#!/usr/bin/env python import sys import binascii import inspect import os import platform uname = platform.uname()[0] if uname == 'Linux': sys.path.append('/data/dev/llvm-git/build/Debug+Asserts/lib/python2.7/site-packages') else: base = '/Applications/Xcode.app/Contents/' sys.path.append(base + 'SharedFrameworks/LLDB.framework/Resources/Python') sys.path.append(base + 'Library/PrivateFrameworks/LLDB.framework/Resources/Python') import lldb cdbLoaded = False lldbLoaded = False gdbLoaded = False # Encodings. Keep that synchronized with DebuggerEncoding in watchutils.h Unencoded8Bit, \ Base64Encoded8BitWithQuotes, \ Base64Encoded16BitWithQuotes, \ Base64Encoded32BitWithQuotes, \ Base64Encoded16Bit, \ Base64Encoded8Bit, \ Hex2EncodedLatin1, \ Hex4EncodedLittleEndian, \ Hex8EncodedLittleEndian, \ Hex2EncodedUtf8, \ Hex8EncodedBigEndian, \ Hex4EncodedBigEndian, \ Hex4EncodedLittleEndianWithoutQuotes, \ Hex2EncodedLocal8Bit, \ JulianDate, \ MillisecondsSinceMidnight, \ JulianDateAndMillisecondsSinceMidnight, \ Hex2EncodedInt1, \ Hex2EncodedInt2, \ Hex2EncodedInt4, \ Hex2EncodedInt8, \ Hex2EncodedUInt1, \ Hex2EncodedUInt2, \ Hex2EncodedUInt4, \ Hex2EncodedUInt8, \ Hex2EncodedFloat4, \ Hex2EncodedFloat8 \ = range(27) # Display modes. Keep that synchronized with DebuggerDisplay in watchutils.h StopDisplay, \ DisplayImageData, \ DisplayUtf16String, \ DisplayImageFile, \ DisplayProcess, \ DisplayLatin1String, \ DisplayUtf8String \ = range(7) ####################################################################### # # Helpers # ####################################################################### # This is a cache mapping from 'type name' to 'display alternatives'. qqFormats = {} # This is a cache of all known dumpers. qqDumpers = {} # This is a cache of all dumpers that support writing. qqEditable = {} # This keeps canonical forms of the typenames, without array indices etc. qqStripForFormat = {} def stripForFormat(typeName): global qqStripForFormat if typeName in qqStripForFormat: return qqStripForFormat[typeName] stripped = "" inArray = 0 for c in stripClassTag(typeName): if c == '<': break if c == ' ': continue if c == '[': inArray += 1 elif c == ']': inArray -= 1 if inArray and ord(c) >= 48 and ord(c) <= 57: continue stripped += c qqStripForFormat[typeName] = stripped return stripped def registerDumper(function): global qqDumpers, qqFormats, qqEditable try: funcname = function.func_name if funcname.startswith("qdump__"): type = funcname[7:] qqDumpers[type] = function qqFormats[type] = qqFormats.get(type, "") elif funcname.startswith("qform__"): type = funcname[7:] formats = "" try: formats = function() except: pass qqFormats[type] = formats elif funcname.startswith("qedit__"): type = funcname[7:] try: qqEditable[type] = function except: pass except: pass def warn(message): print 'XXX={"%s"}@\n' % message.encode("latin1").replace('"', "'") def showException(msg, exType, exValue, exTraceback): warn("**** CAUGHT EXCEPTION: %s ****" % msg) try: import traceback for line in traceback.format_exception(exType, exValue, exTraceback): warn("%s" % line) except: pass def registerCommand(name, func): pass class Type: def __init__(self, var): self.raw = var if var.num_children == 0: self.code = SimpleValueCode else: self.code = StructCode self.value_type = var.value_type def __str__(self): #try: return self.raw.type.name #except: # return "" def fieldCount(self): return self.raw.num_children def unqualified(self): return self def strip_typedefs(self): return self def currentFrame(): currentThread = self.process.GetThreadAtIndex(0) return currentThread.GetFrameAtIndex(0) def fieldCount(type): return type.fieldCount(); def fileName(file): return str(file) if file.IsValid() else '' def breakpoint_function_wrapper(baton, process, frame, bp_loc): result = '*stopped' result += ',line="%s"' % frame.line_entry.line result += ',file="%s"' % frame.line_entry.file warn("WRAPPER: %s " %result) return result def onBreak(): db.debugger.HandleCommand("settings set frame-format ''") db.debugger.HandleCommand("settings set thread-format ''") result = "*stopped,frame={....