Mercurial Repositories > eric / file revision
Debugger/DebuggerInterfacePython.py@9de6692fadbd
Debugger/DebuggerInterfacePython.py
Sat, 04 Jun 2011 18:26:09 +0200
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Sat, 04 Jun 2011 18:26:09 +0200
- branch
- 5_1_x
- changeset 1110
- 9de6692fadbd
- parent 1077
- 1b188056eaec
- child 1181
- 31d20dc43805
- permissions
- -rw-r--r--
Fixed an unknown exception.
# -*- coding: utf-8 -*- # Copyright (c) 2007 - 2011 Detlev Offenbach <detlev@die-offenbachs.de> # """ Module implementing the Python debugger interface for the debug server. """ import sys import os import re from PyQt4.QtCore import * from PyQt4.QtGui import QInputDialog from E5Gui.E5Application import e5App from E5Gui import E5MessageBox from .DebugProtocol import * from . import DebugClientCapabilities import Preferences import Utilities from eric5config import getConfig ClientDefaultCapabilities = DebugClientCapabilities.HasAll def getRegistryData(): """ Module function to get characterising data for the debugger interface. @return list of the following data. Client type (string), client capabilities (integer), client type association (list of strings) """ exts = [] for ext in Preferences.getDebugger("PythonExtensions").split(): if ext.startswith("."): exts.append(ext) else: exts.append(".{0}".format(ext)) if exts and Preferences.getDebugger("PythonInterpreter"): return ["Python2", ClientDefaultCapabilities, exts] else: return ["", 0, []] class DebuggerInterfacePython(QObject): """ Class implementing the Python debugger interface for the debug server. """ def __init__(self, debugServer, passive): """ Constructor @param debugServer reference to the debug server (DebugServer) @param passive flag indicating passive connection mode (boolean) """ QObject.__init__(self) self.__isNetworked = True self.__autoContinue = not passive self.debugServer = debugServer self.passive = passive self.process = None self.qsock = None self.queue = [] # set default values for capabilities of clients self.clientCapabilities = ClientDefaultCapabilities self.codec = QTextCodec.codecForName(Preferences.getSystem("StringEncoding")) self.__unicodeRe = re.compile(r"""\bu(["'])""") 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 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 = [] for key, value in list(environment.items()): env.append("{0}={1}".format(key, value)) proc.setEnvironment(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): """ Public method to start a remote Python interpreter. @param port portnumber the debug server is listening on (integer) @param runInConsole flag indicating to start the debugger in a console window (boolean) @return client process object (QProcess) and a flag to indicate a network connection (boolean) """ interpreter = Preferences.getDebugger("PythonInterpreter") if interpreter == "": E5MessageBox.critical(None, self.trUtf8("Start Debugger"), self.trUtf8( """<p>No Python2 interpreter configured.</p>""")) return None, False debugClientType = Preferences.getDebugger("DebugClientType") if debugClientType == "standard": debugClient = os.path.join(getConfig('ericDir'), "DebugClients", "Python", "DebugClient.py") elif debugClientType == "threaded": debugClient = os.path.join(getConfig('ericDir'), "DebugClients", "Python", "DebugClientThreads.py") else: debugClient = Preferences.getDebugger("DebugClient") if debugClient == "": debugClient = os.path.join(sys.path[0], "DebugClients", "Python", "DebugClient.py") redirect = str(Preferences.getDebugger("PythonRedirect")) noencoding = \ Preferences.getDebugger("PythonNoEncoding") 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, 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.trUtf8("Start Debugger"), self.trUtf8( """<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.trUtf8("Start Debugger"), self.trUtf8( """<p>The debugger backend could not be started.</p>""")) return process, self.__isNetworked process = self.__startProcess(interpreter, [debugClient, noencoding, str(port), redirect, ipaddr], clientEnv) if process is None: E5MessageBox.critical(None, self.trUtf8("Start Debugger"), self.trUtf8("""<p>The debugger backend could not be started.</p>""")) return process, self.