Mercurial Repositories > eric / file revision
Debugger/DebuggerInterfacePython.py@066e6c78a367
Debugger/DebuggerInterfacePython.py
Wed, 08 Nov 2017 19:05:55 +0100
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Wed, 08 Nov 2017 19:05:55 +0100
- changeset 5964
- 066e6c78a367
- parent 5899
- 0516f6548ca6
- child 5966
- 3325ecd87c7c
- permissions
- -rw-r--r--
Introduced a configuration option for the debugger variables viewers to limit the variables shown by the variables viewers depending on their size (in order to avoid overload situations on low power or low memory machines).
# -*- coding: utf-8 -*- # Copyright (c) 2009 - 2017 Detlev Offenbach <detlev@die-offenbachs.de> # """ Module implementing the Python3 debugger interface for the debug server. """ from __future__ import unicode_literals import sys import os from PyQt5.QtCore import QObject, QTextCodec, QProcess, QProcessEnvironment, \ QTimer from PyQt5.QtWidgets import QInputDialog from E5Gui.E5Application import e5App from E5Gui import E5MessageBox from . import DebugClientCapabilities import Preferences import Utilities from eric6config import getConfig ClientDefaultCapabilities = DebugClientCapabilities.HasAll class DebuggerInterfacePython(QObject): """ Class implementing the debugger interface for the debug server for Python 2 and Python 3. """ def __init__(self, debugServer, passive, pythonVariant): """ Constructor @param debugServer reference to the debug server @type DebugServer @param passive flag indicating passive connection mode @type bool @param pythonVariant Python variant to instantiate for @type str (one of Python2 or Python3) """ super(DebuggerInterfacePython, self).__init__() self.__isNetworked = True self.__autoContinue = False self.debugServer = debugServer self.passive = passive self.process = None self.__variant = pythonVariant self.qsock = None self.queue = [] # set default values for capabilities of clients self.clientCapabilities = ClientDefaultCapabilities # set translation function self.translate = self.__identityTranslation self.codec = QTextCodec.codecForName( str(Preferences.getSystem("StringEncoding"))) if passive: # set translation function if Preferences.getDebugger("PathTranslation"): self.translateRemote = \ Preferences.getDebugger("PathTranslationRemote") self.translateLocal = \ Preferences.getDebugger("PathTranslationLocal") self.translate = self.__remoteTranslation else: self.translate = self.__identityTranslation # attribute to remember the name of the executed script self.__scriptName = "" def __identityTranslation(self, fn, remote2local=True): """ Private method to perform the identity path translation. @param fn filename to be translated (string) @param remote2local flag indicating the direction of translation (False = local to remote, True = remote to local [default]) @return translated filename (string) """ return fn def __remoteTranslation(self, fn, remote2local=True): """ Private method to perform the path translation. @param fn filename to be translated (string) @param remote2local flag indicating the direction of translation (False = local to remote, True = remote to local [default]) @return translated filename (string) """ if remote2local: return fn.replace(self.translateRemote, self.translateLocal) else: return fn.replace(self.translateLocal, self.translateRemote) def __startProcess(self, program, arguments, environment=None): """ Private method to start the debugger client process. @param program name of the executable to start (string) @param arguments arguments to be passed to the program (list of string) @param environment dictionary of environment settings to pass (dict of string) @return the process object (QProcess) or None """ proc = QProcess() if environment is not None: env = QProcessEnvironment() for key, value in list(environment.items()): env.insert(key, value) proc.setProcessEnvironment(env) args = [] for arg in arguments: args.append(arg) proc.start(program, args) if not proc.waitForStarted(10000): proc = None return proc def startRemote(self, port, runInConsole, interpreter): """ Public method to start a remote Python interpreter. @param port port number the debug server is listening on (integer) @param runInConsole flag indicating to start the debugger in a console window (boolean) @param interpreter interpreter to be used to execute the remote side (string) @return client process object (QProcess), a flag to indicate a network connection (boolean) and the name of the interpreter in case of a local execution (string) """ if not interpreter: if self.