}" print result PointerCode = None ArrayCode = None StructCode = None UnionCode = None EnumCode = None FlagsCode = None FunctionCode = None IntCode = None FloatCode = None VoidCode = None SetCode = None RangeCode = None StringCode = None BitStringCode = None ErrorTypeCode = None MethodCode = None MethodPointerCode = None MemberPointerCode = None ReferenceCode = None CharCode = None BoolCode = None ComplexCode = None TypedefCode = None NamespaceCode = None SimpleValueCode = None # LLDB only # Data members SimpleValueCode = 100 StructCode = 101 PointerCode = 102 # Breakpoints. Keep synchronized with BreakpointType in breakpoint.h UnknownType = 0 BreakpointByFileAndLine = 1 BreakpointByFunction = 2 BreakpointByAddress = 3 BreakpointAtThrow = 4 BreakpointAtCatch = 5 BreakpointAtMain = 6 BreakpointAtFork = 7 BreakpointAtExec = 8 BreakpointAtSysCall = 10 WatchpointAtAddress = 11 WatchpointAtExpression = 12 BreakpointOnQmlSignalEmit = 13 BreakpointAtJavaScriptThrow = 14 # See db.StateType stateNames = ["invalid", "unloaded", "connected", "attaching", "launching", "stopped", "running", "stepping", "crashed", "detached", "exited", "suspended" ] def loggingCallback(args): s = args.strip() s = s.replace('"', "'") sys.stdout.write('log="%s"@\n' % s) def check(exp): if not exp: raise RuntimeError("Check failed") def checkSimpleRef(ref): count = ref["_q_value"] check(count > 0) check(count < 1000000) def checkRef(ref): return True try: count = ref["atomic"]["_q_value"] # Qt 5. minimum = -1 except: count = ref["_q_value"] # Qt 4. minimum = 0 # Assume there aren't a million references to any object. check(count >= minimum) check(count < 1000000) def valueChildAccess(self, name): return self.GetChildMemberWithName(name) lldb.SBValue.__getitem__ = valueChildAccess class Children: def __init__(self, d, numChild = 1, childType = None, childNumChild = None, maxNumChild = None, addrBase = None, addrStep = None): self.d = d def __enter__(self): self.d.put('children=[') def __exit__(self, exType, exValue, exTraceBack): if not exType is None: if self.d.passExceptions: showException("CHILDREN", exType, exValue, exTraceBack) self.d.put(']') return True class SubItem: def __init__(self, d, component): self.d = d self.iname = "%s.%s" % (d.currentIName, component) self.name = component def __enter__(self): self.d.put('{') #if not self.name is None: if isinstance(self.name, str): self.d.put('name="%s",' % self.name) self.savedIName = self.d.currentIName self.savedValue = self.d.currentValue self.savedValuePriority = self.d.currentValuePriority self.savedValueEncoding = self.d.currentValueEncoding self.savedType = self.d.currentType self.savedTypePriority = self.d.currentTypePriority self.d.currentIName = self.iname self.d.currentValuePriority = -100 self.d.currentValueEncoding = None self.d.currentType = "" self.d.currentTypePriority = -100 def __exit__(self, exType, exValue, exTraceBack): if not exType is None: if self.d.passExceptions: showException("SUBITEM", exType, exValue, exTraceBack) self.d.putNumChild(0) self.d.putValue("") try: typeName = self.d.currentType if len(typeName) > 0 and typeName != self.d.currentChildType: self.d.put('type="%s",' % typeName) # str(type.unqualified()) ? if self.d.currentValue