int receive(int socket)
{
int msgLen = 0;
char buffer[BUFFER_SIZE];
memset (buffer,'\0', BUFFER_SIZE);
if ((msgLen = recv(socket, buffer, BUFFER_SIZE, 0)) == -1)
{
printf("Error handling incoming request");
return -1;
}
int request = getRequestType(buffer);
if ( request == 1 ) // GET
{
handleHttpGET(buffer);
}
else if ( request == 2 ) // HEAD
{
// SendHeader();
}
else if ( request == 0 ) // POST
{
sendString("501 Not Implemented\n", connecting_socket);
}
else // GARBAGE
{
sendString("400 Bad Request\n", connecting_socket);
}
return 1;
}
void ClientThread::recvFile(const QString &filename){
SOCKET conn = openDataConnection();
if (conn == INVALID_SOCKET)
{
sendString(FTPProtocol::getInstance()->getResponse(425));
return;
}
char buff[1024];
int bytesReaded;
QFile f(filename);
if (!f.open(QIODevice::WriteOnly))
{
sendString(FTPProtocol::getInstance()->getResponse(550,"Can't open file"));
return;
}
while( (bytesReaded = recv(conn, buff, 1024,0)) && (bytesReaded != -1))
{
f.write(buff, bytesReaded);
}
f.close();
shutdown(conn,SD_BOTH);
closesocket(conn);
sendString(FTPProtocol::getInstance()->getResponse(226));
}
void initialize() ///Works with current delays
{
int result;
result = enterCommandMode();
sendString(GET_WLAN_STRING, 6);
Delay10KTCYx(0);
sendString(SET_SSID, 18);
Delay10KTCYx(0);
sendString(SET_PASSPHRASE, 29);
Delay10KTCYx(0);
sendString(SET_CHANNEL, 10);
Delay10KTCYx(0);
sendString(SET_AUTH, 10);
Delay10KTCYx(0);
sendString(SET_JOIN, 10);
Delay10KTCYx(0);
sendString(SET_DHCP, 10);
Delay10KTCYx(0);
sendString(SET_COMM_OPEN, 10);
Delay10KTCYx(0);
sendString(SET_COMM_REMOTE, 10);
Delay10KTCYx(0);
autoConnect();
sendString(SAVE, 5);
Delay10KTCYx(0);
result = rebootModule();
longDelay();
}
/**
* Sends a debug event to BinNavi.
*
* @param dbg The debug event to be sent.
*
* @return A NaviError code that describes whether the operation was successful
* or not.
**/
NaviError BaseConnection::sendDebugEvent(const DBGEVT *dbg) const {
if (!dbg) {
msglog->log(LOG_VERBOSE, "Error: Invalid debug event passed to function");
return NaviErrors::INVALID_DEBUG_EVENT;
}
if (dbg->type == dbgevt_bp_hit || dbg->type == dbgevt_bpe_hit ||
dbg->type == dbgevt_bps_hit) {
return sendBreakpointEvent(dbg);
} else if (dbg->type == dbgevt_bpe_rem) {
return sendAddressReply(resp_bpe_rem_succ, 0, dbg->bp.addr);
} else if (dbg->type == dbgevt_process_closed) {
return sendProcessClosedEvent(dbg);
} else if (dbg->type == dbgevt_thread_created) {
return sendIntegerIntegerReply(resp_thread_created, 0, dbg->tid,
dbg->extra);
} else if (dbg->type == dbgevt_thread_closed) {
return sendIntegerReply(resp_thread_closed, 0, dbg->tid);
} else if (dbg->type == dbgevt_exception) {
return sendString(resp_exception_occured, 0, dbg->registerString);
} else if (dbg->type == dbgevt_module_loaded) {
return sendString(resp_module_loaded, 0, dbg->registerString);
} else if (dbg->type == dbgevt_module_unloaded) {
return sendString(resp_module_unloaded, 0, dbg->registerString);
} else if (dbg->type == dbgevt_process_start) {
return sendString(resp_process_start, 0, dbg->registerString);
}
msglog->log(LOG_ALWAYS, "Error: Unknown debug event");
return NaviErrors::UNKNOWN_DEBUG_EVENT;
}
bool IRC::connect(const std::string &serverName, int serverPort, const std::string &nick)
{
disconnect();
IPaddress ip;
socketSet = SDLNet_AllocSocketSet(1);
if (SDLNet_ResolveHost(&ip, (char *)serverName.c_str(), serverPort)==-1)
{
fprintf(stderr, "YOG : ResolveHost: %s\n", SDLNet_GetError());
return false;
}
socket = SDLNet_TCP_Open(&ip);
if (!socket)
{
fprintf(stderr, "YOG : TCP_Open: %s\n", SDLNet_GetError());
return false;
}
SDLNet_TCP_AddSocket(socketSet, socket);
// Here we change the nick on yog for the IRC
// changing from nick = "nick" to YOGnick = "YOGnick"
this->nick = "[YOG]" + nick;
sendString("USER " + this->nick + " undef undef " + PACKAGE_TARNAME + "-" + PACKAGE_VERSION);
sendString("NICK " + this->nick);
