手机探索者开发实录—Broncho支持VNC

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手机探索者开发实录—Broncho支持VNC
手机探索者开发实录—Broncho支持VNC

转载时请注明出处和作者联系方式
作者联系方式：李先静 <xianjimli at hotmail dot com>

在前段时间写的一篇BLOG中，我介绍了DirectFB同时显示到X11和VNC的方法。那是一个有趣的实验，为此我兴奋了好一会儿，不过没有什么太大的实用价值，因为broncho平台使用的GTK/DirectFB作为GUI，显示通过fbdev(framebuffer)输出到LCD。我们要做的是让DirectFB同时显示到fbdev和VNC上，这个功能作为手机探索者的一部分，现在是实现的时候了。这并不难，由于一些小问题，我还是花了一整天时间才搞定。

一、下载libVNCServer，然后编译和安装。要确保通过环境变量PATH能找到vncserver的配置脚本。

二、为DirectFB创建fbvnc的system模块。

1. 把fbdev拷贝为fbvnc，把所有的文件名、变量名和函数名，从fbdev改名为fbvnc。
2. 修改fbvnc.c，包含下列头文件
。
#include <direct/thread.h>
#include <core/input.h>
#include <rfb/rfb.h>
#include <rfb/keysym.h
3. 修改fbvnc.c，声明下列函数和变量。
static rfbScreenInfoPtr rfb_screen = NULL;
static CoreInputDevice *vncPointerDevice = NULL;
static CoreInputDevice *vncKeyboardDevice = NULL;
static int g_vnc_client_nr = 0;

typedef struct _ClientData
{
     int oldButtonMask;
     int pressed;
     int oldx;
     int oldy;
} ClientData;

static void  vnc_client_gone(rfbClientPtr cl);
static enum  rfbNewClientAction vnc_client_new(rfbClientPtr cl);
static bool  vnc_translate_key(rfbKeySym key, DFBInputEvent *evt);
static void* vnc_server_thread( DirectThread *thread, void *data);
static void* vnc_refresh_thread( DirectThread *thread, void *data);
static void  vnc_process_key_event(rfbBool down, rfbKeySym key, struct _rfbClientRec* cl);
static void  vnc_process_pointer_event(int buttonMask, int x, int y, struct _rfbClientRec* cl);
static DFBResult vnc_update_screen(unsigned short* src, int x, int y, int w, int h );
static DFBResult vnc_set_video_mode(DFBDisplayLayerConfig *config );
static DFBEnumerationResult vnc_attach_keyboard_device( CoreInputDevice *device, void *ctx );
static DFBEnumerationResult vnc_attach_pointer_device( CoreInputDevice *device, void *ctx );

4. 修改fbvnc.c，在primaryInitLayer中调用vnc_set_video_mode。

5. 修改fbvnc.c，实现下列函数。
static DFBEnumerationResult
vnc_attach_keyboard_device( CoreInputDevice *device,
                      void            *ctx )
{
  vncKeyboardDevice = device;
  return DFENUM_OK;
}

static DFBEnumerationResult
vnc_attach_pointer_device( CoreInputDevice *device,
                      void            *ctx )
{
  vncPointerDevice = device;

  return DFENUM_OK;
}
static void vnc_client_gone(rfbClientPtr cl)
{
  g_vnc_client_nr--;
  free(cl->clientData);

  return;
}

static enum rfbNewClientAction vnc_client_new(rfbClientPtr cl)
{
  g_vnc_client_nr++;
  cl->clientData = (void*)calloc(sizeof(ClientData),1);
  cl->clientGoneHook = vnc_client_gone;
  return RFB_CLIENT_ACCEPT;
}

static void
vnc_process_pointer_event(int buttonMask, int x, int y, rfbClientPtr cl)
{

    DFBInputEvent evt = {0};
    int button = 0;

    if( vncPointerDevice == NULL ){
        /* Attach to first input device */
        dfb_input_enumerate_devices( vnc_attach_pointer_device,NULL,
          DICAPS_BUTTONS|DICAPS_AXES);
        D_ASSERT(vncPointerDevice);
    }