is None: self.d.put('value="",numchild="0",') else: if not self.d.currentValueEncoding is None: self.d.put('valueencoded="%d",' % self.d.currentValueEncoding) self.d.put('value="%s",' % self.d.currentValue) except: pass self.d.put('},') self.d.currentIName = self.savedIName self.d.currentValue = self.savedValue self.d.currentValuePriority = self.savedValuePriority self.d.currentValueEncoding = self.savedValueEncoding self.d.currentType = self.savedType self.d.currentTypePriority = self.savedTypePriority return True class Debugger: def __init__(self): self.debugger = lldb.SBDebugger.Create() #self.debugger.SetLoggingCallback(loggingCallback) #Same as: self.debugger.HandleCommand("log enable lldb dyld step") #self.debugger.EnableLog("lldb", ["dyld", "step", "process", "state", "thread", "events", # "communication", "unwind", "commands"]) #self.debugger.EnableLog("lldb", ["all"]) self.debugger.Initialize() self.debugger.HandleCommand("settings set auto-confirm on") self.process = None self.target = None self.executable = None self.pid = None self.eventState = lldb.eStateInvalid self.listener = None self.options = {} self.expandedINames = {} self.passExceptions = True self.currentIName = None self.currentValuePriority = -100 self.currentValueEncoding = None self.currentType = "" self.currentTypePriority = -100 self.currentValue = -100 def handleCommand(self, command): result = lldb.SBCommandReturnObject() self.debugger.GetCommandInterpreter().HandleCommand(command, result) success = result.Succeeded() if success: self.report('output="%s"' % result.GetOutput()) else: self.report('error="%s"' % result.GetError()) self.reportData() def put(self, stuff): sys.stdout.write(stuff) def currentItemFormat(self): #format = self.formats.get(self.currentIName) #if format is None: # format = self.typeformats.get(stripForFormat(str(self.currentType))) #return format return 0 def putNumChild(self, numchild): #warn("NUM CHILD: '%s' '%s'" % (numchild, self.currentChildNumChild)) #if numchild != self.currentChildNumChild: self.put('numchild="%s",' % numchild) def putValue(self, value, encoding = None, priority = 0): # Higher priority values override lower ones. if priority >= self.currentValuePriority: self.currentValue = value self.currentValuePriority = priority self.currentValueEncoding = encoding #self.put('value="%s",' % value) def setupInferior(self, args): fileName = args['executable'] error = lldb.SBError() self.executable = fileName self.target = self.debugger.CreateTarget(self.executable, None, None, True, error) if self.target.IsValid(): self.report('state="inferiorsetupok",msg="%s",exe="%s"' % (error, fileName)) else: self.report('state="inferiorsetupfailed",msg="%s",exe="%s"' % (error, fileName)) self.importDumpers() def runEngine(self, _): error = lldb.SBError() #launchInfo = lldb.SBLaunchInfo(["-s"]) #self.process = self.target.Launch(self.listener, None, None, # None, '/tmp/stdout.txt', None, # None, 0, True, error) self.listener = lldb.SBListener("event_Listener") self.process = self.target.Launch(self.listener, None, None, None, None, None, os.getcwd(), lldb.eLaunchFlagExec + lldb.eLaunchFlagDebug #+ lldb.eLaunchFlagDebug #+ lldb.eLaunchFlagStopAtEntry #+ lldb.eLaunchFlagDisableSTDIO #+ lldb.eLaunchFlagLaunchInSeparateProcessGroup , False, error) self.reportError(error) self.pid = self.process.GetProcessID() self.report('pid="%s"' % self.pid) self.report('state="enginerunok"') def describeError(self, error): desc = lldb.SBStream() error.GetDescription(desc) result = 'error={type="%s"' % error.GetType() result += ',code="%s"' % error.GetError() result += ',msg="%s"' % error.GetCString() result += ',desc="%s"}' % desc.GetData() return result def reportError(self, error): self.report(self.describeError(error)) def currentThread(self): #return self.process.GetSelectedThread() return self.process.GetThreadAtIndex(0) def currentFrame(self): return self.currentThread().GetSelectedFrame() def reportLocation(self): thread = self.currentThread() frame = thread.GetFrameAtIndex(0) file = fileName(frame.line_entry.file) line = frame.line_entry.line self.report('location={file="%s",line="%s",addr="%s"}' % (file, line, frame.pc)) def reportThreads(self): result = 'threads={threads=[' for i in xrange(1, self.process.GetNumThreads()): thread = self.process.GetThreadAtIndex(i) result += '{id="%d"' % thread.GetThreadId() result += ',index="%s"' % thread.GetThreadId() result += ',stop-reason="%s"' % thread.GetStopReason() result += ',name="%s"' % thread.GetName() result += ',frame={' frame = thread.GetFrameAtIndex(0) result += 'pc="0x%x"' % frame.pc result += ',addr="0x%x"' % frame.pc result += ',fp="0x%x"' % frame.fp result += ',func="%s"' % frame.function.name result += ',line="%s"' % frame.line_entry.line result += ',fullname="%s"' % fileName(frame.line_entry.file) result += ',file="%s"' % fileName(frame.line_entry.file) result += '}},' result += '],current-thread-id="%s"},' % self.currentThread().id self.report(result) def reportStack(self, _ = None): if self.process is None: self.report('msg="No process"') else: thread = self.currentThread() result = 'stack={current-thread="%s",frames=[' % thread.GetThreadID() for i in xrange(thread.GetNumFrames()): frame = thread.GetFrameAtIndex(i) lineEntry = frame.GetLineEntry() result += '{pc="0x%x"' % frame.GetPC() result += ',level="%d"' % frame.idx result += ',addr="0x%x"' % frame.GetPCAddress().GetLoadAddress(self.target) result += ',func="%s"' % frame.GetFunction().GetName() result += ',line="%d"' % lineEntry.GetLine() result += ',fullname="%s"' % fileName(lineEntry.file) result += ',usable="1"' result += ',file="%s"},' % fileName(lineEntry.file) hasmore = '0' result += '],hasmore="%s"},' % hasmore self.report(result) def putType(self, typeName): self.put('type="%s",' % typeName) def putStringValue(self, value, priority = 0): if not value is None: str = self.encodeString(value) self.putValue(str, Hex4EncodedLittleEndian, priority) def readRawMemory(self, base, size): error = lldb.SBError() contents = self.process.ReadMemory(base, size, error) return binascii.hexlify(contents) def computeLimit(self, size, limit): if limit is None: return size if limit == 0: #return min(size, qqStringCutOff) return min(size, 100) return min(size, limit) def qStringData(self, value): private = value['d'] checkRef(private['ref']) try: # Qt 5. Will fail on Qt 4 due to the missing 'offset' member. offset = private['offset'] data = int(private.GetValue(), 0) + int(offset.GetValue()) return data, int(private['size'].GetValue()), int(private['alloc'].GetValue()) except: # Qt 4. return private['data'], int(private['size']), int(private['alloc']) def encodeString(self, value, limit = 0): data, size, alloc = self.qStringData(value) if alloc != 0: check(0 <= size and size <= alloc and alloc <= 100*1000*1000) limit = self.computeLimit(size, limit) s = self.readRawMemory(data, 2 * limit) if limit < size: s += "2e002e002e00" return s def putValue(self, value, encoding = None, priority = 0): # Higher priority values override lower ones. #if priority >= self.currentValuePriority: # self.currentValue = value # self.currentValuePriority = priority # self.currentValueEncoding = encoding if not encoding is None: self.put('valueencoded="%d",' % encoding) self.put('value="%s",' % value) def putItem(self, value, tryDynamic=True): global