ref: df634b2ca4bd940a61946a3bbda3881bed1a09d6
dir: /rd.c/
#include <u.h> #include <libc.h> #include <auth.h> #include <draw.h> #include "dat.h" #include "fns.h" Rdp rd = { .fd = -1, .depth = 16, .windom = "", .passwd = "", .shell = "", .rwd = "", }; char Eshort[]= "short data"; char Esmall[]= "buffer too small"; char Ebignum[]= "number too big"; static void usage(void) { fprint(2, "usage: rd [-0A] [-T title] [-a depth] [-c wdir] [-d dom] [-k keyspec] [-n term] [-s shell] [net!]server[!port]\n"); exits("usage"); } long writen(int fd, void* buf, long nbytes) { long n, sofar; sofar = 0; while(sofar < nbytes){ n = write(fd, buf, nbytes-sofar); if(n <= 0) break; sofar += n; } return sofar; } static int startmouseproc(void) { int mpid; switch(mpid = rfork(RFPROC|RFMEM)){ case -1: sysfatal("rfork: %r"); case 0: break; default: return mpid; } atexit(atexitkiller); readdevmouse(&rd); exits("mouse eof"); return 0; } static int startkbdproc(void) { int pid; switch(pid = rfork(RFPROC|RFMEM)){ case -1: sysfatal("rfork: %r"); case 0: break; default: return pid; } atexit(atexitkiller); readkbd(&rd); exits("kbd eof"); return 0; } static int startsnarfproc(void) { int pid; switch(pid = rfork(RFPROC|RFMEM)){ case -1: sysfatal("rfork: %r"); case 0: break; default: return pid; } atexit(atexitkiller); initsnarf(); pollsnarf(&rd); exits("snarf eof"); return 0; } static int killpid[32]; static int nkillpid; void atexitkiller(void) { int i, pid; pid = getpid(); for(i=0; i<nkillpid; i++) if(pid != killpid[i]) postnote(PNPROC, killpid[i], "kill"); } void atexitkill(int pid) { killpid[nkillpid++] = pid; } void main(int argc, char *argv[]) { int doauth, fd; char *server, *addr, *keyspec; UserPasswd *creds; rd.local = getenv("sysname"); rd.user = getenv("user"); keyspec = ""; doauth = 1; ARGBEGIN { case 'A': doauth = 0; break; case 'k': keyspec = EARGF(usage()); break; case 'T': rd.label = strdup(EARGF(usage())); break; case 'd': rd.windom = strdup(EARGF(usage())); break; case 's': rd.shell = strdup(EARGF(usage())); break; case 'c': rd.rwd = strdup(EARGF(usage())); break; case 'n': rd.local = estrdup(EARGF(usage())); break; case 'a': rd.depth = atol(EARGF(usage())); break; case '0': rd.wantconsole = 1; break; default: usage(); } ARGEND if (argc != 1) usage(); server = argv[0]; if(rd.local == nil) sysfatal("set $sysname or use -n\n"); if(rd.user == nil) sysfatal("set $user"); if (rd.label == nil) rd.label = smprint("rd %s", server); if(doauth){ creds = auth_getuserpasswd(auth_getkey, "proto=pass service=rdp %s", keyspec); if(creds == nil) fprint(2, "factotum: %r\n"); else { rd.user = creds->user; rd.passwd = creds->passwd; } }else rd.user = ""; initvc(&rd); addr = netmkaddr(server, "tcp", "3389"); fd = dial(addr, nil, nil, nil); if(fd < 0) sysfatal("dial %s: %r", addr); rd.fd = fd; if(x224connect(&rd) < 0) sysfatal("connect: %r"); if(initdraw(drawerror, nil, rd.label) < 0) sysfatal("initdraw: %r"); display->locking = 1; unlockdisplay(display); rd.ysz = Dy(screen->r); rd.xsz = (Dx(screen->r) +3) & ~3; if(rdphandshake(&rd) < 0) sysfatal("handshake: %r"); atexit(atexitkiller); atexitkill(getpid()); atexitkill(startmouseproc()); atexitkill(startkbdproc()); atexitkill(startsnarfproc()); readnet(&rd); x224disconnect(&rd); if(!rd.active) exits(nil); if(rd.hupreason) sysfatal("disconnect reason code %d", rd.hupreason); sysfatal("hangup"); } void