/* Relay data from stdin (0) to master_fd.
* Relay data from master_fd to stdout (1).
*/
static void run_relay(const int master_fd)
{
fd_set fds, tmp_fds;
unsigned int n;
FD_ZERO(&fds);
FD_SET(0, &fds);
FD_SET(master_fd, &fds);
while (1) {
tmp_fds = fds;
if (select(master_fd + 1, &tmp_fds, NULL, NULL, NULL) == -1)
break;
if (FD_ISSET(0, &tmp_fds)) {
if (!relay(0, master_fd, &n))
break;
if (n == 0) {
/* stdin was closed by the caller. Relay the closure to the
* child.
*/
close(master_fd);
break;
}
}
if (FD_ISSET(master_fd, &tmp_fds))
if (!relay(master_fd, 1, NULL))
break;
}
exit(0);
}
void
tcp_relay(int s_src, int s_dst, const char *service)
{
syslog(LOG_INFO, "starting %s relay", service);
child_lastactive = parent_lastactive = time(NULL);
cpid = fork();
switch (cpid) {
case -1:
exit_failure("tcp_relay: can't fork grand child: %s",
strerror(errno));
/* NOTREACHED */
case 0:
/* child process: relay going traffic */
ppid = getppid();
/* this is child so reopen log */
closelog();
openlog(logname, LOG_PID | LOG_NOWAIT, LOG_DAEMON);
relay(s_src, s_dst, service, 1);
/* NOTREACHED */
default:
/* parent process: relay coming traffic */
ppid = (pid_t)0;
signal(SIGUSR1, sig_ctimeout);
signal(SIGCHLD, sig_child);
relay(s_dst, s_src, service, 0);
/* NOTREACHED */
}
}
int main()
{
int fd1,fd2;
// 假设这里忘记将设备 tty1 以非阻塞的形式打开也没关系,因为推动状态机之前会重新设定文件描述符为非阻塞形式
fd1 = open(TTY1,O_RDWR);
if(fd1 < 0)
{
perror("open()");
exit(1);
}
write(fd1,"TTY1\n",5);
fd2 = open(TTY2,O_RDWR|O_NONBLOCK);
if(fd2 < 0)
{
perror("open()");
exit(1);
}
write(fd2,"TTY2\n",5);
relay(fd1,fd2);
close(fd1);
close(fd2);
exit(0);
}
int main()
{
int fd1,fd2;
fd1 = open(TTY1,O_RDWR|O_NONBLOCK);
if(fd1 < 0)
{
perror("open()");
exit(1);
}
write(fd1,"TTY1\n",5);
fd2 = open(TTY2,O_RDWR);
if(fd2 < 0)
{
perror("open()");
exit(1);
}
write(fd2,"TTY2\n",5);
relay(fd1,fd2);
close(fd1);
close(fd2);
exit(0);
}
main(int argc, char **argv) {
trace("main start");
char hostName[hostNameLength];
parseArgs(argc, argv, hostName);
int sock = createConnection(hostName, port_number);
relay(sock);
close(sock);
}
void Player::ladderChange(bool n)
{
if (!isLoggedIn())
return;//INV BEHAV
if (state()[LadderEnabled] == n) {
return;
}
state().setFlag(LadderEnabled, n);
relay().notifyOptionsChange(id(), away(), n);
}
int main(int argc, char ** argv) {
//required to make sure protobuf will work correctly
GOOGLE_PROTOBUF_VERIFY_VERSION;
//init ros
ros::init(argc, argv, "ROStoPBuffRelay");
Message1Relay relay(TOPIC);
relay.initROStoPBuff();
return EXIT_SUCCESS;
}
int checklinkdata (int nlink)
{
pcontext;
if (datalink(nlink)->type==0) return 0x0;
if (datalink(nlink)->instate!=STD_CONN && datalink(nlink)->outstate!=STD_CONN) return 0x0;
if (datalink(nlink)->type==LI_RELAY)
relay(nlink);
if (datalink(nlink)->type==LI_LINK)
processlink(nlink,datalink(nlink)->outsock,datalink(nlink)->outstate);
if (datalink(nlink)->type==LI_ALLOW)
processlink(nlink,datalink(nlink)->insock,datalink(nlink)->instate);
}
int inetd_service(int cs)