qqDumpers #value = value.GetDynamicValue(lldb.eDynamicCanRunTarget) typeName = value.GetTypeName() if typeName in qqDumpers: self.putType(typeName) qqDumpers[typeName](self, value) else: v = value.GetValue() #numchild = 1 if value.MightHaveChildren() else 0 numchild = value.GetNumChildren() self.put('iname="%s",' % self.currentIName) self.put('type="%s",' % typeName) self.put('value="%s",' % ("" if v is None else v)) self.put('numchild="%s",' % numchild) self.put('addr="0x%x",' % value.GetLoadAddress()) if self.currentIName in self.expandedINames: with Children(self): self.putFields(value) def putFields(self, value): n = value.GetNumChildren() if n > 10000: n = 10000 for i in xrange(n): child = value.GetChildAtIndex(i) with SubItem(self, child.GetName()): self.putItem(child) def reportVariables(self, _ = None): frame = self.currentThread().GetSelectedFrame() self.currentIName = "local" self.put('data=[') for value in frame.GetVariables(True, True, False, False): with SubItem(self, value.GetName()): self.putItem(value) self.put(']') self.report('') def reportData(self, _ = None): self.reportRegisters() if self.process is None: self.report('process="none"') else: state = self.process.GetState() if state == lldb.eStateStopped: self.reportStack() self.reportThreads() self.reportLocation() self.reportVariables() def reportRegisters(self, _ = None): if self.process is None: self.report('process="none"') else: frame = self.currentFrame() result = 'registers=[' for group in frame.GetRegisters(): for reg in group: result += '{name="%s"' % reg.GetName() result += ',value="%s"' % reg.GetValue() result += ',type="%s"},' % reg.GetType() result += ']' self.report(result) def report(self, stuff): sys.stdout.write(stuff) sys.stdout.write("@\n") def interruptInferior(self, _ = None): if self.process is None: self.report('msg="No process"') else: #self.debugger.DispatchInputInterrupt() error = self.process.Stop() self.reportError(error) def detachInferior(self, _ = None): if self.process is None: self.report('msg="No process"') else: error = self.process.Detach() self.reportError(error) self.reportData() def continueInferior(self, _ = None): if self.process is None: self.report('msg="No process"') else: error = self.process.Continue() self.reportError(error) def handleEvent(self, event): out = lldb.SBStream() event.GetDescription(out) #warn("EVENT: %s" % event) type = event.GetType() msg = lldb.SBEvent.GetCStringFromEvent(event) flavor = event.GetDataFlavor() state = lldb.SBProcess.GetStateFromEvent(event) self.report('event={type="%s",data="%s",msg="%s",flavor="%s",state="%s"}' % (type, out.GetData(), msg, flavor, state)) if state != self.eventState: self.report('state="%s"' % stateNames[state]) self.eventState = state #if state == lldb.eStateExited: # warn("PROCESS EXITED. %d: %s" # % (self.process.GetExitStatus(), self.process.GetExitDescription())) if type == lldb.SBProcess.eBroadcastBitStateChanged: #if state == lldb.eStateStopped: self.reportData() elif type == lldb.SBProcess.eBroadcastBitInterrupt: pass elif type == lldb.SBProcess.eBroadcastBitSTDOUT: pass elif type == lldb.SBProcess.eBroadcastBitSTDERR: pass elif type == lldb.SBProcess.eBroadcastBitProfileData: pass def processEvents(self, delay = 0): event = lldb.SBEvent() while self.listener.PeekAtNextEvent(event): self.listener.GetNextEvent(event) self.handleEvent(event) def describeBreakpoint(self, bp, modelId): cond = bp.GetCondition() result = 'lldbid="%s"' % bp.GetID() result += ',modelid="%s"' % modelId result += ',hitcount="%s"' % bp.GetHitCount() result += ',threadid="%s"' % bp.GetThreadID() try: result += ',oneshot="%s"' % (1 if bp.IsOneShot() else 