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plan9port / plan9 / 32f3c4ade43dd87e75c083a827460b864b9476ba / . / src / libdraw / drawclient.c
blob: f0c0943005f021b6165e14ccc661f696ec732a5a [file] [log] [blame]
/* Copyright (c) 2006 Russ Cox */
#include <u.h>
#include <sys/select.h>
#include <libc.h>
#include <draw.h>
#include <mouse.h>
#include <cursor.h>
#include <drawfcall.h>
#include <mux.h>
extern Mouse _drawmouse;
int chattydrawclient = 0;
static int drawgettag(Mux *mux, void *vmsg);
static void* drawrecv(Mux *mux);
static int drawnbrecv(Mux *mux, void**);
static int drawsend(Mux *mux, void *vmsg);
static int drawsettag(Mux *mux, void *vmsg, uint tag);
static int canreadfd(int);
int
_displayconnect(Display *d)
{
int pid, p[2];
fmtinstall('W', drawfcallfmt);
fmtinstall('H', encodefmt);
if(pipe(p) < 0)
return -1;
if((pid=fork()) < 0){
close(p[0]);
close(p[1]);
return -1;
}
if(pid == 0){
char *devdraw;
close(p[0]);
dup(p[1], 0);
dup(p[1], 1);
/* execl("strace", "strace", "-o", "drawsrv.out", "drawsrv", nil); */
/*
* The argv0 has no meaning to devdraw.
* Pass it along only so that the various
* devdraws in psu -a can be distinguished.
* The NOLIBTHREADDAEMONIZE keeps devdraw from
* forking before threadmain. OS X hates it when
* guis fork.
*
* If client didn't use ARGBEGIN, argv0 == nil.
* Can't send nil through because OS X expects
* argv[0] to be non-nil. Also, OS X apparently
* expects argv[0] to be a valid executable name,
* so "(argv0)" is not okay. Use "devdraw"
* instead.
*/
putenv("NOLIBTHREADDAEMONIZE", "1");
devdraw = getenv("DEVDRAW");
if(devdraw == nil)
devdraw = "devdraw";
if(argv0 == nil)
argv0 = devdraw;
execl(devdraw, argv0, argv0, "(devdraw)", nil);
sysfatal("exec devdraw: %r");
}
close(p[1]);
d->srvfd = p[0];
return 0;
}
int
_displaymux(Display *d)
{
if((d->mux = mallocz(sizeof(*d->mux), 1)) == nil)
return -1;
d->mux->mintag = 1;
d->mux->maxtag = 255;
d->mux->send = drawsend;
d->mux->recv = drawrecv;
d->mux->nbrecv = drawnbrecv;
d->mux->gettag = drawgettag;
d->mux->settag = drawsettag;
d->mux->aux = d;
muxinit(d->mux);
return 0;
}
static int
drawsend(Mux *mux, void *vmsg)
{
int n;
uchar *msg;
Display *d;
msg = vmsg;
GET(msg, n);
d = mux->aux;
return write(d->srvfd, msg, n);
}
static int
_drawrecv(Mux *mux, int canblock, void **vp)
{
int n;
uchar buf[4], *p;
Display *d;
d = mux->aux;
*vp = nil;
if(!canblock && !canreadfd(d->srvfd))
return 0;
if((n=readn(d->srvfd, buf, 4)) != 4)
return 1;
GET(buf, n);
p = malloc(n);
if(p == nil){
fprint(2, "out of memory allocating %d in drawrecv\n", n);
return 1;
}
memmove(p, buf, 4);
if(readn(d->srvfd, p+4, n-4) != n-4){
free(p);
return 1;
}
*vp = p;
return 1;
}
static void*
drawrecv(Mux *mux)
{
void *p;
_drawrecv(mux, 1, &p);
return p;
}
static int
drawnbrecv(Mux *mux, void **vp)
{
return _drawrecv(mux, 0, vp);
}
static int
drawgettag(Mux *mux, void *vmsg)
{
uchar *msg;
USED(mux);
msg = vmsg;
return msg[4];
}
static int
drawsettag(Mux *mux, void *vmsg, uint tag)
{
uchar *msg;
USED(mux);
msg = vmsg;
msg[4] = tag;
return 0;
}
static int
displayrpc(Display *d, Wsysmsg *tx, Wsysmsg *rx, void **freep)
{
int n, nn;
void *tpkt, *rpkt;
n = sizeW2M(tx);
tpkt = malloc(n);
if(freep)
*freep = nil;
if(tpkt == nil)
return -1;
tx->tag = 0;
if(chattydrawclient)
fprint(2, "<- %W\n", tx);
nn = convW2M(tx, tpkt, n);
if(nn != n){
free(tpkt);
werrstr("drawclient: sizeW2M convW2M mismatch");
fprint(2, "%r\n");
return -1;
}
/*
* This is the only point where we might reschedule.
* Muxrpc might need to acquire d->mux->lk, which could
* be held by some other proc (e.g., the one reading from
* the keyboard via Trdkbd messages). If we need to wait
* for the lock, don't let other threads from this proc
* run. This keeps up the appearance that writes to /dev/draw
* don't cause rescheduling. If you *do* allow rescheduling
* here, then flushimage(display, 1) happening in two different
* threads in the same proc can cause a buffer of commands
* to be written out twice, leading to interesting results
* on the screen.
