ATBUpdateTool/update.cpp

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#include "update.h"
#include "worker.h"
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#include "utils.h"
#include "update_dc_event.h"
#include "mainwindow.h"
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#include <QCoreApplication>
#include <QApplication>
#include <QFile>
#include <QTemporaryFile>
#include <QDebug>
#include <QTextStream>
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#include <QRegularExpression>
#include <QRegExp>
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#include <QApplication>
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#if defined (Q_OS_UNIX) || defined (Q_OS_LINUX)
#include "unistd.h"
#endif
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#include "plugins/interfaces.h"
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#include <QSharedMemory>
#include <QScopedPointer>
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#include <QDir>
#include <QThread>
#include <QDateTime>
#include <QPluginLoader>
#include <QMap>
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#define UPDATE_OPKG (1)
#define UPDATE_DC (0)
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static const QMap<QString, int> baudrateMap = {
{"1200" , 0}, {"9600" , 1}, {"19200" , 2}, {"38400" , 3},
{"57600" , 4}, {"115200" , 5}
};
QPluginLoader Update::pluginLoader;
hwinf *Update::loadDCPlugin(QDir const &plugInDir, QString const &fname) {
hwinf *hw = nullptr;
if (plugInDir.exists()) {
QString pluginLibName(fname);
pluginLibName = plugInDir.absoluteFilePath(pluginLibName);
QFileInfo info(pluginLibName);
if (info.exists()) {
pluginLibName = plugInDir.absoluteFilePath(pluginLibName);
pluginLoader.setFileName(pluginLibName);
// static QPluginLoader pluginLoader(pluginLibName);
if (!pluginLoader.load()) {
qCritical() << "in directory" << plugInDir.absolutePath();
qCritical() << "cannot load plugin" << pluginLoader.fileName();
qCritical() << pluginLoader.errorString();
exit(-1);
}
if (!pluginLoader.isLoaded()) {
qCritical() << pluginLoader.errorString();
exit(-2);
}
QObject *plugin = pluginLoader.instance();
if (!plugin) {
qCritical() << "cannot start instance";
exit(-3);
}
if (! (hw = qobject_cast<hwinf *>(plugin))) {
qCritical() << "cannot cast plugin" << plugin << "to hwinf";
exit(-4);
}
} else {
qCritical() << pluginLibName << "does not exist";
exit(-5);
}
} else {
qCritical() << "plugins directory" << plugInDir.absolutePath()
<< "does not exist";
exit(-6);
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}
return hw;
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}
bool Update::unloadDCPlugin() {
if (pluginLoader.unload()) {
qCritical() << "unloaded plugin" << pluginLoader.fileName();
// Note: will re-instantiate the library !
// QObject *rootObject = pluginLoader.instance();
// if (rootObject) {
// qCritical() << "reloaded plugin: root object again available";
// return false;
// }
// qCritical()unloaded plugin: root object gone";
return true;
}
return false;
}
Update::Update(Worker *worker,
QString customerRepository,
QString customerNrStr,
QString branchName,
QString plugInDir,
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QString pluginName,
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QString workingDir,
bool dryRun,
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QObject *parent,
char const *serialInterface,
char const *baudrate)
: QObject(parent)
, m_hw(loadDCPlugin(QDir(plugInDir), pluginName))
, m_worker(worker)
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, m_serialInterface(serialInterface)
, m_baudrate(baudrate)
, m_customerRepository(customerRepository)
, m_customerNrStr(customerNrStr)
, m_branchName(branchName)
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, m_pluginName(pluginName)
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, m_workingDir(workingDir)
