// ************************************************************************** // * This file is part of the FreeFileSync project. It is distributed under * // * GNU General Public License: http://www.gnu.org/licenses/gpl.html * // * Copyright (C) Zenju (zenju AT gmx DOT de) - All Rights Reserved * // ************************************************************************** #include "batch_status_handler.h" #include #include #include #include #include #include "msg_popup.h" #include "exec_finished_box.h" #include "../lib/ffs_paths.h" #include "../lib/resolve_path.h" #include "../lib/status_handler_impl.h" #include "../lib/generate_logfile.h" using namespace zen; namespace { class FindLogfiles : public TraverseCallback { public: FindLogfiles(const Zstring& prefix, std::vector& logfiles) : prefix_(prefix), logfiles_(logfiles) {} private: virtual void onFile(const Zchar* shortName, const Zstring& fullName, const FileInfo& details) { const Zstring fileName(shortName); if (startsWith(fileName, prefix_) && endsWith(fileName, Zstr(".log"))) logfiles_.push_back(fullName); } virtual std::shared_ptr onDir (const Zchar* shortName, const Zstring& fullName) { return nullptr; } //DON'T traverse into subdirs virtual HandleLink onSymlink(const Zchar* shortName, const Zstring& fullName, const SymlinkInfo& details) { return LINK_SKIP; } virtual HandleError onError (const std::wstring& msg) { return ON_ERROR_IGNORE; } //errors are not really critical in this context const Zstring prefix_; std::vector& logfiles_; }; void limitLogfileCount(const Zstring& logdir, const std::wstring& jobname, size_t maxCount) //throw() { std::vector logFiles; FindLogfiles traverseCallback(toZ(jobname), logFiles); //throw()! traverseFolder(logdir, traverseCallback); if (logFiles.size() <= maxCount) return; //delete oldest logfiles: take advantage of logfile naming convention to find them std::nth_element(logFiles.begin(), logFiles.end() - maxCount, logFiles.end(), LessFilename()); std::for_each(logFiles.begin(), logFiles.end() - maxCount, [](const Zstring& filename) { try { removeFile(filename); } catch (FileError&) {} }); } std::unique_ptr prepareNewLogfile(const Zstring& logfileDirectory, //throw FileError const std::wstring& jobName, const TimeComp& timeStamp) //return value always bound! { //create logfile directory if required Zstring logfileDir = logfileDirectory.empty() ? getConfigDir() + Zstr("Logs") : getFormattedDirectoryName(logfileDirectory); makeDirectory(logfileDir); //throw FileError //assemble logfile name const Zstring body = appendSeparator(logfileDir) + toZ(jobName) + Zstr(" ") + formatTime(Zstr("%Y-%m-%d %H%M%S"), timeStamp); //ensure uniqueness for (int i = 0;; ++i) try { const Zstring& filename = i == 0 ? body + Zstr(".log") : body + Zstr('_') + numberTo(i) + Zstr(".log"); return make_unique(filename, FileOutput::ACC_CREATE_NEW); //throw FileError, ErrorTargetExisting //*no* file system race-condition! } catch (const ErrorTargetExisting&) {} } } //############################################################################################################################## BatchStatusHandler::BatchStatusHandler(bool showProgress, const std::wstring& jobName, const TimeComp& timeStamp, const Zstring& logfileDirectory, //may be empty int logfilesCountLimit, const xmlAccess::OnError handleError, const SwitchToGui& switchBatchToGui, //functionality to change from batch mode to GUI mode FfsReturnCode& returnCode, const std::wstring& execWhenFinished, std::vector& execFinishedHistory) : switchBatchToGui_(switchBatchToGui), showFinalResults(showProgress), //=> exit immediately or wait when finished switchToGuiRequested(false), handleError_(handleError), returnCode_(returnCode), syncStatusFrame(*this, *this, nullptr, showProgress, jobName, execWhenFinished, execFinishedHistory), jobName_(jobName) { if (logfilesCountLimit != 0) //init log file: starts internal timer! { if (!tryReportingError([&] { logFile = prepareNewLogfile(logfileDirectory, jobName, timeStamp); }, //throw