void finish(void) {
if (fdstdou != -1)
for (;;) {
decou.start =decou.end =decou.buf;
rc =matrixSslEncodeClosureAlert(ssl, &decou);
if (rc == SSL_FULL) {
if (! blowup(&decou, &decoubuf, bufsizeou)) die_nomem();
if (verbose > 1) infou("decode output buffer size: ", decou.size);
continue;
}
if (rc == SSL_ERROR)
if (verbose) warnx("unable to encode ssl close notify");
if (rc == 0) {
if (write(fdstdou, decou.start, decou.end -decou.start)
!= (decou.end -decou.start)) {
if (verbose) warn("unable to send ssl close notify");
break;
}
if (verbose > 2) info("sending ssl close notify");
if (verbose > 2) infou("write bytes: ", decou.end -decou.start);
bytesou +=decou.end -decou.start;
}
break;
}
/* bummer */
matrixSslFreeKeys(keys);
matrixSslDeleteSession(ssl);
matrixSslClose();
if (fdstdou != -1) close(fdstdou);
if (encpipe[0] != -1) close(encpipe[0]);
if (fdstdin != -1) close(fdstdin);
if (decpipe[1] != -1) close(decpipe[1]);
if (verbose) { infou("bytes in: ", bytesin); infou("bytes ou: ", bytesou); }
}
void LayerEnemy::enemyBlowupAll()
{
int i = _vecEmemy.size() - 1;
for (; i >= 0 ; i--)
{
auto enemy = _vecEmemy.at(i);
if (enemy->hpGet() > 0)
{
enemy->blowup();
}
}
}
void encode(void) {
if ((len =read(encpipe[0], encinbuf.s, encin.size)) < 0)
fatal("unable to read from prog");
if (len == 0) {
if (verbose > 2) info("eof reading from proc");
if (quit == 0) {
finish();
_exit(0);
} else {
close(encpipe[0]); encpipe[0] = -1;
if (shutdown(fdstdou, SHUT_WR) == 0) {
fdstdou =-1;
if (verbose > 2) info("shutdown network");
} else {
if (verbose > 2) info("close network");
close(fdstdou); fdstdou =-1;
}
sig_catch(sig_alarm, quit_handler);
alarm(quit);
return;
}
}
for (;;) {
rc =matrixSslEncode(ssl, encin.buf, len, &encou);
if (rc == SSL_ERROR) {
close(fdstdou); fdstdou =-1;
fatalx("unable to encode data");
}
if (rc == SSL_FULL) {
if (! blowup(&encou, &encoubuf, bufsizeou)) die_nomem();
if (verbose > 1) infou("encode output buffer size: ", encou.size);
continue;
}
if (write(fdstdou, encou.start, encou.end -encou.start)
!= encou.end -encou.start) fatal("unable to write to network");
if (verbose > 2) infou("write bytes: ", encou.end -encou.start);
bytesou +=encou.end -encou.start;
encou.start =encou.end =encou.buf =encoubuf.s;
return;
}
}
VSCREEN* global uivopen( register VSCREEN *vptr )
/***********************************************/
{
register char* box;
register ATTR attr;
register int priority;
register void (_FAR *updatertn)( struct sarea, void * );
register bool okbuffer;
register int len;
register ORD col;
register unsigned int flags;
register bool covered;
auto SAREA area;
okarea( vptr->area );
flags = vptr->flags;
area = vptr->area;
if( ( flags & V_DIALOGUE ) != 0 ) {
if( flags & V_LISTBOX ) {
box = (char *)&UiGChar[ UI_SBOX_TOP_LEFT ];
attr = UIData->attrs[ ATTR_NORMAL ];
} else {
box = (char *)&UiGChar[ UI_BOX_TOP_LEFT ];
attr = UIData->attrs[ ATTR_DIAL_FRAME ];
}
priority = P_DIALOGUE;
} else {
flags &= ~V_UNBUFFERED;
box = (char *)&UiGChar[ UI_SBOX_TOP_LEFT ];
attr = UIData->attrs[ ATTR_FRAME ];
priority = P_VSCREEN;
}
if( ( flags & V_UNFRAMED ) == 0 ) {
(area.row)--;
(area.col)--;
(area.height) += 2;
(area.width) += 2;
okarea( area );
}
if( ( flags & V_UNBUFFERED ) != 0 ) {
priority = P_UNBUFFERED;
bfake( &(vptr->window.type.buffer), area.row, area.col );
okbuffer = TRUE;
updatertn = NULL;
} else {
okbuffer = balloc( &(vptr->window.type.buffer), area.height, area.width );
updatertn = (void(*)(struct sarea,void *))update;