__isNetworked def startRemoteForProject(self, port, runInConsole): """ Public method to start a remote Python interpreter for a project. @param port portnumber the debug server is listening on (integer) @param runInConsole flag indicating to start the debugger in a console window (boolean) @return client process object (QProcess) and a flag to indicate a network connection (boolean) """ project = e5App().getObject("Project") if not project.isDebugPropertiesLoaded(): return None, self.__isNetworked # start debugger with project specific settings 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.trUtf8("Start Debugger"), self.trUtf8( """<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.trUtf8("Start Debugger"), self.trUtf8( """<p>The debugger backend could not be started.</p>""")) return process, self.__isNetworked process = self.__startProcess(interpreter, [debugClient, noencoding, str(port), redirect, ipaddr], clientEnv) if process is None: E5MessageBox.critical(None, self.trUtf8("Start Debugger"), self.trUtf8("""<p>The debugger backend could not be started.</p>""")) return process, self.__isNetworked 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 sockreference 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')) 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.__sendCommand('{0}\n'.format(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.__sendCommand('{0}{1}\n'.format(RequestEnv, str(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 wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendCommand('{0}{1}\n'.format(RequestForkMode, repr((autoFork, forkChild)))) self.__sendCommand('{0}{1}|{2}|{3}|{4:d}\n'.format( RequestLoad, wd, fn, str(Utilities.parseOptionString(argv)), traceInterpreter)) 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) """ wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendCommand('{0}{1}\n'.format(RequestForkMode, repr((autoFork, forkChild)))) self.__sendCommand('{0}{1}|{2}|{3}\n'.format( RequestRun, wd, fn, str(Utilities.parseOptionString(argv)))) 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) """ wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendCommand('{0}{1}@@{2}@@{3}@@{4:d}\n'.format( RequestCoverage, wd, fn, str(Utilities.parseOptionString(argv)), 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) """ wd = self.translate(wd, False) fn = self.translate(os.path.abspath(fn), False) self.__sendCommand('{0}{1}|{2}|{3}|{4:d}\n'.format( RequestProfile, wd, fn, str(Utilities.parseOptionString(argv)), 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.__sendCommand('{0}\n'.format(stmt)) self.__sendCommand(RequestOK + '\n') def remoteStep(self): """ Public method to single step the debugged program. """ self.__sendCommand(RequestStep + '\n') def remoteStepOver(self): """ Public method to step over the debugged program. """ self.__sendCommand(RequestStepOver + '\n') def remoteStepOut(self): """ Public method to step out the debugged program. """ self.__sendCommand(RequestStepOut + '\n') def remoteStepQuit(self): """ Public method to stop the debugged program. """ self.__sendCommand(RequestStepQuit + '\n') def remoteContinue(self, special = False): """ Public method to continue the debugged program. @param special flag indicating a special continue operation (boolean) """ self.__sendCommand('{0}{1:d}\n'.format(RequestContinue, special)) def remoteBreakpoint(self, fn, line, set, 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 set flag indicating setting or resetting a breakpoint (boolean) @param cond condition of the breakpoint (string) @param temp flag indicating a temporary breakpoint (boolean) """ fn = self.translate(fn, False) self.__sendCommand('{0}{1}@@{2:d}@@{3:d}@@{4:d}@@{5}\n'.format( RequestBreak, fn, line, temp, set, 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) """ fn = self.translate(fn, False) self.__sendCommand('{0}{1},{2:d},{3:d}\n'.format( RequestBreakEnable, fn, line, 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) """ fn = self.translate(fn, False) self.__sendCommand('{0}{1},{2:d},{3:d}\n'.format( RequestBreakIgnore, fn, line, count)) def remoteWatchpoint(self, cond, set, temp = False): """ Public method to set or clear a watch expression. @param cond expression of the watch expression (string) @param set 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.__sendCommand('{0}{1}@@{2:d}@@{3:d}\n'.format(RequestWatch, cond, temp, set)) 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.