FileError; return value always bound! *this)) { raiseReturnCode(returnCode_, FFS_RC_ABORTED); throw BatchAbortProcess(); } if (logfilesCountLimit >= 0) limitLogfileCount(beforeLast(logFile->getFilename(), FILE_NAME_SEPARATOR), jobName_, logfilesCountLimit); //throw() } totalTime.Start(); //measure total time //if (logFile) // ::wxSetEnv(L"logfile", utfCvrtTo(logFile->getFilename())); -> requires a command line interpreter to take advantage of } BatchStatusHandler::~BatchStatusHandler() { const int totalErrors = errorLog.getItemCount(TYPE_ERROR | TYPE_FATAL_ERROR); //evaluate before finalizing log const int totalWarnings = errorLog.getItemCount(TYPE_WARNING); //finalize error log std::wstring finalStatus; if (abortIsRequested()) { raiseReturnCode(returnCode_, FFS_RC_ABORTED); finalStatus = _("Synchronization aborted!"); errorLog.logMsg(finalStatus, TYPE_ERROR); } else if (totalErrors > 0) { raiseReturnCode(returnCode_, FFS_RC_FINISHED_WITH_ERRORS); finalStatus = _("Synchronization completed with errors!"); errorLog.logMsg(finalStatus, TYPE_ERROR); } else if (totalWarnings > 0) { raiseReturnCode(returnCode_, FFS_RC_FINISHED_WITH_WARNINGS); finalStatus = _("Synchronization completed with warnings!"); errorLog.logMsg(finalStatus, TYPE_WARNING); } else { if (getObjectsTotal(PHASE_SYNCHRONIZING) == 0 && //we're past "initNewPhase(PHASE_SYNCHRONIZING)" at this point! getDataTotal (PHASE_SYNCHRONIZING) == 0) finalStatus = _("Nothing to synchronize!"); //even if "ignored conflicts" occurred! else finalStatus = _("Synchronization completed successfully!"); errorLog.logMsg(finalStatus, TYPE_INFO); } const Utf8String logStream = generateLogStream(errorLog, jobName_, finalStatus, getObjectsCurrent(PHASE_SYNCHRONIZING), getDataCurrent(PHASE_SYNCHRONIZING), getObjectsTotal (PHASE_SYNCHRONIZING), getDataTotal (PHASE_SYNCHRONIZING), totalTime.Time() / 1000); //print the results list: logfile if (logFile.get()) { try { if (!logStream.empty()) logFile->write(&*logStream.begin(), logStream.size()); //throw FileError } catch (FileError&) {} logFile.reset(); //close file now: user may do something with it in "on completion" } try { saveToLastSyncsLog(logStream); //throw FileError } catch (FileError&) {} //decide whether to stay on status screen or exit immediately... if (switchToGuiRequested) //-> avoid recursive yield() calls, thous switch not before ending batch mode { try { switchBatchToGui_.execute(); //open FreeFileSync GUI } catch (...) {} syncStatusFrame.closeWindowDirectly(); //syncStatusFrame is not main window anymore } else { if (syncStatusFrame.getAsWindow()->IsShown()) showFinalResults = true; //execute "on completion" command (even in case of ignored errors) if (!abortIsRequested()) //if aborted (manually), we don't execute the command { const std::wstring finalCommand = syncStatusFrame.getExecWhenFinishedCommand(); //final value (after possible user modification) if (isCloseProgressDlgCommand(finalCommand)) showFinalResults = false; //take precedence over current visibility status else if (!finalCommand.empty()) { auto cmdexp = utfCvrtTo(expandMacros(utfCvrtTo(finalCommand))); shellExecute(cmdexp); } } if (showFinalResults) //warning: wxWindow::Show() is called within processHasFinished()! { //notify about (logical) application main window => program won't quit, but stay on this dialog setMainWindow(syncStatusFrame.getAsWindow()); //notify to syncStatusFrame that current process has ended if (abortIsRequested()) syncStatusFrame.processHasFinished(SyncStatus::RESULT_ABORTED, errorLog); //enable okay and close events else if (totalErrors > 0) syncStatusFrame.processHasFinished(SyncStatus::RESULT_FINISHED_WITH_ERROR, errorLog); else if (totalWarnings > 0) syncStatusFrame.processHasFinished(SyncStatus::RESULT_FINISHED_WITH_WARNINGS, errorLog); else syncStatusFrame.processHasFinished(SyncStatus::RESULT_FINISHED_WITH_SUCCESS, errorLog); } else syncStatusFrame.closeWindowDirectly(); //syncStatusFrame is main window => program will quit directly } } void