Mercurial Repositories > eric / file revision
DebugClients/Python2/DebugClientBase.py@4a4212a6f40c
DebugClients/Python2/DebugClientBase.py
Sat, 03 Sep 2016 18:24:50 +0200
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Sat, 03 Sep 2016 18:24:50 +0200
- branch
- jsonrpc
- changeset 5134
- 4a4212a6f40c
- parent 5133
- b7fe69c6cb1c
- child 5135
- 04905a8681dc
- permissions
- -rw-r--r--
Removed two obsolete modules in the Python 2 debugger.
# -*- coding: utf-8 -*- # Copyright (c) 2002 - 2016 Detlev Offenbach <detlev@die-offenbachs.de> # """ Module implementing a debug client base class. """ import sys import socket import select import codeop import traceback import os import time import imp import re import atexit import signal import inspect import DebugClientCapabilities from DebugBase import setRecursionLimit, printerr # __IGNORE_WARNING__ from AsyncFile import AsyncFile, AsyncPendingWrite from DebugConfig import ConfigVarTypeStrings from FlexCompleter import Completer from DebugUtilities import prepareJsonCommand DebugClientInstance = None ############################################################################### def DebugClientRawInput(prompt="", echo=1): """ Replacement for the standard raw_input builtin. This function works with the split debugger. @param prompt prompt to be shown. (string) @param echo flag indicating echoing of the input (boolean) @return result of the raw_input() call """ if DebugClientInstance is None or not DebugClientInstance.redirect: return DebugClientOrigRawInput(prompt) return DebugClientInstance.raw_input(prompt, echo) # Use our own raw_input(). try: DebugClientOrigRawInput = __builtins__.__dict__['raw_input'] __builtins__.__dict__['raw_input'] = DebugClientRawInput except (AttributeError, KeyError): import __main__ DebugClientOrigRawInput = __main__.__builtins__.__dict__['raw_input'] __main__.__builtins__.__dict__['raw_input'] = DebugClientRawInput ############################################################################### def DebugClientInput(prompt=""): """ Replacement for the standard input builtin. This function works with the split debugger. @param prompt prompt to be shown (string) @return result of the input() call """ if DebugClientInstance is None or DebugClientInstance.redirect == 0: return DebugClientOrigInput(prompt) return DebugClientInstance.input(prompt) # Use our own input(). try: DebugClientOrigInput = __builtins__.__dict__['input'] __builtins__.__dict__['input'] = DebugClientInput except (AttributeError, KeyError): import __main__ DebugClientOrigInput = __main__.__builtins__.__dict__['input'] __main__.__builtins__.__dict__['input'] = DebugClientInput ############################################################################### def DebugClientFork(): """ Replacement for the standard os.fork(). @return result of the fork() call """ if DebugClientInstance is None: return DebugClientOrigFork() return DebugClientInstance.fork() # use our own fork(). if 'fork' in dir(os): DebugClientOrigFork = os.fork os.fork = DebugClientFork ############################################################################### def DebugClientClose(fd): """ Replacement for the standard os.close(fd). @param fd open file descriptor to be closed (integer) """ if DebugClientInstance is None: DebugClientOrigClose(fd) DebugClientInstance.close(fd) # use our own close(). if 'close' in dir(os): DebugClientOrigClose = os.close os.close = DebugClientClose ############################################################################### def DebugClientSetRecursionLimit(limit): """ Replacement for the standard sys.setrecursionlimit(limit). @param limit recursion limit (integer) """ rl = max(limit, 64) setRecursionLimit(rl) DebugClientOrigSetRecursionLimit(rl + 64) # use our own setrecursionlimit(). if 'setrecursionlimit' in dir(sys): DebugClientOrigSetRecursionLimit = sys.setrecursionlimit sys.setrecursionlimit = DebugClientSetRecursionLimit DebugClientSetRecursionLimit(sys.getrecursionlimit()) ############################################################################### class DebugClientBase(object): """ Class implementing the client side of the debugger. It provides access to the Python interpeter from a debugger running in another process whether or not the Qt event loop is running. The protocol between the debugger and the client assumes that there will be a single source of debugger commands and a single source of Python statements. Commands and statement are always exactly one line and may be interspersed. The protocol is as follows. First the client opens a connection to the debugger and then sends a series of one line commands. A command is either >Load<, >Step<, >StepInto<, ... or a Python statement. See DebugProtocol.py for a listing of valid protocol tokens. A Python statement consists of the statement to execute, followed (in a separate line) by >OK?<. If the statement was incomplete then the response is >Continue<. If there was an exception then the response is >Exception<. Otherwise the response is >OK<. The reason for the >OK?< part is to provide a sentinal (ie. the responding >OK<) after any possible output as a result of executing the command. The client may send any other lines at any other time which should be interpreted as program output. If the debugger closes the session there is no response from the client. The client may close the session at any time as a result of the script being debugged closing or crashing. <b>Note</b>: This class is meant to be subclassed by individual DebugClient classes. Do not instantiate it directly. """ clientCapabilities = DebugClientCapabilities.HasAll def __init__(self): """ Constructor """ self.breakpoints = {} self.redirect = True self.__receiveBuffer = "" # The next couple of members are needed for the threaded version. # For this base class they contain static values for the non threaded # debugger # dictionary of all threads running self.threads = {} # the "current" thread, basically the thread we are at a # breakpoint for. self.currentThread = self # special objects representing the main scripts thread and frame self.mainThread = self self.mainFrame = None self.framenr = 0 # The context to run the debugged program in. self.debugMod = imp.new_module('__main__') self.debugMod.__dict__['__builtins__'] = __builtins__ # The list of complete lines to execute. self.buffer = '' # The list of regexp objects to filter variables against self.globalsFilterObjects = [] self.localsFilterObjects = [] self._fncache = {} self.dircache = [] self.mainProcStr = None # used for the passive mode self.passive = False # used to indicate the passive mode self.running = None self.test = None self.tracePython = False self.debugging = False self.fork_auto = False self.fork_child = False self.readstream = None self.writestream = None self.errorstream = None self.pollingDisabled = False self.callTraceEnabled = False self.__newCallTraceEnabled = False self.skipdirs = sys.path[:] self.variant = 'You should not see this' # commandline completion stuff self.complete = Completer(self.debugMod.__dict__).complete if sys.hexversion < 0x2020000: self.compile_command = codeop.compile_command else: self.compile_command = codeop.CommandCompiler() self.coding_re = re.compile(r"coding[:=]\s*([-\w_.]