, m_dryRun(dryRun) {
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qInfo() << "UPDATE: m_serialInterface ..." << m_serialInterface;
qInfo() << "UPDATE: m_baudrate ..." << m_baudrate;
qInfo() << "UPDATE: m_customerRepository ..." << m_customerRepository;
qInfo() << "UPDATE: m_customerNr ..........." << m_customerNrStr;
qInfo() << "UPDATE: m_branchName ..........." << m_branchName;
qInfo() << "UPDATE: m_pluginName ..........." << m_pluginName;
qInfo() << "UPDATE: m_workingDirectory ....." << m_workingDir;
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}
Update::~Update() {
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}
Update::DownloadResult Update::sendStatus(int ret) const {
switch (ret) { // return values of dc are:
case 0: // 0: no answer by now
return DownloadResult::NOP; // 1: error
case 10: // 10: success
return DownloadResult::OK;
default:;
}
return DownloadResult::ERROR;
}
Update::DownloadResult Update::sendNextAddress(int bNum) const {
// sends address only if blockNumber is one of 0, 1024, 2048, 3072, 4096
int noAnswerCount = 0;
int errorCount = 0;
if ( bNum==0 || bNum==1024 || bNum==2048 || bNum==3072 || bNum==4096 ) {
// qDebug() << "addr-block" << bNum << "...";
while (noAnswerCount <= 250) {
m_hw->bl_sendAddress(bNum);
QThread::msleep(100);
DownloadResult const res = sendStatus(m_hw->bl_wasSendingAddOK());
if (res != DownloadResult::NOP) {
if (res == DownloadResult::ERROR) {
if (++errorCount >= 10) {
qCritical() << "addr-block" << bNum << "...FAILED";
return res;
}
} else { // res == DownloadResult::OK
// qInfo() << "addr-block" << bNum << "...OK";
return res;
}
} else {
noAnswerCount += 1; // no answer by now
}
}
// wait max. about 3 seconds
return DownloadResult::TIMEOUT;
}
// blockNumber is not one of 0, 1024, 2048, 3072, 4096 -> do nothing
return DownloadResult::NOP;
}
Update::DownloadResult Update::sendNextDataBlock(QByteArray const &binary,
int bNum) const {
uint8_t local[66];
int const bAddr = bNum * 64;
int noAnswerCount = 0;
int errorCount = 0;
memcpy(local, binary.constData() + bAddr, 64);
local[64] = local[65] = 0x00;
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// QByteArray b((const char *)(&local[0]), 64);
// qCritical() << "SNDB" << bNum << b.size() << b.toHex();
while (noAnswerCount <= 250) {
m_hw->bl_sendDataBlock(64, local);
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QThread::msleep(10);
DownloadResult const res = sendStatus(m_hw->bl_wasSendingDataOK());
if (res != DownloadResult::NOP) {
if (res == DownloadResult::ERROR) {
if (++errorCount >= 10) {
qCritical() << "data for block" << bNum << "...FAILED";
return res;
}
} else {
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// qInfo() << "data for block" << bNum << "OK";
return res;
}
} else {
noAnswerCount += 1; // no answer by now
}
}
// wait max. about 3 seconds
return DownloadResult::TIMEOUT;
}
Update::DownloadResult Update::dc_downloadBinary(QByteArray const &b) const {
int const nBlocks = (((b.size())%64)==0) ? (b.size()/64) : (b.size()/64)+1;
// fill lst block of data to be sent with 0xFF
QByteArray ba = b.leftJustified(nBlocks*64, (char)(0xFF));
qInfo() << "total number of bytes to send to dc" << ba.size();
qInfo() << "total number of blocks to send to dc" << nBlocks;
int bNum = 0;
DownloadResult res = DownloadResult::OK;
fprintf(stderr, "\n64-byte block %04d ", bNum);
while (res != DownloadResult::ERROR && bNum < nBlocks) {
if ((res = sendNextAddress(bNum)) != DownloadResult::ERROR) {
if ((res = sendNextDataBlock(ba, bNum)) != DownloadResult::ERROR) {
bNum += 1;
fprintf(stderr, ".");
if ((bNum % 80) == 0) {
fprintf(stderr, "\n64-byte block %04d ", bNum);
}
}
}
}
fprintf(stderr, "\nlast 64-byte block %04d\n", bNum);
int const rest = ba.size() % 64;
int const offset = ba.size() - rest;
char const *startAddress = ba.constData() + offset;
if (rest > 0) {
// SHOULD NEVER HAPPEN !!!