BatchStatusHandler::initNewPhase(int objectsTotal, Int64 dataTotal, ProcessCallback::Phase phaseID) { StatusHandler::initNewPhase(objectsTotal, dataTotal, phaseID); syncStatusFrame.initNewPhase(); //call after "StatusHandler::initNewPhase" } void BatchStatusHandler::updateProcessedData(int objectsDelta, Int64 dataDelta) { StatusHandler::updateProcessedData(objectsDelta, dataDelta); switch (currentPhase()) { case ProcessCallback::PHASE_NONE: assert(false); case ProcessCallback::PHASE_SCANNING: break; case ProcessCallback::PHASE_COMPARING_CONTENT: case ProcessCallback::PHASE_SYNCHRONIZING: syncStatusFrame.reportCurrentBytes(getDataCurrent(currentPhase())); break; } //note: this method should NOT throw in order to properly allow undoing setting of statistics! } void BatchStatusHandler::reportInfo(const std::wstring& text) { StatusHandler::reportInfo(text); errorLog.logMsg(text, TYPE_INFO); } void BatchStatusHandler::reportWarning(const std::wstring& warningMessage, bool& warningActive) { errorLog.logMsg(warningMessage, TYPE_WARNING); if (!warningActive) return; switch (handleError_) { case xmlAccess::ON_ERROR_POPUP: { PauseTimers dummy(syncStatusFrame); forceUiRefresh(); bool dontWarnAgain = false; switch (showWarningDlg(syncStatusFrame.getAsWindow(), ReturnWarningDlg::BUTTON_IGNORE | ReturnWarningDlg::BUTTON_SWITCH | ReturnWarningDlg::BUTTON_CANCEL, warningMessage + L"\n\n" + _("Press \"Switch\" to resolve issues in FreeFileSync main dialog."), dontWarnAgain)) { case ReturnWarningDlg::BUTTON_CANCEL: abortThisProcess(); break; case ReturnWarningDlg::BUTTON_SWITCH: errorLog.logMsg(_("Switching to FreeFileSync main dialog..."), TYPE_INFO); switchToGuiRequested = true; abortThisProcess(); break; case ReturnWarningDlg::BUTTON_IGNORE: //no unhandled error situation! warningActive = !dontWarnAgain; break; } } break; //keep it! last switch might not find match case xmlAccess::ON_ERROR_EXIT: //abort abortThisProcess(); break; case xmlAccess::ON_ERROR_IGNORE: break; } } ProcessCallback::Response BatchStatusHandler::reportError(const std::wstring& errorMessage) { errorLog.logMsg(errorMessage, TYPE_ERROR); //always, even for "retry" switch (handleError_) { case xmlAccess::ON_ERROR_POPUP: { PauseTimers dummy(syncStatusFrame); forceUiRefresh(); bool ignoreNextErrors = false; switch (showErrorDlg(syncStatusFrame.getAsWindow(), ReturnErrorDlg::BUTTON_IGNORE | ReturnErrorDlg::BUTTON_RETRY | ReturnErrorDlg::BUTTON_CANCEL, errorMessage, &ignoreNextErrors)) { case ReturnErrorDlg::BUTTON_IGNORE: if (ignoreNextErrors) //falsify only handleError_ = xmlAccess::ON_ERROR_IGNORE; return ProcessCallback::IGNORE_ERROR; case ReturnErrorDlg::BUTTON_RETRY: return ProcessCallback::RETRY; case ReturnErrorDlg::BUTTON_CANCEL: abortThisProcess(); break; } } break; //used if last switch didn't find a match case xmlAccess::ON_ERROR_EXIT: //abort abortThisProcess(); break; case xmlAccess::ON_ERROR_IGNORE: return ProcessCallback::IGNORE_ERROR; } assert(false); return ProcessCallback::IGNORE_ERROR; //dummy value } void BatchStatusHandler::reportFatalError(const std::wstring& errorMessage) { errorLog.logMsg(errorMessage, TYPE_FATAL_ERROR); switch (handleError_) { case xmlAccess::ON_ERROR_POPUP: { PauseTimers dummy(syncStatusFrame); forceUiRefresh(); bool ignoreNextErrors = false; switch (showFatalErrorDlg(syncStatusFrame.getAsWindow(), ReturnFatalErrorDlg::BUTTON_IGNORE | ReturnFatalErrorDlg::BUTTON_CANCEL, errorMessage, &ignoreNextErrors)) { case ReturnFatalErrorDlg::BUTTON_IGNORE: if (ignoreNextErrors) //falsify only handleError_ = xmlAccess::ON_ERROR_IGNORE; break; case ReturnFatalErrorDlg::BUTTON_CANCEL: abortThisProcess(); break; } } break; case xmlAccess::ON_ERROR_EXIT: //abort abortThisProcess(); break; case xmlAccess::ON_ERROR_IGNORE: break; } } void BatchStatusHandler::forceUiRefresh() { syncStatusFrame.updateProgress(); } void BatchStatusHandler::abortThisProcess() { requestAbortion(); //just make sure... throw BatchAbortProcess(); //abort can be triggered by syncStatusFrame }