__variant == "Python2": interpreter = Preferences.getDebugger("PythonInterpreter") else: interpreter = Preferences.getDebugger("Python3Interpreter") if interpreter == "": E5MessageBox.critical( None, self.tr("Start Debugger"), self.tr( """<p>No {0} interpreter configured.</p>""") .format(self.__variant)) return None, False, "" if self.__variant == "Python2": debugClientType = Preferences.getDebugger("DebugClientType") else: debugClientType = Preferences.getDebugger("DebugClientType3") if debugClientType == "standard": debugClient = os.path.join(getConfig('ericDir'), "DebugClients", "Python", "DebugClient.py") else: if self.__variant == "Python2": debugClient = Preferences.getDebugger("DebugClient") else: debugClient = Preferences.getDebugger("DebugClient3") if debugClient == "": debugClient = os.path.join(sys.path[0], "DebugClients", "Python", "DebugClient.py") if self.__variant == "Python2": redirect = str(Preferences.getDebugger("PythonRedirect")) noencoding = Preferences.getDebugger("PythonNoEncoding") and \ '--no-encoding' or '' else: redirect = str(Preferences.getDebugger("Python3Redirect")) noencoding = Preferences.getDebugger("Python3NoEncoding") and \ '--no-encoding' or '' if Preferences.getDebugger("RemoteDbgEnabled"): ipaddr = self.debugServer.getHostAddress(False) rexec = Preferences.getDebugger("RemoteExecution") rhost = Preferences.getDebugger("RemoteHost") if rhost == "": rhost = "localhost" if rexec: args = Utilities.parseOptionString(rexec) + \ [rhost, interpreter, debugClient, noencoding, str(port), redirect, ipaddr] args[0] = Utilities.getExecutablePath(args[0]) process = self.__startProcess(args[0], args[1:]) if process is None: E5MessageBox.critical( None, self.tr("Start Debugger"), self.tr( """<p>The debugger backend could not be""" """ started.</p>""")) # set translation function if Preferences.getDebugger("PathTranslation"): self.translateRemote = \ Preferences.getDebugger("PathTranslationRemote") self.translateLocal = \ Preferences.getDebugger("PathTranslationLocal") self.translate = self.__remoteTranslation else: self.translate = self.__identityTranslation return process, self.__isNetworked, "" # set translation function self.translate = self.__identityTranslation # setup the environment for the debugger if Preferences.getDebugger("DebugEnvironmentReplace"): clientEnv = {} else: clientEnv = os.environ.copy() envlist = Utilities.parseEnvironmentString( Preferences.getDebugger("DebugEnvironment")) for el in envlist: try: key, value = el.split('=', 1) if value.startswith('"') or value.startswith("'"): value = value[1:-1] clientEnv[str(key)] = str(value) except ValueError: pass ipaddr = self.debugServer.getHostAddress(True) if runInConsole or Preferences.getDebugger("ConsoleDbgEnabled"): ccmd = Preferences.getDebugger("ConsoleDbgCommand") if ccmd: args = Utilities.parseOptionString(ccmd) + \ [interpreter, os.path.abspath(debugClient), noencoding, str(port), '0', ipaddr] args[0] = Utilities.getExecutablePath(args[0]) process = self.__startProcess(args[0], args[1:], clientEnv) if process is None: E5MessageBox.critical( None, self.tr("Start Debugger"), self.tr( """<p>The debugger backend could not be""" """ started.</p>""")) return process, self.__isNetworked, interpreter process = self.__startProcess( interpreter, [debugClient, noencoding, str(port), redirect, ipaddr], clientEnv) if process is None: E5MessageBox.critical( None, self.tr("Start Debugger"), self.tr( """<p>The debugger backend could not be started.</p>""")) return process, self.