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libtdevnc/x11vnc.c

579 lines
16 KiB

/* This file (x11vnc.c) is part of LibVNCServer.
It is a small clone of x0rfbserver by HexoNet, demonstrating the
capabilities of LibVNCServer.
*/
#include <X11/Xlib.h>
#include <X11/keysym.h>
#include <X11/extensions/XTest.h>
#ifndef NO_SHM
#include <X11/extensions/XShm.h>
#include <sys/shm.h>
#endif
#define KEYSYM_H
#undef Bool
#define KeySym RFBKeySym
#include "rfb.h"
Display *dpy = 0;
int window;
int c=0,blockLength = 32;
int tileX=0,tileY=0,tileWidth=32,tileHeight=32*2,dontTile=TRUE;
Bool gotInput = FALSE;
Bool viewOnly = FALSE;
Bool sharedMode = FALSE;
Bool disconnectAfterFirstClient = TRUE;
/* keyboard handling */
#define KBDDEBUG
char modifiers[0x100];
KeyCode keycodes[0x100],leftShiftCode,rightShiftCode,altGrCode;
void init_keycodes()
{
KeySym key,*keymap;
int i,j,minkey,maxkey,syms_per_keycode;
memset(modifiers,-1,sizeof(modifiers));
XDisplayKeycodes(dpy,&minkey,&maxkey);
keymap=XGetKeyboardMapping(dpy,minkey,(maxkey - minkey + 1),&syms_per_keycode);
#ifdef KBDDEBUG
fprintf(stderr,"minkey=%d, maxkey=%d, syms_per_keycode=%d\n",
minkey,maxkey,syms_per_keycode);
#endif
for (i = minkey; i <= maxkey; i++)
for(j=0;j<syms_per_keycode;j++) {
key=keymap[(i-minkey)*syms_per_keycode+j];
#ifdef KBDDEBUG
fprintf(stderr,"keymap(i=0x%x,j=%d)==0x%lx\n",i,j,key);
#endif
if(key>=' ' && key<0x100 && i==XKeysymToKeycode(dpy,key)) {
keycodes[key]=i;
modifiers[key]=j;
#ifdef KBDDEBUG
fprintf(stderr,"key 0x%lx (%c): keycode=0x%x, modifier=%d\n",
key,(char)key,i,j);
#endif
}
}
leftShiftCode=XKeysymToKeycode(dpy,XK_Shift_L);
rightShiftCode=XKeysymToKeycode(dpy,XK_Shift_R);
altGrCode=XKeysymToKeycode(dpy,XK_Mode_switch);
#ifdef KBDDEBUG
fprintf(stderr,"leftShift=0x%x, rightShift=0x%x, altGr=0x%x\n",
leftShiftCode,rightShiftCode,altGrCode);
#endif
XFree ((char *) keymap);
}
static Bool shutDownServer=0;
/* the hooks */
void clientGone(rfbClientPtr cl)
{
shutDownServer=-1;
}
enum rfbNewClientAction newClient(rfbClientPtr cl)
{
if(disconnectAfterFirstClient)
cl->clientGoneHook = clientGone;
if(viewOnly)
cl->clientData = (void*)-1;
else
cl->clientData = (void*)0;
return(RFB_CLIENT_ACCEPT);
}
#define LEFTSHIFT 1
#define RIGHTSHIFT 2
#define ALTGR 4
char ModifierState = 0;
/* this function adjusts the modifiers according to mod (as from modifiers) and ModifierState */
void tweakModifiers(char mod,Bool down)
{
Bool isShift=ModifierState&(LEFTSHIFT|RIGHTSHIFT);
#ifdef KBDDEBUG
fprintf(stderr,"tweakModifiers: 0x%x %s\n",
mod,down?"down":"up");
#endif
if(mod<0) return;
if(isShift && mod!=1) {
if(ModifierState&LEFTSHIFT)
XTestFakeKeyEvent(dpy,leftShiftCode,!down,CurrentTime);
if(ModifierState&RIGHTSHIFT)
XTestFakeKeyEvent(dpy,rightShiftCode,!down,CurrentTime);
}
if(!isShift && mod==1)
XTestFakeKeyEvent(dpy,leftShiftCode,down,CurrentTime);
if(ModifierState&ALTGR && mod!=2)
XTestFakeKeyEvent(dpy,altGrCode,!down,CurrentTime);
if(!(ModifierState&ALTGR) && mod==2)
XTestFakeKeyEvent(dpy,altGrCode,down,CurrentTime);
}
void keyboard(Bool down,KeySym keySym,rfbClientPtr cl)