readnet(Rdp* c) { Msg r; for(;;){ if(readmsg(c, &r) <= 0) return; switch(r.type){ case Mclosing: return; case Mvcdata: scanvcdata(c, &r); break; case Aupdate: scanupdates(c, &r); break; } } } void scanupdates(Rdp* c, Msg* m) { int n; uchar *p, *ep; Share u; p = m->data; ep = m->data + m->ndata; for(; p < ep; p += n){ n = m->getshare(&u, p, ep-p); if(n < 0) sysfatal("scanupdates: %r"); switch(u.type){ case ShDeactivate: deactivating(c, &u); break; case ShEinfo: c->hupreason = u.err; break; case ShUorders: scanorders(c, &u); break; case ShUimg: scanimgupdate(c, &u); break; case ShUcmap: scancmap(c, &u); break; case ShUwarp: warpmouse(u.x, u.y); break; } } } /* 2.2.1.13.1 Server Demand Active PDU */ void activating(Rdp* c, Share* as) { Caps rcaps; if(getcaps(&rcaps, as->data, as->ndata) < 0) sysfatal("getcaps: %r"); if(!rcaps.canrefresh) sysfatal("server can not Refresh Rect PDU"); if(!rcaps.cansupress) sysfatal("server can not Suppress Output PDU"); if(!rcaps.bitmap) sysfatal("server concealed their Bitmap Capabilities"); switch(rcaps.depth){ default: sysfatal("Unsupported server color depth: %uhd\n", rcaps.depth); case 8: c->chan = CMAP8; break; case 15: c->chan = RGB15; break; case 16: c->chan = RGB16; break; case 24: c->chan = RGB24; break; case 32: c->chan = XRGB32; break; } c->depth = rcaps.depth; c->xsz = rcaps.xsz; c->ysz = rcaps.ysz; c->srvchan = as->source; c->shareid = as->shareid; c->active = 1; } void deactivating(Rdp* c, Share*) { c->active = 0; } /* 2.2.9.1.1.3.1.2.1 Bitmap Update Data (TS_UPDATE_BITMAP_DATA) */ void scanimgupdate(Rdp *c, Share* as) { uchar* p, *ep; int n, err, nr; static Image* img; Rectangle r, rs, d; Imgupd iu; assert(as->type == ShUimg); p = as->data; ep = as->data + as->ndata; nr = as->nrect; rs = rectaddpt(Rpt(ZP, Pt(c->xsz, c->ysz)), screen->r.min); lockdisplay(display); if(img==nil || !eqrect(img->r, rs)){ if(img != nil) freeimage(img); img = allocimage(display, rs, c->chan, 0, DNofill); if(img == nil) sysfatal("%r"); } while(p<ep && nr>0){ /* 2.2.9.1.1.3.1.2.2 Bitmap Data (TS_BITMAP_DATA) */ if((n = getimgupd(&iu, p, ep-p)) < 0) sysfatal("getimgupd: %r"); if(iu.depth != img->depth) sysfatal("bad image depth"); d.min = Pt(iu.x, iu.y); d.max = Pt(iu.xm+1, iu.ym+1); r.min = ZP; r.max = Pt(iu.xsz, iu.ysz); r = rectaddpt(r, img->r.min); err = (iu.iscompr? loadrle : loadbmp)(img, r, iu.bytes, iu.nbytes, c->cmap); if(err < 0) sysfatal("%r"); draw(screen, rectaddpt(d, screen->r.min), img, nil, img->r.min); p += n; nr--; } flushimage(display, 1); unlockdisplay(display); } void scancmap(Rdp* c, Share* as) { int i, n; uchar *p, *ep, *cmap; p = as->data; ep = as->data + as->ndata; cmap = c->cmap; n = GSHORT(p+4); p += 8; if(n > sizeof(c->cmap)){ fprint(2, "scancmap: data too big"); return; } if(p+3*n > ep) sysfatal(Eshort); for(i = 0; i<n; p+=3) cmap[i++] = rgb2cmap(p[0], p[1], p[2]); } void* emalloc(ulong n) { void *b; b = mallocz(n, 1); if(b == nil) sysfatal("out of memory allocating %lud: %r", n); setmalloctag(b, getcallerpc(&n)); return b; } void* erealloc(void *a, ulong n) { void *b; b = realloc(a, n); if(b == nil) sysfatal("out of memory re-allocating %lud: %r", n); setrealloctag(b, getcallerpc(&a)); return b; } char* estrdup(char *s) { char *b; b = strdup(s); if(b == nil) sysfatal("strdup: %r"); setmalloctag(b, getcallerpc(&s)); return b; }