__isNetworked, interpreter def startRemoteForProject(self, port, runInConsole, interpreter): """ Public method to start a remote Python interpreter for a project. @param port port number the debug server is listening on (integer) @param runInConsole flag indicating to start the debugger in a console window (boolean) @param interpreter interpreter to be used to execute the remote side (string) @return client process object (QProcess), a flag to indicate a network connection (boolean) and the name of the interpreter in case of a local execution (string) """ project = e5App().getObject("Project") if not project.isDebugPropertiesLoaded(): return None, self.__isNetworked, "" # start debugger with project specific settings if not interpreter: interpreter = project.getDebugProperty("INTERPRETER") debugClient = project.getDebugProperty("DEBUGCLIENT") redirect = str(project.getDebugProperty("REDIRECT")) noencoding = \ project.getDebugProperty("NOENCODING") and '--no-encoding' or '' if project.getDebugProperty("REMOTEDEBUGGER"): ipaddr = self.debugServer.getHostAddress(False) rexec = project.getDebugProperty("REMOTECOMMAND") rhost = project.getDebugProperty("REMOTEHOST") if rhost == "": rhost = "localhost" if rexec: args = Utilities.parseOptionString(rexec) + \ [rhost, interpreter, os.path.abspath(debugClient), noencoding, str(port), redirect, ipaddr] args[0] = Utilities.getExecutablePath(args[0]) process = self.__startProcess(args[0], args[1:]) if process is None: E5MessageBox.critical( None, self.tr("Start Debugger"), self.tr( """<p>The debugger backend could not be""" """ started.</p>""")) # set translation function if project.getDebugProperty("PATHTRANSLATION"): self.translateRemote = \ project.getDebugProperty("REMOTEPATH") self.translateLocal = \ project.getDebugProperty("LOCALPATH") self.translate = self.__remoteTranslation else: self.translate = self.__identityTranslation return process, self.__isNetworked, "" # set translation function self.translate = self.__identityTranslation # setup the environment for the debugger if project.getDebugProperty("ENVIRONMENTOVERRIDE"): clientEnv = {} else: clientEnv = os.environ.copy() envlist = Utilities.parseEnvironmentString( project.getDebugProperty("ENVIRONMENTSTRING")) for el in envlist: try: key, value = el.split('=', 1) if value.startswith('"') or value.startswith("'"): value = value[1:-1] clientEnv[str(key)] = str(value) except ValueError: pass ipaddr = self.debugServer.getHostAddress(True) if runInConsole or project.getDebugProperty("CONSOLEDEBUGGER"): ccmd = project.getDebugProperty("CONSOLECOMMAND") or \ Preferences.getDebugger("ConsoleDbgCommand") if ccmd: args = Utilities.parseOptionString(ccmd) + \ [interpreter, os.path.abspath(debugClient), noencoding, str(port), '0', ipaddr] args[0] = Utilities.getExecutablePath(args[0]) process = self.__startProcess(args[0], args[1:], clientEnv) if process is None: E5MessageBox.critical( None, self.tr("Start Debugger"), self.tr( """<p>The debugger backend could not be""" """ started.</p>""")) return process, self.__isNetworked, interpreter process = self.__startProcess( interpreter, [debugClient, noencoding, str(port), redirect, ipaddr], clientEnv) if process is None: E5MessageBox.critical( None, self.tr("Start Debugger"), self.tr( """<p>The debugger backend could not be started.</p>""")) return process, self.__isNetworked, interpreter def getClientCapabilities(self): """ Public method to retrieve the debug clients capabilities. @return debug client capabilities (integer) """ return self.clientCapabilities def newConnection(self, sock): """ Public slot to handle a new connection. @param sock reference to the socket object (QTcpSocket) @return flag indicating success (boolean) """ # If we already have a connection, refuse this one. It will be closed # automatically. if self.qsock is not None: return False sock.disconnected.connect(self.debugServer.startClient) sock.readyRead.connect(self.