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#include "TtyProcess.h"
#include <QDir>
#include <QProcessEnvironment>
#include <QTimer>
#define DEBUG 1
TTYProcess::TTYProcess(QObject *parent) : QObject(parent){
childProc = 0;
sn = 0;
ttyfd = 0;
starting = true;
fixReply = -1;
}
TTYProcess::~TTYProcess(){
closeTTY(); //make sure everything is closed properly
}
// === PUBLIC ===
bool TTYProcess::startTTY(QString prog, QStringList args, QString workdir){
if(workdir=="~"){ workdir = QDir::homePath(); }
QDir::setCurrent(workdir);
QProcessEnvironment env = QProcessEnvironment::systemEnvironment();
setenv("TERM","vt220-color",1);//"vt102-color",1); //vt100: VT100 emulation support (QTerminal sets "xterm" here)
//setenv("TERMINFO","/etc/termcap",0);
unsetenv("WINDOWID");
//unsetenv("TERMCAP");
//setenv("TERMCAP","/etc/termcap",1);
//setenv("TERMCAP","vt220-color",1);
//setenv("TERMCAP","vt102|vt220-color|dec vt102:' :do=^J:co#80:li#24:cl=50\E[;H\E[2J: :le=^H:bs:cm=5\E[%i%d;%dH:nd=2\E[C:up=2\E[A: :ce=3\E[K:cd=50\E[J:so=2\E[7m:se=2\E[m:us=2\E[4m:ue=2\E[m: :md=2\E[1m:mr=2\E[7m:mb=2\E[5m:me=2\E[m:is=\E[1;24r\E[24;1H: :rs=\E>\E[?3l\E[?4l\E[?5l\E[?7h\E[?8h:ks=\E[?1h\E=:ke=\E[?1l\E>: :ku=\EOA:kd=\EOB:kr=\EOC:kl=\EOD:kb=^H: :ho=\E[H:k1=\EOP:k2=\EOQ:k3=\EOR:k4=\EOS:pt:sr=5\EM:vt#3: :sc=\E7:rc=\E8:cs=\E[%i%d;%dr:vs=\E[?7l:ve=\E[?7h: :mi:al=\E[L:dc=\E[P:dl=\E[M:ei=\E[4l:im=\E[4h:' vi $*",1);
/*setenv("TERMCAP","'vt220-color' :do=2\E[B:co#80:li#24:cl=50\E[H\E[J:sf=2*\ED:\
:le=^H:bs:am:cm=5\E[%i%d;%dH:nd=2\E[C:up=2\E[A:\
:ce=3\E[K:cd=50\E[J:so=2\E[7m:se=2\E[m:us=2\E[4m:ue=2\E[m:\
:md=2\E[1m:mr=2\E[7m:mb=2\E[5m:me=2\E[m:\
:is=\E>\E[?1;3;4;5l\E[?7;8h\E[1;24r\E[24;1H:\
:if=/usr/share/tabset/vt100:nw=2\EE:ho=\E[H:\
:as=2\E(0:ae=2\E(B:\
:ac=``aaffggjjkkllmmnnooppqqrrssttuuvvwwxxyyzz{{||:\
:rs=\E>\E[?1;3;4;5l\E[?7;8h:ks=\E[?1h\E=:ke=\E[?1l\E>:\
:ku=\EOA:kd=\EOB:kr=\EOC:kl=\EOD:kb=\177:\
:k0=\EOy:k1=\EOP:k2=\EOQ:k3=\EOR:k4=\EOS:k5=\EOt:\
:k6=\EOu:k7=\EOv:k8=\EOl:k9=\EOw:k;=\EOx:@8=\EOM:\
:K1=\EOq:K2=\EOr:K3=\EOs:K4=\EOp:K5=\EOn:pt:sr=2*\EM:xn:\
:sc=2\E7:rc=2\E8:cs=5\E[%i%d;%dr:UP=2\E[%dA:DO=2\E[%dB:RI=2\E[%dC:\
:LE=2\E[%dD:ct=2\E[3g:st=2\EH:ta=^I:ms:bl=^G:cr=^M:eo:it#8:\
:RA=\E[?7l:SA=\E[?7h:po=\E[5i:pf=\E[4i:",1); //see /etc/termcap as well */
QStringList filter = env.keys().filter("XTERM");
for(int i=0; i<filter.length(); i++){ unsetenv(filter[i].toLocal8Bit().data()); }
//if(env.contains("TERM")){ unsetenv("TERM"); }
//else if(env.contains
//Turn the program/arguments into C-compatible arrays
char cprog[prog.length()]; strcpy(cprog, prog.toLocal8Bit().data());
char *cargs[args.length()+2];
QByteArray nullarray;