}
if( okbuffer ) {
vptr->window.area = area;
vptr->window.priority = priority;
vptr->window.update = updatertn;
vptr->window.parm = vptr;
covered = openwindow( &(vptr->window) );
vptr->flags = flags;
if( ( flags & V_UNFRAMED ) == 0 ) {
if( ( !UIData->no_blowup ) &&
( covered == FALSE ) &&
( ( flags & V_NO_ZOOM ) == 0 ) ) {
blowup( &UIData->screen, area, box, attr );
}
area.row = 0;
area.col = 0;
drawbox( &(vptr->window.type.buffer), area, box, attr, FALSE );
if( vptr->name != NULL ) {
#if 0
do not delete this stuff
col = 0;
len = area.width;
bstring( &(vptr->window.type.buffer), 0, col,
UIData->attrs[ATTR_CURR_SELECT_DIAL], " ", len );
len = __min( strlen( vptr->name ), area.width );
col = ( area.width - len ) / 2;
bstring( &(vptr->window.type.buffer), 0, col,
UIData->attrs[ATTR_CURR_SELECT_DIAL], vptr->name, len );
#else
len = __min( strlen( vptr->name ), area.width );
col = ( area.width - len ) / 2;
bstring( &(vptr->window.type.buffer), 0, col,
attr, vptr->name, len );
#endif
}
bframe( &(vptr->window.type.buffer ) );
}
area = vptr->area;
area.row = 0;
area.col = 0;
vptr->open = TRUE;
uivfill( vptr, area, UIData->attrs[ ATTR_NORMAL ], ' ' );
uivsetcursor( vptr );
return( vptr );
}
return( NULL );
}
void decode(void) {
do {
if (getdec) {
len =decin.size -(decin.end -decin.buf);
if ((len =read(fdstdin, decin.end, len)) < 0)
fatal("unable to read from network");
if (len == 0) {
if (verbose > 2) info("eof reading from network");
close(fdstdin); close(decpipe[1]);
fdstdin =decpipe[1] =-1;
return;
}
if (verbose > 2) infou("read bytes: ", len);
bytesin +=len;
decin.end +=len;
getdec =0;
}
for (;;) {
rc =matrixSslDecode(ssl, &decin, &decou, &error, &alvl, &adesc);
if (rc == SSL_SUCCESS) break;
if (rc == SSL_ERROR) {
if (decou.end > decou.start)
if (write(fdstdou, decou.start, decou.end -decou.start)
!= decou.end -decou.start) warn("unable to write to network");
close(fdstdou); fdstdou =-1;
fatals("ssl decode error", error);
}
if (rc == SSL_PROCESS_DATA) {
if (write(decpipe[1], decou.start, decou.end -decou.start)
!= decou.end -decou.start) fatal("unable to write to prog");
decou.start =decou.end =decou.buf;
if (decin.start > decin.buf) { /* align */
byte_copy(decin.buf, decin.end -decin.start, decin.start);
decin.end -=decin.start -decin.buf;
decin.start =decin.buf;
}
break;
}
if (rc == SSL_SEND_RESPONSE) {
if (write(fdstdou, decou.start, decou.end -decou.start)
!= (decou.end -decou.start))
fatal("unable to send ssl response");
bytesou +=decou.end -decou.start;
if (verbose > 2) info("sending ssl handshake response");
if (verbose > 2) infou("write bytes: ", decou.end -decou.start);
decou.start =decou.end =decou.buf;
break;
}
if (rc == SSL_ALERT) {
close(fdstdou); fdstdou =-1;
if (adesc != SSL_ALERT_CLOSE_NOTIFY)
fatals("ssl alert from peer", adesc);
if (verbose > 2) info("ssl close notify from peer");
finish();
_exit(0);
}
if (rc == SSL_PARTIAL) {
getdec =1;
if (decin.size -(decin.end -decin.buf) < bufsizein) {
if (! blowup(&decin, &decinbuf, bufsizein)) die_nomem();
if (verbose > 1) infou("decode input buffer size: ", decin.size);
}
break;
}
if (rc == SSL_FULL) {
if (! blowup(&decou, &decoubuf, bufsizeou)) die_nomem();
if (verbose > 1) infou("decode output buffer size: ", decou.size);
continue;
}
}
if (decin.start == decin.end) {
decin.start =decin.end =decin.buf;
getdec =1;
}
} while (getdec == 0);
if (handshake)
if (matrixSslHandshakeIsComplete(ssl)) {
handshake =0;
if (verbose > 2) info("ssl handshake complete");
}
}