__parseClientLine) self.qsock = sock # Get the remote clients capabilities self.remoteCapabilities() return True def flush(self): """ Public slot to flush the queue. """ # Send commands that were waiting for the connection. for cmd in self.queue: self.qsock.write(cmd.encode('utf8', 'backslashreplace')) self.queue = [] def shutdown(self): """ Public method to cleanly shut down. It closes our socket and shuts down the debug client. (Needed on Win OS) """ if self.qsock is None: return # do not want any slots called during shutdown self.qsock.disconnected.disconnect(self.debugServer.startClient) self.qsock.readyRead.disconnect(self.__parseClientLine) # close down socket, and shut down client as well. self.__sendJsonCommand("RequestShutdown", {}) self.qsock.flush() self.qsock.close() # reinitialize self.qsock = None self.queue = [] def isConnected(self): """ Public method to test, if a debug client has connected. @return flag indicating the connection status (boolean) """ return self.qsock is not None def remoteEnvironment(self, env): """ Public method to set the environment for a program to debug, run, ... @param env environment settings (dictionary) """ self.__sendJsonCommand("RequestEnvironment", {"environment": env}) def remoteLoad(self, fn, argv, wd, traceInterpreter=False, autoContinue=True, autoFork=False, forkChild=False): """ Public method to load a new program to debug. @param fn the filename to debug (string) @param argv the commandline arguments to pass to the program (string) @param wd the working directory for the program (string) @keyparam traceInterpreter flag indicating if the interpreter library should be traced as well (boolean) @keyparam autoContinue flag indicating, that the debugger should not stop at the first executable line (boolean) @keyparam autoFork flag indicating the automatic fork mode (boolean) @keyparam forkChild flag indicating to debug the child after forking (boolean) """ self.__autoContinue = autoContinue self.__scriptName = os.path.abspath(fn) wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendJsonCommand("RequestLoad", { "workdir": wd, "filename": fn, "argv": Utilities.parseOptionString(argv), "traceInterpreter": traceInterpreter, "autofork": autoFork, "forkChild": forkChild, }) def remoteRun(self, fn, argv, wd, autoFork=False, forkChild=False): """ Public method to load a new program to run. @param fn the filename to run (string) @param argv the commandline arguments to pass to the program (string) @param wd the working directory for the program (string) @keyparam autoFork flag indicating the automatic fork mode (boolean) @keyparam forkChild flag indicating to debug the child after forking (boolean) """ self.__scriptName = os.path.abspath(fn) wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendJsonCommand("RequestRun", { "workdir": wd, "filename": fn, "argv": Utilities.parseOptionString(argv), "autofork": autoFork, "forkChild": forkChild, }) def remoteCoverage(self, fn, argv, wd, erase=False): """ Public method to load a new program to collect coverage data. @param fn the filename to run (string) @param argv the commandline arguments to pass to the program (string) @param wd the working directory for the program (string) @keyparam erase flag indicating that coverage info should be cleared first (boolean) """ self.__scriptName = os.path.abspath(fn) wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendJsonCommand("RequestCoverage", { "workdir": wd, "filename": fn, "argv": Utilities.parseOptionString(argv), "erase": erase, }) def remoteProfile(self, fn, argv, wd, erase=False): """ Public method to load a new program to collect profiling data. @param fn the filename to run (string) @param argv the commandline arguments to pass to the program (string) @param wd the working directory for the program (string) @keyparam erase flag indicating that timing info should be cleared first (boolean) """ self.__scriptName = os.path.abspath(fn) wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendJsonCommand("RequestProfile", { "workdir": wd, "filename": fn, "argv": Utilities.parseOptionString(argv), "erase": erase, }) def remoteStatement(self, stmt): """ Public method to execute a Python statement. @param stmt the Python statement to execute (string). It should not have a trailing newline. """ self.