0) except: pass result += ',enabled="%s"' % (1 if bp.IsEnabled() else 0) result += ',valid="%s"' % (1 if bp.IsValid() else 0) result += ',condition="%s"' % ("" if cond is None else cond) result += ',ignorecount="%s"' % bp.GetIgnoreCount() result += ',locations=[' for i in xrange(bp.GetNumLocations()): loc = bp.GetLocationAtIndex(i) addr = loc.GetAddress() result += '{locid="%s"' % loc.GetID() result += ',func="%s"' % addr.GetFunction().GetName() result += ',enabled="%s"' % (1 if loc.IsEnabled() else 0) result += ',resolved="%s"' % (1 if loc.IsResolved() else 0) result += ',valid="%s"' % (1 if loc.IsValid() else 0) result += ',ignorecount="%s"' % loc.GetIgnoreCount() result += ',addr="%s"},' % loc.GetLoadAddress() result += '],' return result def handleBreakpoints(self, args): result = 'bkpts=[' for bp in args['bkpts']: operation = bp['operation'] if operation == 'add': bpType = bp["type"] if bpType == BreakpointByFileAndLine: bpNew = self.target.BreakpointCreateByLocation(str(bp["file"]), int(bp["line"])) elif bpType == BreakpointByFunction: bpNew = self.target.BreakpointCreateByName(bp["function"]) elif bpType == BreakpointAtMain: bpNew = self.target.BreakpointCreateByName("main", self.target.GetExecutable().GetFilename()) else: warn("UNKNOWN TYPE") bpNew.SetIgnoreCount(int(bp["ignorecount"])) bpNew.SetCondition(str(bp["condition"])) bpNew.SetEnabled(int(bp["enabled"])) try: bpNew.SetOneShot(int(bp["oneshot"])) except: pass #bpNew.SetCallback(breakpoint_function_wrapper, None) #bpNew.SetCallback(breakpoint_function_wrapper, None) #"breakpoint command add 1 -o \"import time; print time.asctime()\" #cmd = "script print(11111111)" #cmd = "continue" #self.debugger.HandleCommand( # "breakpoint command add -o 'script onBreak()' %s" % bpNew.GetID()) result += '{operation="added",%s}' % self.describeBreakpoint(bpNew, bp["modelid"]) elif operation == 'change': bpChange = self.target.FindBreakpointByID(int(bp["lldbid"])) bpChange.SetIgnoreCount(int(bp["ignorecount"])) bpChange.SetCondition(str(bp["condition"])) bpChange.SetEnabled(int(bp["enabled"])) try: bpChange.SetOneShot(int(bp["oneshot"])) except: pass result += '{operation="changed",%s' % self.describeBreakpoint(bpNew, bp["modelid"]) elif operation == 'remove': bpDead = self.target.BreakpointDelete(int(bp["lldbid"])) result += '{operation="removed",modelid="%s"}' % bp["modelid"] result += "]" self.report(result) def listModules(self, args): result = 'modules=[' for module in self.target.modules: result += '{file="%s"' % module.file.fullpath result += ',name="%s"' % module.file.basename result += ',addrsize="%s"' % module.addr_size result += ',triple="%s"' % module.triple #result += ',sections={' #for section in module.sections: # result += '[name="%s"' % section.name # result += ',addr="%s"' % section.addr # result += ',size="%s"],' % section.size #result += '}' result += '},' result += ']' self.report(result) def listSymbols(self, args): moduleName = args['module'] #file = lldb.SBFileSpec(moduleName) #module = self.target.FindModule(file) for module in self.target.modules: if module.file.fullpath == moduleName: break result = 'symbols={module="%s"' % moduleName result += ',valid="%s"' % module.IsValid() result += ',sections="%s"' % module.GetNumSections() result += ',symbols=[' for symbol in module.symbols: startAddress = symbol.GetStartAddress().GetLoadAddress(self.target) endAddress = symbol.GetEndAddress().GetLoadAddress(self.target) result += '{type="%s"' % symbol.GetType() result += ',name="%s"' % symbol.GetName() result += ',address="0x%x"' % startAddress result += ',demangled="%s"' % symbol.GetMangledName() result += ',size="%s"' % (endAddress - startAddress) result += '},' result += ']}' self.report(result) def executeNext(self, _ = None): self.currentThread().StepOver() def executeNextI(self, _ = None): self.currentThread().StepOver() def executeStep(self, _ = None): self.currentThread().StepInto() def quit(self, _ = None): self.debugger.Terminate() def executeStepI(self, _ = None): self.currentThread().StepInstOver() def executeStepOut(self, _ = None): self.debugger.HandleCommand("thread step-out") def executeRunToLine(self, args): file = args['file'] line = int(args['line']) self.thread.StepOverUntil(file, line) self.reportData() def executeJumpToLine(self): self.report('error={msg="Not implemented"},state="stopped"') def breakList(self): result = lldb.SBCommandReturnObject() self.debugger.GetCommandInterpreter().HandleCommand("break list", result) self.report('success="%d",output="%s",error="%s"' % (result.Succeeded(), result.GetOutput(), result.GetError())) def activateFrame(self, frame): self.handleCommand("frame select " + frame) def selectThread(self, thread): self.handleCommand("thread select " + thread) def requestModuleSymbols(self, frame): self.handleCommand("target module list " + frame) def executeDebuggerCommand(self, args): result = lldb.SBCommandReturnObject() command = args['command'] self.debugger.GetCommandInterpreter().HandleCommand(command, result) success = result.Succeeded() if success: output = result.GetOutput() error = '' else: output = '' error = str(result.GetError()) self.report('success="%d",output="%s",error="%s"' % (success, output, error)) def setOptions(self, args): self.options = args def updateData(self, args): self.expandedINames = set(args['expanded'].split(',')) self.reportData() def disassemble(self, args): frame = self.currentFrame(); function = frame.GetFunction() name = function.GetName() result = 'disassembly={cookie="%s",' % args['cookie'] result += ',lines=[' base = function.GetStartAddress().GetLoadAddress(self.target) for insn in function.GetInstructions(self.target): comment = insn.GetComment(self.target) addr = insn.GetAddress().GetLoadAddress(self.target) result += '{address="%s"' % addr result += ',inst="%s %s"' % (insn.GetMnemonic(self.target), insn.GetOperands(self.target)) result += ',func_name="%s"' % name if comment: result += ',comment="%s"' % comment result += ',offset="%s"},' % (addr - base) self.report(result + ']') def readMemory(self, args): address = args['address'] length = args['length'] error = lldb.SBError() contents = self.process.ReadMemory(address, length, error) result = 'memory={cookie="%s",' % args['cookie'] result += ',address="%s",' % address result += self.describeError(error) result += ',contents="%s"}' % binascii.hexlify(contents) self.report(result) def importDumpers(self, _ = None): result = lldb.SBCommandReturnObject() interpreter = self.debugger.GetCommandInterpreter() global qqDumpers, qqFormats, qqEditable items = globals() for key in items: registerDumper(items[key]) currentDir = os.path.dirname(os.path.abspath(inspect.getfile(inspect.currentframe()))) #warn("currentdir: %s" % currentDir) #execfile(os.path.join(currentDir, "dumper.py")) execfile(os.path.join(currentDir, "qttypes.py")) import sys import select lldbLoaded = True if __name__ == '__main__': db = Debugger() db.report('state="enginesetupok"') #importPlainDumpers() while True: rlist, _, _ = select.select([sys.stdin], [], [], 0.1) if rlist: line = sys.stdin.readline() if line.startswith("db "): args = eval(line[3:]) getattr(db, args['cmd'])(args) db.report('token="%s"' % args['token']) try: cont = args['continuation'] db.report('continuation="%s"' % cont) except: pass #else: # eval(line) else: db.processEvents()