return true;
}
int joinNetwork(){ ///More Testing
int retries;
int offset;
int result;
if(inCommandMode == -1){
result = enterCommandMode();
if(result == -1)
return -1;
else
inCommandMode = 1;
}
for(retries = 0; retries < RETRY_ATTEMPTS; retries++){
sendString(JOIN_BOONDOCKS, 15);
longDelay();
sendString(SHOW_CONNECTION, 7);
longDelay();
if(Txdata[0] != NULL){
if(Txdata[2] == '3'){
result = exitCommandMode();
while(result != 1){
result = exitCommandMode();
}
return 1;
}
}
}
result = exitCommandMode();
return -1;
}
int main(void){
//int x=0;
init_IO();
init_Uart();
startup_flashes_text();
init_Timer2and3();
init_OC2();
while(1){
PORTBbits.RB3=1;
if(PORTBbits.RB0==1 && dutyCycle<1065){
PORTBbits.RB3=0;
sendString("increased duty cycle to ");
dutyCycle+=5;
OC2RS=dutyCycle;
sendNum(dutyCycle);
sendString(" \t(counterclockwise)\n\r");
delay(10);
}
if(PORTBbits.RB1==1 && dutyCycle>110){
PORTBbits.RB3=0;
sendString(" decreased duty cycle to ");
dutyCycle-=5;
OC2RS=dutyCycle;
sendNum(dutyCycle);
sendString("\t(clockwise)\n\r");
delay(10);
}
}
}
void send(zmq::socket_t& socket, const Message& message)
{
// Remember we're using the vector as a stack, so iterate through the
// address in reverse.
for (auto it = message.address.rbegin(); it != message.address.rend(); ++it)
{
sendStringPart(socket, *it);
}
// Send delimiter
sendStringPart(socket, "");
// Send subject, then data if there is any
auto subjectString = detail::serialise<std::uint32_t>(message.subject);
uint dataSize = message.data.size();
if (dataSize > 0)
{
// The subject
sendStringPart(socket, subjectString);
// The data -- multipart
for (auto it = message.data.begin(); it != std::prev(message.data.end()); ++it)
{
sendStringPart(socket, *it);
}
// final or only part
sendString(socket, message.data.back());
}
else
{
// The subject
sendString(socket, subjectString);
}
}
void MainWindow::on_pushButton_clicked()
{ fname = QFileDialog::getOpenFileName(this, tr("Open File"),0,0);
ui->label_3->setText("Calculating...");
QThread *thread = new QThread; // создаём поток... вначале он создаётся остановленным
MyClass *job = new MyClass; // создаём экземпляр нашего класса
job->moveToThread(thread);
if(ui->rb_MD5->isChecked()){
connect(thread,SIGNAL(started()),job,SLOT(MyCalcMD5())); // когда поток стартует, то начать выполнение работы нашего класса
connect(job,SIGNAL(sendString(QString)),ui->lineEdit_2,SLOT(setText(QString)));
}
if(ui->rb_G2012->isChecked()){
connect(thread,SIGNAL(started()),job,SLOT(GOST2012()));
connect(job,SIGNAL(sendString(QString)),ui->lineEdit,SLOT(setText(QString)));
}
if(ui->rbSha256->isChecked()){
connect(thread,SIGNAL(started()),job,SLOT(MyCalcSha256()));
connect(job,SIGNAL(sendString(QString)),ui->lineEdit_3,SLOT(setText(QString)));
}
connect(job,SIGNAL(finished()),thread,SLOT(quit())); // когда работа будет завершена, завершить поток
connect(job,SIGNAL(finished()),job,SLOT(deleteLater())); // когда работа будет завершена, удалить наш экземпляр класса
connect(thread,SIGNAL(finished()),thread,SLOT(deleteLater())); // когда поток остановится, удалить его
thread->start();
connect(job,SIGNAL(change_value(int)),ui->progressBar_2,SLOT(setValue(int)));
connect(job,SIGNAL(set_max(int)),ui->progressBar_2,SLOT(setMaximum(int)));
connect(job,SIGNAL(sendStringDone(QString)),ui->label_3,SLOT(setText(QString)));
connect(job,SIGNAL(sendStringFileName(QString)),ui->label_2,SLOT(setText(QString)));
}
int parse_ctc(char s[])
{
char ctc[11];
unsigned char i = 3, j = 0;
while( (s[i] != '\0') && (j <= 11) )
{
if( (s[i] >= '0') && (s[i] <= '9') )
{
ctc[j++] = s[i++];
}
else
{
sendString("Error - Parse_ctc received a non integer: ");
sendChar(s[i]);
sendChar('\r');
return 0;
}
}
ctc[j] = '\0';
if(j>4)// must be < 256
{
sendString("Error - Parse_ctc number too large");
return 0;
}
else
{
set_ctc(atoi(ctc));
}
return 1;
}
/**
* Sends the given matrix in plain text through the given socket.