    ClientData* cd=cl->clientData;
    if(buttonMask != cd->oldButtonMask ) {
        int mask = buttonMask^cd->oldButtonMask;
        if( mask & (1 << 0)) {
            button=DIBI_LEFT;
        } else if( mask & (1 << 1)) {
            button=DIBI_MIDDLE;
        } else if( mask & (1 << 2)) {
            button=DIBI_RIGHT;
        } else {
            return;
        }
        evt.flags = DIEF_NONE;

        if(cd->pressed)
        {
            evt.type = DIET_BUTTONRELEASE;
            cd->pressed=0;
            cd->oldButtonMask = 0;
        }else {
            evt.type = DIET_BUTTONPRESS;
            cd->pressed=1;
            cd->oldButtonMask=buttonMask;
        }
        evt.button=button;
        printf("%s %d %d %d %d/n", __func__, button, cd->pressed, x, y);
        dfb_input_dispatch( vncPointerDevice, &evt );
        cd->oldx=x;
        cd->oldy=y;
        return;
    }

    evt.type    = DIET_AXISMOTION;
    evt.flags   = DIEF_AXISABS;

    if( cd->oldx != x ) {
          evt.axis    = DIAI_X;
          evt.axisabs = x;
          dfb_input_dispatch( vncPointerDevice, &evt );
    }

    if( cd->oldy != y ) {
          evt.axis    = DIAI_Y;
          evt.axisabs = y;
          dfb_input_dispatch( vncPointerDevice, &evt );
    }
    cd->oldx=x;
    cd->oldy=y;

    dfb_input_dispatch( vncPointerDevice, &evt );
    rfbDefaultPtrAddEvent(buttonMask,x,y,cl);

}

/*
* declaration of private data
*/
static void
vnc_process_key_event(rfbBool down, rfbKeySym key, rfbClientPtr cl)
{
    DFBInputEvent evt;
    if( vncKeyboardDevice == NULL ){
        /* Attach to first input device */
        dfb_input_enumerate_devices( vnc_attach_keyboard_device,NULL, DICAPS_KEYS);
        D_ASSERT(vncKeyboardDevice);
    }
     if (down)
          evt.type = DIET_KEYPRESS;
     else
          evt.type = DIET_KEYRELEASE;

     if (vnc_translate_key( key, &evt )) {
          dfb_input_dispatch( vncKeyboardDevice, &evt );
     }

}

static bool
vnc_translate_key(rfbKeySym key, DFBInputEvent *evt )
{
     /* Unicode */
     if (key <= 0xf000) {
         evt->flags = DIEF_KEYSYMBOL;
         evt->key_symbol = key;
         return true;
     }

     /* Dead keys */
     /* todo */

     /* Numeric keypad */
     if (key >= XK_KP_0  &&  key <= XK_KP_9) {
          evt->flags = DIEF_KEYID;
          evt->key_id = DIKI_KP_0 + key - XK_KP_0;
          return true;
     }

     /* Function keys */
     if (key >= XK_F1  &&  key <= XK_F11) {
          evt->flags = DIEF_KEYID;
          evt->key_id = DIKI_F1 + key - XK_F1;
          return true;
     }

     switch (key) {
          /* Numeric keypad */
          case XK_KP_Decimal:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_DECIMAL;
               break;

          case XK_KP_Separator:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_SEPARATOR;
               break;

          case XK_KP_Divide:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_DIV;
               break;

          case XK_KP_Multiply:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_MULT;
               break;

          case XK_KP_Subtract:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_MINUS;
               break;

          case XK_KP_Add:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_PLUS;
               break;

          case XK_KP_Enter:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_ENTER;
               break;

          case XK_KP_Equal:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_KP_EQUAL;
               break;

          /* Arrows + Home/End pad */
          case XK_Up:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_UP;
               break;

          case XK_Down:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_DOWN;
               break;

          case XK_Right:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_RIGHT;
               break;

          case XK_Left:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_LEFT;
               break;

          case XK_Insert:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_INSERT;
               break;

          case XK_Delete:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_DELETE;
               break;

          case XK_Home:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_HOME;
               break;

          case XK_End:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_END;
               break;

          case XK_Page_Up:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_PAGE_UP;
               break;

          case XK_Page_Down:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_PAGE_DOWN;
               break;

          /* Key state modifier keys */
          case XK_Num_Lock:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_NUM_LOCK;
               break;

          case XK_Caps_Lock:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_CAPS_LOCK;
               break;

          case XK_Scroll_Lock:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_SCROLL_LOCK;
               break;

          case XK_Shift_R:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_SHIFT_R;
               break;

          case XK_Shift_L:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_SHIFT_L;
               break;

          case XK_Control_R:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_CONTROL_R;
               break;

          case XK_Control_L:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_CONTROL_L;
               break;

          case XK_Alt_R:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_ALT_R;
               break;

          case XK_Alt_L:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_ALT_L;
               break;

          case XK_Meta_R:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_META_R;
               break;

          case XK_Meta_L:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_META_L;
               break;

          case XK_Super_L:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_SUPER_L;
               break;

          case XK_Super_R:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_SUPER_R;
               break;

          case XK_Hyper_L:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_HYPER_L;
               break;

          case XK_Hyper_R:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_HYPER_R;
               break;