uint8_t local[66];
memset(local, 0xFF, sizeof(local));
memcpy(local, startAddress, rest);
qCritical() << "ERROR SEND REMAINING" << rest << "BYTES";
m_hw->bl_sendDataBlock(64, local);
}
m_hw->bl_sendLastBlock();
qInfo() << "last result" << (int)sendStatus(m_hw->bl_wasSendingDataOK());
return res;
}
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bool Update::startBootloader() const { // deprecated
return false;
#if 0
int nStartTry = 5;
while (--nStartTry >= 0) {
m_hw->bl_startBL();
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QThread::msleep(500);
int nCheckTry = 10;
while (--nCheckTry >= 0) {
m_hw->bl_checkBL();
QThread::msleep(500);
if (m_hw->bl_isUp()) {
qInfo() << "starting bootloader...OK";
return true;
} else {
qCritical() << "bootloader not up ("
<< nStartTry << "," << nCheckTry << ")" << QThread::currentThread();
}
}
}
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qCritical() << "starting bootloader...FAILED" << QThread::currentThread();
return false;
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#endif
}
bool Update::stopBootloader() const {
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// stop bootloader: this MUST work -> otherwise the PSA has to be restarted
// manually
emit m_worker->showErrorMessage("dc update", "stopping bootloader...");
int nTryFinalize = 1; // could do this in an endless loop
do {
// in principle, any value except BL_STOP will do, as we want to detect
// change to BL_STOP
m_worker->mainWindow()->setUpdateStep(UpdateDcEvent::UpdateStep::BL_CHECK);
QApplication::postEvent(
m_worker->mainWindow(),
new UpdateDcEvent(m_worker, UpdateDcEvent::UpdateStep::BL_STOP, nTryFinalize));
QThread::sleep(1);
int const cntLimit = 20;
int cnt = 0;
while (++cnt < cntLimit &&
m_worker->mainWindow()->updateStep() != UpdateDcEvent::UpdateStep::BL_STOP) {
// wait until bl_stopBL() has been sent
QThread::msleep(500);
}
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QApplication::postEvent(
m_worker->mainWindow(),
new UpdateDcEvent(m_worker, UpdateDcEvent::UpdateStep::BL_CHECK, nTryFinalize));
QThread::sleep(1);
QApplication::postEvent(
m_worker->mainWindow(),
new UpdateDcEvent(m_worker, UpdateDcEvent::UpdateStep::BL_IS_UP, nTryFinalize));
QThread::sleep(1);
cnt = 0;
while (++cnt < cntLimit &&
m_worker->mainWindow()->updateStep() != UpdateDcEvent::UpdateStep::BL_IS_DOWN) {
// wait until done
QThread::msleep(200);
}
} while (++nTryFinalize <= MainWindow::BL_STOP_COUNT &&
m_worker->mainWindow()->updateStep() != UpdateDcEvent::UpdateStep::BL_IS_DOWN);
return (m_worker->mainWindow()->updateStep() == UpdateDcEvent::UpdateStep::BL_IS_DOWN);
}
// br is a index into a table, used for historical reasons.