{
SOCKS_STATE state;
SOCK_INFO si;
CL_INFO client;
int len;
int error;
memset(&state, 0, sizeof(state));
memset(&si, 0, sizeof(si));
state.si = &si;
/* get downstream-side socket name */
len = SS_LEN;
getsockname(cs, &si.myc.addr.sa, (socklen_t *)&len);
si.myc.len = len;
/* get downstream-side peer name */
len = SS_LEN;
getpeername(cs, &si.prc.addr.sa, (socklen_t *)&len);
si.prc.len = len;
error = getnameinfo(&si.prc.addr.sa, si.prc.len,
client.addr, sizeof(client.addr),
NULL, 0,
NI_NUMERICHOST);
if (resolv_client) {
error = getnameinfo(&si.prc.addr.sa, si.prc.len,
client.name, sizeof(client.name),
NULL, 0, 0);
msg_out(norm, "%s[%s] connected", client.name, client.addr);
} else {
msg_out(norm, "%s connected", client.addr);
strncpy(client.name, client.addr, sizeof(client.name));
}
set_blocking(cs);
state.s = cs;
error = proto_socks(&state);
if (error == -1) {
msg_out(warn, "socks proto error");
close(state.s);
if (state.sr.udp != NULL)
free(state.sr.udp);
return(-1);
}
/* start relaying */
relay(&state);
close(cs);
return(0);
}
void QDBusAdaptorConnector::relaySlot(void **argv)
{
QObjectPrivate *d = static_cast<QObjectPrivate *>(d_ptr.data());
if (Q_LIKELY(d->currentSender)) {
relay(d->currentSender->sender, d->currentSender->signal, argv);
} else {
qWarning("QtDBus: cannot relay signals from parent %s(%p \"%s\") unless they are emitted in the object's thread %s(%p \"%s\"). "
"Current thread is %s(%p \"%s\").",
parent()->metaObject()->className(), parent(), qPrintable(parent()->objectName()),
parent()->thread()->metaObject()->className(), parent()->thread(), qPrintable(parent()->thread()->objectName()),
QThread::currentThread()->metaObject()->className(), QThread::currentThread(), qPrintable(QThread::currentThread()->objectName()));
}
}
void QDBusAdaptorConnector::relaySlot(void **argv)
{
QObject *sndr = sender();
if (Q_LIKELY(sndr)) {
relay(sndr, senderSignalIndex(), argv);
} else {
qWarning("QtDBus: cannot relay signals from parent %s(%p \"%s\") unless they are emitted in the object's thread %s(%p \"%s\"). "
"Current thread is %s(%p \"%s\").",
parent()->metaObject()->className(), parent(), qPrintable(parent()->objectName()),
parent()->thread()->metaObject()->className(), parent()->thread(), qPrintable(parent()->thread()->objectName()),
QThread::currentThread()->metaObject()->className(), QThread::currentThread(), qPrintable(QThread::currentThread()->objectName()));
}
}
Player::Player(const GenericSocket &sock, int id)
{
loginInfo() = NULL;
m_bundle.id = id;
myrelay = new Analyzer(sock, id);
lockCount = 0;
battleSearch() = false;
myip = relay().ip();
server_pass_sent = false;
needToUpdate = false;
m_bundle.auth = 0;
doConnections();
/* Version control, whatever happens, because the problem could be because of an old version */
relay().notify(NetworkServ::VersionControl_, ProtocolVersion(), Flags(), ProtocolVersion(1,1), ProtocolVersion(0,0), ProtocolVersion(0,0), Server::serverIns->servName());
/* Autokick after 3 minutes if still not logged in */