          /*case ??:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_ALTGR;
               break;*/

          case XK_BackSpace:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_BACKSPACE;
               break;

          case XK_Tab:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_HYPER_L;
               break;

          case XK_Return:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_ENTER;
               break;

          case XK_Escape:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_ESCAPE;
                    break;

          case XK_Pause:
               evt->flags = DIEF_KEYID;
               evt->key_id = DIKI_PAUSE;
               break;

          /* Miscellaneous function keys */
          case XK_Help:
               evt->flags = DIEF_KEYSYMBOL;
               evt->key_symbol = DIKS_HELP;
               break;

          case XK_Print:
               evt->flags = DIEF_KEYSYMBOL;
               evt->key_symbol = DIKS_PRINT;
               break;

          case XK_Break:
               evt->flags = DIEF_KEYSYMBOL;
               evt->key_symbol = DIKS_BREAK;
               break;

          default:
               return false;
     }

     return true;
}

#define RGB16_TO_RGB32(pixel)  ( (((pixel) & 0xF800) << 8) | /
                                 (((pixel) & 0x07E0) << 5) | /
                                 (((pixel) & 0x001F) << 3) )

static DFBResult
vnc_update_screen(unsigned short* src, int x, int y, int w, int h )
{
     int i = 0;
     int j = 0;
     D_ASSERT( rfb_screen != NULL );
     D_ASSERT( rfb_screen->frameBuffer != NULL );

     if(g_vnc_client_nr <= 0
       || src == NULL
       || rfb_screen == NULL
       || rfb_screen->frameBuffer == NULL)
     {
           return DFB_FALSE;
     }

     int d_bpp = 4;
     char* dst = rfb_screen->frameBuffer;
     char* src_line = src;
     char* src_row  = src;
     char* dst_line = dst;
     char* dst_row  = dst;
     struct fb_fix_screeninfo* fix = &(dfb_fbvnc->shared->fix);
     struct fb_var_screeninfo* var = &(dfb_fbvnc->shared->current_var);
     int s_bpp = (var->bits_per_pixel + 7) / 8;

     if(w > var->xres_virtual
      || h > var->yres_virtual)
     {
           return DFB_FALSE;
     }

     for (i = y; i < h; i++)
     {
          src_row = src_line;
          dst_row = dst_line;
          for(j = x; j < w; j++)
          {
               src_row += s_bpp;
               dst_row += d_bpp;
               *(int*)dst_row = RGB16_TO_RGB32(*(short*)src_row);
          }

          src_line += fix->line_length;
          dst_line = dst_row;
     }
     rfbMarkRectAsModified ( rfb_screen, x, y, x+w, y+h );

     return DFB_OK;
}

DFBResult
vnc_set_video_mode(DFBDisplayLayerConfig *config )
{
     int argc = 0;
     char** argv = NULL;
     struct fb_var_screeninfo* var = &(dfb_fbvnc->shared->current_var);
     int height = var->yres_virtual;
     int width = var->xres_virtual;

     D_DEBUG( "DirectFB/VNC: layer config properties/n");

     if(rfb_screen) return DFB_OK;

     rfb_screen = rfbGetScreen(&argc, argv, width, height, 8, 3, 4);

     if ( rfb_screen == NULL )
     {
             D_ERROR( "DirectFB/VNC: Couldn't set %dx%dx%d video mode/n",
                      config->width, config->height,
                      config->pixelformat);

             return DFB_FAILURE;
     }

     rfb_screen->frameBuffer = malloc(width*height*rfb_screen->depth/8) ;

     rfb_screen->kbdAddEvent = vnc_process_key_event;
     rfb_screen->ptrAddEvent = vnc_process_pointer_event;
     rfb_screen->newClientHook = vnc_client_new;

     rfbInitServer(rfb_screen);

     direct_thread_create( DTT_OUTPUT, vnc_server_thread, rfb_screen, "VNC Output" );
     direct_thread_create( DTT_OUTPUT, vnc_refresh_thread, rfb_screen, "VNC Refresh" );

     return DFB_OK;
}

static void*
vnc_server_thread( DirectThread *thread, void *data )
{
   rfbRunEventLoop(rfb_screen, -1, FALSE);

   return NULL;
}

static void*
vnc_refresh_thread( DirectThread *thread, void *data )
{
   while(1)
   {
      if(dfb_fbvnc != NULL && dfb_fbvnc->framebuffer_base != NULL && g_vnc_client_nr > 0)
      {
          vnc_update_screen(dfb_fbvnc->framebuffer_base, 0, 0,
             rfb_screen->width, rfb_screen->height);
      }
      usleep(200000);
   }

   return NULL;
}

三、修改directfbrc，让system=fbvnc。
一切OK了(颜色还有点问题)，在broncho上的效果图:
查看全文

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原文地址：https://www.cnblogs.com/zhangyunlin/p/6167612.html