* Rows are delimited by newlines, columns by spaces.
* \return zero on success; a non-zero error code on failure
*/
int sendMatrix(int sd, struct Matrix *mat)
{
int i, j;
char numBuf[50];
int len;
int err;
for (i = 0; i < mat->height; ++i)
{
for (j = 0; j < mat->width; ++j)
{
/* snprintf() requires -std=c99 or later, so I can't
use it. So this isn't as safe as it should be. */
len = sprintf(numBuf, "%d", mat->rows[i][j]);
if (len < 0 || len == 50)
{
fprintf(stderr, "Buffer overflow converting %d to a string!\n",
mat->rows[i][j]);
return ERANGE;
}
if ((err = sendString(sd, numBuf, len)))
return err;
if ((err = sendString(sd, " ", 1)))
return err;
}
if ((err = sendString(sd, "\n", 1)))
return err;
}
return 0;
}
void homeScreen(void) {
int choice;
const char *message = "\r\n\tWelcome to Light'o'matic 2000. Prepare for the most gripping PWM\r\n\texperience of your life.Prepare to have your mind blown.\r\n\r\n\tA\tChoose brightness\r\n\tB\tChoose animation\r\n\t\r\n\t";
resetEmulator();
sendNL();
sendString(message);
choice = waitForCharInput();
resetEmulator();
switch(choice) {
case 'a':
case 'A':
menu_chooseBrightness();
break;
case 'b':
case 'B':
menu_chooseAnimation();
break;
}
sendString("\r\n\t\r\n\t");
}
//Get control gains
void procCmd6() {
//Make sure we aren't running
running = 0;
//Tell PC we are ready to get control gains
sendString("CONTROL\n");
//Get control gains from PC
//goes proportional (1/2/3), derivative (1/2/3), then integral (1/2/3)
double gains[15];
getDoublePacket(gains,15);
kp1 = gains[0]; kp2 = gains[1]; kp3 = gains[2];
kd1 = gains[3]; kd2 = gains[4]; kd3 = gains[5];
ki1 = gains[6]; ki2 = gains[7]; ki3 = gains[8];
INNER_K1_14 = gains[9]; INNER_K2_14 = gains[10];
INNER_K1_11 = gains[11]; INNER_K2_11 = gains[12];
INNER_K1_8 = gains[13]; INNER_K2_8 = gains[14];
/* readDouble(&kp1); readDouble(&kp2); readDouble(&kp3); */
/* readDouble(&kd1); readDouble(&kd2); readDouble(&kd3); */
/* readDouble(&ki1); readDouble(&ki2); readDouble(&ki3); */
/* readDouble(&INNER_K1_14); readDouble(&INNER_K2_14); */
/* readDouble(&INNER_K1_11); readDouble(&INNER_K2_11); */
/* readDouble(&INNER_K1_8); readDouble(&INNER_K2_8); */
// readDouble(&kp1curr); readDouble(&kp2curr); readDouble(&kp3curr);
// readDouble(&kd1curr); readDouble(&kd2curr); readDouble(&kd3curr);
//Tell PC we are done with control gains
sendString("GAINSUPDATED\n");
}
void setColour(char foreground, char background){
ASC0_vSendData(27);
sendString("[3");
ASC0_vSendData(foreground);
ASC0_vSendData(27);
sendString("[4");
ASC0_vSendData(background);
}
int main(void)
{
SREG = 0x80; /*ENABLE GLOBAL INTERRUPTS*/
init_oscillator();
init_usart();
init_twi();
//TWI_MASTER_t twi;
//PMIC_CTRL= //interrupt
PORTC.DIR |= PIN6_bm;
if(( TWIC_MASTER_STATUS & TWI_MASTER_BUSSTATE_gm) == TWI_MASTER_BUSSTATE_IDLE_gc)
{
//TWIC_MASTER_ADDR =0x00;
TWIC_MASTER_CTRLC = TWI_MASTER_CMD_REPSTART_gc;
//TWIC_MASTER_CTRLC = TWI_MASTER_CMD_NOACT_gc; //read data
TWIC_MASTER_ADDR = 0xEC; // R/W bit low to write the reg number from where we want to read
TWIC_MASTER_ADDR = 0xA0;
TWIC_MASTER_CTRLC = TWI_MASTER_CMD_REPSTART_gc;
TWIC_MASTER_ADDR = 0xED; // R/W bit high indicating a read operation
TWIC_MASTER_CTRLC = TWI_MASTER_CMD_STOP_gc;