+)") self.defaultCoding = 'utf-8' self.__coding = self.defaultCoding self.noencoding = False def getCoding(self): """ Public method to return the current coding. @return codec name (string) """ return self.__coding def __setCoding(self, filename): """ Private method to set the coding used by a python file. @param filename name of the file to inspect (string) """ if self.noencoding: self.__coding = sys.getdefaultencoding() else: default = 'latin-1' try: f = open(filename, 'rb') # read the first and second line text = f.readline() text = "%s%s" % (text, f.readline()) f.close() except IOError: self.__coding = default return for l in text.splitlines(): m = self.coding_re.search(l) if m: self.__coding = m.group(1) return self.__coding = default def attachThread(self, target=None, args=None, kwargs=None, mainThread=0): """ Public method to setup a thread for DebugClient to debug. If mainThread is non-zero, then we are attaching to the already started mainthread of the app and the rest of the args are ignored. This is just an empty function and is overridden in the threaded debugger. @param target the start function of the target thread (i.e. the user code) @param args arguments to pass to target @param kwargs keyword arguments to pass to target @param mainThread non-zero, if we are attaching to the already started mainthread of the app """ if self.debugging: sys.setprofile(self.profile) def __dumpThreadList(self): """ Private method to send the list of threads. """ threadList = [] if self.threads and self.currentThread: # indication for the threaded debugger currentId = self.currentThread.get_ident() for t in self.threads.values(): d = {} d["id"] = t.get_ident() d["name"] = t.get_name() d["broken"] = t.isBroken() threadList.append(d) else: currentId = -1 d = {} d["id"] = -1 d["name"] = "MainThread" if hasattr(self, "isBroken"): d["broken"] = self.isBroken() else: d["broken"] = False threadList.append(d) self.sendJsonCommand("ResponseThreadList", { "currentID": currentId, "threadList": threadList, }) def raw_input(self, prompt, echo): """ Public method to implement raw_input() using the event loop. @param prompt the prompt to be shown (string) @param echo Flag indicating echoing of the input (boolean) @return the entered string """ self.sendJsonCommand("RequestRaw", { "prompt": prompt, "echo": echo, }) self.eventLoop(True) return self.rawLine def input(self, prompt): """ Public method to implement input() using the event loop. @param prompt the prompt to be shown (string) @return the entered string evaluated as a Python expresion """ return eval(self.raw_input(prompt, 1)) def sessionClose(self, exit=True): """ Public method to close the session with the debugger and optionally terminate. @param exit flag indicating to terminate (boolean) """ try: self.set_quit() except Exception: pass self.debugging = False # make sure we close down our end of the socket # might be overkill as normally stdin, stdout and stderr # SHOULD be closed on exit, but it does not hurt to do it here self.readstream.close(True) self.writestream.close(True) self.errorstream.close(True) if exit: # Ok, go away. sys.exit() def handleLine(self, line): """ Public method to handle the receipt of a complete line. It first looks for a valid protocol token at the start of the line. Thereafter it trys to execute the lines accumulated so far. @param line the received line """ # Remove any newline. if line[-1] == '\n': line = line[:-1] ## printerr(line) ##debug self.handleJsonCommand(line) def handleJsonCommand(self, jsonStr): """ Public method to handle a command serialized as a JSON string. @param jsonStr string containing the command received from the IDE @type str """ import json try: commandDict = json.loads(jsonStr.strip()) except json.JSONDecodeError as err: printerr(str(err)) return method = commandDict["method"] params = commandDict["params"] if method == "RequestVariables": self.__dumpVariables( params["frameNumber"], params["scope"], params["filters"]) elif method == "RequestVariable": self.__dumpVariable( params["variable"], params["frameNumber"], params["scope"], params["filters"]) elif method == "RequestThreadList": self.__dumpThreadList() elif method == "RequestThreadSet": if params["threadID"] in self.threads: self.setCurrentThread(params["threadID"]) self.sendJsonCommand("ResponseThreadSet", {}) stack = self.currentThread.getStack() self.sendJsonCommand("ResponseStack", { "stack": stack, }) elif method == "RequestCapabilities": self.sendJsonCommand("ResponseCapabilities", { "capabilities": self.__clientCapabilities(), "clientType": "Python3" }) elif method == "RequestBanner": self.sendJsonCommand("ResponseBanner", { "version": "Python {0}".format(sys.version), "platform": socket.gethostname(), "dbgclient": self.variant, }) elif method == "RequestSetFilter": self.__generateFilterObjects(params["scope"], params["filter"]) elif method == "RequestCallTrace": if self.debugging: self.callTraceEnabled = params["enable"] else: self.__newCallTraceEnabled = params["enable"] # remember for later elif method == "RequestEnvironment": for key, value in params["environment"].items(): if key.endswith("+"): if key[:-1] in os.environ: os.environ[key[:-1]] += value else: os.environ[key[:-1]] = value else: os.environ[key] = value elif method == "RequestLoad": self._fncache = {} self.dircache = [] sys.argv = [] params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) self.__setCoding(params["filename"]) sys.argv.append(params["filename"]) sys.argv.extend(params["argv"]) sys.path = self.__getSysPath(os.path.dirname(sys.argv[0])) if params["workdir"] == '': os.chdir(sys.path[1]) else: os.chdir(params["workdir"]) self.running = sys.argv[0] self.mainFrame = None self.debugging = True self.fork_auto = params["autofork"] self.fork_child = params["forkChild"] self.threads.clear() self.attachThread(mainThread=True) # set the system exception handling function to ensure, that # we report on all unhandled exceptions sys.excepthook = self.__unhandled_exception self.__interceptSignals() # clear all old breakpoints, they'll get set after we have # started self.mainThread.clear_all_breaks() self.mainThread.tracePython = params["traceInterpreter"] # This will eventually enter a local event loop. self.debugMod.__dict__['__file__'] = self.running sys.modules['__main__'] = self.debugMod self.callTraceEnabled = self.__newCallTraceEnabled res = self.mainThread.run( 'execfile(' + repr(self.running) + ')', self.debugMod.__dict__) self.progTerminated(res) elif method == "RequestRun": sys.argv = [] params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) self.__setCoding(params["filename"]) sys.argv.append(params["filename"]) sys.argv.extend(params["argv"]) sys.path = self.__getSysPath(os.path.dirname(sys.argv[0])) if params["workdir"] == '': os.chdir(sys.path[1]) else: os.chdir(params["workdir"]) self.running = sys.argv[0] self.mainFrame = None self.botframe = None self.fork_auto = params["autofork"] self.fork_child = params["forkChild"] self.threads.clear() self.attachThread(mainThread=True) # set the system exception handling function to ensure, that # we report on all unhandled exceptions sys.excepthook = self.__unhandled_exception self.