for(int i=0; i<args.length()+2; i++){
// First arg needs to be the program
if ( i == 0 ) {
cargs[i] = new char[ prog.toLocal8Bit().size()+1];
strcpy( cargs[i], prog.toLocal8Bit().data() );
} else if(i<args.length()){
cargs[i] = new char[ args[i].toLocal8Bit().size()+1];
strcpy( cargs[i], args[i].toLocal8Bit().data() );
}else{
cargs[i] = NULL;
}
}
if(DEBUG){ qDebug() << "PTY Start:" << prog; }
//Launch the process attached to a new PTY
int FD = 0;
pid_t tmp = LaunchProcess(FD, cprog, cargs);
if(DEBUG){
qDebug() << " - PID:" << tmp;
qDebug() << " - FD:" << FD;
}
if(tmp<0){ return false; } //error
else{
childProc = tmp;
//Load the file for close notifications
//TO-DO
//Watch the socket for activity
sn= new QSocketNotifier(FD, QSocketNotifier::Read);
sn->setEnabled(true);
connect(sn, SIGNAL(activated(int)), this, SLOT(checkStatus(int)) );
ttyfd = FD;
if(DEBUG){ qDebug() << " - PTY:" << ptsname(FD); }
starting = true;
return true;
}
}
void TTYProcess::closeTTY(){
int junk;
if(0==waitpid(childProc, &junk, WNOHANG)){
kill(childProc, SIGKILL);
}
if(ttyfd!=0 && sn!=0){
sn->setEnabled(false);
::close(ttyfd);
ttyfd = 0;
emit processClosed();
}
}
void TTYProcess::writeTTY(QByteArray output){
//qDebug() << "Write:" << output;
static QList<QByteArray> knownFixes;
if(knownFixes.isEmpty()){ knownFixes << "\x1b[C" << "\x1b[D" << "\b" << "\x7F" << "\x08"; }//<<"\x1b[H"<<"\x1b[F"; }
fixReply = knownFixes.indexOf(output);
::write(ttyfd, output.data(), output.size());
}
QByteArray TTYProcess::readTTY(){
QByteArray BA;
//qDebug() << "Read TTY";
if(sn==0){ return BA; } //not setup yet
char buffer[64];
ssize_t rtot = read(sn->socket(),&buffer,64);
//buffer[rtot]='\0';
BA = QByteArray(buffer, rtot);
//qDebug() << " - Got Data:" << BA;
if(!fragBA.isEmpty()){
//Have a leftover fragment, include this too
BA = BA.prepend(fragBA);
fragBA.clear();
}
bool bad = true;
BA = CleanANSI(BA, bad);
if(bad){
//incomplete fragent - read some more first
fragBA = BA;
return readTTY();
}else{
if(DEBUG){ qDebug() << "Read Data:" << BA; }
//BUG BYPASS - 12/7/16
//If the PTY gets input fairly soon after starting, the PTY will re-print the initial line(s)
if(starting && !BA.contains("\n") ){
//qDebug() << "Starting phase 1:" << BA;
writeTTY("tset\n"); //Terminal Setup utility (uses the TERM env variable)
BA.clear();
}else if(starting){
//qDebug() << "Starting phase 2:" << BA;
BA.remove(0, BA.indexOf("\n")+1);
starting = false;
}
//Apply known fixes for replies to particular inputs (mostly related to cursor position *within* the current line)
// This appears to be primarily from the concept that the cursor position is always at the end of the line (old VT limitation?)