int DATA=TWIC_MASTER_DATA;
//sendChar(DATA);
uint16_t buffer;
itoa(DATA, buffer, 10);
sendString(buffer);
sendString("\n");
}
//while(TWIC_MASTER_STATUS & 0x10) //ack/NACK recieved from slave
// TWIC_MASTER_ADDR =0x00;
// _delay_ms(100);
// TWIC_MASTER_ADDR = 0xE7;
// TWIC_MASTER_ADDR = 0xE5;
// _delay_ms(100);
// TWIC_MASTER_ADDR = 0xA0;
while(1)
//for(int i=1; i<=5 ; i++)
{
PORTC.OUT &= ~PIN6_bm;
// sendString("Test\n");
_delay_ms(1000);
PORTC.OUT |= PIN6_bm;
_delay_ms(1000);
//TWIC_MASTER_CTRLC = TWI_MASTER_CMD_REPSTART_gc;
int DATA=TWIC_MASTER_DATA;
//sendChar(DATA);
uint16_t buffer;
itoa(DATA, buffer, 10);
// sendString(buffer);
}
}
void defineStateNoTime(int tripod, int tipo, int posicao){
int i;
for(i = 0; i<3; i++){
sendString(servos[tripod][tipo][i]);
sendString(" ");
sendString(servoState[tripod][i][tipo][posicao]);
sendString(" ");
}
}
int barcodez(int socket) {
char tehfile[41];
char safe[] = IMG_ROOT;
char cobracmdr[sizeof(tehfile)+sizeof(safe)+9];
char data[600];
char safepath[sizeof(safe)+sizeof(tehfile)];
int res = 0;
memset(tehfile, 0x0, sizeof(tehfile));
memset(cobracmdr, 0x0, sizeof(cobracmdr));
memset(data, 0x0, sizeof(data));
memset(safepath, 0x0, sizeof(safepath));
sendString(socket, "Welcome to the data matrix bar code reader.\n");
sendString(socket, "Enter the name of file uploaded to decode data.\n> ");
if ((res = recvUntil(socket, tehfile, sizeof(tehfile) - 1, '\n')) == 0) {
fprintf(stderr, "No datas!\n");
close(socket);
exit(1);
}
snprintf(safepath, sizeof(safepath), "%s%s", safe, tehfile);
if ((res = validPath(safe, safepath)) == -1) {
sendString(socket, "Hey! You can't look in there.\n");
fprintf(stderr, "%s is outside the safe path.\n", safepath);
close(socket);
exit(1);
}
snprintf(cobracmdr, sizeof(cobracmdr), "dmtxread %s", safepath);
if ((fp = popen(cobracmdr, "r")) == NULL) {
perror("popen");
close(socket);
exit(1);
}
fread(data, SIZE, 1, fp);
if (data[0] == 0x0) {
sendString(socket, "Looks like you lost your file!\n");
fprintf(stderr, "Nothing read!\n");
close(socket);
exit(1);
}
sendString(socket, data);
fclose(fp);
unlink(safepath);
close(socket);
return 0;
}
void printGoodResult(uint32_t result) {
setPosition(0x28); //40 to pozycja pierwsza na dole
sendString("Wynik: ");
char tmp[5];
int i= 0;
for(i = 0; i < 5; i++) {
tmp[i] = 0;
}
itoa(expectedResult, tmp, 10);
sendString(tmp);
}
void endGame() { //konczenie gry
isStarted = 0; //zatrzymujemy gre
isEnded = 1; //konczymy
player = 1; //zmieniamy gracza do nastepnej rozgrywki na 1
updateDisplay(9999);
if (playerOneTime < playerTwoTime) { //wygral gracz pierwszy
USART_Transmit_String("Wygrywa Gracz 1! Gratulacje!");
USART_Transmit(10); //nowa linia
USART_Transmit(13); //powrot karetki
} else if(playerOneTime > playerTwoTime) {
USART_Transmit_String("Wygrywa Gracz 2! Gratulacje!");
USART_Transmit(10); //nowa linia
USART_Transmit(13); //powrot karetki
} else {
USART_Transmit_String("Remis! Gratulacje!");
USART_Transmit(10); //nowa linia
USART_Transmit(13); //powrot karetki
}
USART_Transmit_String("Czas gracza pierwszego: ");
char tmp[5];
int i= 0;
for(i = 0; i < 5; i++) {
tmp[i] = 0;
}
itoa(playerOneTime, tmp, 10);
USART_Transmit_String(tmp);
USART_Transmit(10); //nowa linia