{
if(((int)cl->clientData)==-1) return; /* viewOnly */
#define ADJUSTMOD(sym,state) \
if(keySym==sym) { if(down) ModifierState|=state; else ModifierState&=~state; }
ADJUSTMOD(XK_Shift_L,LEFTSHIFT)
ADJUSTMOD(XK_Shift_R,RIGHTSHIFT)
ADJUSTMOD(XK_Mode_switch,ALTGR)
#ifdef KBDDEBUG
fprintf(stderr,"keyboard: down=%s, keySym=0x%lx (%s), ModState=0x%x\n",
down?"down":"up",keySym,XKeysymToString(keySym),ModifierState);
#endif
if(keySym>=' ' && keySym<0x100) {
KeyCode k;
if(down)
tweakModifiers(modifiers[keySym],True);
//tweakModifiers(modifiers[keySym],down);
//k = XKeysymToKeycode( dpy,keySym );
k = keycodes[keySym];
if(k!=NoSymbol) {
XTestFakeKeyEvent(dpy,k,down,CurrentTime);
gotInput = TRUE;
}
if(down)
tweakModifiers(modifiers[keySym],False);
gotInput = TRUE;
} else {
KeyCode k = XKeysymToKeycode( dpy,keySym );
if(k!=NoSymbol) {
XTestFakeKeyEvent(dpy,k,down,CurrentTime);
gotInput = TRUE;
}
}
}
int oldButtonMask = 0;
void mouse(int buttonMask,int x,int y,rfbClientPtr cl)
{
int i=0;
if(((int)cl->clientData)==-1) return; /* viewOnly */
XTestFakeMotionEvent(dpy,0,x,y,CurrentTime );
while(i<5) {
if ((oldButtonMask&(1<<i))!=(buttonMask&(1<<i)))
XTestFakeButtonEvent(dpy,i+1,(buttonMask&(1<<i))?True:False,CurrentTime);
i++;
}
oldButtonMask = buttonMask;
//fprintf(stderr,"-");
gotInput = TRUE;
}
/* the X11 interaction */
#ifndef NO_SHM
Bool useSHM = TRUE;
XShmSegmentInfo shminfo;
#else
Bool useSHM = FALSE;
#endif
void getImage(int bpp,Display *dpy,int xscreen,XImage **i,int x,int y,int width,int height)
{
if(width<=0) width=DisplayWidth(dpy,xscreen);
if(height<=0) height=DisplayHeight(dpy,xscreen);
if(useSHM && bpp>0) {
static Bool firstTime = TRUE;
if(firstTime) {
firstTime = FALSE;
*i = XShmCreateImage(dpy,
DefaultVisual( dpy, xscreen ),
bpp,
ZPixmap,
NULL,
&shminfo,
width,height);
if(*i == 0) {
useSHM = FALSE;
getImage(bpp,dpy,xscreen,i,x,y,width,height);
return;
}
shminfo.shmid = shmget( IPC_PRIVATE,
(*i)->bytes_per_line * (*i)->height,
IPC_CREAT | 0777 );
shminfo.shmaddr = (*i)->data = (char *) shmat( shminfo.shmid, 0, 0 );
shminfo.readOnly = False;
XShmAttach( dpy, &shminfo );
}
if(x==0 && y==0 && width==DisplayWidth(dpy,xscreen) && height==DisplayHeight(dpy,xscreen))
XShmGetImage(dpy,window,*i,0,0,AllPlanes);
else
XGetSubImage(dpy,window,x,y,width,height,AllPlanes,ZPixmap,*i,0,0);
} else {
*i = XGetImage(dpy,window,x,y,width,height,AllPlanes,ZPixmap );
}
}
void checkForImageUpdates(rfbScreenInfoPtr s,char *b,int rowstride,int x,int y,int width,int height)
{
Bool changed;
int i,j,k,l1,l2,x1,y1;
int bpp=s->bitsPerPixel/8;
for(j=0;j<height;j+=blockLength)
for(i=0;i<width;i+=blockLength) {
y1=j+blockLength; if(y1>height) y1=height;
x1=i+blockLength; if(x1>width) x1=width;
y1*=rowstride;
x1*=bpp;
changed=FALSE;
for(l1=j*rowstride,l2=(j+y)*s->paddedWidthInBytes+x*bpp;l1<y1;l1+=rowstride,l2+=s->paddedWidthInBytes)
for(k=i*bpp;k<x1;k++)
if(s->frameBuffer[l2+k]!=b[l1+k]) {
// fprintf(stderr,"changed: %d, %d\n",k,l);
changed=TRUE;
goto changed_p;
}
if(changed) {
changed_p:
