/*
 * Xephyr - A kdrive X server thats runs in a host X window.
 *          Authored by Matthew Allum <mallum@o-hand.com>
 * 
 * Copyright © 2004 Nokia 
 *
 * Permission to use, copy, modify, distribute, and sell this software and its
 * documentation for any purpose is hereby granted without fee, provided that
 * the above copyright notice appear in all copies and that both that
 * copyright notice and this permission notice appear in supporting
 * documentation, and that the name of Nokia not be used in
 * advertising or publicity pertaining to distribution of the software without
 * specific, written prior permission. Nokia makes no
 * representations about the suitability of this software for any purpose.  It
 * is provided "as is" without express or implied warranty.
 *
 * NOKIA DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
 * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
 * EVENT SHALL NOKIA BE LIABLE FOR ANY SPECIAL, INDIRECT OR
 * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
 * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
 * PERFORMANCE OF THIS SOFTWARE.
 */

#ifdef HAVE_CONFIG_H
#include <kdrive-config.h>
#endif

/*
 * including some server headers (like kdrive-config.h)
 * might define the macro _XSERVER64
 * on 64 bits machines. That macro must _NOT_ be defined for Xlib
 * client code, otherwise bad things happen.
 * So let's undef that macro if necessary.
 */
#ifdef _XSERVER64
#undef _XSERVER64
#endif

#include "hostx.h"

#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
#include <string.h>             /* for memset */
#include <errno.h>
#include <time.h>

#include <sys/ipc.h>
#include <sys/shm.h>
#include <sys/time.h>

#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/Xatom.h>
#include <X11/keysym.h>
#include <X11/extensions/XShm.h>
#include <X11/extensions/shape.h>
#ifdef XF86DRI
#include <GL/glx.h>
#endif                          /* XF86DRI */
#include "ephyrlog.h"

#ifdef XF86DRI
extern Bool XF86DRIQueryExtension(Display * dpy,
                                  int *event_basep, int *error_basep);
#endif

/*  
 * All xlib calls go here, which gets built as its own .a .
 * Mixing kdrive and xlib headers causes all sorts of types
 * to get clobbered. 
 */

struct EphyrHostScreen {
    Window win;
    Window win_pre_existing;    /* Set via -parent option like xnest */
    Window peer_win;            /* Used for GL; should be at most one */
    XImage *ximg;
    int win_width, win_height;
    int server_depth;
    unsigned char *fb_data;     /* only used when host bpp != server bpp */
    XShmSegmentInfo shminfo;

    void *info;                 /* Pointer to the screen this is associated with */
    int mynum;                  /* Screen number */
};

struct EphyrHostXVars {
    char *server_dpy_name;
    Display *dpy;
    int screen;
    Visual *visual;
    Window winroot;
    GC gc;
    int depth;
    Bool use_host_cursor;
    Bool use_fullscreen;
    Bool have_shm;

    int n_screens;
    struct EphyrHostScreen *screens;

    long damage_debug_msec;

    unsigned long cmap[256];
};

/* memset ( missing> ) instead of below  */
/*static EphyrHostXVars HostX = { "?", 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};*/
static EphyrHostXVars HostX;

static int HostXWantDamageDebug = 0;

extern EphyrKeySyms ephyrKeySyms;

extern int monitorResolution;

extern Bool EphyrWantResize;

char *ephyrResName = NULL;
int ephyrResNameFromCmd = 0;
char *ephyrTitle = NULL;

static void
 hostx_set_fullscreen_hint(void);

/* X Error traps */

static int trapped_error_code = 0;
static int (*old_error_handler) (Display * d, XErrorEvent * e);

#define host_depth_matches_server(_vars) (HostX.depth == (_vars)->server_depth)

static struct EphyrHostScreen *
host_screen_from_screen_info(EphyrScreenInfo * screen)
{
    int i;

    for (i = 0; i < HostX.n_screens; i++) {
        if (HostX.screens[i].info == screen) {
            return &HostX.screens[i];
        }
    }
    return NULL;
}

static int
error_handler(Display * display, XErrorEvent * error)
{
    trapped_error_code = error->error_code;
    return 0;
}

static void
hostx_errors_trap(void)
{
    trapped_error_code = 0;
    old_error_handler = XSetErrorHandler(error_handler);
}

static int
hostx_errors_untrap(void)
{
    XSetErrorHandler(old_error_handler);
    return trapped_error_code;
}

int
hostx_want_screen_size(EphyrScreenInfo screen, int *width, int *height)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (host_screen &&
        (host_screen->win_pre_existing != None ||
         HostX.use_fullscreen == True)) {
        *width = host_screen->win_width;
        *height = host_screen->win_height;
        return 1;
    }

    return 0;
}

void
hostx_add_screen(EphyrScreenInfo screen, unsigned long win_id, int screen_num)
{
    int index = HostX.n_screens;