USART_Transmit(13); //powrot karetki
USART_Transmit_String("Czas gracza drugiego: ");
for(i = 0; i < 5; i++) {
tmp[i] = 0;
}
itoa(playerTwoTime, tmp, 10);
USART_Transmit_String(tmp);
USART_Transmit(10); //nowa linia
USART_Transmit(13); //powrot karetki
USART_Transmit_String("Roznica: ");
for(i = 0; i < 5; i++) {
tmp[i] = 0;
}
itoa(calculateDistance(playerOneTime, playerTwoTime), tmp, 10);
USART_Transmit_String(tmp);
USART_Transmit(10); //nowa linia
USART_Transmit(13); //powrot karetki
playerOneTime = 0; //zerujemy czasy obu graczy
playerTwoTime = 0;
clearAndSetZeroPosition(); //czyscimy wyswietlacz i wracamy na poczatek
sendString("Jeszcze raz?");
setPosition(0x28); //40 to pozycja pierwsza na dole
sendString("Wcisnij klawisz");
}
/**
* @brief Send a file
* @param sockfd remote socket to send to
* @param *file_name Name of the file to send
* @return send bytes or negative on failure
*/
int sendFile(int sockfd, char *file_name)
{
int file, length;
//Pointer to play with
char * ptr;
//Backup pointer to ptr
char * bPtr;
//Open file and get the filesize
if((file = open(file_name, O_RDONLY, 0)) == -1)
return -1;
length = get_file_size(file);
//Start sending the HTTP file headers
int header_length = strlen("Content-Length: ") + 5;
char length_header[header_length];
snprintf(length_header, header_length ,"Content-Length: %d\r\n", length);
sendString(sockfd, length_header);
//TODO: Different file support
char filetype_format[] = "Content-Type: %s; charset=UTF-8\r\n";
char filetype[] = "text/html";
char * filetype_header =
object_ninit((strlen(filetype_format) + strlen(filetype) - 1) * sizeof(char));
sprintf(filetype_header, filetype_format, filetype);
sendString(sockfd, filetype_header);
free(filetype_header);
sendString(sockfd, "\r\n");
if((ptr = malloc(length * sizeof(char))) == NULL)
return -1;
bPtr = ptr;
if(read(file, ptr, length) == -1)
return -1;
int send_bytes = 0;
int bytes_to_send = length;
while(bytes_to_send > 0){
send_bytes = send(sockfd, ptr, bytes_to_send, 0);
if(send_bytes == -1)
return -1;
bytes_to_send -= send_bytes;
ptr += send_bytes;
}
//Free the original ptr
free(bPtr);
//Return the send_bytes
return send_bytes;
}
void set_ctc(int count)
{
char ctc[11];
sendString("Setting the Compare Timer Count to: ");
itoa(count,ctc,10);
sendString(ctc);
sendChar('\r');
MilliSec_init(count);
}
void createHostMap(HostTraffic *host) {
HostTraffic *el;
int num_hosts = 0;
sendString((char*)map_head);
//sendString(googleMapsKey);
sendString((char*)map_head2);
sendString((char*)map_head4);
for(el=getFirstHost(myGlobals.actualReportDeviceId);
el != NULL; el = getNextHost(myGlobals.actualReportDeviceId, el)) {
if((el->l2Host == host->l2Host) && (el->hostIpAddress.hostFamily == host->hostIpAddress.hostFamily)) {
if((CM_PointEst(host->sent_to_matrix, el->serialHostIndex) > 0)
|| (CM_PointEst(host->recv_from_matrix, el->serialHostIndex) > 0)) {
if(el->geo_ip) {
char buf[512];
#if 0
char buf1[256] = { 0 };
int showSymIp;
if((el->hostResolvedName[0] != '\0')
&& strcmp(el->hostResolvedName, el->hostNumIpAddress)
&& (!privateIPAddress(el)))
showSymIp = 1;
else
showSymIp = 0;
#endif
safe_snprintf(__FILE__, __LINE__, buf, sizeof(buf),
