void MemoryTracer::initialize()
{
m_tracer = static_cast<ExecutionTracer*>(s2e()->getPlugin("ExecutionTracer"));
m_execDetector = static_cast<ModuleExecutionDetector*>(s2e()->getPlugin("ModuleExecutionDetector"));
//Retrict monitoring to configured modules only
m_monitorModules = s2e()->getConfig()->getBool(getConfigKey() + ".monitorModules");
if (m_monitorModules && !m_execDetector) {
s2e()->getWarningsStream() << "MemoryTracer: The monitorModules option requires ModuleExecutionDetector\n";
exit(-1);
}
//Catch all accesses to the stack
m_monitorStack = s2e()->getConfig()->getBool(getConfigKey() + ".monitorStack");
//Catch accesses that are above the specified address
m_catchAbove = s2e()->getConfig()->getInt(getConfigKey() + ".catchAccessesAbove");
m_catchBelow = s2e()->getConfig()->getInt(getConfigKey() + ".catchAccessesBelow");
//Whether or not to include host addresses in the trace.
//This is useful for debugging, bug yields larger traces
m_traceHostAddresses = s2e()->getConfig()->getBool(getConfigKey() + ".traceHostAddresses");
//Start monitoring after the specified number of seconds
bool hasTimeTrigger = false;
m_timeTrigger = s2e()->getConfig()->getInt(getConfigKey() + ".timeTrigger", 0, &hasTimeTrigger);
m_elapsedTics = 0;
bool manualMode = s2e()->getConfig()->getBool(getConfigKey() + ".manualTrigger");
m_monitorMemory = s2e()->getConfig()->getBool(getConfigKey() + ".monitorMemory");
m_monitorPageFaults = s2e()->getConfig()->getBool(getConfigKey() + ".monitorPageFaults");
m_monitorTlbMisses = s2e()->getConfig()->getBool(getConfigKey() + ".monitorTlbMisses");
s2e()->getDebugStream() << "MonitorMemory: " << m_monitorMemory <<
" PageFaults: " << m_monitorPageFaults << " TlbMisses: " << m_monitorTlbMisses << '\n';
if (hasTimeTrigger) {
m_timerConnection = s2e()->getCorePlugin()->onTimer.connect(
sigc::mem_fun(*this, &MemoryTracer::onTimer));
} else if (manualMode) {
s2e()->getCorePlugin()->onCustomInstruction.connect(
sigc::mem_fun(*this, &MemoryTracer::onCustomInstruction));
} else {
enableTracing();
}
}
void NewFileWizard::restoreSelectedIcon()
{
QString selectedIconName = m_config->readEntry(getConfigKey(m_currentlyDisplayedType), DEFAULT_EMPTY_CAPTION);
QIconViewItem *item = m_newDocumentWidget->templateIconView->findItem(selectedIconName);
if(item) {
m_newDocumentWidget->templateIconView->setSelected(item, true);
}
}
void NewFileWizard::storeSelectedIcon()
{
if(m_currentlyDisplayedType < 0) {
return;
}
TemplateItem *selectedItem = getSelection();
if (selectedItem) {
m_config->writeEntry(getConfigKey(m_currentlyDisplayedType), selectedItem->name());
}
}
void UCoreUtils::initialize(){
first = true;
bool ok;
system_map_file = s2e()
->getConfig()->getString(getConfigKey() + ".system_map_file",
"", &ok);
if(!ok){
s2e()->getWarningsStream() << "No kernel.sym file provided. System.map is needed for UCoreMonitor to work properly. Quit.\n";
exit(-1);
}
parseSymbolMap();
}
void InterruptInjector::initialize()
{
m_libcallMonitor = static_cast<LibraryCallMonitor*>(s2e()->getPlugin("LibraryCallMonitor"));
m_symbolicHardware = static_cast<SymbolicHardware*>(s2e()->getPlugin("SymbolicHardware"));
m_libcallMonitor->onLibraryCall.connect(
sigc::mem_fun(*this, &InterruptInjector::onLibraryCall));
m_hardwareId = s2e()->getConfig()->getString(getConfigKey() + ".hardwareId");
m_deviceDescriptor = m_symbolicHardware->findDevice(m_hardwareId);
if (!m_deviceDescriptor) {
s2e()->getWarningsStream() << "InterruptInjector: you must specifiy a valid hardware id." << std::endl;
exit(-1);
}
}