for(l1+=i*bpp,l2+=i*bpp;l1<y1;l1+=rowstride,l2+=s->paddedWidthInBytes)
memcpy(/*b+l,*/s->frameBuffer+l2,b+l1,x1-i*bpp);
rfbMarkRectAsModified(s,x+i,y+j,x+i+blockLength,y+j+blockLength);
}
}
}
int probeX=0,probeY=0;
void probeScreen(rfbScreenInfoPtr s,int xscreen)
{
int i,j,/*pixel,i1,*/j1,
bpp=s->rfbServerFormat.bitsPerPixel/8,/*mask=(1<<bpp)-1,*/
rstride=s->paddedWidthInBytes;
XImage* im;
//fprintf(stderr,"/%d,%d",probeX,probeY);
#if 0
probeX++;
if(probeX>=tileWidth) {
probeX=0;
probeY++;
if(probeY>=tileHeight)
probeY=0;
}
#else
probeX=(rand()%tileWidth);
probeY=(rand()%tileHeight);
#endif
for(j=probeY;j<s->height;j+=tileHeight)
for(i=0/*probeX*/;i<s->width;i+=tileWidth) {
im=XGetImage(dpy,window,i,j,tileWidth/*1*/,1,AllPlanes,ZPixmap);
/* for(i1=0;i1<bpp && im->data[i1]==(s->frameBuffer+i*bpp+j*rstride)[i1];i1++);
if(i1<bpp) { */
if(memcmp(im->data,s->frameBuffer+i*bpp+j*rstride,tileWidth*bpp)) {
/* do update */
int x=i/*-probeX*/,w=(x+tileWidth>s->width)?s->width-x:tileWidth,
y=j-probeY,h=(y+tileHeight>s->height)?s->height-y:tileHeight;
XDestroyImage(im);
//getImage(bpp,dpy,xscreen,&im,x,y,w,h);
//fprintf(stderr,"GetImage(%d,%d,%d,%d)",x,y,w,h);
im = XGetImage(dpy,window,x,y,w,h,AllPlanes,ZPixmap );
for(j1=0;j1<h;j1++)
memcpy(s->frameBuffer+x*bpp+(y+j1)*rstride,
im->data+j1*im->bytes_per_line,bpp*w);
//checkForImageUpdates(s,im->data,rstride,x,y,w,h);
//if(0 && !useSHM)
XDestroyImage(im);
//memcpy(s->frameBuffer+i*bpp+j*rstride,&pixel,bpp);
rfbMarkRectAsModified(s,x,y,x+w,y+h);
//fprintf(stderr,"%d:%d:%x\n",i,j,pixel);
//fprintf(stderr,"*");
} else
XDestroyImage(im);
}
}
#define LOCAL_CONTROL
#ifdef LOCAL_CONTROL
#include "1instance.c"
#endif
/* the main program */
int main(int argc,char** argv)
{
//Screen *sc;
//Colormap cm;
XImage *framebufferImage;
char *backupImage;
int xscreen,i;
rfbScreenInfoPtr screen;
int maxMsecsToConnect = 5000; /* a maximum of 5 seconds to connect */
int updateCounter; /* about every 50 ms a screen update should be made. */
#ifdef LOCAL_CONTROL
char message[1024];
single_instance_struct single_instance = { "/tmp/x11vnc_control" };
open_control_file(&single_instance);
#endif
for(i=argc-1;i>0;i--)
#ifdef LOCAL_CONTROL
if(i<argc-1 && !strcmp(argv[i],"-toggleviewonly")) {
sprintf(message,"t%s",argv[i+1]);
send_message(&single_instance,message);
exit(0);
} else if(!strcmp(argv[i],"-listclients")) {
fprintf(stderr,"list clients\n");
send_message(&single_instance,"l");
exit(0);
} else
#ifdef BACKCHANNEL
if(i<argc-1 && !strcmp(argv[i],"-backchannel")) {
sprintf(message,"b%s",argv[i+1]);
send_message(&single_instance,message);
exit(0);
} else
#endif
#endif
if(i<argc-1 && strcmp(argv[i],"-display")==0) {
fprintf(stderr,"Using display %s\n",argv[i+1]);
dpy = XOpenDisplay(argv[i+1]);
if(dpy==0) {
fprintf(stderr,"Couldn't connect to display \"%s\".\n",argv[i+1]);
exit(1);
}
} else if(i<argc-1 && strcmp(argv[i],"-wait4client")==0) {
maxMsecsToConnect = atoi(argv[i+1]);
} else if(i<argc-1 && strcmp(argv[i],"-update")==0) {
updateCounter = atoi(argv[i+1]);
} else if(strcmp(argv[i],"-noshm")==0) {
useSHM = FALSE;