__sendJsonCommand("ExecuteStatement", { "statement": stmt, }) def remoteStep(self): """ Public method to single step the debugged program. """ self.__sendJsonCommand("RequestStep", {}) def remoteStepOver(self): """ Public method to step over the debugged program. """ self.__sendJsonCommand("RequestStepOver", {}) def remoteStepOut(self): """ Public method to step out the debugged program. """ self.__sendJsonCommand("RequestStepOut", {}) def remoteStepQuit(self): """ Public method to stop the debugged program. """ self.__sendJsonCommand("RequestStepQuit", {}) def remoteContinue(self, special=False): """ Public method to continue the debugged program. @param special flag indicating a special continue operation """ self.__sendJsonCommand("RequestContinue", { "special": special, }) def remoteMoveIP(self, line): """ Public method to move the instruction pointer to a different line. @param line the new line, where execution should be continued """ self.__sendJsonCommand("RequestMoveIP", { "newLine": line, }) def remoteBreakpoint(self, fn, line, setBreakpoint, cond=None, temp=False): """ Public method to set or clear a breakpoint. @param fn filename the breakpoint belongs to (string) @param line linenumber of the breakpoint (int) @param setBreakpoint flag indicating setting or resetting a breakpoint (boolean) @param cond condition of the breakpoint (string) @param temp flag indicating a temporary breakpoint (boolean) """ self.__sendJsonCommand("RequestBreakpoint", { "filename": self.translate(fn, False), "line": line, "temporary": temp, "setBreakpoint": setBreakpoint, "condition": cond, }) def remoteBreakpointEnable(self, fn, line, enable): """ Public method to enable or disable a breakpoint. @param fn filename the breakpoint belongs to (string) @param line linenumber of the breakpoint (int) @param enable flag indicating enabling or disabling a breakpoint (boolean) """ self.__sendJsonCommand("RequestBreakpointEnable", { "filename": self.translate(fn, False), "line": line, "enable": enable, }) def remoteBreakpointIgnore(self, fn, line, count): """ Public method to ignore a breakpoint the next couple of occurrences. @param fn filename the breakpoint belongs to (string) @param line linenumber of the breakpoint (int) @param count number of occurrences to ignore (int) """ self.__sendJsonCommand("RequestBreakpointIgnore", { "filename": self.translate(fn, False), "line": line, "count": count, }) def remoteWatchpoint(self, cond, setWatch, temp=False): """ Public method to set or clear a watch expression. @param cond expression of the watch expression (string) @param setWatch flag indicating setting or resetting a watch expression (boolean) @param temp flag indicating a temporary watch expression (boolean) """ # cond is combination of cond and special (s. watch expression viewer) self.__sendJsonCommand("RequestWatch", { "temporary": temp, "setWatch": setWatch, "condition": cond, }) def remoteWatchpointEnable(self, cond, enable): """ Public method to enable or disable a watch expression. @param cond expression of the watch expression (string) @param enable flag indicating enabling or disabling a watch expression (boolean) """ # cond is combination of cond and special (s. watch expression viewer) self.__sendJsonCommand("RequestWatchEnable", { "condition": cond, "enable": enable, }) def remoteWatchpointIgnore(self, cond, count): """ Public method to ignore a watch expression the next couple of occurrences. @param cond expression of the watch expression (string) @param count number of occurrences to ignore (int) """ # cond is combination of cond and special (s. watch expression viewer) self.__sendJsonCommand("RequestWatchIgnore", { "condition": cond, "count": count, }) def remoteRawInput(self, s): """ Public method to send the raw input to the debugged program. @param s the raw input (string) """ self.__sendJsonCommand("RawInput", { "input": s, }) def remoteThreadList(self): """ Public method to request the list of threads from the client. """ self.__sendJsonCommand("RequestThreadList", {}) def remoteSetThread(self, tid): """ Public method to request to set the given thread as current thread. @param tid id of the thread (integer) """ self.