"createMarker(new google.maps.LatLng(%.2f, %.2f), \""
#if 0
"%s%s"
#endif
"<A HREF=/%s.html>%s</A><br>%s<br>%s\");\n",
el->geo_ip->latitude, el->geo_ip->longitude,
#if 0
showSymIp ? escape_string(el->hostResolvedName, buf1, sizeof(buf1)) : "",
showSymIp ? "<br>" : "",
#endif
el->hostNumIpAddress, el->hostNumIpAddress,
el->geo_ip->city ? el->geo_ip->city : "",
el->geo_ip->country_name ? el->geo_ip->country_name : "");
sendString(buf);
num_hosts++;
if(num_hosts > MAX_NUM_MAP_HOSTS) break; /* Too many hosts */
}
}
}
}
sendString((char*)map_tail2);
}
void resetEmulator(void) {
sendString("\r\n\t\r\n\t");
while(ASC0_cReadyToTransmit() == -1){}
ASC0_vSendData(27);
sendString("[2J");
while(ASC0_cReadyToTransmit() == -1){}
ASC0_vSendData(27);
sendString("[H");
/*sendNL();
sendString("---------------");
sendNL();*/
}
void procCmd13() {
//Tell PC we are ready to get control gains
sendString("LQRGAINS\n");
//Get control gains from PC
//goes proportional (1/2/3), derivative (1/2/3), then integral (1/2/3)
int i;
double gains[6];
int bytesRec = getDoublePacket(K_lqr,24);
bytesRec = getDoublePacket(gains,6);
INNER_K1_14 = gains[0]; INNER_K2_14 = gains[1];
INNER_K1_11 = gains[2]; INNER_K2_11 = gains[3];
INNER_K1_8 = gains[4]; INNER_K2_8 = gains[5];
sendString("LQRUPDATED\n");
}
/*lint -save -e970 Disable MISRA rule (6.3) checking. */
int main(void)
/*lint -restore Enable MISRA rule (6.3) checking. */
{
/* Write your local variable definition here */
/*** Processor Expert internal initialization. DON'T REMOVE THIS CODE!!! ***/
PE_low_level_init();
/*** End of Processor Expert internal initialization. ***/
/* Write your code here */
/* For example: for(;;) { } */
byte c, err;
for (;;) {
do {
err = UART_RecvChar(&c);
} while(err != ERR_OK);
sendString("Press R, G or B to toggle the red, green or blue LEDs.\r\nPress ESC to close.\r\n");
do {
do {
err = UART_RecvChar(&c);
} while(err != ERR_OK);
if (c == 0x52 || c == 0x72) {
Red_NegVal();
sendString("Toggle red.\r\n");
} else if (c == 0x47 || c == 0x67) {
Green_NegVal();
sendString("Toggle green.\r\n");
} else if (c == 0x42 || c == 0x62) {
Blue_NegVal();
sendString("Toggle blue.\r\n");
}
} while(c != 0x1B);
sendString("Press any key to start.\r\n");
Red_SetVal();
Green_SetVal();
Blue_SetVal();
}
/*** Don't write any code pass this line, or it will be deleted during code generation. ***/
/*** RTOS startup code. Macro PEX_RTOS_START is defined by the RTOS component. DON'T MODIFY THIS CODE!!! ***/
#ifdef PEX_RTOS_START
PEX_RTOS_START(); /* Startup of the selected RTOS. Macro is defined by the RTOS component. */
#endif
/*** End of RTOS startup code. ***/
/*** Processor Expert end of main routine. DON'T MODIFY THIS CODE!!! ***/
for(;;){}
/*** Processor Expert end of main routine. DON'T WRITE CODE BELOW!!! ***/
} /*** End of main routine. DO NOT MODIFY THIS TEXT!!! ***/
void initGame() { //inicjalizacja gry
time = 0;
tries = 0;
failedTries = 0;
isEnded = 0;
updateDisplay(time);
clearAndSetZeroPosition();
if(player == 1) {
sendString("Gracz 1");
} else {
sendString("Gracz 2");
}
setPosition(0x28); //40 to pozycja pierwsza na dole
sendString("Wcisnij klawisz");
}
/**
* This function registers the user with there server. It sends the nick and tue user name.