bool Update::openSerial(int br, QString baudrate, QString comPort) const {
qDebug() << "opening serial" << br << baudrate << comPort << "...";
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if (m_hw->dc_openSerial(br, baudrate, comPort, 1) == true) { // 1 for connect
Utils::printInfoMsg(
QString("OPENING SERIAL %1").arg(br)
+ " " + baudrate + " " + comPort + "...OK");
// m_hw->dc_autoRequest(true);
m_hw->dc_autoRequest(false);
QThread::sleep(1);
Utils::printInfoMsg(QString("IS PORT OPEN %1").arg(m_hw->dc_isPortOpen()));
return true;
}
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Utils::printCriticalErrorMsg(
QString("OPENING SERIAL %1").arg(br)
+ " " + baudrate + " " + comPort + "...FAILED");
return false;
}
void Update::closeSerial() const {
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qInfo() << "CLOSED SERIAL" << m_baudrate << m_serialInterface;
m_hw->dc_closeSerial();
}
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bool Update::isSerialOpen() const {
return m_hw->dc_isPortOpen();
}
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bool Update::resetDeviceController() const { // deprecated
return false;
#if 0
qDebug() << "resetting device controller...";
m_hw->bl_rebootDC();
// wait maximally 3 seconds, before starting bootloader
qInfo() << "resetting device controller...OK";
return true;
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#endif
}
QByteArray Update::loadBinaryDCFile(QString filename) const {
qDebug() << "loading dc binary" << filename << "...";
QFile file(filename); // closed in destructor call
if (!file.exists()) {
qCritical() << file.fileName() << "does not exist";
return QByteArray();
}
if (!file.open(QIODevice::ReadOnly)) {
qCritical() << "cannot open file" << file.fileName();
return QByteArray();
}
qInfo() << "loading dc binary" << filename << "...OK";
return file.readAll();
}
bool Update::downloadBinaryToDC(QString const &bFile) const {
qDebug() << "sending" << bFile << "to dc...";
QByteArray const dcBinary = loadBinaryDCFile(bFile);
if (dcBinary.size() > 0) {
if (dc_downloadBinary(dcBinary) != DownloadResult::OK) {
qCritical() << "sending" << bFile << "to dc...FAILED";
return false;
} else {
qInfo() << "sending" << bFile << "to dc...OK";
}
} else {
qCritical() << "sending" << bFile << "to dc...FAILED";
qCritical() << "loading binary" << bFile << "FAILED";
return false;
}
return true;
}
/*
///////////////////////////////////////////////////////////////////////////////
//
// USING THE DC BOOTLOADER
//
///////////////////////////////////////////////////////////////////////////////
1 : bl_reboot() // send to application, want DC2 to reset (in order to
// start the bootloader)
//
// NOTE: this function is NOT reliable !!! Sometimes it
// simply does not work, in which case bl_startBL,
// bl_checkBL and bl_isUp do not work as well.
// Alas, there is no feedback if bl_reboot worked!
//
// NOTE: this function can be called only once per
// minute, because once called again, the controller
// performs some self-checks consuming some time.
//
// NOTE: after a successful bl_reboot(), the device is
// waiting about 4 seconds in the bootloader. To stay in
// the bootloader, we have to send the command
// bl_startBL(), which is kind of a misnomer, as it
// should be bl_doNotLeaveBL().
//
2 : bl_startBL(): // send within 4s after DC power-on, otherwise
// bootloader is left.
//
// NOTE: a running bootloader is a MUST for the download
// process of a device controller firmware as it does
// the actual writing of the memory (the bl_reboot()
// from above erases the available memory).
//
3 : bl_check(): // send command to verify if bl is up
//
// NOTE: this command is kind of a request that we want
// to check if the bootloader is up. The device
// (actually the bootloader) responds with its version.
//
4 : bl_isUp(): // returns true if bl is up and running
//
// NOTE: we know what the bootloader version actually is
// as the bootloader does not change. By comparing the
// string received in the previous step with this known
// version string we know if the bootloader is up.
//
// NOTE FOR ALL PREVIOUS STEPS: execute them in their
// own slots each to be sure to receive any possible
// responds from the device.
//
5 : bl_sendAddress(blockNumber)
// send start address, nr of 64-byte block, start with 0
// will be sent only for following block-numbers:
// 0, 1024, 2048, 3072 and 4096, so basically every
// 64kByte.
// for other addresses nothing happens
6 : bl_wasSendingAddOK()
// return val: 0: no response by now
// 1: error
// 10: OK
7 : bl_sendDataBlock()
// send 64 byte from bin file
8 : bl_sendLastBlock()
// send this command after all data are transferred
9 : bl_wasSendingDataOK()
// return val: 0: no response by now
// 1: error
// 10: OK
10 : bl_stopBL() // leave bl and start (the new) application
//
// NOTE: this function MUST work under all conditions.
// Alas, there is no direct result for this command, so
// the only way of knowing it was successful is to ask
// the device if the bootloader is still running.
// There is no problem to repeat this command until the
// bootloader is really not running anymore.