__sendJsonCommand("RequestThreadSet", { "threadID": tid, }) def remoteClientVariables(self, scope, filterList, framenr=0, maxSize=0): """ Public method to request the variables of the debugged program. @param scope the scope of the variables (0 = local, 1 = global) @type int @param filterList list of variable types to filter out @type list of int @param framenr framenumber of the variables to retrieve @type int @param maxSize maximum size the formatted value of a variable will be shown. If it is bigger than that, a 'too big' indication will be given (@@TOO_BIG_TO_SHOW@@). @type int """ self.__sendJsonCommand("RequestVariables", { "frameNumber": framenr, "scope": scope, "filters": filterList, "maxSize": maxSize, }) def remoteClientVariable(self, scope, filterList, var, framenr=0, maxSize=0): """ Public method to request the variables of the debugged program. @param scope the scope of the variables (0 = local, 1 = global) @type int @param filterList list of variable types to filter out @type list of int @param var list encoded name of variable to retrieve @type list of str @param framenr framenumber of the variables to retrieve @type int @param maxSize maximum size the formatted value of a variable will be shown. If it is bigger than that, a 'too big' indication will be given (@@TOO_BIG_TO_SHOW@@). @type int """ self.__sendJsonCommand("RequestVariable", { "variable": var, "frameNumber": framenr, "scope": scope, "filters": filterList, "maxSize": maxSize, }) def remoteClientSetFilter(self, scope, filterStr): """ Public method to set a variables filter list. @param scope the scope of the variables (0 = local, 1 = global) @param filterStr regexp string for variable names to filter out (string) """ self.__sendJsonCommand("RequestSetFilter", { "scope": scope, "filter": filterStr, }) def setCallTraceEnabled(self, on): """ Public method to set the call trace state. @param on flag indicating to enable the call trace function (boolean) """ self.__sendJsonCommand("RequestCallTrace", { "enable": on, }) def remoteBanner(self): """ Public slot to get the banner info of the remote client. """ self.__sendJsonCommand("RequestBanner", {}) def remoteCapabilities(self): """ Public slot to get the debug clients capabilities. """ self.__sendJsonCommand("RequestCapabilities", {}) def remoteCompletion(self, text): """ Public slot to get the a list of possible commandline completions from the remote client. @param text the text to be completed (string) """ self.__sendJsonCommand("RequestCompletion", { "text": text, }) def remoteUTPrepare(self, fn, tn, tfn, failed, cov, covname, coverase): """ Public method to prepare a new unittest run. @param fn the filename to load (string) @param tn the testname to load (string) @param tfn the test function name to load tests from (string) @param failed list of failed test, if only failed test should be run (list of strings) @param cov flag indicating collection of coverage data is requested (boolean) @param covname filename to be used to assemble the coverage caches filename (string) @param coverase flag indicating erasure of coverage data is requested (boolean) """ self.__scriptName = os.path.abspath(fn) fn = self.translate(os.path.abspath(fn), False) self.__sendJsonCommand("RequestUTPrepare", { "filename": fn, "testname": tn, "testfunctionname": tfn, "failed": failed, "coverage": cov, "coveragefile": covname, "coverageerase": coverase, }) def remoteUTRun(self): """ Public method to start a unittest run. """ self.__sendJsonCommand("RequestUTRun", {}) def remoteUTStop(self): """ Public method to stop a unittest run. """ self.__sendJsonCommand("RequestUTStop", {}) def __askForkTo(self): """ Private method to ask the user which branch of a fork to follow. """ selections = [self.tr("Parent Process"), self.tr("Child process")] res, ok = QInputDialog.getItem( None, self.tr("Client forking"), self.tr("Select the fork branch to follow."), selections, 0, False) if not ok or res == selections[0]: self.__sendJsonCommand("ResponseForkTo", { "target": "parent", }) else: self.