QTimer::singleShot(1000*180, this, SLOT(firstAutoKick()));
}
int waterDo(unsigned int time)
{
if (waterLastTime != 0 && (unsigned long)(fixedMillis() - waterLastTime) < WATER_MIN_INTERVAL)
{
return ERROR_INTERVALTOOSHORT;
}
if (distanceLastValue > WATER_TANK_THRESHOLD)
{
return ERROR_NOWATER;
}
DBG("Watering: ");
relay(true);
delay(time);
relay(false);
DBGLN("done.");
// TODO(twd2): check if moisture changed
waterLastTime = fixedMillis();
return ERROR_OK;
}
GraphicsScene::GraphicsScene(QStringList t): QGraphicsScene()
{
size = t.size();
QStringList list = t;
// tab = new DraggableLabel*[size];
for (int i = 0; i < size; i++)
{
DraggableLabel *label = new DraggableLabel();
label->setText(list[i]);
label->setDraggable(true);
tab.append(label);
// tab[i].setText("yomoma");
addWidget(label);
}
relay();
}
void Output(const char* format, ...)
{
char buf[OUT_BUFFER_SIZE];
void (*relay)(int,const char*,const char*,const char*) = s_relay;
if (!((s_output || s_intout || relay) && format && *format))
return;
if (reentered())
return;
va_list va;
va_start(va,format);
::vsnprintf(buf,sizeof(buf)-2,format,va);
va_end(va);
if (relay)
relay(-1,buf,0,0);
else
common_output(-1,buf);
}
void CompressorManager::runCompressor(int relaySlot, int relayChannel, int switchSlot, int switchChannel)
{
Relay relay(relaySlot, relayChannel, Relay::kForwardOnly);
DigitalInput pSwitch(switchSlot, switchChannel);
while(1)
{
if(!pSwitch.Get())
{
relay.Set(Relay::kOn);
}
else
{
relay.Set(Relay::kOff);
}
}
}
void *pth_sub_rel(void *arg) {
int i;
struct relayer_job_st *job_arr = relayer_arr;
PTHQ *pthq = arg;
while (pthq_read(pthq, &i, sizeof(i)) != EOF) {
relay(job_arr + i);
set_next_poll(job_arr + i, i);
pthread_mutex_lock(&poll_mut);
poll_count--;
pthread_cond_broadcast(&poll_cond);
pthread_mutex_unlock(&poll_mut);
}
pthread_exit(NULL);
}
//http://ersun.warnckes.com/code/c/server.html
int main()
{
FD_ST* fd_arr[2]={};
FD_ST* p1 = NULL;
FD_ST* p2 = NULL;
int fd1,fd2;
fd1 = open(TTY1,O_RDWR|O_NONBLOCK);
if(fd1 < 0){
perror("open():");
exit(1);
}
write(fd1,"TTY1\n",5);
fd2 = open(TTY2,O_RDWR);
if(fd2 < 0){
perror("open():");
exit(1);
}
write(fd2,"TTY2\n",5);
p1 = malloc(sizeof(FD_ST));
if(p1 == NULL){
perror("malloc():");
exit(1);
}
p2 = malloc(sizeof(FD_ST));
if(p2 == NULL){
perror("malloc():");
exit(1);
}
p1->fd = fd1;
p2->fd = fd2;
p1->desc = "this is fd1";
p2->desc = "this is fd2";
fd_arr[0] = p1;
fd_arr[1] = p2;
relay(fd_arr[0], fd_arr[1]);
close(fd1);
close(fd2);
free(p1);
free(p2);
exit(0);
}
Player::Player(const GenericSocket &sock, int id)
{
loginInfo() = NULL;
m_bundle.id = id;
myrelay = new Analyzer(sock, id);
lockCount = 0;
battleSearch() = false;
myip = relay().ip();
server_pass_sent = false;
needToUpdate = false;
m_bundle.auth = 0;
doConnections();
/* Autokick after 3 minutes if still not logged in */
QTimer::singleShot(1000*180, this, SLOT(firstAutoKick()));
}
GraphicsScene::GraphicsScene(Test* t): QGraphicsScene()
{
//COPYPASTA!!!!
