.calltip.fetch_tip(name) def get_the_completion_list(self, what, mode): return self.autocomplete.fetch_completions(what, mode) def stackviewer(self, flist_oid=None): if self.usr_exc_info: typ, val, tb = self.usr_exc_info else: return None flist = None if flist_oid is not None: flist = self.rpchandler.get_remote_proxy(flist_oid) while tb and tb.tb_frame.f_globals["__name__"] in ["rpc", "run"]: tb = tb.tb_next sys.last_type = typ sys.last_value = val item = StackViewer.StackTreeItem(flist, tb) return RemoteObjectBrowser.remote_object_tree_item(item)