__sendJsonCommand("ResponseForkTo", { "target": "child", }) def __parseClientLine(self): """ Private method to handle data from the client. """ while self.qsock and self.qsock.canReadLine(): qs = self.qsock.readLine() if self.codec is not None: line = self.codec.toUnicode(qs) else: line = bytes(qs).decode() ## print("Server: ", line) ##debug self.__handleJsonCommand(line) continue def __handleJsonCommand(self, jsonStr): """ Private method to handle a command or response serialized as a JSON string. @param jsonStr string containing the command or response received from the debug backend @type str """ import json try: commandDict = json.loads(jsonStr.strip()) except (TypeError, ValueError) as err: E5MessageBox.critical( None, self.tr("Debug Protocol Error"), self.tr("""<p>The response received from the debugger""" """ backend could not be decoded. Please report""" """ this issue with the received data to the""" """ eric bugs email address.</p>""" """<p>Error: {0}</p>""" """<p>Data:<br/>{0}</p>""").format( str(err), Utilities.html_encode(jsonStr.strip())), E5MessageBox.StandardButtons( E5MessageBox.Ok)) return method = commandDict["method"] params = commandDict["params"] if method == "ClientOutput": self.debugServer.signalClientOutput(params["text"]) elif method in ["ResponseLine", "ResponseStack"]: # Check if obsolet thread was clicked if params["stack"] == []: # Request updated list self.remoteThreadList() return for s in params["stack"]: s[0] = self.translate(s[0], True) cf = params["stack"][0] if self.__autoContinue: self.__autoContinue = False QTimer.singleShot(0, self.remoteContinue) else: self.debugServer.signalClientLine( cf[0], int(cf[1]), method == "ResponseStack") self.debugServer.signalClientStack(params["stack"]) elif method == "CallTrace": isCall = params["event"].lower() == "c" fromInfo = params["from"] toInfo = params["to"] self.debugServer.signalClientCallTrace( isCall, fromInfo["filename"], str(fromInfo["linenumber"]), fromInfo["codename"], toInfo["filename"], str(toInfo["linenumber"]), toInfo["codename"]) elif method == "ResponseVariables": self.debugServer.signalClientVariables( params["scope"], params["variables"]) elif method == "ResponseVariable": self.debugServer.signalClientVariable( params["scope"], [params["variable"]] + params["variables"]) elif method == "ResponseThreadList": self.debugServer.signalClientThreadList( params["currentID"], params["threadList"]) elif method == "ResponseThreadSet": self.debugServer.signalClientThreadSet() elif method == "ResponseCapabilities": self.clientCapabilities = params["capabilities"] self.debugServer.signalClientCapabilities( params["capabilities"], params["clientType"]) elif method == "ResponseBanner": self.debugServer.signalClientBanner( params["version"], params["platform"], params["dbgclient"]) elif method == "ResponseOK": self.debugServer.signalClientStatement(False) elif method == "ResponseContinue": self.debugServer.signalClientStatement(True) elif method == "RequestRaw": self.debugServer.signalClientRawInput( params["prompt"], params["echo"]) elif method == "ResponseBPConditionError": fn = self.translate(params["filename"], True) self.debugServer.signalClientBreakConditionError( fn, params["line"]) elif method == "ResponseClearBreakpoint": fn = self.translate(params["filename"], True) self.debugServer.signalClientClearBreak(fn, params["line"]) elif method == "ResponseWatchConditionError": self.debugServer.signalClientWatchConditionError( params["condition"]) elif method == "ResponseClearWatch": self.debugServer.signalClientClearWatch(params["condition"]) elif method == "ResponseException": if params: exctype = params["type"] excmessage = params["message"] stack = params["stack"] if stack: for stackEntry in stack: stackEntry[0] = self.translate(stackEntry[0], True) if stack[0] and stack[0][0] == "<string>": for stackEntry in stack: if stackEntry[0] == "<string>": stackEntry[0] = self.