// so almost all these fixes are for cursor positioning within the current line
if(fixReply >= 0){
if(DEBUG){ qDebug() << "Fix Reply:" <<fixReply << BA; }
switch(fixReply){
case 0: //Right arrow ("\x1b[C") - PTY reply re-prints the next character rather than moving the cursor
if(BA.length()>0){
BA.remove(0,1);
BA.prepend("\x1b[C"); //just move the cursor - don't re-print that 1 character
}
break;
case 1: //Left arrow ("\x1b[D") - PTY erases the previous character instead of moving the cursor
if(BA.startsWith("\b")){
BA.remove(0,1);
BA.prepend("\x1b[D"); //just move the cursor - don't send the "back" character (\b)
}
break;
case 2: //Backspace or delete - PTY works fine if on the end of the line, but when in the middle of a line it will backpace a number of times after clearing (same as left arrow issue)
case 3:
case 4:
if(BA.contains("\x1b[K")){
while(BA.indexOf("\x1b[K") < BA.lastIndexOf("\b") ){
BA.replace( BA.lastIndexOf("\b"), 1, "\x1b[D"); //just move the cursor left - don't send the "back" character (\b)
}
}
break;
case 5: //Home Key
BA = "\x1b[H";
break;
case 6: //End Key
BA = "\x1b[F";
break;
}
fixReply = -1; //done with the fix - resume normal operations
if(DEBUG){ qDebug() << " - Fixed:" << BA; }
}
return BA;
}
}
void TTYProcess::setTerminalSize(QSize chars, QSize pixels){
if(ttyfd==0){ return; }
struct winsize c_sz;
c_sz.ws_row = chars.height();
c_sz.ws_col = chars.width();
c_sz.ws_xpixel = pixels.width();
c_sz.ws_ypixel = pixels.height();
if( ioctl(ttyfd, TIOCSWINSZ, &ws) ){
qDebug() << "Error settings terminal size";
}else{
//qDebug() <<"Set Terminal Size:" << pixels << chars;
}
}
bool TTYProcess::isOpen(){
return (ttyfd!=0);
}
QByteArray TTYProcess::CleanANSI(QByteArray raw, bool &incomplete){
incomplete = true;
//qDebug() << "Clean ANSI Data:" << raw;
//IN_LINE TERMINAL COLOR CODES (ANSI Escape Codes) "\x1B[<colorcode>m"
// - Just remove them for now
//Special XTERM encoding (legacy support)
int index = raw.indexOf("\x1B]");
while(index>=0){
//The end character of this sequence is the Bell command ("\x07")
int end = raw.indexOf("\x07");
if(end<0){ return raw; } //incomplete raw array
raw = raw.remove(index, end-index+1);
index = raw.indexOf("\x1B]");
}
// GENERIC ANSI CODES ((Make sure the output is not cut off in the middle of a code)
index = raw.indexOf("\x1B");
while(index>=0){
//CURSOR MOVEMENT
int end = 0;
for(int i=1; i<raw.size() && end==0; i++){
if(raw.size() < index+i){ return raw; }//cut off - go back for more data
//qDebug() << "Check Char:" << raw.at(index+i);
if( QChar(raw.at(index+i)).isLetter() ){
end = i; //found the end of the control code
}
}
index = raw.indexOf("\x1B",index+1); //now find the next one
}
// SYSTEM BELL
index = raw.indexOf("\x07");
while(index>=0){
//qDebug() << "Remove Bell:" << index;
raw = raw.remove(index,1);
index = raw.indexOf("\x07");
}
//VT220(?) print character code (cut out the code, leave the character)
index=raw.indexOf("\x1b[@");
while(index>=0){
raw = raw.remove(index,3);
index = raw.indexOf("\x1b[@");
}
//VT102 Identify request
index = raw.indexOf("\x1b[Z");
while(index>=0){
raw = raw.remove(index,3);
index = raw.indexOf("\x1b[Z");
//Also send the proper reply to this identify request right away
writeTTY("\x1b[/Z");
}
//Terminal Status request
index = raw.indexOf("\x1b[5n");
while(index>=0){
raw = raw.remove(index,4);
index = raw.indexOf("\x1b[5n");
//Also send the proper reply to this identify request right away
writeTTY("\x1b[c"); //everything ok
}
//Terminal Identify request
index = raw.indexOf("\x1b[c");
while(index>=0){
raw = raw.remove(index,3);
index = raw.indexOf("\x1b[c");
//Also send the proper reply to this identify request right away
writeTTY("\x1b[1c"); //VT220 reply code
}
//Terminal Identify request (xterm/termcap?)