size = t->length();
QStringList list = t->getSplitSentence();
QStringList words = t->getWords();
for (int i = 0, gapnr = 0; i < size; i++)
{
DraggableLabel *label = new DraggableLabel();
label->setText(list[i]);
if (label->text().contains("..."))
{
label->setDraggable(true);
label->setCorrect(words[gapnr++]);
}
tab.append(label);
// tab[i].setText("yomoma");
addWidget(label);
}
relay();
}
void GCapture::run() {
qDebug() << "stt"; // gilgil temp 2015.10.28
while (active()) {
GPacket packet;
packet.clear();
packet.capture = this;
Result res = read(&packet);
if (res == TimeOut) continue;
if (res == Eof || res == Fail) break;
if (autoParse_) packet.parse();
emit captured(&packet);
if (this->pathType() == InPath) {
res = relay(&packet);
if (res != Ok) {
qWarning() << "relay return %d" << (int)res; // gilgil temp 2015.10.29
}
}
}
qDebug() << "end"; // gilgil temp 2015.10.28
emit closed();
}
static void dbg_output(int level,const char* prefix, const char* format, va_list ap,
const char* alarmComp = 0, const char* alarmInfo = 0)
{
void (*relay)(int,const char*,const char*,const char*) = s_relay;
void (*alarms)(const char*,int,const char*,const char*) = s_alarms;
bool out = (s_output || s_intout || relay) && (prefix || format);
bool alarm = alarmComp && format && (alarms || relay);
if (!(out || alarm))
return;
char buf[OUT_BUFFER_SIZE];
unsigned int n = Debugger::formatTime(buf,s_fmtstamp);
unsigned int l = s_indent*2;
if (l >= sizeof(buf)-n)
l = sizeof(buf)-n-1;
::memset(buf+n,' ',l);
n += l;
buf[n] = 0;
l = sizeof(buf)-n-2;
if (prefix)
::strncpy(buf+n,prefix,l);
n = ::strlen(buf);
l = sizeof(buf)-n-2;
char* msg = buf+n;
if (format) {
::vsnprintf(msg,l,format,ap);
buf[OUT_BUFFER_SIZE - 2] = 0;
}
if (relay) {
relay(level,buf,alarmComp,alarmInfo);
return;
}
if (out)
common_output(level,buf);
if (alarm)
alarms(msg,level,alarmComp,alarmInfo);
}
int
main (int argc __attribute__ ((unused)), char *argv[])
{
int master, slave;
char *name;
pid_t pid;
struct sigaction sa;
int pipe_fds[2];
struct itimerval zero_itimerval, old_itimerval;
if (argc < 2)
{
fprintf (stderr,
"usage: squish-pty COMMAND [ARG]...\n"
"Squishes both stdin and stdout into a single pseudoterminal,\n"
"which is passed as stdout to run the specified COMMAND.\n");
return EXIT_FAILURE;
}
/* Open master side of pty and get ready to open slave. */
master = open ("/dev/ptmx", O_RDWR | O_NOCTTY);
if (master < 0)
fail_io ("open \"/dev/ptmx\"");
if (grantpt (master) < 0)
fail_io ("grantpt");
if (unlockpt (master) < 0)
fail_io ("unlockpt");
/* Open slave side of pty. */
name = ptsname (master);
if (name == NULL)
fail_io ("ptsname");
slave = open (name, O_RDWR);
if (slave < 0)
fail_io ("open \"%s\"", name);
/* System V implementations need STREAMS configuration for the
slave. This is commented out as OS X doesn't provide stropts.h.