__interceptSignals() self.mainThread.tracePython = False self.debugMod.__dict__['__file__'] = sys.argv[0] sys.modules['__main__'] = self.debugMod res = 0 try: execfile(sys.argv[0], self.debugMod.__dict__) except SystemExit as exc: res = exc.code atexit._run_exitfuncs() self.writestream.flush() self.progTerminated(res) elif method == "RequestCoverage": from coverage import coverage sys.argv = [] params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) self.__setCoding(params["filename"]) sys.argv.append(params["filename"]) sys.argv.extend(params["argv"]) sys.path = self.__getSysPath(os.path.dirname(sys.argv[0])) if params["workdir"] == '': os.chdir(sys.path[1]) else: os.chdir(params["workdir"]) # set the system exception handling function to ensure, that # we report on all unhandled exceptions sys.excepthook = self.__unhandled_exception self.__interceptSignals() # generate a coverage object self.cover = coverage( auto_data=True, data_file="%s.coverage" % os.path.splitext(sys.argv[0])[0]) if params["erase"]: self.cover.erase() sys.modules['__main__'] = self.debugMod self.debugMod.__dict__['__file__'] = sys.argv[0] self.running = sys.argv[0] res = 0 self.cover.start() try: execfile(sys.argv[0], self.debugMod.__dict__) except SystemExit as exc: res = exc.code atexit._run_exitfuncs() self.cover.stop() self.cover.save() self.writestream.flush() self.progTerminated(res) elif method == "RequestProfile": sys.setprofile(None) import PyProfile sys.argv = [] params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) self.__setCoding(params["filename"]) sys.argv.append(params["filename"]) sys.argv.extend(params["argv"]) sys.path = self.__getSysPath(os.path.dirname(sys.argv[0])) if params["workdir"] == '': os.chdir(sys.path[1]) else: os.chdir(params["workdir"]) # set the system exception handling function to ensure, that # we report on all unhandled exceptions sys.excepthook = self.__unhandled_exception self.__interceptSignals() # generate a profile object self.prof = PyProfile.PyProfile(sys.argv[0]) if params["erase"]: self.prof.erase() self.debugMod.__dict__['__file__'] = sys.argv[0] sys.modules['__main__'] = self.debugMod self.running = sys.argv[0] res = 0 try: self.prof.run('execfile(%r)' % sys.argv[0]) except SystemExit as exc: res = exc.code atexit._run_exitfuncs() self.prof.save() self.writestream.flush() self.progTerminated(res) elif method == "ExecuteStatement": if self.buffer: self.buffer = self.buffer + '\n' + params["statement"] else: self.buffer = params["statement"] try: code = self.compile_command(self.buffer, self.readstream.name) except (OverflowError, SyntaxError, ValueError): # Report the exception sys.last_type, sys.last_value, sys.last_traceback = \ sys.exc_info() self.sendJsonCommand("ClientOutput", { "text": "".join(traceback.format_exception_only( sys.last_type, sys.last_value)) }) self.buffer = '' else: if code is None: self.sendJsonCommand("ResponseContinue", {}) return else: self.buffer = '' try: if self.running is None: exec code in self.debugMod.__dict__ else: if self.currentThread is None: # program has terminated self.running = None _globals = self.debugMod.__dict__ _locals = _globals else: cf = self.currentThread.getCurrentFrame() # program has terminated if cf is None: self.running = None _globals = self.debugMod.__dict__ _locals = _globals else: frmnr = self.framenr while cf is not None and frmnr > 0: cf = cf.f_back frmnr -= 1 _globals = cf.f_globals _locals = \ self.currentThread.getFrameLocals( self.framenr) # reset sys.stdout to our redirector # (unconditionally) if "sys" in _globals: __stdout = _globals["sys"].stdout _globals["sys"].stdout = self.writestream exec code in _globals, _locals _globals["sys"].stdout = __stdout elif "sys" in _locals: __stdout = _locals["sys"].stdout _locals["sys"].stdout = self.writestream exec code in _globals, _locals _locals["sys"].stdout = __stdout else: exec code in _globals, _locals self.currentThread.storeFrameLocals(self.framenr) except SystemExit, exc: self.progTerminated(exc.code) except Exception: # Report the exception and the traceback tlist = [] try: exc_type, exc_value, exc_tb = sys.exc_info() sys.last_type = exc_type sys.last_value = exc_value sys.last_traceback = exc_tb tblist = traceback.extract_tb(exc_tb) del tblist[:1] tlist = traceback.format_list(tblist) if tlist: tlist.insert( 0, "Traceback (innermost last):\n") tlist.extend(traceback.format_exception_only( exc_type, exc_value)) finally: tblist = exc_tb = None self.sendJsonCommand("ClientOutput", { "text": "".join(tlist) }) self.sendJsonCommand("ResponseOK", {}) elif method == "RequestStep": self.currentThread.step(True) self.eventExit = True elif method == "RequestStepOver": self.currentThread.step(False) self.eventExit = True elif method == "RequestStepOut": self.currentThread.stepOut() self.eventExit = True elif method == "RequestStepQuit": if self.passive: self.progTerminated(42) else: self.set_quit() self.eventExit = True elif method == "RequestContinue": self.currentThread.go(params["special"]) self.eventExit = True elif method == "RawInput": # If we are handling raw mode input then break out of the current # event loop. self.rawLine = params["input"] self.eventExit = True elif method == "RequestBreakpoint": params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) if params["setBreakpoint"]: if params["condition"] in ['None', '']: params["condition"] = None elif params["condition"] is not None: try: compile(params["condition"], '<string>', 'eval') except SyntaxError: self.sendJsonCommand("ResponseBPConditionError", { "filename": params["filename"], "line": params["line"], }) return self.mainThread.set_break( params["filename"], params["line"], params["temporary"], params["condition"]) else: self.mainThread.clear_break(params["filename"], params["line"]) elif method == "RequestBreakpointEnable": params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) bp = self.mainThread.get_break(params["filename"], params["line"]) if bp is not None: if params["enable"]: bp.enable() else: bp.disable() elif method == "RequestBreakpointIgnore": params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) bp = self.mainThread.get_break(params["filename"], params["line"]) if bp is not None: bp.ignore = params["count"] elif method == "RequestWatch": if params["setWatch"]: if not params["condition"].endswith( ('??created??', '??changed??')): try: compile(params["condition"], '<string>', 'eval') except SyntaxError: self.sendJsonCommand("ResponseWatchConditionError", { "condition": params["condition"], }) return self.mainThread.set_watch( params["condition"], params["temporary"]) else: self.mainThread.clear_watch(params["condition"]) elif method == "RequestWatchEnable": wp = self.mainThread.get_watch(params["condition"]) if wp is not None: if params["enable"]: wp.enable() else: wp.disable() elif method == "RequestWatchIgnore": wp = self.mainThread.get_watch(params["condition"]) if wp is not None: wp.ignore = params["count"] elif method == "RequestShutdown": self.sessionClose() elif method == "RequestCompletion": self.__completionList(params["text"]) elif method == "RequestUTPrepare": params["filename"] = params["filename"].encode( sys.getfilesystemencoding()) sys.path.insert( 0, os.path.dirname(os.path.abspath(params["filename"]))) os.chdir(sys.path[0]) # set the system exception handling function to ensure, that # we report on all unhandled exceptions sys.excepthook = self.