/*index = raw.indexOf("\x1b[P");
while(index>=0){
raw = raw.remove(index,3);
index = raw.indexOf("\x1b[P");
//Also send the proper reply to this identify request right away
qDebug() << " - Got XTERM/TERMCAP identify request ([P)";
writeTTY("\x1b[/Z");
}*/
incomplete = false;
return raw;
}
// === PRIVATE ===
pid_t TTYProcess::LaunchProcess(int& fd, char *prog, char **child_args){
//Returns: -1 for errors, positive value (file descriptor) for the master side of the TTY to watch
//First open/setup a new pseudo-terminal file/device on the system (master side)
//fd = posix_openpt(O_RDWR | O_NOCTTY); //open read/write
pid_t PID = forkpty( &fd, 0, 0, 0);
if(PID==0){
//Child process
int rc = execvp(prog, child_args);
//::close(fds); //no need to keep original file descriptor open any more
exit(rc);
}else{
//Master process
return PID;
}
/*if(fd<0){ return -1; } //could not create pseudo-terminal
int rc = grantpt(fd); //set permissions
if(rc!=0){ return -1; }
rc = unlockpt(fd); //unlock file (ready for use)
//rc = fchown(fd, getuid(), getgid());
setupTtyFd(fd);
if(rc!=0){ return -1; }
//Now fork, return the Master device and setup the child
pid_t PID = fork();
if(PID==0){
//SLAVE/child
int fds = ::open(ptsname(fd), O_RDWR | O_NOCTTY); //open slave side read/write
rc = fchown(fds, getuid(), getgid());
::close(fd); //close the master side from the slave thread
//Adjust the slave side mode to SANE
setupTtyFd(fds);
//Change the controlling terminal in child thread to the slave PTY
::close(0); //close current terminal standard input
::close(1); //close current terminal standard output
::close(2); //close current terminal standard error
dup(fds); // Set slave PTY as standard input (0);
dup(fds); // Set slave PTY as standard output (1);
dup(fds); // Set slave PTY as standard error (2);
setsid(); //Make current process new session leader (so we can set controlling terminal)
ioctl(0,TIOCSCTTY, 1); //Set the controlling terminal to the slave PTY
//Execute the designated program
//rc = execvp("tset", NULL);
rc = execvp(prog, child_args);
::close(fds); //no need to keep original file descriptor open any more
exit(rc);
}*/
//MASTER thread (or error)
return PID;
}
void TTYProcess::setupTtyFd(int fd){
struct termios TSET;
tcgetattr(fd, &TSET); //read the current settings
cfmakesane(&TSET); //set the SANE mode on the settings ( RAW: cfmakeraw(&TSET); )
//Set Input Modes
//TSET.c_iflag |= IGNPAR; //ignore parity errors
//TSET.c_iflag &= ~(IGNBRK | PARMRK | ISTRIP | ICRNL | IXON | IXANY | IXOFF); //ignore special characters
//TSET.c_iflag &= IUTF8; //enable UTF-8 support
//Set Local Modes
//TSET.c_lflag &= (ECHO | ECHONL | ECHOKE); //Echo inputs (normal, newline, and KILL character line break)
//TSET.c_lflag &= ~ICANON ; //non-canonical mode (individual inputs - not a line-at-a-time)
//Set Control Modes
//TSET.c_cflag |= CLOCAL; //Local Terminal Connection (non-modem)
//TSET.c_lflag &= ~IEXTEN;
//TSET.c_cflag &= ~(CSIZE | PARENB);
//TSET.c_cflag |= CS8;
//tt.c_oflag &= ~OPOST; // disable special output processing
//Set Output Modes
//TSET.c_oflag |= OPOST;
//TSET.c_oflag |= OXTABS;
TSET.c_cc[VTIME] = 0; // timeout
//Now apply the settings
tcsetattr(fd, TCSANOW, &TSET); //apply the changed settings
}
// === PRIVATE SLOTS ===
void TTYProcess::checkStatus(int sock){
//This is run when the socket gets activated
if(sock!=ttyfd){
}
//Make sure the child PID is still active
int junk;
if(0!=waitpid(childProc, &junk, WNOHANG)){
this->closeTTY(); //clean up everything else
}else{
emit readyRead();
}
}
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