if (isastream (slave))
{
if (ioctl (slave, I_PUSH, "ptem") < 0
|| ioctl (slave, I_PUSH, "ldterm") < 0)
fail_io ("ioctl");
}
*/
/* Arrange to get notified when a child dies, by writing a byte
to a pipe fd. We really want to use pselect() and
sigprocmask(), but Solaris 2.7 doesn't have it. */
if (pipe (pipe_fds) < 0)
fail_io ("pipe");
dead_child_fd = pipe_fds[1];
memset (&sa, 0, sizeof sa);
sa.sa_handler = sigchld_handler;
sigemptyset (&sa.sa_mask);
sa.sa_flags = SA_RESTART;
if (sigaction (SIGCHLD, &sa, NULL) < 0)
fail_io ("sigaction");
/* Save the virtual interval timer, which might have been set
by the process that ran us. It really should be applied to
our child process. */
memset (&zero_itimerval, 0, sizeof zero_itimerval);
if (setitimer (ITIMER_VIRTUAL, &zero_itimerval, &old_itimerval) < 0)
fail_io ("setitimer");
pid = fork ();
if (pid < 0)
fail_io ("fork");
else if (pid != 0)
{
/* Running in parent process. */
int status;
close (slave);
relay (master, pipe_fds[0]);
/* If the subprocess has died, die in the same fashion.
In particular, dying from SIGVTALRM tells the pintos
script that we ran out of CPU time. */
if (waitpid (pid, &status, WNOHANG) > 0)
{
if (WIFEXITED (status))
return WEXITSTATUS (status);
else if (WIFSIGNALED (status))
raise (WTERMSIG (status));
}
return 0;
}
else
{
/* Running in child process. */
if (setitimer (ITIMER_VIRTUAL, &old_itimerval, NULL) < 0)
fail_io ("setitimer");
if (dup2 (slave, STDOUT_FILENO) < 0)
fail_io ("dup2");
if (close (pipe_fds[0]) < 0 || close (pipe_fds[1]) < 0
|| close (slave) < 0 || close (master) < 0)
fail_io ("close");
execvp (argv[1], argv + 1);
fail_io ("exec");
}
}
Player::Player(const GenericSocket &sock, int id) : myid(id)
{
myrelay = new Analyzer(sock, id);
lockCount = 0;
battleSearch() = false;
myip = relay().ip();
rating() = -1;
waiting_team = NULL;
server_pass_sent = false;
m_state = NotLoggedIn;
myauth = 0;
connect(&relay(), SIGNAL(disconnected()), SLOT(disconnected()));
connect(&relay(), SIGNAL(loggedIn(TeamInfo&,bool,bool,QColor)), SLOT(loggedIn(TeamInfo&,bool,bool,QColor)));
connect(&relay(), SIGNAL(serverPasswordSent(const QString&)), SLOT(serverPasswordSent(const QString&)));
connect(&relay(), SIGNAL(messageReceived(int, QString)), SLOT(recvMessage(int, QString)));
connect(&relay(), SIGNAL(teamReceived(TeamInfo&)), SLOT(recvTeam(TeamInfo&)));
connect(&relay(), SIGNAL(challengeStuff(ChallengeInfo)), SLOT(challengeStuff(ChallengeInfo)));
connect(&relay(), SIGNAL(forfeitBattle(int)), SLOT(battleForfeited(int)));
connect(&relay(), SIGNAL(battleMessage(int,BattleChoice)), SLOT(battleMessage(int,BattleChoice)));
connect(&relay(), SIGNAL(battleChat(int,QString)), SLOT(battleChat(int,QString)));
connect(&relay(), SIGNAL(sentHash(QString)), SLOT(hashReceived(QString)));
connect(&relay(), SIGNAL(wannaRegister()), SLOT(registerRequest()));
connect(&relay(), SIGNAL(kick(int)), SLOT(playerKick(int)));