} else if(strcmp(argv[i],"-runforever")==0) {
disconnectAfterFirstClient = FALSE;
} else if(strcmp(argv[i],"-tile")==0) {
dontTile=FALSE;
} else if(strcmp(argv[i],"-viewonly")==0) {
viewOnly=TRUE;
} else if(strcmp(argv[i],"-shared")==0) {
sharedMode=TRUE;
}
updateCounter = dontTile?20:1;
if(dpy==0)
dpy = XOpenDisplay("");
if(dpy==0) {
fprintf(stderr,"Couldn't open display!\n");
exit(2);
}
xscreen = DefaultScreen(dpy);
window = RootWindow(dpy,xscreen);
//XTestGrabControl(dpy,True);
init_keycodes();
getImage(0,dpy,xscreen,&framebufferImage,0,0,-1,-1);
screen = rfbGetScreen(&argc,argv,framebufferImage->width,
framebufferImage->height,
framebufferImage->bits_per_pixel,
8,
framebufferImage->bits_per_pixel/8);
screen->paddedWidthInBytes = framebufferImage->bytes_per_line;
screen->rfbServerFormat.bitsPerPixel = framebufferImage->bits_per_pixel;
screen->rfbServerFormat.depth = framebufferImage->depth;
//rfbEndianTest = framebufferImage->bitmap_bit_order != MSBFirst;
screen->rfbServerFormat.trueColour = TRUE;
if ( screen->rfbServerFormat.bitsPerPixel == 8 ) {
if(CellsOfScreen(ScreenOfDisplay(dpy,xscreen))) {
XColor color[256];
int i;
screen->colourMap.count = 256;
screen->rfbServerFormat.trueColour = FALSE;
screen->colourMap.is16 = TRUE;
for(i=0;i<256;i++)
color[i].pixel=i;
XQueryColors(dpy,DefaultColormap(dpy,xscreen),color,256);
screen->colourMap.data.shorts = (short*)malloc(3*sizeof(short)*screen->colourMap.count);
for(i=0;i<screen->colourMap.count;i++) {
screen->colourMap.data.shorts[i*3+0] = color[i].red;
screen->colourMap.data.shorts[i*3+1] = color[i].green;
screen->colourMap.data.shorts[i*3+2] = color[i].blue;
}
} else {
screen->rfbServerFormat.redShift = 0;
screen->rfbServerFormat.greenShift = 2;
screen->rfbServerFormat.blueShift = 5;
screen->rfbServerFormat.redMax = 3;
screen->rfbServerFormat.greenMax = 7;
screen->rfbServerFormat.blueMax = 3;
}
} else {
screen->rfbServerFormat.redShift = 0;
if ( framebufferImage->red_mask )
while ( ! ( framebufferImage->red_mask & (1 << screen->rfbServerFormat.redShift) ) )
screen->rfbServerFormat.redShift++;
screen->rfbServerFormat.greenShift = 0;
if ( framebufferImage->green_mask )
while ( ! ( framebufferImage->green_mask & (1 << screen->rfbServerFormat.greenShift) ) )
screen->rfbServerFormat.greenShift++;
screen->rfbServerFormat.blueShift = 0;
if ( framebufferImage->blue_mask )
while ( ! ( framebufferImage->blue_mask & (1 << screen->rfbServerFormat.blueShift) ) )
screen->rfbServerFormat.blueShift++;
screen->rfbServerFormat.redMax = framebufferImage->red_mask >> screen->rfbServerFormat.redShift;
screen->rfbServerFormat.greenMax = framebufferImage->green_mask >> screen->rfbServerFormat.greenShift;
screen->rfbServerFormat.blueMax = framebufferImage->blue_mask >> screen->rfbServerFormat.blueShift;
}
backupImage = malloc(screen->height*screen->paddedWidthInBytes);
memcpy(backupImage,framebufferImage->data,screen->height*screen->paddedWidthInBytes);
screen->frameBuffer = backupImage;
screen->cursor = 0;
screen->newClientHook = newClient;
screen->kbdAddEvent = keyboard;