__sendCommand('{0}{1},{2:d}\n'.format(RequestWatchEnable, cond, 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.__sendCommand('{0}{1},{2:d}\n'.format(RequestWatchIgnore, cond, count)) def remoteRawInput(self,s): """ Public method to send the raw input to the debugged program. @param s the raw input (string) """ self.__sendCommand(s + '\n') def remoteThreadList(self): """ Public method to request the list of threads from the client. """ self.__sendCommand('{0}\n'.format(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.__sendCommand('{0}{1:d}\n'.format(RequestThreadSet, tid)) def remoteClientVariables(self, scope, filter, framenr = 0): """ Public method to request the variables of the debugged program. @param scope the scope of the variables (0 = local, 1 = global) @param filter list of variable types to filter out (list of int) @param framenr framenumber of the variables to retrieve (int) """ self.__sendCommand('{0}{1:d}, {2:d}, {3}\n'.format( RequestVariables, framenr, scope, str(filter))) def remoteClientVariable(self, scope, filter, var, framenr = 0): """ Public method to request the variables of the debugged program. @param scope the scope of the variables (0 = local, 1 = global) @param filter list of variable types to filter out (list of int) @param var list encoded name of variable to retrieve (string) @param framenr framenumber of the variables to retrieve (int) """ self.__sendCommand('{0}{1}, {2:d}, {3:d}, {4}\n'.format( RequestVariable, str(var), framenr, scope, str(filter))) def remoteClientSetFilter(self, scope, filter): """ Public method to set a variables filter list. @param scope the scope of the variables (0 = local, 1 = global) @param filter regexp string for variable names to filter out (string) """ self.__sendCommand('{0}{1:d}, "{2}"\n'.format(RequestSetFilter, scope, filter)) def remoteEval(self, arg): """ Public method to evaluate arg in the current context of the debugged program. @param arg the arguments to evaluate (string) """ self.__sendCommand('{0}{1}\n'.format(RequestEval, arg)) def remoteExec(self, stmt): """ Public method to execute stmt in the current context of the debugged program. @param stmt statement to execute (string) """ self.__sendCommand('{0}{1}\n'.format(RequestExec, stmt)) def remoteBanner(self): """ Public slot to get the banner info of the remote client. """ self.__sendCommand(RequestBanner + '\n') def remoteCapabilities(self): """ Public slot to get the debug clients capabilities. """ self.__sendCommand(RequestCapabilities + '\n') 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.__sendCommand("{0}{1}\n".format(RequestCompletion, text)) def remoteUTPrepare(self, fn, tn, tfn, 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 cov flag indicating collection of coverage data is requested @param covname filename to be used to assemble the coverage caches filename @param coverase flag indicating erasure of coverage data is requested """ fn = self.translate(os.path.abspath(fn), False) self.__sendCommand('{0}{1}|{2}|{3}|{4:d}|{5}|{6:d}\n'.format( RequestUTPrepare, fn, tn, tfn, cov, covname, coverase)) def remoteUTRun(self): """ Public method to start a unittest run. """ self.__sendCommand('{0}\n'.format(RequestUTRun)) def remoteUTStop(self): """ Public method to stop a unittest run. """ self.__sendCommand('{0}\n'.format(RequestUTStop)) def __askForkTo(self): """ Private method to ask the user which branch of a fork to follow. """ selections = [self.trUtf8("Parent Process"), self.trUtf8("Child process")] res, ok = QInputDialog.getItem( None, self.trUtf8("Client forking"), self.trUtf8("Select the fork branch to follow."), selections, 0, False) if not ok or res == selections[0]: self.__sendCommand(ResponseForkTo + 'parent\n') else: self.__sendCommand(ResponseForkTo + 'child\n') 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() if line.endswith(EOT): line = line[:-len(EOT)] if not line: continue ## print("Server: ", line) ##debug eoc = line.find('<') + 1 # Deal with case where user has written directly to stdout # or stderr, but not line terminated and we stepped over the # write call, in that case the >line< will not be the first # string read from the socket... boc = line.find('>') if boc > 0 and eoc > boc: self.debugServer.signalClientOutput(line[:boc]) line = line[boc:] eoc = line.find('<') + 1 boc = line.find('>') if boc >= 0 and eoc > boc: resp = line[boc:eoc] evalArg = self.