    HostX.n_screens += 1;
    HostX.screens = realloc(HostX.screens,
                            HostX.n_screens * sizeof(struct EphyrHostScreen));
    memset(&HostX.screens[index], 0, sizeof(struct EphyrHostScreen));

    HostX.screens[index].info = screen;
    HostX.screens[index].win_pre_existing = win_id;
}

void
hostx_set_display_name(char *name)
{
    HostX.server_dpy_name = strdup(name);
}

void
hostx_set_screen_number(EphyrScreenInfo screen, int number)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (host_screen) {
        host_screen->mynum = number;
        hostx_set_win_title(host_screen->info, "");
    }
}

void
hostx_set_win_title(EphyrScreenInfo screen, const char *extra_text)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (!host_screen)
        return;

    if (ephyrTitle) {
        XStoreName(HostX.dpy, host_screen->win, ephyrTitle);
    }
    else {
#define BUF_LEN 256
        char buf[BUF_LEN + 1];

        memset(buf, 0, BUF_LEN + 1);
        snprintf(buf, BUF_LEN, "Xephyr on %s.%d %s",
                 HostX.server_dpy_name,
                 host_screen->mynum, (extra_text != NULL) ? extra_text : "");

        XStoreName(HostX.dpy, host_screen->win, buf);
    }
}

int
hostx_want_host_cursor(void)
{
    return HostX.use_host_cursor;
}

void
hostx_use_host_cursor(void)
{
    HostX.use_host_cursor = True;
}

int
hostx_want_preexisting_window(EphyrScreenInfo screen)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (host_screen && host_screen->win_pre_existing) {
        return 1;
    }
    else {
        return 0;
    }
}

void
hostx_use_fullscreen(void)
{
    HostX.use_fullscreen = True;
}

int
hostx_want_fullscreen(void)
{
    return HostX.use_fullscreen;
}

static void
hostx_set_fullscreen_hint(void)
{
    Atom atom_WINDOW_STATE, atom_WINDOW_STATE_FULLSCREEN;
    int index;

    atom_WINDOW_STATE = XInternAtom(HostX.dpy, "_NET_WM_STATE", False);
    atom_WINDOW_STATE_FULLSCREEN
        = XInternAtom(HostX.dpy, "_NET_WM_STATE_FULLSCREEN", False);

    for (index = 0; index < HostX.n_screens; index++) {
        XChangeProperty(HostX.dpy, HostX.screens[index].win,
                        atom_WINDOW_STATE, XA_ATOM, 32,
                        PropModeReplace,
                        (unsigned char *) &atom_WINDOW_STATE_FULLSCREEN, 1);
    }
}

static void
hostx_toggle_damage_debug(void)
{
    HostXWantDamageDebug ^= 1;
}

void
hostx_handle_signal(int signum)
{
    hostx_toggle_damage_debug();
    EPHYR_DBG("Signal caught. Damage Debug:%i\n", HostXWantDamageDebug);
}

void
hostx_use_resname(char *name, int fromcmd)
{
    ephyrResName = name;
    ephyrResNameFromCmd = fromcmd;
}

void
hostx_set_title(char *title)
{
    ephyrTitle = title;
}

#ifdef __SUNPRO_C
/* prevent "Function has no return statement" error for x_io_error_handler */
#pragma does_not_return(exit)
#endif

static int _X_NORETURN
x_io_error_handler(Display * dpy)
{
    ErrorF("Lost connection to X server: %s\n", strerror(errno));
    CloseWellKnownConnections();
    OsCleanup(1);
    exit(1);
}

int
hostx_init(void)
{
    XSetWindowAttributes attr;
    Cursor empty_cursor;
    Pixmap cursor_pxm;
    XColor col;
    int index;
    char *tmpstr;
    XClassHint *class_hint;

    attr.event_mask =
        ButtonPressMask
        | ButtonReleaseMask
        | PointerMotionMask
        | KeyPressMask
        | KeyReleaseMask
        | ExposureMask
        | StructureNotifyMask;

    EPHYR_DBG("mark");

    if ((HostX.dpy = XOpenDisplay(getenv("DISPLAY"))) == NULL) {
        fprintf(stderr, "\nXephyr cannot open host display. Is DISPLAY set?\n");
        exit(1);
    }