*
* Threadpin and threadunpin were added to the thread library
* to solve exactly this problem. Be careful! They are dangerous.
*
* _pin and _unpin are aliases for threadpin and threadunpin
* in a threaded program and are no-ops in unthreaded programs.
*/
_pin();
rpkt = muxrpc(d->mux, tpkt);
_unpin();
free(tpkt);
if(rpkt == nil){
werrstr("muxrpc: %r");
return -1;
}
GET((uchar*)rpkt, n);
nn = convM2W(rpkt, n, rx);
if(nn != n){
free(rpkt);
werrstr("drawclient: convM2W packet size mismatch %d %d %.*H", n, nn, n, rpkt);
fprint(2, "%r\n");
return -1;
}
if(chattydrawclient)
fprint(2, "-> %W\n", rx);
if(rx->type == Rerror){
werrstr("%s", rx->error);
free(rpkt);
return -1;
}
if(rx->type != tx->type+1){
werrstr("packet type mismatch -- tx %d rx %d",
tx->type, rx->type);
free(rpkt);
return -1;
}
if(freep)
*freep = rpkt;
else
free(rpkt);
return 0;
}
int
_displayinit(Display *d, char *label, char *winsize)
{
Wsysmsg tx, rx;
tx.type = Tinit;
tx.label = label;
tx.winsize = winsize;
return displayrpc(d, &tx, &rx, nil);
}
int
_displayrdmouse(Display *d, Mouse *m, int *resized)
{
Wsysmsg tx, rx;
tx.type = Trdmouse;
if(displayrpc(d, &tx, &rx, nil) < 0)
return -1;
_drawmouse = rx.mouse;
*m = rx.mouse;
*resized = rx.resized;
return 0;
}
int
_displayrdkbd(Display *d, Rune *r)
{
Wsysmsg tx, rx;
tx.type = Trdkbd;
if(displayrpc(d, &tx, &rx, nil) < 0)
return -1;
*r = rx.rune;
return 0;
}
int
_displaymoveto(Display *d, Point p)
{
Wsysmsg tx, rx;
tx.type = Tmoveto;
tx.mouse.xy = p;
if(displayrpc(d, &tx, &rx, nil) < 0)
return -1;
_drawmouse.xy = p;
return flushimage(d, 1);
}
int
_displaycursor(Display *d, Cursor *c)
{
Wsysmsg tx, rx;
tx.type = Tcursor;
if(c == nil){
memset(&tx.cursor, 0, sizeof tx.cursor);
tx.arrowcursor = 1;
}else{
tx.arrowcursor = 0;
tx.cursor = *c;
}
return displayrpc(d, &tx, &rx, nil);
}
int
_displaybouncemouse(Display *d, Mouse *m)
{
Wsysmsg tx, rx;
tx.type = Tbouncemouse;
tx.mouse = *m;
return displayrpc(d, &tx, &rx, nil);
}
int
_displaylabel(Display *d, char *label)
{
Wsysmsg tx, rx;
tx.type = Tlabel;
tx.label = label;
return displayrpc(d, &tx, &rx, nil);
}
char*
_displayrdsnarf(Display *d)
{
void *p;
char *s;
Wsysmsg tx, rx;
tx.type = Trdsnarf;
if(displayrpc(d, &tx, &rx, &p) < 0)
return nil;
s = strdup(rx.snarf);
free(p);
return s;
}
int
_displaywrsnarf(Display *d, char *snarf)
{
Wsysmsg tx, rx;
tx.type = Twrsnarf;
tx.snarf = snarf;
return displayrpc(d, &tx, &rx, nil);
}
int
_displayrddraw(Display *d, void *v, int n)
{
void *p;
Wsysmsg tx, rx;
tx.type = Trddraw;
tx.count = n;
if(displayrpc(d, &tx, &rx, &p) < 0)
return -1;
memmove(v, rx.data, rx.count);
free(p);
return rx.count;
}
int
_displaywrdraw(Display *d, void *v, int n)
{
Wsysmsg tx, rx;
tx.type = Twrdraw;
tx.count = n;
tx.data = v;
if(displayrpc(d, &tx, &rx, nil) < 0)
return -1;
return rx.count;
}
int
_displaytop(Display *d)
{
Wsysmsg tx, rx;
tx.type = Ttop;
return displayrpc(d, &tx, &rx, nil);
}
int
_displayresize(Display *d, Rectangle r)
{
Wsysmsg tx, rx;
tx.type = Tresize;
tx.rect = r;
return displayrpc(d, &tx, &rx, nil);
}
static int
canreadfd(int fd)
{
fd_set rs, ws, xs;
struct timeval tv;
FD_ZERO(&rs);
FD_ZERO(&ws);
FD_ZERO(&xs);
FD_SET(fd, &rs);
FD_SET(fd, &xs);
tv.tv_sec = 0;
tv.tv_usec = 0;
if(select(fd+1, &rs, &ws, &xs, &tv) < 0)
return 0;
if(FD_ISSET(fd, &rs) || FD_ISSET(fd, &xs))
return 1;
return 0;
}