* When an irc client connects to the server within a certain period of time the client must
* register the user with the server. This involves sending the NICK message to submit the nick
*
* @param nick the nickname to use on the irc server
* @param uname the user name
* @param rname the users real name
*
* @returns CONNECT_SUCCESS on success or NICK_COLLISION
*/
int ircInterface::registerUser(std::string nick, std::string uname, std::string rname){
_nick = nick;
_uname = uname;
_rname = rname;
std::string msg = NICK + " " + nick+ "\r\n";
sendString(msg);
msg = "USER " + uname + " 0 * :" + rname + "\r\n";
sendString(msg);
_serverConnection->sleep(SLEEP_INTRV);
return _connStatus->waitOnConnect();
}
void menu_chooseBrightness(void) {
unsigned char brightness = 0, loop_break = 0;
int direction = 0;
/*sendString("BRIGHTNESS SELECT");
brightness = (waitForCharInput()-48)*10;
sendString("\r\n\t\r\n\tYou chose ");
//sendString(brightness);
GPT1_setBrightness(brightness);*/
resetEmulator();
//setColour(6, 7);
sendNL();
sendString("BRIGHTNESS SELECT:");
sendNL();
sendString("Use the arrow keys to select the brightness you want.");
sendNL();
sendString("Press enter when you're done.");
sendNL();
sendNL();
while(loop_break==0){
drawBrightnessScreen();
direction = waitForDirectionInput();
switch(direction) {
case 'C':
case 'c':
loop_break = 0;
if(GPT1_getBrightness()+5 <= BRIGHTNESS_MAX)
GPT1_setBrightness(GPT1_getBrightness()+BRIGHTNESS_INCREMENT);
break;
case 'D':
case 'd':
loop_break = 0;
if(GPT1_getBrightness() >= BRIGHTNESS_INCREMENT)
GPT1_setBrightness(GPT1_getBrightness() - BRIGHTNESS_INCREMENT);
break;
default:
loop_break = -1;
return;
break;
}
}
}
void main(void) {
/* stop the watchdog timer */
WDTCTL = WDTPW + WDTHOLD;
/* For debouncing: set the auxilliary clock to use very low-power
* oscillator. Later, we'll have the Watchdog timer use the
* auxilliary clock for debouncing the button.
*/
BCSCTL3 |= LFXT1S_2;
/* LEDs off, but later we'll blink them as we send bits */
P1DIR |= RED_LED+GRN_LED;
P1OUT &= ~ (RED_LED + GRN_LED );
initUart();
/* We'll use the button to let the chip know we're ready to communicate.
* Direction is receive, clear interrupt flag, and
* interrupts are enabled.
*/
P1DIR &= ~BUTTON;
P1IFG &= ~BUTTON;
P1IE |= BUTTON;
for( ; ; ) {
/* go to sleep until button press */
__bis_SR_register( LPM3_bits + GIE );
sendString( "Hello, world!\r\n" );
}
}
void TSocket::readClient()
{
qDebug() << "Client connected";
QFile file("C:\\tt.txt");
if (!file.open(QIODevice::ReadOnly | QIODevice::Text))
return;
QTextStream in(&file);
while( !in.atEnd() )
{
QString str = in.readLine();
sendString( str );
}
file.close();
QDataStream out( this );
out << qint64( 0xFFFF );
close();
//disconnectFromHost();
//waitForDisconnected();
}