    XSetIOErrorHandler(x_io_error_handler);

    HostX.screen = DefaultScreen(HostX.dpy);
    HostX.winroot = RootWindow(HostX.dpy, HostX.screen);
    HostX.gc = XCreateGC(HostX.dpy, HostX.winroot, 0, NULL);
    HostX.depth = DefaultDepth(HostX.dpy, HostX.screen);
    HostX.visual = DefaultVisual(HostX.dpy, HostX.screen);

    class_hint = XAllocClassHint();

    for (index = 0; index < HostX.n_screens; index++) {
        struct EphyrHostScreen *host_screen = &HostX.screens[index];

        host_screen->server_depth = HostX.depth;
        if (host_screen->win_pre_existing != None) {
            Status result;
            XWindowAttributes prewin_attr;

            /* Get screen size from existing window */

            hostx_errors_trap();

            result = XGetWindowAttributes(HostX.dpy,
                                          host_screen->win_pre_existing,
                                          &prewin_attr);

            if (hostx_errors_untrap() || !result) {
                fprintf(stderr, "\nXephyr -parent window' does not exist!\n");
                exit(1);
            }

            host_screen->win_width = prewin_attr.width;
            host_screen->win_height = prewin_attr.height;

            host_screen->win = XCreateWindow(HostX.dpy,
                                             host_screen->win_pre_existing,
                                             0, 0,
                                             host_screen->win_width,
                                             host_screen->win_height,
                                             0,
                                             CopyFromParent,
                                             CopyFromParent,
                                             CopyFromParent,
                                             CWEventMask, &attr);
        }
        else {
            host_screen->win = XCreateWindow(HostX.dpy, HostX.winroot, 0, 0, 100, 100,  /* will resize */
                                             0,
                                             CopyFromParent,
                                             CopyFromParent,
                                             CopyFromParent,
                                             CWEventMask, &attr);

            hostx_set_win_title(host_screen->info,
                                "(ctrl+shift grabs mouse and keyboard)");

            if (HostX.use_fullscreen) {
                host_screen->win_width = DisplayWidth(HostX.dpy, HostX.screen);
                host_screen->win_height =
                    DisplayHeight(HostX.dpy, HostX.screen);

                hostx_set_fullscreen_hint();
            }

            if (class_hint) {
                tmpstr = getenv("RESOURCE_NAME");
                if (tmpstr && (!ephyrResNameFromCmd))
                    ephyrResName = tmpstr;
                class_hint->res_name = ephyrResName;
                class_hint->res_class = "Xephyr";
                XSetClassHint(hostx_get_display(), host_screen->win,
                              class_hint);

            }

        }
    }

    if (class_hint)
        XFree(class_hint);

    XParseColor(HostX.dpy, DefaultColormap(HostX.dpy, HostX.screen),
                "red", &col);
    XAllocColor(HostX.dpy, DefaultColormap(HostX.dpy, HostX.screen), &col);
    XSetForeground(HostX.dpy, HostX.gc, col.pixel);

    if (!hostx_want_host_cursor()) {
        /* Ditch the cursor, we provide our 'own' */
        cursor_pxm = XCreatePixmap(HostX.dpy, HostX.winroot, 1, 1, 1);
        memset(&col, 0, sizeof(col));
        empty_cursor = XCreatePixmapCursor(HostX.dpy,
                                           cursor_pxm, cursor_pxm,
                                           &col, &col, 1, 1);
        for (index = 0; index < HostX.n_screens; index++) {
            XDefineCursor(HostX.dpy, HostX.screens[index].win, empty_cursor);
        }
        XFreePixmap(HostX.dpy, cursor_pxm);
    }

    for (index = 0; index < HostX.n_screens; index++) {
        HostX.screens[index].ximg = NULL;
    }
    /* Try to get share memory ximages for a little bit more speed */

    if (!XShmQueryExtension(HostX.dpy) || getenv("XEPHYR_NO_SHM")) {
        fprintf(stderr, "\nXephyr unable to use SHM XImages\n");
        HostX.have_shm = False;
    }
    else {
        /* Really really check we have shm - better way ? */
        XShmSegmentInfo shminfo;

        HostX.have_shm = True;

        shminfo.shmid = shmget(IPC_PRIVATE, 1, IPC_CREAT | 0777);
        shminfo.shmaddr = shmat(shminfo.shmid, 0, 0);
        shminfo.readOnly = True;

        hostx_errors_trap();