*/
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bool Update::updateBinary(char const *fileToSendToDC) {
qInfo() << "UPDATING DEVICE CONTROLLER FIRMWARE BINARY" << fileToSendToDC;
QFile fn(fileToSendToDC);
bool r;
if ((r = fn.exists()) == true) {
QFileInfo fi(fn);
if ((r = updateDC(fileToSendToDC)) == true) {
Utils::printInfoMsg(
QString(" UPDATING BINARY ") + fi.fileName()
+ QString(" (size=%1").arg(fi.size()) + ") DONE");
} else {
Utils::printCriticalErrorMsg(
QString(" UPDATING BINARY ") + fi.fileName()
+ QString(" (size=%1").arg(fi.size()) + ") FAILED");
}
} else {
Utils::printCriticalErrorMsg(
QString(fileToSendToDC) + " DOES NOT EXIST -> NO UPDATE OF DC FIRMWARE");
}
return r;
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}
bool Update::updateDC(QString bFile) const {
qDebug() << "IN UPDATEDC: UPDATING DC: FILE TO SEND" << bFile;
m_worker->mainWindow()->setUpdateStep(UpdateDcEvent::UpdateStep::NONE);
QApplication::postEvent( // step 1: reset device controller
m_worker->mainWindow(),
new UpdateDcEvent(m_worker, UpdateDcEvent::UpdateStep::DC_REBOOT, 1));
QThread::sleep(1);
for (int i=1; i <= MainWindow::BL_START_COUNT; ++i) {
QApplication::postEvent( // step 2: start bootloader (5x)
m_worker->mainWindow(),
new UpdateDcEvent(m_worker, UpdateDcEvent::UpdateStep::BL_START, i));
QThread::sleep(1);
}
int const cntLimit = 100; // wait until its for sure that bl_startBL()
int cnt = 0; // has been excuted
while (++cnt < cntLimit &&
m_worker->mainWindow()->updateStep() != UpdateDcEvent::UpdateStep::BL_START) {
// wait until all bl_startBL() are done
QThread::msleep(200);
}
if (cnt == cntLimit) {
// start events not received ???
Utils::printCriticalErrorMsg("BL_START EVENT NOT RECEIVED AFTER 20 SECS");
return false;
}
m_worker->mainWindow()->setUpdateStep(UpdateDcEvent::UpdateStep::BL_CHECK);
for (int i=1; i <= MainWindow::BL_IS_UP_COUNT; ++i) {
QApplication::postEvent(m_worker->mainWindow(), new UpdateDcEvent(m_worker, UpdateDcEvent::UpdateStep::BL_CHECK, i));
QThread::sleep(1);
QApplication::postEvent(m_worker->mainWindow(), new UpdateDcEvent(m_worker, UpdateDcEvent::UpdateStep::BL_IS_UP, i));
if (m_worker->mainWindow()->updateStep() == UpdateDcEvent::UpdateStep::BL_IS_UP) {
break;
}
QThread::sleep(1);
}
cnt = 0;
while (++cnt < cntLimit &&
m_worker->mainWindow()->updateStep() != UpdateDcEvent::UpdateStep::BL_IS_UP) {
// wait until all bl_startBL() are done
QThread::msleep(200);
}
if (cnt == cntLimit) {
// really not up
Utils::printCriticalErrorMsg("BL_IS_UP EVENT NOT RECEIVED AFTER 20 SECS");
stopBootloader(); // try to stop bootloader whichhas been already started
return false;
}
if (m_worker->mainWindow()->updateStep() == UpdateDcEvent::UpdateStep::BL_IS_UP) {
// bootloader MUST be running to download device-controller
#if 0
if (!downloadBinaryToDC(bFile)) {
Utils::printCriticalErrorMsg(
QString("UPDATING DC: ") + bFile + " ...DOWNLOAD FAILED");
}
#endif
} else {
Utils::printCriticalErrorMsg(
QString("UPDATING DC: ") + bFile + " BOOT LOADER NOT RUNNING -> NO DOWNLOAD ("
+ QThread::currentThread()->objectName() + ")");
return false;
}
// do this unconditionally, even if bootloader is not running at all ->
// the controller possibly tells us nonsense.