__unicodeRe.sub(r"\1", line[eoc:-1]) if resp == ResponseLine or resp == ResponseStack: stack = eval(evalArg) for s in stack: s[0] = self.translate(s[0], True) cf = stack[0] if self.__autoContinue: self.__autoContinue = False QTimer.singleShot(0, self.remoteContinue) else: self.debugServer.signalClientLine(cf[0], int(cf[1]), resp == ResponseStack) self.debugServer.signalClientStack(stack) continue if resp == ResponseThreadList: currentId, threadList = eval(evalArg) self.debugServer.signalClientThreadList(currentId, threadList) continue if resp == ResponseThreadSet: self.debugServer.signalClientThreadSet() continue if resp == ResponseVariables: vlist = eval(evalArg) scope = vlist[0] try: variables = vlist[1:] except IndexError: variables = [] self.debugServer.signalClientVariables(scope, variables) continue if resp == ResponseVariable: vlist = eval(evalArg) scope = vlist[0] try: variables = vlist[1:] except IndexError: variables = [] self.debugServer.signalClientVariable(scope, variables) continue if resp == ResponseOK: self.debugServer.signalClientStatement(False) continue if resp == ResponseContinue: self.debugServer.signalClientStatement(True) continue if resp == ResponseException: exc = self.translate(evalArg, True) try: exclist = eval(exc) exctype = exclist[0] excmessage = exclist[1] stack = exclist[2:] if stack and stack[0] and stack[0][0] == "<string>": stack = [] except (IndexError, ValueError, SyntaxError): exctype = None excmessage = '' stack = [] self.debugServer.signalClientException(exctype, excmessage, stack) continue if resp == ResponseSyntax: exc = self.translate(evalArg, True) try: message, (fn, ln, cn) = eval(exc) if fn is None: fn = '' except (IndexError, ValueError): message = None fn = '' ln = 0 cn = 0 if cn is None: cn = 0 self.debugServer.signalClientSyntaxError(message, fn, ln, cn) continue if resp == ResponseExit: self.debugServer.signalClientExit(evalArg) continue if resp == ResponseClearBreak: fn, lineno = evalArg.split(',') lineno = int(lineno) fn = self.translate(fn, True) self.debugServer.signalClientClearBreak(fn, lineno) continue if resp == ResponseBPConditionError: fn, lineno = evalArg.split(',') lineno = int(lineno) fn = self.translate(fn, True) self.debugServer.signalClientBreakConditionError(fn, lineno) continue if resp == ResponseClearWatch: self.debugServer.signalClientClearWatch(evalArg) continue if resp == ResponseWPConditionError: self.debugServer.signalClientWatchConditionError(evalArg) continue if resp == ResponseRaw: prompt, echo = eval(evalArg) self.debugServer.signalClientRawInput(prompt, echo) continue if resp == ResponseBanner: version, platform, dbgclient = eval(evalArg) self.debugServer.signalClientBanner(version, platform, dbgclient) continue if resp == ResponseCapabilities: cap, clType = eval(evalArg) self.clientCapabilities = cap self.debugServer.signalClientCapabilities(cap, clType) continue if resp == ResponseCompletion: clstring, text = evalArg.split('||') cl = eval(clstring) self.debugServer.signalClientCompletionList(cl, text) continue if resp == PassiveStartup: fn, exc = evalArg.split('|') exc = bool(exc) fn = self.translate(fn, True) self.debugServer.passiveStartUp(fn, exc) continue if resp == ResponseUTPrepared: res, exc_type, exc_value = eval(evalArg) self.debugServer.clientUtPrepared(res, exc_type, exc_value) continue if resp == ResponseUTStartTest: testname, doc = eval(evalArg) self.debugServer.clientUtStartTest(testname, doc) continue if resp == ResponseUTStopTest: self.debugServer.clientUtStopTest() continue if resp == ResponseUTTestFailed: testname, traceback = eval(evalArg) self.debugServer.clientUtTestFailed(testname, traceback) continue if resp == ResponseUTTestErrored: testname, traceback = eval(evalArg) self.debugServer.clientUtTestErrored(testname, traceback) continue if resp == ResponseUTFinished: self.debugServer.clientUtFinished() continue if resp == RequestForkTo: self.__askForkTo() continue self.debugServer.signalClientOutput(line) def __sendCommand(self, cmd): """ Private method to send a single line command to the client. @param cmd command to send to the debug client (string) """ if self.qsock is not None: self.qsock.write(cmd.encode('utf8')) else: self.queue.append(cmd)