connect(&relay(), SIGNAL(ban(int)), SLOT(playerBan(int)));
connect(&relay(), SIGNAL(banRequested(QString)), SLOT(CPBan(QString)));
//connect(&relay(), SIGNAL(tempBanRequested(QString,int)), SLOT(CPTBan(QString,int)));
connect(&relay(), SIGNAL(unbanRequested(QString)), SLOT(CPUnban(QString)));
connect(&relay(), SIGNAL(PMsent(int,QString)), SLOT(receivePM(int,QString)));
connect(&relay(), SIGNAL(getUserInfo(QString)), SLOT(userInfoAsked(QString)));
connect(&relay(), SIGNAL(banListRequested()), SLOT(giveBanList()));
connect(&relay(), SIGNAL(awayChange(bool)), SLOT(awayChange(bool)));
connect(&relay(), SIGNAL(battleSpectateRequested(int)), SLOT(spectatingRequested(int)));
connect(&relay(), SIGNAL(battleSpectateEnded(int)), SLOT(quitSpectating(int)));
connect(&relay(), SIGNAL(battleSpectateChat(int,QString)), SLOT(spectatingChat(int,QString)));
connect(&relay(), SIGNAL(ladderChange(bool)), SLOT(ladderChange(bool)));
connect(&relay(), SIGNAL(showTeamChange(bool)), SLOT(showTeamChange(bool)));
connect(&relay(), SIGNAL(tierChanged(QString)), SLOT(changeTier(QString)));
connect(&relay(), SIGNAL(findBattle(FindBattleData)), SLOT(findBattle(FindBattleData)));
connect(&relay(), SIGNAL(showRankings(QString,int)), SLOT(getRankingsByPage(QString, int)));
connect(&relay(), SIGNAL(showRankings(QString,QString)), SLOT(getRankingsByName(QString, QString)));
connect(&relay(), SIGNAL(joinRequested(QString)), SLOT(joinRequested(QString)));
connect(&relay(), SIGNAL(leaveChannel(int)), SLOT(leaveRequested(int)));
connect(&relay(), SIGNAL(ipChangeRequested(QString)), SLOT(ipChangeRequested(QString)));
/* To avoid threading / simulateneous calls problems, it's queued */
connect(this, SIGNAL(unlocked()), &relay(), SLOT(undelay()),Qt::QueuedConnection);
/* Autokick after 3 minutes if still not logged in */
QTimer::singleShot(1000*180, this, SLOT(autoKick()));
}
void Player::lock()
{
lockCount += 1;
relay().delay();
}
int
ACE_TMAIN (int, ACE_TCHAR *[])
{
// Construct a new thread manager for the input device task. Auto
// ptr ensures memory is freed when we exit this scope.
ACE_Thread_Manager *input_task_mgr;
ACE_NEW_RETURN (input_task_mgr,
ACE_Thread_Manager,
-1);
auto_ptr <ACE_Thread_Manager> mgr (input_task_mgr);
// Construct a new input device wrapper. Auto ptr ensures memory is
// freed when we exit this scope.
Text_Input_Device_Wrapper *input_device;
ACE_NEW_RETURN (input_device,
Text_Input_Device_Wrapper (input_task_mgr,
sizeof (input_text),
input_text),
-1);
auto_ptr <Text_Input_Device_Wrapper> input (input_device);
// Construct a new output device wrapper. Auto ptr ensures memory
// is freed when we exit this scope.
Text_Output_Device_Wrapper *output_device = 0;
ACE_NEW_RETURN (output_device,
Text_Output_Device_Wrapper,
-1);
auto_ptr <Text_Output_Device_Wrapper> output (output_device);
// Construct a new bounded packet relay. Auto ptr ensures memory is
// freed when we exit this scope.