        XShmAttach(HostX.dpy, &shminfo);
        XSync(HostX.dpy, False);

        if (hostx_errors_untrap()) {
            fprintf(stderr, "\nXephyr unable to use SHM XImages\n");
            HostX.have_shm = False;
        }

        shmdt(shminfo.shmaddr);
        shmctl(shminfo.shmid, IPC_RMID, 0);
    }

    XFlush(HostX.dpy);

    /* Setup the pause time between paints when debugging updates */

    HostX.damage_debug_msec = 20000;    /* 1/50 th of a second */

    if (getenv("XEPHYR_PAUSE")) {
        HostX.damage_debug_msec = strtol(getenv("XEPHYR_PAUSE"), NULL, 0);
        EPHYR_DBG("pause is %li\n", HostX.damage_debug_msec);
    }

    return 1;
}

int
hostx_get_depth(void)
{
    return HostX.depth;
}

int
hostx_get_server_depth(EphyrScreenInfo screen)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    return host_screen ? host_screen->server_depth : 0;
}

void
hostx_set_server_depth(EphyrScreenInfo screen, int depth)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (host_screen)
        host_screen->server_depth = depth;
}

int
hostx_get_bpp(EphyrScreenInfo screen)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (!host_screen)
        return 0;

    if (host_depth_matches_server(host_screen))
        return HostX.visual->bits_per_rgb;
    else
        return host_screen->server_depth;       /*XXX correct ? */
}

void
hostx_get_visual_masks(EphyrScreenInfo screen,
                       CARD32 *rmsk, CARD32 *gmsk, CARD32 *bmsk)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (!host_screen)
        return;

    if (host_depth_matches_server(host_screen)) {
        *rmsk = HostX.visual->red_mask;
        *gmsk = HostX.visual->green_mask;
        *bmsk = HostX.visual->blue_mask;
    }
    else if (host_screen->server_depth == 16) {
        /* Assume 16bpp 565 */
        *rmsk = 0xf800;
        *gmsk = 0x07e0;
        *bmsk = 0x001f;
    }
    else {
        *rmsk = 0x0;
        *gmsk = 0x0;
        *bmsk = 0x0;
    }
}

static int
hostx_calculate_color_shift(unsigned long mask)
{
    int shift = 1;

    /* count # of bits in mask */
    while ((mask = (mask >> 1)))
        shift++;
    /* cmap entry is an unsigned char so adjust it by size of that */
    shift = shift - sizeof(unsigned char) * 8;
    if (shift < 0)
        shift = 0;
    return shift;
}

void
hostx_set_cmap_entry(unsigned char idx,
                     unsigned char r, unsigned char g, unsigned char b)
{
/* need to calculate the shifts for RGB because server could be BGR. */
/* XXX Not sure if this is correct for 8 on 16, but this works for 8 on 24.*/
    static int rshift, bshift, gshift = 0;
    static int first_time = 1;

    if (first_time) {
        first_time = 0;
        rshift = hostx_calculate_color_shift(HostX.visual->red_mask);
        gshift = hostx_calculate_color_shift(HostX.visual->green_mask);
        bshift = hostx_calculate_color_shift(HostX.visual->blue_mask);
    }
    HostX.cmap[idx] = ((r << rshift) & HostX.visual->red_mask) |
        ((g << gshift) & HostX.visual->green_mask) |
        ((b << bshift) & HostX.visual->blue_mask);
}

/**
 * hostx_screen_init creates the XImage that will contain the front buffer of
 * the ephyr screen, and possibly offscreen memory.
 *
 * @param width width of the screen
 * @param height height of the screen
 * @param buffer_height  height of the rectangle to be allocated.
 *
 * hostx_screen_init() creates an XImage, using MIT-SHM if it's available.
 * buffer_height can be used to create a larger offscreen buffer, which is used
 * by fakexa for storing offscreen pixmap data.
 */
void *
hostx_screen_init(EphyrScreenInfo screen,
                  int width, int height, int buffer_height,
                  int *bytes_per_line, int *bits_per_pixel)
{
    int bitmap_pad;
    Bool shm_success = False;
    XSizeHints *size_hints;

    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    if (!host_screen) {
        fprintf(stderr, "%s: Error in accessing hostx data\n", __func__);
        exit(1);
    }

    EPHYR_DBG("host_screen=%p wxh=%dx%d, buffer_height=%d",
              host_screen, width, height, buffer_height);

    if (host_screen->ximg != NULL) {
        /* Free up the image data if previously used
         * i.ie called by server reset
         */

        if (HostX.have_shm) {
            XShmDetach(HostX.dpy, &host_screen->shminfo);
            XDestroyImage(host_screen->ximg);
            shmdt(host_screen->shminfo.shmaddr);
            shmctl(host_screen->shminfo.shmid, IPC_RMID, 0);
        }
        else {
            free(host_screen->ximg->data);
            host_screen->ximg->data = NULL;