if (!stopBootloader()) {
Utils::printCriticalErrorMsg(
QString("UPDATING DC: ") + bFile + " BOOT LOADER STILL RUNNING ("
+ QThread::currentThread()->objectName() + ")");
return false;
}
Utils::printInfoMsg(QString("UPDATING DC: ") + bFile + " ...OK");
return true;
}
QString Update::jsonType(enum FileTypeJson type) {
switch (type) {
case FileTypeJson::CASH: return "CASH";
case FileTypeJson::CONFIG: return "CONFIG";
case FileTypeJson::PRINTER: return "PRINTER";
case FileTypeJson::SERIAL: return "SERIAL";
case FileTypeJson::DEVICE: return "DEVICE";
case FileTypeJson::TIME: return "TIME";
}
return "N/A";
}
bool Update::downloadJson(enum FileTypeJson type,
int templateIdx,
QString jsFileToSendToDC) const {
Utils::printInfoMsg(
QString("UPDATING JSON-FILE=%1, TEMPLATE-INDEX=%2, JSON-TYPE=%3")
.arg(jsFileToSendToDC)
.arg(templateIdx)
.arg(jsonType(type)));
m_hw->dc_autoRequest(true); // downloading Json needs the AutoEmission flag
qDebug() << "SET AUTO-REQUEST=TRUE";
QThread::sleep(1); // make sure the auto-request flag is acknowledged
bool ready = false;
int nTry = 25;
while ((ready = m_hw->sys_ready4sending()) == false) {
QThread::msleep(200);
if (--nTry <= 0) {
Utils::printCriticalErrorMsg("SYS NOT READY FOR SENDING AFTER 5 SECONDS");
break;
}
}
bool ret = false;
if (ready) {
QFile file(jsFileToSendToDC);
QFileInfo fi(jsFileToSendToDC); // max. size of template file is 800 bytes
if (file.exists()) {
if (file.open(QIODevice::ReadOnly)) {
if (fi.size() <= 800) {
QByteArray ba = file.readAll();
// kindOfFile: 1=config, 2=device, 3=cash, 4=serial, 5=time, 6=printer
// nrOfTemplate=1...32 if kindOfFile==6
// content = content of the Json file, max 800byte ascii signs
if (m_hw->sys_sendJsonFileToDc((uint8_t)(type),
templateIdx,
(uint8_t *)ba.data())) {
QThread::sleep(1);
ret = true;
}
} else {
Utils::printCriticalErrorMsg(
QString("SIZE OF %1 TOO BIG (%2 BYTES)")
.arg(jsFileToSendToDC).arg(fi.size()));
}
} else {
Utils::printCriticalErrorMsg(
QString("CAN NOT OPEN ") + jsFileToSendToDC + " FOR READING");
}
} else {
Utils::printCriticalErrorMsg(
QString(jsFileToSendToDC) + " DOES NOT EXIST");
}
}
m_hw->dc_autoRequest(false);
qDebug() << "SET AUTO-REQUEST=FALSE";
QThread::sleep(1); // make sure the auto-request flag is acknowledged
return ret;
}
bool Update::updatePrinterTemplate(int templateIdx, QString jsFile) const {
return downloadJson(FileTypeJson::PRINTER, templateIdx, jsFile);
}
bool Update::updateConfig(QString jsFile) {
return downloadJson(FileTypeJson::CONFIG, 0, jsFile);
}
bool Update::updateCashConf(QString jsFile) {
return downloadJson(FileTypeJson::CASH, 0, jsFile);
}
bool Update::updateDeviceConf(QString jsFile) {
return downloadJson(FileTypeJson::DEVICE, 0, jsFile);
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}
QStringList Update::split(QString line, QChar sep) {
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QStringList lst;
QString next;
int start = 0, end;
while ((end = line.indexOf(sep, start)) != -1) {
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next = line.mid(start, end - start).trimmed();
lst << next;
start = end + 1;
}
next = line.mid(start, end - start).trimmed();
lst << next;
return lst;
}