Bounded_Packet_Relay *packet_relay = 0;
ACE_NEW_RETURN (packet_relay,
Bounded_Packet_Relay (input_task_mgr,
input_device,
output_device),
-1);
auto_ptr <Bounded_Packet_Relay> relay (packet_relay);
// Construct a receive input callback command for the relay, and register
// it with the input device. Auto ptr ensures memory is freed when we exit
// this scope.
INPUT_CALLBACK *input_callback = 0;
ACE_NEW_RETURN (input_callback,
INPUT_CALLBACK (*packet_relay,
&Bounded_Packet_Relay::receive_input),
-1);
auto_ptr <INPUT_CALLBACK> callback (input_callback);
if (input_device->set_send_input_msg_cmd (input_callback) < 0)
{
ACE_ERROR_RETURN ((LM_ERROR,
"failed to register input callback"),
-1);
}
// Construct a new bounded packet relay driver. Auto ptr ensures
// memory is freed when we exit this scope.
THREAD_BOUNDED_PACKET_RELAY_DRIVER *tbprd = 0;
ACE_NEW_RETURN (tbprd,
Thread_Bounded_Packet_Relay_Driver (packet_relay),
-1);
auto_ptr <THREAD_BOUNDED_PACKET_RELAY_DRIVER> driver (tbprd);
return driver->run ();
// All dynamically allocated memory is released when main() returns.
}
void
rsh_dual_relay(int s_src, int s_dst)
{
fd_set readfds;
int len, s_wld, error;
struct sockaddr_storage ctladdr6;
struct sockaddr_storage ctladdr;
int port6 = 0, lport, lport6;
char *p;
struct timeval tv;
struct sockaddr *sa;
half = NO;
s_rcv = s_src;
s_snd = s_dst;
syslog(LOG_INFO, "starting rsh connection");
for (p = rshbuf; *p; p++)
port6 = port6 * 10 + *p - '0';
len = sizeof(ctladdr6);
getpeername(s_src, (struct sockaddr *)&ctladdr6, &len);
if (((struct sockaddr *)&ctladdr6)->sa_family == AF_INET6)
((struct sockaddr_in6 *)&ctladdr6)->sin6_port = htons(port6);
else
((struct sockaddr_in *)&ctladdr6)->sin_port = htons(port6);
s_wld = rresvport(&lport);
if (s_wld == -1) goto bad;
error = listen(s_wld, 1);
if (error == -1) goto bad;
snprintf(rshbuf, sizeof(rshbuf), "%d", lport);
write(s_dst, rshbuf, strlen(rshbuf)+1);
len = sizeof(ctladdr);
s_ctl = accept(s_wld, (struct sockaddr *)&ctladdr, &len);
if (s_ctl == -1) goto bad;
close(s_wld);
sa = (struct sockaddr *)&ctladdr6;
s_ctl6 = rresvport_af(&lport6, sa->sa_family);
if (s_ctl6 == -1) goto bad;
error = connect(s_ctl6, sa, sa->sa_len);
if (error == -1) goto bad;
syslog(LOG_INFO, "starting rsh control connection");
for (;;) {
int maxfd = 0;
FD_ZERO(&readfds);
if (half == NO)
FD_SET(s_src, &readfds);
FD_SET(s_dst, &readfds);
if (s_dst > maxfd)
maxfd = s_dst;
FD_SET(s_ctl, &readfds);
if (s_ctl > maxfd)
maxfd = s_ctl;
FD_SET(s_ctl6, &readfds);
if (s_ctl6 > maxfd)
maxfd = s_ctl6;
tv.tv_sec = FAITH_TIMEOUT;
tv.tv_usec = 0;
error = select(maxfd + 1, &readfds, NULL, NULL, &tv);
if (error == -1)
exit_failure("select 4 sockets: %s", strerror(errno));