screen->ptrAddEvent = mouse;
if(sharedMode) {
screen->rfbAlwaysShared = TRUE;
}
screen->rfbDeferUpdateTime = 1;
updateCounter /= screen->rfbDeferUpdateTime;
rfbInitServer(screen);
c=0;
while(1) {
if(screen->rfbClientHead)
maxMsecsToConnect = 1<<16;
else {
maxMsecsToConnect -= screen->rfbDeferUpdateTime;
if(maxMsecsToConnect<0) {
fprintf(stderr,"Maximum time to connect reached. Exiting.\n");
XTestDiscard(dpy);
exit(2);
}
}
#ifdef LOCAL_CONTROL
if(get_next_message(message,1024,&single_instance,50)) {
if(message[0]=='l' && message[1]==0) {
rfbClientPtr cl;
int i;
for(i=0,cl=screen->rfbClientHead;cl;cl=cl->next,i++)
fprintf(stderr,"%02d: %s\n",i,cl->host);
} else if(message[0]=='t') {
rfbClientPtr cl;
for(cl=screen->rfbClientHead;cl;cl=cl->next)
if(!strcmp(message+1,cl->host)) {
cl->clientData=(void*)((cl->clientData==0)?-1:0);
break;
}
}
#ifdef BACKCHANNEL
else if(message[0]=='b')
rfbSendBackChannel(screen,message+1,strlen(message+1));
#endif
}
#endif
rfbProcessEvents(screen,-1);
if(shutDownServer) {
free(backupImage);
rfbScreenCleanup(screen);
XFree(dpy);
#ifndef NO_SHM
XShmDetach(dpy,framebufferImage);
#endif
exit(0);
}
if(dontTile) {
if(gotInput) {
gotInput = FALSE;
c=updateCounter;
} else if(screen->rfbClientHead && c++>updateCounter) {
c=0;
//fprintf(stderr,"*");
if(!useSHM)
framebufferImage->f.destroy_image(framebufferImage);
if(dontTile) {
getImage(screen->rfbServerFormat.bitsPerPixel,dpy,xscreen,&framebufferImage,0,0,screen->width,screen->height);
checkForImageUpdates(screen,framebufferImage->data,framebufferImage->bytes_per_line,
0,0,screen->width,screen->height);
} else {
/* old tile code. Eventually to be removed (TODO) */
char isRightEdge = tileX+tileWidth>=screen->width;
char isLowerEdge = tileY+tileHeight>=screen->height;
getImage(screen->rfbServerFormat.bitsPerPixel,dpy,xscreen,&framebufferImage,tileX,tileY,
isRightEdge?screen->width-tileX:tileWidth,
isLowerEdge?screen->height-tileY:tileHeight);
checkForImageUpdates(screen,framebufferImage->data,framebufferImage->bytes_per_line,
tileX,tileY,
isRightEdge?screen->width-tileX:tileWidth,
isLowerEdge?screen->height-tileY:tileHeight);
if(isRightEdge) {
tileX=0;
if(isLowerEdge)
tileY=0;
else
tileY+=tileHeight;
} else
tileX+=tileWidth;
}
}
} else if(c++>updateCounter) {
c=0;
probeScreen(screen,xscreen);
}
#ifdef WRITE_SNAPS
{
int i,j,r,g,b;
FILE* f=fopen("test.pnm","wb");
fprintf(f,"P6\n%d %d\n255\n",screen->width,screen->height);
for(j=0;j<screen->height;j++)
for(i=0;i<screen->width;i++) {
//r=screen->frameBuffer[j*screen->paddedWidthInBytes+i*2];
r=framebufferImage->data[j*screen->paddedWidthInBytes+i*2];
fputc(((r>>screen->rfbServerFormat.redShift)&screen->rfbServerFormat.redMax)*255/screen->rfbServerFormat.redMax,f);
fputc(((r>>screen->rfbServerFormat.greenShift)&screen->rfbServerFormat.greenMax)*255/screen->rfbServerFormat.greenMax,f);
fputc(((r>>screen->rfbServerFormat.blueShift)&screen->rfbServerFormat.blueMax)*255/screen->rfbServerFormat.blueMax,f);
}
fclose(f);
}
#endif
}
#ifndef NO_SHM
//XShmDetach(dpy,framebufferImage);
#endif
return(0);
}