void Update::readyReadStandardOutput() {
QProcess *p = (QProcess *)sender();
QByteArray buf = p->readAllStandardOutput();
qCritical() << buf;
}
void Update::readyReadStandardError() {
QProcess *p = (QProcess *)sender();
QByteArray buf = p->readAllStandardError();
qCritical() << buf;
}
void Update::finished(int /*exitCode*/, QProcess::ExitStatus /*exitStatus*/) {
QProcess *p = (QProcess *)sender();
disconnect(p, SIGNAL(finished(int,QProcess::ExitStatus)), this, SLOT(readyReadStandardOutput()));
disconnect(p, SIGNAL(finished(int,QProcess::ExitStatus)), this, SLOT(readyReadStandardError()));
}
QStringList Update::getDcSoftAndHardWareVersion() {
m_hw->dc_autoRequest(true);
QThread::sleep(1); // make sure the timer-slots are active
for (int i=0; i < 3; ++i) { // send explicit reuests to get
// current SW/HW-versions
m_hw->request_DC2_SWversion();
m_hw->request_DC2_HWversion();
QThread::sleep(1);
}
QString const &hwVersion = m_hw->dc_getHWversion().toLower().trimmed();
QString const &swVersion = m_hw->dc_getSWversion().toLower().trimmed();
m_hw->dc_autoRequest(false);
QThread::sleep(1); // make sure the timer-slots are inactive
if (!hwVersion.isEmpty() && !swVersion.isEmpty()) {
return QStringList() << hwVersion << swVersion;
}
return QStringList() << "DC HW-version not available"
<< "DC SW-version not available";
}
bool Update::doUpdate(int &displayIndex, QStringList const &filesToWorkOn) {
int tries = 20;
while (!m_hw->sys_areDCdataValid()) { // must deliver 'true', only then are all
// data from hwapi valid
if (--tries < 0) {
qCritical() << "ERROR!!! DC DATA NOT VALID -> CA-MASTER-PLUGIN NOT CONNECTED";
return false;
}
m_hw->dc_autoRequest(true);
QThread::msleep(500);
}
bool res = false;
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QList<QString>::const_iterator it;
for (it = filesToWorkOn.cbegin(); it != filesToWorkOn.cend(); ++it) {
m_worker->startProgressLoop();
QString const &fToWorkOn = QDir::cleanPath(m_customerRepository + QDir::separator() + it->trimmed());
#if UPDATE_DC == 1
static const QRegularExpression version("^.*dc2c[.][0-9]{1,2}[.][0-9]{1,2}[.]bin.*$");
if (fToWorkOn.contains(version)) {
Utils::printInfoMsg("DO-UPDATE FILE-TO-WORK-ON " + fToWorkOn);
QFile fn(fToWorkOn);
QFileInfo finfo(fn);
if (!fn.exists()) { // check for broken link
Utils::printCriticalErrorMsg("DO-UPDATE FILE-TO-WORK-ON "
+ fToWorkOn + " DOES NOT EXIST");
res = false;
} else {
bool updateBinaryRes = true;
qInfo() << "DOWNLOADING" << finfo.completeBaseName() << "TO DC";
m_hw->dc_autoRequest(false);// default: turn auto-request setting off
QThread::sleep(1); // wait to be sure that there are no more
// commands sent to dc-hardware
qInfo() << "SET AUTO-REQUEST=FALSE";
if ((updateBinaryRes = updateBinary(fToWorkOn.toStdString().c_str())) == true) {
qCritical() << "downloaded binary" << fToWorkOn;
++displayIndex;
emit m_worker->appendText(QString("\n(") + QString("%1").arg(displayIndex).rightJustified(2, ' ') + QString(")")
+ QString(" Update ") + QFileInfo(fToWorkOn).fileName(),
Worker::UPDATE_STEP_DONE);
}
m_hw->dc_autoRequest(true); // turn auto-request setting on
qInfo() << "SET AUTO-REQUEST=TRUE";
QStringList const &versions = Update::getDcSoftAndHardWareVersion();