__unhandled_exception self.__interceptSignals() try: import unittest utModule = __import__(params["testname"]) try: if params["failed"]: self.test = unittest.defaultTestLoader\ .loadTestsFromNames(params["failed"], utModule) else: self.test = unittest.defaultTestLoader\ .loadTestsFromName(params["testfunctionname"], utModule) except AttributeError: self.test = unittest.defaultTestLoader\ .loadTestsFromModule(utModule) except Exception: exc_type, exc_value, exc_tb = sys.exc_info() self.sendJsonCommand("ResponseUTPrepared", { "count": 0, "exception": exc_type.__name__, "message": str(exc_value), }) return # generate a coverage object if params["coverage"]: from coverage import coverage self.cover = coverage( auto_data=True, data_file="%s.coverage" % ( os.path.splitext(params["coveragefile"])[0])) if params["coverageerase"]: self.cover.erase() else: self.cover = None self.sendJsonCommand("ResponseUTPrepared", { "count": self.test.countTestCases(), "exception": "", "message": "", }) elif method == "RequestUTRun": from DCTestResult import DCTestResult self.testResult = DCTestResult(self) if self.cover: self.cover.start() self.test.run(self.testResult) if self.cover: self.cover.stop() self.cover.save() self.sendJsonCommand("ResponseUTFinished", {}) elif method == "RequestUTStop": self.testResult.stop() elif method == "ResponseForkTo": # this results from a separate event loop self.fork_child = (params["target"] == 'child') self.eventExit = True def sendJsonCommand(self, method, params): """ Public method to send a single command or response to the IDE. @param method command or response command name to be sent @type str @param params dictionary of named parameters for the command or response @type dict """ cmd = prepareJsonCommand(method, params) self.writestream.write_p(cmd) self.writestream.flush() def sendClearTemporaryBreakpoint(self, filename, lineno): """ Public method to signal the deletion of a temporary breakpoint. @param filename name of the file the bp belongs to @type str @param lineno linenumber of the bp @type int """ self.sendJsonCommand("ResponseClearBreakpoint", { "filename": filename, "line": lineno }) def sendClearTemporaryWatch(self, condition): """ Public method to signal the deletion of a temporary watch expression. @param condition condition of the watch expression to be cleared @type str """ self.sendJsonCommand("ResponseClearWatch", { "condition": condition, }) def sendResponseLine(self, stack): """ Public method to send the current call stack. @param stack call stack @type list """ self.sendJsonCommand("ResponseLine", { "stack": stack, }) def sendCallTrace(self, event, fromStr, toStr): """ Public method to send a call trace entry. @param event trace event (call or return) @type str @param fromStr pre-formatted origin info @type str @param toStr pre-formatted target info @type str """ self.sendJsonCommand("CallTrace", { "event": event[0], "from": fromStr, "to": toStr, }) def sendException(self, exceptionType, exceptionMessage, stack): """ Public method to send information for an exception. @param exceptionType type of exception raised @type str @param exceptionMessage message of the exception @type str @param stack stack trace information @type list """ self.sendJsonCommand("ResponseException", { "type": exceptionType, "message": exceptionMessage, "stack": stack, }) def sendSyntaxError(self, message, filename, lineno, charno): """ Public method to send information for a syntax error. @param message syntax error message @type str @param filename name of the faulty file @type str @param lineno line number info @type int @param charno character number info @tyoe int """ self.sendJsonCommand("ResponseSyntax", { "message": message, "filename": filename, "linenumber": lineno, "characternumber": charno, }) def sendPassiveStartup(self, filename, exceptions): """ Public method to send the passive start information. @param filename name of the script @type str @param exceptions flag to enable exception reporting of the IDE @type bool """ self.sendJsonCommand("PassiveStartup", { "filename": filename, "exceptions": exceptions, }) def __clientCapabilities(self): """ Private method to determine the clients capabilities. @return client capabilities (integer) """ try: import PyProfile # __IGNORE_WARNING__ try: del sys.modules['PyProfile'] except KeyError: pass return self.clientCapabilities except ImportError: return ( self.clientCapabilities & ~DebugClientCapabilities.HasProfiler) def readReady(self, stream): """ Public method called when there is data ready to be read. @param stream file like object that has data to be written """ try: got = stream.readline_p() except Exception: return if len(got) == 0: self.sessionClose() return self.__receiveBuffer = self.__receiveBuffer + got # Call handleLine for the line if it is complete. eol = self.__receiveBuffer.find('\n') while eol >= 0: line = self.__receiveBuffer[:eol + 1] self.__receiveBuffer = self.__receiveBuffer[eol + 1:] self.handleLine(line) eol = self.__receiveBuffer.find('\n') def writeReady(self, stream): """ Public method called when we are ready to write data. @param stream file like object that has data to be written """ stream.write_p("") stream.flush() def __interact(self): """ Private method to interact with the debugger. """ global DebugClientInstance DebugClientInstance = self self.__receiveBuffer = "" if not self.passive: # At this point simulate an event loop. self.eventLoop() def eventLoop(self, disablePolling=False): """ Public method implementing our event loop. @param disablePolling flag indicating to enter an event loop with polling disabled (boolean) """ self.eventExit = None self.pollingDisabled = disablePolling while self.eventExit is None: wrdy = [] if self.writestream.nWriteErrors > self.writestream.maxtries: break if AsyncPendingWrite(self.writestream): wrdy.append(self.writestream) if AsyncPendingWrite(self.errorstream): wrdy.append(self.errorstream) try: rrdy, wrdy, xrdy = select.select([self.readstream], wrdy, []) except (select.error, KeyboardInterrupt, socket.error): # just carry on continue if self.readstream in rrdy: self.readReady(self.readstream) if self.writestream in wrdy: self.writeReady(self.writestream) if self.errorstream in wrdy: self.writeReady(self.errorstream) self.eventExit = None self.pollingDisabled = False def eventPoll(self): """ Public method to poll for events like 'set break point'. """ if self.pollingDisabled: return # the choice of a ~0.5 second poll interval is arbitrary. lasteventpolltime = getattr(self, 'lasteventpolltime', time.time()) now = time.time() if now - lasteventpolltime < 0.5: self.lasteventpolltime = lasteventpolltime return else: self.lasteventpolltime = now wrdy = [] if AsyncPendingWrite(self.writestream): wrdy.append(self.writestream) if AsyncPendingWrite(self.errorstream): wrdy.append(self.errorstream) # immediate return if nothing is ready. try: rrdy, wrdy, xrdy = select.select([self.readstream], wrdy, [], 0) except (select.error, KeyboardInterrupt, socket.error): return if self.readstream in rrdy: self.readReady(self.readstream) if self.writestream in wrdy: self.writeReady(self.writestream) if self.errorstream in wrdy: self.writeReady(self.errorstream) def connectDebugger(self, port, remoteAddress=None, redirect=1): """ Public method to establish a session with the debugger. It opens a network connection to the debugger, connects it to stdin, stdout and stderr and saves these file objects in case the application being debugged redirects them itself. @param port the port number to connect to (int) @param remoteAddress the network address of the debug server host (string) @param redirect flag indicating redirection of stdin, stdout and stderr (boolean) """ if remoteAddress is None: remoteAddress = "127.0.0.1" elif "@@i" in remoteAddress: remoteAddress = remoteAddress.split("@@i")[0] sock = socket.create_connection((remoteAddress, port)) self.readstream = AsyncFile(sock, sys.stdin.mode, sys.stdin.name) self.writestream = AsyncFile(sock, sys.stdout.mode, sys.stdout.name) self.errorstream = AsyncFile(sock, sys.stderr.mode, sys.stderr.name) if redirect: sys.stdin = self.readstream sys.stdout = self.writestream sys.stderr = self.errorstream self.redirect = redirect # attach to the main thread here self.attachThread(mainThread=1) def __unhandled_exception(self, exctype, excval, exctb): """ Private method called to report an uncaught exception. @param exctype the type of the exception @param excval data about the exception @param exctb traceback for the exception """ self.mainThread.user_exception(None, (exctype, excval, exctb), True) def __interceptSignals(self): """ Private method to intercept common signals. """ for signum in [ signal.SIGABRT, # abnormal termination signal.SIGFPE, # floating point exception signal.SIGILL, # illegal instruction signal.SIGSEGV, # segmentation violation ]: signal.signal(signum, self.__signalHandler) def __signalHandler(self, signalNumber, stackFrame): """ Private method to handle signals. @param signalNumber number of the signal to be handled @type int @param stackFrame current stack frame @type frame object """ if signalNumber == signal.SIGABRT: message = "Abnormal Termination" elif signalNumber == signal.SIGFPE: message = "Floating Point Exception" elif signalNumber == signal.SIGILL: message = "Illegal Instruction" elif signalNumber == signal.SIGSEGV: message = "Segmentation Violation" else: message = "Unknown Signal '%d'" % signalNumber filename = self.absPath(stackFrame) linenr = stackFrame.f_lineno ffunc = stackFrame.f_code.co_name if ffunc == '?': ffunc = '' if ffunc and not ffunc.startswith("<"): argInfo = inspect.getargvalues(stackFrame) try: fargs = inspect.formatargvalues( argInfo.args, argInfo.varargs, argInfo.keywords, argInfo.locals) except Exception: fargs = "" else: fargs = "" self.sendJsonCommand("ResponseSignal", { "message": message, "filename": filename, "linenumber": linenr, "function": ffunc, "arguments": fargs, }) def absPath(self, fn): """ Public method to convert a filename to an absolute name. sys.path is used as a set of possible prefixes. The name stays relative if a file could not be found. @param fn filename (string) @return the converted filename (string) """ if os.path.isabs(fn): return fn # Check the cache. if fn in self._fncache: return self._fncache[fn] # Search sys.path. for p in sys.path: afn = os.path.abspath(os.path.join(p, fn)) nafn = os.path.normcase(afn) if os.path.exists(nafn): self._fncache[fn] = afn d = os.path.dirname(afn) if (d not in sys.path) and (d not in self.dircache): self.dircache.append(d) return afn # Search the additional directory cache for p in self.dircache: afn = os.path.abspath(os.path.join(p, fn)) nafn = os.path.normcase(afn) if os.path.exists(nafn): self._fncache[fn] = afn return afn # Nothing found. return fn def shouldSkip(self, fn): """ Public method to check if a file should be skipped. @param fn filename to be checked @return non-zero if fn represents a file we are 'skipping', zero otherwise. """ if self.mainThread.tracePython: # trace into Python library return False # Eliminate anything that is part of the Python installation. afn = self.absPath(fn) for d in self.skipdirs: if afn.startswith(d): return True # special treatment for paths containing site-packages or dist-packages for part in ["site-packages", "dist-packages"]: if part in afn: return True return False def getRunning(self): """ Public method to return the main script we are currently running. @return flag indicating a running debug session (boolean) """ return self.running def progTerminated(self, status, message=""): """ Public method to tell the debugger that the program has terminated. @param status return status @type int @param message status message @type str """ if status is None: status = 0 elif not isinstance(status, int): message = str(status) status = 1 if self.running: self.set_quit() self.running = None self.sendJsonCommand("ResponseExit", { "status": status, "message": message, }) # reset coding self.__coding = self.defaultCoding def __dumpVariables(self, frmnr, scope, filter): """ Private method to return the variables of a frame to the debug server. @param frmnr distance of frame reported on. 0 is the current frame (int) @param scope 1 to report global variables, 0 for local variables (int) @param filter the indices of variable types to be filtered (list of int) """ if self.currentThread is None: return if scope == 0: self.framenr = frmnr f = self.currentThread.getCurrentFrame() while f is not None and frmnr > 0: f = f.f_back frmnr -= 1 if f is None: if scope: dict = self.debugMod.__dict__ else: scope = -1 elif scope: dict = f.f_globals elif f.f_globals is f.f_locals: scope = -1 else: dict = f.f_locals varlist = [] if scope != -1: keylist = dict.keys() vlist = self.__formatVariablesList(keylist, dict, scope, filter) varlist.extend(vlist) self.sendJsonCommand("ResponseVariables", { "scope": scope, "variables": varlist, }) def __dumpVariable(self, var, frmnr, scope, filter): """ Private method to return the variables of a frame to the debug server. @param var list encoded name of the requested variable (list of strings) @param frmnr distance of frame reported on. 0 is the current frame (int) @param scope 1 to report global variables, 0 for local variables (int) @param filter the indices of variable types to be filtered (list of int) """ if self.currentThread is None: return f = self.currentThread.getCurrentFrame() while f is not None and frmnr > 0: f = f.f_back frmnr -= 1 if f is None: if scope: dict = self.debugMod.