__scriptName else: break else: exctype = '' excmessage = '' stack = [] self.debugServer.signalClientException( exctype, excmessage, stack) elif method == "ResponseSyntax": self.debugServer.signalClientSyntaxError( params["message"], self.translate(params["filename"], True), params["linenumber"], params["characternumber"]) elif method == "ResponseSignal": self.debugServer.signalClientSignal( params["message"], self.translate(params["filename"], True), params["linenumber"], params["function"], params["arguments"]) elif method == "ResponseExit": self.__scriptName = "" self.debugServer.signalClientExit( params["status"], params["message"]) elif method == "PassiveStartup": self.debugServer.passiveStartUp( self.translate(params["filename"], True), params["exceptions"]) elif method == "ResponseCompletion": self.debugServer.signalClientCompletionList( params["completions"], params["text"]) elif method == "ResponseUTPrepared": self.debugServer.clientUtPrepared( params["count"], params["exception"], params["message"]) elif method == "ResponseUTFinished": self.debugServer.clientUtFinished() elif method == "ResponseUTStartTest": self.debugServer.clientUtStartTest( params["testname"], params["description"]) elif method == "ResponseUTStopTest": self.debugServer.clientUtStopTest() elif method == "ResponseUTTestFailed": self.debugServer.clientUtTestFailed( params["testname"], params["traceback"], params["id"]) elif method == "ResponseUTTestErrored": self.debugServer.clientUtTestErrored( params["testname"], params["traceback"], params["id"]) elif method == "ResponseUTTestSkipped": self.debugServer.clientUtTestSkipped( params["testname"], params["reason"], params["id"]) elif method == "ResponseUTTestFailedExpected": self.debugServer.clientUtTestFailedExpected( params["testname"], params["traceback"], params["id"]) elif method == "ResponseUTTestSucceededUnexpected": self.debugServer.clientUtTestSucceededUnexpected( params["testname"], params["id"]) elif method == "RequestForkTo": self.__askForkTo() def __sendJsonCommand(self, command, params): """ Private method to send a single command to the client. @param command command name to be sent @type str @param params dictionary of named parameters for the command @type dict """ import json commandDict = { "jsonrpc": "2.0", "method": command, "params": params, } cmd = json.dumps(commandDict) + '\n' if self.qsock is not None: self.qsock.write(cmd.encode('utf8', 'backslashreplace')) else: self.queue.append(cmd) def createDebuggerInterfacePython2(debugServer, passive): """ Module function to create a debugger interface instance. @param debugServer reference to the debug server @type DebugServer @param passive flag indicating passive connection mode @type bool @return instantiated debugger interface @rtype DebuggerInterfacePython """ return DebuggerInterfacePython(debugServer, passive, "Python2") def createDebuggerInterfacePython3(debugServer, passive): """ Module function to create a debugger interface instance. @param debugServer reference to the debug server @type DebugServer @param passive flag indicating passive connection mode @type bool @return instantiated debugger interface @rtype DebuggerInterfacePython """ return DebuggerInterfacePython(debugServer, passive, "Python3") def getRegistryData(): """ Module function to get characterizing data for the supported debugger interfaces. @return list of tuples containing the client type, the client capabilities, the client file type associations and a reference to the creation function @rtype list of tuple of (str, int, list of str, function) """ py2Exts = [] for ext in Preferences.getDebugger("PythonExtensions").split(): if ext.startswith("."): py2Exts.append(ext) else: py2Exts.append(".{0}".format(ext)) py3Exts = [] for ext in Preferences.getDebugger("Python3Extensions").split(): if ext.startswith("."): py3Exts.append(ext) else: py3Exts.append(".{0}".format(ext)) registryData = [] if py2Exts and Preferences.getDebugger("PythonInterpreter"): registryData.append( ("Python2", ClientDefaultCapabilities, py2Exts, createDebuggerInterfacePython2) ) if py3Exts and Preferences.getDebugger("Python3Interpreter"): registryData.append( ("Python3", ClientDefaultCapabilities, py3Exts, createDebuggerInterfacePython3) ) return registryData