else if (error == 0)
exit_failure("connection timeout");
if (half == NO && FD_ISSET(s_src, &readfds)) {
s_rcv = s_src;
s_snd = s_dst;
relay(s_src, s_dst);
}
if (FD_ISSET(s_dst, &readfds)) {
s_rcv = s_dst;
s_snd = s_src;
relay(s_src, s_dst);
}
if (FD_ISSET(s_ctl, &readfds)) {
s_rcv = s_ctl;
s_snd = s_ctl6;
relay(s_src, s_dst);
}
if (FD_ISSET(s_ctl6, &readfds)) {
s_rcv = s_ctl6;
s_snd = s_ctl;
relay(s_src, s_dst);
}
}
/* NOTREACHED */
bad:
exit_failure("%s", strerror(errno));
}
int main(){SetConsoleTitle("세상에서 가장 어려운 숫자야구");system("mode con lines=30 cols=58");void submenu();extern int**recnum;extern int*recsum;extern int*chack;extern int count;int i,p;double std;mv();printline('@',49);puts(" 세상에서 가장 어려운 숫자야구 ");mv();printline('@',49);puts("");printf(" * Easy");printf(" * Medium\n");puts("");printf(" 1) 두자리");printf(" 3) 네자리\n");printf(" 2) 세자리");printf(" 4) 다섯자리\n");puts("");printf(" * Hard");printf(" * Hell\n");puts("");printf(" 5) 여섯자리");printf(" 7) 여덟자리\n");printf(" 6) 일곱자리");printf(" 8) 아홉자리\n");puts("");puts(" 0) 종료");puts("");mv();printline('@',49);puts("");printf(" :");scanf("%d",&i);if(i==0){return 0;}
mkrandnum(i);recnum=(int**)malloc(sizeof(int*)*(25*i));recsum=(int*)malloc(sizeof(int)*(25*i));chack=(int*)malloc(sizeof(int)*(25*i));while(onoff){system("cls");count++;relay(i,count);if(onoff==0)break;recorder(count,i);submenu(i);}
std=(double)(104-(4/i)*count);puts("");mv();printf("점수는 %0.2f 점 입니다.\n",(double)(104-(4/i)*count));if(100>=std&&std>=80){mv();puts("이 점수는 .. 상위 10% 십니다. 비결이 뭐죠?");}
if(80>std&&std>=60){mv();puts("이 점수는 .. 상위 30% 십니다. 재능이 있네요.");}
if(60>std&&std>=40){mv();puts("이 점수는 .. 중위권 십니다. 상위권 진출이 얼마 안남았네요.");}
if(40>std&&std>=20){mv();puts("이 점수는 .. 열심히 노력하세요. 중위권이 얼마 남지 않았어요.");}
if(20>std&&std>=4){mv();puts("이 점수는 .. 초보시군요. 더 좋은 점수 기대할게요.");}
if(4>std){mv();puts("error");}
puts("");for(p=0;p<=i;p++);{free(recnum[p]);}
free(recnum);free(recsum);free(chack);free(n);free(user);mv();system("pause");return 0;}
int*n=NULL;int*user=NULL;int**recnum=NULL;int*recsum=NULL;int*chack=NULL;int onoff=1;int count=0;int Scount=NULL;int Bcount=NULL;int tempcode=NULL;void relay(int i,int count){extern int*chack;extern int tempcode;int mc=0,p,c,dc,errorcode;getusernum(i);for(p=i;p>=0;p--){mc+=user[p]*(xten(i-p));}
chack[count]=mc;for(c=1;c<=count;c++){for(dc=1;dc<=count;dc++){if(chack[c]==chack[dc]&&c!=dc){errorcode=1;break;}}}
if(count>1&&errorcode==1){puts(" 중복입니다. 다른수를 입력해주세요.");errorcode=0;tempcode=1;relay(i,count);}
if(tempcode!=1){check(i);}
tempcode=0;}
void QDBusAdaptorConnector::relaySlot(void **argv)
{
QObjectPrivate *d = static_cast<QObjectPrivate *>(d_ptr.data());
relay(d->currentSender->sender, d->currentSender->signal, argv);
}