__dict__ else: scope = -1 elif scope: dict = f.f_globals elif f.f_globals is f.f_locals: scope = -1 else: dict = f.f_locals varlist = [] if scope != -1: # search the correct dictionary i = 0 rvar = var[:] dictkeys = None obj = None isDict = False formatSequences = False access = "" oaccess = "" odict = dict qtVariable = False qvar = None qvtype = "" while i < len(var): if len(dict): udict = dict ndict = {} # this has to be in line with VariablesViewer.indicators if var[i][-2:] in ["[]", "()", "{}"]: # __IGNORE_WARNING__ if i + 1 == len(var): if var[i][:-2] == '...': dictkeys = [var[i - 1]] else: dictkeys = [var[i][:-2]] formatSequences = True if not access and not oaccess: if var[i][:-2] == '...': access = '["%s"]' % var[i - 1] dict = odict else: access = '["%s"]' % var[i][:-2] else: if var[i][:-2] == '...': if oaccess: access = oaccess else: access = '%s[%s]' % (access, var[i - 1]) dict = odict else: if oaccess: access = '%s[%s]' % (oaccess, var[i][:-2]) oaccess = '' else: access = '%s[%s]' % (access, var[i][:-2]) if var[i][-2:] == "{}": # __IGNORE_WARNING__ isDict = True break else: if not access: if var[i][:-2] == '...': access = '["%s"]' % var[i - 1] dict = odict else: access = '["%s"]' % var[i][:-2] else: if var[i][:-2] == '...': access = '%s[%s]' % (access, var[i - 1]) dict = odict else: if oaccess: access = '%s[%s]' % (oaccess, var[i][:-2]) oaccess = '' else: access = '%s[%s]' % (access, var[i][:-2]) else: if access: if oaccess: access = '%s[%s]' % (oaccess, var[i]) else: access = '%s[%s]' % (access, var[i]) if var[i - 1][:-2] == '...': oaccess = access else: oaccess = '' try: exec 'mdict = dict%s.__dict__' % access ndict.update(mdict) # __IGNORE_WARNING__ exec 'obj = dict%s' % access if "PyQt4." in str(type(obj)) or \ "PyQt5." in str(type(obj)): qtVariable = True qvar = obj qvtype = ("%s" % type(qvar))[1:-1]\ .split()[1][1:-1] except Exception: pass try: exec 'mcdict = dict%s.__class__.__dict__' % access ndict.update(mcdict) # __IGNORE_WARNING__ if mdict and "sipThis" not in mdict.keys(): # __IGNORE_WARNING__ del rvar[0:2] access = "" except Exception: pass try: cdict = {} exec 'slv = dict%s.__slots__' % access for v in slv: # __IGNORE_WARNING__ try: exec 'cdict[v] = dict%s.%s' % (access, v) except Exception: pass ndict.update(cdict) exec 'obj = dict%s' % access access = "" if "PyQt4." in str(type(obj)) or \ "PyQt5." in str(type(obj)): qtVariable = True qvar = obj qvtype = ("%s" % type(qvar))[1:-1]\ .split()[1][1:-1] except Exception: pass else: try: ndict.update(dict[var[i]].__dict__) ndict.update(dict[var[i]].__class__.__dict__) del rvar[0] obj = dict[var[i]] if "PyQt4." in str(type(obj)) or \ "PyQt5." in str(type(obj)): qtVariable = True qvar = obj qvtype = ("%s" % type(qvar))[1:-1]\ .split()[1][1:-1] except Exception: pass try: cdict = {} slv = dict[var[i]].__slots__ for v in slv: try: exec 'cdict[v] = dict[var[i]].%s' % v except Exception: pass ndict.update(cdict) obj = dict[var[i]] if "PyQt4." in str(type(obj)) or \ "PyQt5." in str(type(obj)): qtVariable = True qvar = obj qvtype = ("%s" % type(qvar))[1:-1]\ .split()[1][1:-1] except Exception: pass odict = dict dict = ndict i += 1 if qtVariable: vlist = self.__formatQtVariable(qvar, qvtype) elif ("sipThis" in dict.keys() and len(dict) == 1) or \ (len(dict) == 0 and len(udict) > 0): if access: exec 'qvar = udict%s' % access # this has to be in line with VariablesViewer.indicators elif rvar and rvar[0][-2:] in ["[]", "()", "{}"]: # __IGNORE_WARNING__ exec 'qvar = udict["%s"][%s]' % (rvar[0][:-2], rvar[1]) else: qvar = udict[var[-1]] qvtype = ("%s" % type(qvar))[1:-1].split()[1][1:-1] if qvtype.startswith(("PyQt4", "PyQt5")): vlist = self.__formatQtVariable(qvar, qvtype) else: vlist = [] else: qtVariable = False if len(dict) == 0 and len(udict) > 0: if access: exec 'qvar = udict%s' % access # this has to be in line with VariablesViewer.indicators elif rvar and rvar[0][-2:] in ["[]", "()", "{}"]: # __IGNORE_WARNING__ exec 'qvar = udict["%s"][%s]' % (rvar[0][:-2], rvar[1]) else: qvar = udict[var[-1]] qvtype = ("%s" % type(qvar))[1:-1].split()[1][1:-1] if qvtype.startswith(("PyQt4", "PyQt5")): qtVariable = True if qtVariable: vlist = self.__formatQtVariable(qvar, qvtype) else: # format the dictionary found if dictkeys is None: dictkeys = dict.keys() else: # treatment for sequences and dictionaries if access: exec "dict = dict%s" % access else: dict = dict[dictkeys[0]] if isDict: dictkeys = dict.keys() else: dictkeys = range(len(dict)) vlist = self.__formatVariablesList( dictkeys, dict, scope, filter, formatSequences) varlist.extend(vlist) if obj is not None and not formatSequences: try: if unicode(repr(obj)).startswith('{'): varlist.append(('...', 'dict', "%d" % len(obj.keys()))) elif unicode(repr(obj)).startswith('['): varlist.append(('...', 'list', "%d" % len(obj))) elif unicode(repr(obj)).startswith('('): varlist.append(('...', 'tuple', "%d" % len(obj))) except Exception: pass self.sendJsonCommand("ResponseVariable", { "scope": scope, "variable": var, "variables": varlist, }) def __formatQtVariable(self, value, vtype): """ Private method to produce a formated output of a simple Qt4/Qt5 type. @param value variable to be formated @param vtype type of the variable to be formatted (string) @return A tuple consisting of a list of formatted variables. Each variable entry is a tuple of three elements, the variable name, its type and value. """ qttype = vtype.split('.')[-1] varlist = [] if qttype == 'QChar': varlist.append(("", "QChar", "%s" % unichr(value.unicode()))) varlist.append(("", "int", "%d" % value.unicode())) elif qttype == 'QByteArray': varlist.append(("hex", "QByteArray", "%s" % value.toHex())) varlist.append(("base64", "QByteArray", "%s" % value.toBase64())) varlist.append(("percent encoding", "QByteArray", "%s" % value.toPercentEncoding())) elif qttype == 'QString': varlist.append(("", "QString", "%s" % value)) elif qttype == 'QStringList': for i in range(value.count()): varlist.append(("%d" % i, "QString", "%s" % value[i])) elif qttype == 'QPoint': varlist.append(("x", "int", "%d" % value.x())) varlist.append(("y", "int", "%d" % value.y())) elif qttype == 'QPointF': varlist.append(("x", "float", "%g" % value.x())) varlist.append(("y", "float", "%g" % value.y())) elif qttype == 'QRect': varlist.append(("x", "int", "%d" % value.x())) varlist.append(("y", "int", "%d" % value.y())) varlist.append(("width", "int", "%d" % value.width())) varlist.append(("height", "int", "%d" % value.height())) elif qttype == 'QRectF': varlist.append(("x", "float", "%g" % value.x())) varlist.append(("y", "float", "%g" % value.y())) varlist.append(("width", "float", "%g" % value.width())) varlist.append(("height", "float", "%g" % value.height())) elif qttype == 'QSize': varlist.append(("width", "int", "%d" % value.width())) varlist.append(("height", "int", "%d" % value.height())) elif qttype == 'QSizeF': varlist.append(("width", "float", "%g" % value.width())) varlist.append(("height", "float", "%g" % value.height())) elif qttype == 'QColor': varlist.append(("name", "str", "%s" % value.name())) r, g, b, a = value.getRgb() varlist.append(("rgba", "int", "%d, %d, %d, %d" % (r, g, b, a))) h, s, v, a = value.getHsv() varlist.append(("hsva", "int", "%d, %d, %d, %d" % (h, s, v, a))) c, m, y, k, a = value.getCmyk() varlist.append( ("cmyka", "int", "%d, %d, %d, %d, %d" % (c, m, y, k, a))) elif qttype == 'QDate': varlist.append(("", "QDate", "%s" % value.toString())) elif qttype == 'QTime': varlist.append(("", "QTime", "%s" % value.toString())) elif qttype == 'QDateTime': varlist.append(("", "QDateTime", "%s" % value.toString())) elif qttype == 'QDir': varlist.append(("path", "str", "%s" % value.path())) varlist.append( ("absolutePath", "str", "%s" % value.absolutePath())) varlist.append( ("canonicalPath", "str", "%s" % value.canonicalPath())) elif qttype == 'QFile': varlist.append(("fileName", "str", "%s" % value.fileName())) elif qttype == 