if (versions.size() >= 2) {
if (updateBinaryRes == true) {
qInfo() << "dc-hardware-version (UPDATED)" << versions[0];
qInfo() << "dc-firmware-version (UPDATED)" << versions[1];
} else {
qInfo() << "dc-hardware-version (NOT UPDATED)" << versions[0];
qInfo() << "dc-firmware-version (NOT UPDATED)" << versions[1];
}
}
res = updateBinaryRes;
}
#endif
if (fToWorkOn.contains("DC2C_print", Qt::CaseInsensitive)
&& fToWorkOn.endsWith(".json", Qt::CaseInsensitive)) {
res = true;
int i = fToWorkOn.indexOf("DC2C_print", Qt::CaseInsensitive);
int const templateIdx = fToWorkOn.mid(i).midRef(10, 2).toInt();
if ((templateIdx < 1) || (templateIdx > 32)) {
qCritical() << "WRONG TEMPLATE INDEX" << templateIdx;
res = false;
} else {
if ((res = updatePrinterTemplate(templateIdx, fToWorkOn))) {
Utils::printInfoMsg(
QString("DOWNLOADED PRINTER TEMPLATE %1 WITH INDEX=%2")
.arg(fToWorkOn)
.arg(templateIdx));
++displayIndex;
emit m_worker->appendText(QString("\n(") + QString("%1").arg(displayIndex).rightJustified(3, ' ') + QString(")")
+ QString(" Update ") + QFileInfo(fToWorkOn).fileName(),
Worker::UPDATE_STEP_DONE);
}
}
} else if (fToWorkOn.contains("DC2C_cash", Qt::CaseInsensitive)
&& fToWorkOn.endsWith(".json", Qt::CaseInsensitive)) {
res = true;
if ((res = updateCashConf(fToWorkOn))) {
Utils::printInfoMsg(QString("DOWNLOADED CASH TEMPLATE %1").arg(fToWorkOn));
++displayIndex;
emit m_worker->appendText(QString("\n(") + QString("%1").arg(displayIndex).rightJustified(3, ' ') + QString(")")
+ QString(" Update ") + QFileInfo(fToWorkOn).fileName(),
Worker::UPDATE_STEP_DONE);
}
} else if (fToWorkOn.contains("DC2C_conf", Qt::CaseInsensitive)
&& fToWorkOn.endsWith(".json", Qt::CaseInsensitive)) {
res = true;
if ((res= updateConfig(fToWorkOn))) {
Utils::printInfoMsg(QString("DOWNLOADED CONFIG TEMPLATE %1").arg(fToWorkOn));
++displayIndex;
emit m_worker->appendText(QString("\n(") + QString("%1").arg(displayIndex).rightJustified(3, ' ') + QString(")")
+ QString(" Update ") + QFileInfo(fToWorkOn).fileName(),
Worker::UPDATE_STEP_DONE);
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}
} else if (fToWorkOn.contains("DC2C_device", Qt::CaseInsensitive)
&& fToWorkOn.endsWith(".json", Qt::CaseInsensitive)) {
res = true;
if ((res = updateDeviceConf(fToWorkOn))) {
Utils::printInfoMsg(QString("DOWNLOADED DEVICE TEMPLATE %1").arg(fToWorkOn));
++displayIndex;
emit m_worker->appendText(QString("\n(") + QString("%1").arg(displayIndex).rightJustified(3, ' ') + QString(")")
+ QString(" Update ") + QFileInfo(fToWorkOn).fileName(),
Worker::UPDATE_STEP_DONE);
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}
} else {
qCritical() << "UNKNOWN JSON FILE NAME" << fToWorkOn;
res = false;
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}
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// m_worker->stopProgressLoop();
// m_worker->setProgress(100);
if (res == false) {
break;
}
} // for (it = openLines.cbegin(); it != openLines.end(); ++it) {
m_hw->dc_autoRequest(true); // ALWAYS turn autoRequest ON
qDebug() << "SET AUTO-REQUEST=TRUE";
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return res;
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}