'QFont': varlist.append(("family", "str", "%s" % value.family())) varlist.append(("pointSize", "int", "%d" % value.pointSize())) varlist.append(("weight", "int", "%d" % value.weight())) varlist.append(("bold", "bool", "%s" % value.bold())) varlist.append(("italic", "bool", "%s" % value.italic())) elif qttype == 'QUrl': varlist.append(("url", "str", "%s" % value.toString())) varlist.append(("scheme", "str", "%s" % value.scheme())) varlist.append(("user", "str", "%s" % value.userName())) varlist.append(("password", "str", "%s" % value.password())) varlist.append(("host", "str", "%s" % value.host())) varlist.append(("port", "int", "%d" % value.port())) varlist.append(("path", "str", "%s" % value.path())) elif qttype == 'QModelIndex': varlist.append(("valid", "bool", "%s" % value.isValid())) if value.isValid(): varlist.append(("row", "int", "%s" % value.row())) varlist.append(("column", "int", "%s" % value.column())) varlist.append( ("internalId", "int", "%s" % value.internalId())) varlist.append( ("internalPointer", "void *", "%s" % value.internalPointer())) elif qttype == 'QRegExp': varlist.append(("pattern", "str", "%s" % value.pattern())) # GUI stuff elif qttype == 'QAction': varlist.append(("name", "str", "%s" % value.objectName())) varlist.append(("text", "str", "%s" % value.text())) varlist.append(("icon text", "str", "%s" % value.iconText())) varlist.append(("tooltip", "str", "%s" % value.toolTip())) varlist.append(("whatsthis", "str", "%s" % value.whatsThis())) varlist.append( ("shortcut", "str", "%s" % value.shortcut().toString())) elif qttype == 'QKeySequence': varlist.append(("value", "", "%s" % value.toString())) # XML stuff elif qttype == 'QDomAttr': varlist.append(("name", "str", "%s" % value.name())) varlist.append(("value", "str", "%s" % value.value())) elif qttype == 'QDomCharacterData': varlist.append(("data", "str", "%s" % value.data())) elif qttype == 'QDomComment': varlist.append(("data", "str", "%s" % value.data())) elif qttype == "QDomDocument": varlist.append(("text", "str", "%s" % value.toString())) elif qttype == 'QDomElement': varlist.append(("tagName", "str", "%s" % value.tagName())) varlist.append(("text", "str", "%s" % value.text())) elif qttype == 'QDomText': varlist.append(("data", "str", "%s" % value.data())) # Networking stuff elif qttype == 'QHostAddress': varlist.append( ("address", "QHostAddress", "%s" % value.toString())) return varlist def __formatVariablesList(self, keylist, dict, scope, filter=[], formatSequences=0): """ Private method to produce a formated variables list. The dictionary passed in to it is scanned. Variables are only added to the list, if their type is not contained in the filter list and their name doesn't match any of the filter expressions. The formated variables list (a list of tuples of 3 values) is returned. @param keylist keys of the dictionary @param dict the dictionary to be scanned @param scope 1 to filter using the globals filter, 0 using the locals filter (int). Variables are only added to the list, if their name do not match any of the filter expressions. @param filter the indices of variable types to be filtered. Variables are only added to the list, if their type is not contained in the filter list. @param formatSequences flag indicating, that sequence or dictionary variables should be formatted. If it is 0 (or false), just the number of items contained in these variables is returned. (boolean) @return A tuple consisting of a list of formatted variables. Each variable entry is a tuple of three elements, the variable name, its type and value. """ varlist = [] if scope: patternFilterObjects = self.globalsFilterObjects else: patternFilterObjects = self.localsFilterObjects for key in keylist: # filter based on the filter pattern matched = False for pat in patternFilterObjects: if pat.match(unicode(key)): matched = True break if matched: continue # filter hidden attributes (filter #0) if 0 in filter and unicode(key)[:2] == '__': continue # special handling for '__builtins__' (it's way too big) if key == '__builtins__': rvalue = '<module __builtin__ (built-in)>' valtype = 'module' else: value = dict[key] valtypestr = ("%s" % type(value))[1:-1] if valtypestr.split(' ', 1)[0] == 'class': # handle new class type of python 2.2+ if ConfigVarTypeStrings.index('instance') in filter: continue valtype = valtypestr else: valtype = valtypestr[6:-1] try: if ConfigVarTypeStrings.index(valtype) in filter: continue except ValueError: if valtype == "classobj": if ConfigVarTypeStrings.index( 'instance') in filter: continue elif valtype == "sip.methoddescriptor": if ConfigVarTypeStrings.index( 'instance method') in filter: continue elif valtype == "sip.enumtype": if ConfigVarTypeStrings.index('class') in filter: continue elif not valtype.startswith("PySide") and \ ConfigVarTypeStrings.index('other') in filter: continue try: if valtype not in ['list', 'tuple', 'dict']: rvalue = repr(value) if valtype.startswith('class') and \ rvalue[0] in ['{', '(', '[']: rvalue = "" else: if valtype == 'dict': rvalue = "%d" % len(value.keys()) else: rvalue = "%d" % len(value) except Exception: rvalue = '' if formatSequences: if unicode(key) == key: key = "'%s'" % key else: key = unicode(key) varlist.append((key, valtype, rvalue)) return varlist def __generateFilterObjects(self, scope, filterString): """ Private slot to convert a filter string to a list of filter objects. @param scope 1 to generate filter for global variables, 0 for local variables (int) @param filterString string of filter patterns separated by ';' """ patternFilterObjects = [] for pattern in filterString.split(';'): patternFilterObjects.append(re.compile('^%s$' % pattern)) if scope: self.globalsFilterObjects = patternFilterObjects[:] else: self.localsFilterObjects = patternFilterObjects[:] def __completionList(self, text): """ Private slot to handle the request for a commandline completion list. @param text the text to be completed (string) """ completerDelims = ' \t\n`~!@#$%^&*()-=+[{]}\\|;:\'",<>/?' completions = set() # find position of last delim character pos = -1 while pos >= -len(text): if text[pos] in completerDelims: if pos == -1: text = '' else: text = text[pos + 1:] break pos -= 1 # Get local and global completions try: localdict = self.currentThread.getFrameLocals(self.framenr) localCompleter = Completer(localdict).complete self.__getCompletionList(text, localCompleter, completions) except AttributeError: pass self.__getCompletionList(text, self.complete, completions) self.sendJsonCommand("ResponseCompletion", { "completions": list(completions), "text": text, }) def __getCompletionList(self, text, completer, completions): """ Private method to create a completions list. @param text text to complete (string) @param completer completer methode @param completions set where to add new completions strings (set) """ state = 0 try: comp = completer(text, state) except Exception: comp = None while comp is not None: completions.add(comp) state += 1 try: comp = completer(text, state) except Exception: comp = None def startDebugger(self, filename=None, host=None, port=None, enableTrace=True, exceptions=True, tracePython=False, redirect=True): """ Public method used to start the remote debugger. @param filename the program to be debugged (string) @param host hostname of the debug server (string) @param port portnumber of the debug server (int) @param enableTrace flag to enable the tracing function (boolean) @param exceptions flag to enable exception reporting of the IDE (boolean) @param tracePython flag to enable tracing into the Python library (boolean) @param redirect flag indicating redirection of stdin, stdout and stderr (boolean) """ global debugClient if host is None: host = os.getenv('ERICHOST', 'localhost') if port is None: port = os.getenv('ERICPORT', 42424) remoteAddress = self.__resolveHost(host) self.connectDebugger(port, remoteAddress, redirect) if filename is not None: self.running = os.path.abspath(filename) else: try: self.running = os.path.abspath(sys.argv[0]) except IndexError: self.running = None if self.running: self.__setCoding(self.running) self.passive = True self.sendPassiveStartup(self.running, exceptions) self.__interact() # setup the debugger variables self._fncache = {} self.dircache = [] self.mainFrame = None self.debugging = True self.attachThread(mainThread=True) self.mainThread.tracePython = tracePython # set the system exception handling function to ensure, that # we report on all unhandled exceptions sys.excepthook = self.__unhandled_exception self.__interceptSignals() # now start debugging if enableTrace: self.mainThread.set_trace() def startProgInDebugger(self, progargs, wd='', host=None, port=None, exceptions=True, tracePython=False, redirect=True): """ Public method used to start the remote debugger. @param progargs commandline for the program to be debugged (list of strings) @param wd working directory for the program execution (string) @param host hostname of the debug server (string) @param port portnumber of the debug server (int) @param exceptions flag to enable exception reporting of the IDE (boolean) @param tracePython flag to enable tracing into the Python library (boolean) @param redirect flag indicating redirection of stdin, stdout and stderr (boolean) """ if host is None: host = os.getenv('ERICHOST', 'localhost') if port is None: port = os.getenv('ERICPORT', 42424) remoteAddress = self.__resolveHost(host) self.connectDebugger(port, remoteAddress, redirect) self._fncache = {} self.dircache = [] sys.argv = progargs[:] sys.argv[0] = os.path.abspath(sys.argv[0]) sys.path = self.__getSysPath(os.path.dirname(sys.argv[0])) if wd == '': os.chdir(sys.path[1]) else: os.chdir(wd) self.running = sys.argv[0] self.__setCoding(self.running) self.mainFrame = None self.debugging = True self.passive = True self.sendPassiveStartup(self.running, exceptions) self.__interact() self.attachThread(mainThread=1) self.mainThread.tracePython = tracePython # set the system exception handling function to ensure, that # we report on all unhandled exceptions sys.excepthook = self.__unhandled_exception self.__interceptSignals() # This will eventually enter a local event loop. # Note the use of backquotes to cause a repr of self.running. The # need for this is on Windows os where backslash is the path separator. # They will get inadvertantly stripped away during the eval causing # IOErrors if self.running is passed as a normal str. self.debugMod.__dict__['__file__'] = self.running sys.modules['__main__'] = self.debugMod res = self.mainThread.run('execfile(' + repr(self.running) + ')', self.debugMod.__dict__) self.progTerminated(res) def run_call(self, scriptname, func, *args): """ Public method used to start the remote debugger and call a function. @param scriptname name of the script to be debugged (string) @param func function to be called @param *args arguments being passed to func @return result of the function call """ self.startDebugger(scriptname, enableTrace=0) res = self.mainThread.runcall(func, *args) self.progTerminated(res) return res def __resolveHost(self, host): """ Private method to resolve a hostname to an IP address. @param host hostname of the debug server (string) @return IP address (string) """ try: host, version = host.split("@@") except ValueError: version = 'v4' if version == 'v4': family = socket.AF_INET else: family = socket.AF_INET6 return socket.getaddrinfo(host, None, family, socket.SOCK_STREAM)[0][4][0] def main(self): """ Public method implementing the main method. """ if '--' in sys.argv: args = sys.argv[1:] host = None port = None wd = '' tracePython = False exceptions = True redirect = True while args[0]: if args[0] == '-h': host = args[1] del args[0] del args[0] elif args[0] == '-p': port = int(args[1]) del args[0] del args[0] elif args[0] == '-w': wd = args[1] del args[0] del args[0] elif args[0] == '-t': tracePython = True del args[0] elif args[0] == '-e': exceptions = False del args[0] elif args[0] == '-n': redirect = False del args[0] elif args[0] == '--no-encoding': self.noencoding = True del args[0] elif args[0] == '--fork-child': self.fork_auto = True self.fork_child = True del args[0] elif args[0] == '--fork-parent': self.fork_auto = True self.fork_child = False del args[0] elif args[0] == '--': del args[0] break else: # unknown option del args[0] if not args: print "No program given. Aborting!" # __IGNORE_WARNING__ else: if not self.noencoding: self.__coding = self.defaultCoding self.startProgInDebugger(args, wd, host, port, exceptions=exceptions, tracePython=tracePython, redirect=redirect) else: if sys.argv[1] == '--no-encoding': self.noencoding = True del sys.argv[1] if sys.argv[1] == '': del sys.argv[1] try: port = int(sys.argv[1]) except (ValueError, IndexError): port = -1 try: redirect = int(sys.argv[2]) except (ValueError, IndexError): redirect = True try: ipOrHost = sys.argv[3] if ':' in ipOrHost: remoteAddress = ipOrHost elif ipOrHost[0] in '0123456789': remoteAddress = ipOrHost else: remoteAddress = self.__resolveHost(ipOrHost) except Exception: remoteAddress = None sys.argv = [''] if '' not in sys.path: sys.path.insert(0, '') if port >= 0: if not self.noencoding: self.__coding = self.defaultCoding self.connectDebugger(port, remoteAddress, redirect) self.__interact() else: print "No network port given. Aborting..." # __IGNORE_WARNING__ def fork(self): """ Public method implementing a fork routine deciding which branch to follow. @return process ID (integer) """ if not self.fork_auto: self.sendJsonCommand("RequestForkTo", {}) self.eventLoop(True) pid = DebugClientOrigFork() if pid == 0: # child if not self.fork_child: sys.settrace(None) sys.setprofile(None) self.sessionClose(0) else: # parent if self.fork_child: sys.settrace(None) sys.setprofile(None) self.sessionClose(0) return pid def close(self, fd): """ Public method implementing a close method as a replacement for os.close(). It prevents the debugger connections from being closed. @param fd file descriptor to be closed (integer) """ if fd in [self.readstream.fileno(), self.writestream.fileno(), self.errorstream.fileno()]: return DebugClientOrigClose(fd) def __getSysPath(self, firstEntry): """ Private slot to calculate a path list including the PYTHONPATH environment variable. @param firstEntry entry to be put first in sys.path (string) @return path list for use as sys.path (list of strings) """ sysPath = [path for path in os.environ.get("PYTHONPATH", "") .split(os.pathsep) if path not in sys.path] + sys.path[:] if "" in sysPath: sysPath.remove("") sysPath.insert(0, firstEntry) sysPath.insert(0, '') return sysPath # # eflag: FileType = Python2 # eflag: noqa = M601, M702