            XDestroyImage(host_screen->ximg);
        }
    }

    if (HostX.have_shm) {
        host_screen->ximg =
            XShmCreateImage(HostX.dpy, HostX.visual, HostX.depth, ZPixmap, NULL,
                            &host_screen->shminfo, width, buffer_height);

        host_screen->shminfo.shmid =
            shmget(IPC_PRIVATE,
                   host_screen->ximg->bytes_per_line * buffer_height,
                   IPC_CREAT | 0777);
        host_screen->ximg->data = shmat(host_screen->shminfo.shmid, 0, 0);
        host_screen->shminfo.shmaddr = host_screen->ximg->data;

        if (host_screen->ximg->data == (char *) -1) {
            EPHYR_DBG
                ("Can't attach SHM Segment, falling back to plain XImages");
            HostX.have_shm = False;
            XDestroyImage(host_screen->ximg);
            shmctl(host_screen->shminfo.shmid, IPC_RMID, 0);
        }
        else {
            EPHYR_DBG("SHM segment attached %p", host_screen->shminfo.shmaddr);
            host_screen->shminfo.readOnly = False;
            XShmAttach(HostX.dpy, &host_screen->shminfo);
            shm_success = True;
        }
    }

    if (!shm_success) {
        bitmap_pad = (HostX.depth > 16) ? 32 : ((HostX.depth > 8) ? 16 : 8);

        EPHYR_DBG("Creating image %dx%d for screen host_screen=%p\n",
                  width, buffer_height, host_screen);
        host_screen->ximg = XCreateImage(HostX.dpy,
                                         HostX.visual,
                                         HostX.depth,
                                         ZPixmap, 0, 0,
                                         width, buffer_height, bitmap_pad, 0);

        host_screen->ximg->data =
            malloc(host_screen->ximg->bytes_per_line * buffer_height);
    }

    *bytes_per_line = host_screen->ximg->bytes_per_line;
    *bits_per_pixel = host_screen->ximg->bits_per_pixel;

    XResizeWindow(HostX.dpy, host_screen->win, width, height);

    /* Ask the WM to keep our size static */
    if (host_screen->win_pre_existing == None && !EphyrWantResize) {
        size_hints = XAllocSizeHints();
        size_hints->max_width = size_hints->min_width = width;
        size_hints->max_height = size_hints->min_height = height;
        size_hints->flags = PMinSize | PMaxSize;
        XSetWMNormalHints(HostX.dpy, host_screen->win, size_hints);
        XFree(size_hints);
    }

    XMapWindow(HostX.dpy, host_screen->win);

    XSync(HostX.dpy, False);

    host_screen->win_width = width;
    host_screen->win_height = height;

    if (host_depth_matches_server(host_screen)) {
        EPHYR_DBG("Host matches server");
        return host_screen->ximg->data;
    }
    else {
        EPHYR_DBG("server bpp %i", host_screen->server_depth >> 3);
        host_screen->fb_data =
            malloc(width * buffer_height * (host_screen->server_depth >> 3));
        return host_screen->fb_data;
    }
}

static void hostx_paint_debug_rect(struct EphyrHostScreen *host_screen,
                                   int x, int y, int width, int height);

void
hostx_paint_rect(EphyrScreenInfo screen,
                 int sx, int sy, int dx, int dy, int width, int height)
{
    struct EphyrHostScreen *host_screen = host_screen_from_screen_info(screen);

    EPHYR_DBG("painting in screen %d\n", host_screen->mynum);

    /*
     *  Copy the image data updated by the shadow layer
     *  on to the window
     */

    if (HostXWantDamageDebug) {
        hostx_paint_debug_rect(host_screen, dx, dy, width, height);
    }

    /* 
     * If the depth of the ephyr server is less than that of the host,
     * the kdrive fb does not point to the ximage data but to a buffer
     * ( fb_data ), we shift the various bits from this onto the XImage
     * so they match the host.
     *
     * Note, This code is pretty new ( and simple ) so may break on 
     *       endian issues, 32 bpp host etc. 
     *       Not sure if 8bpp case is right either. 
     *       ... and it will be slower than the matching depth case.
     */

    if (!host_depth_matches_server(host_screen)) {
        int x, y, idx, bytes_per_pixel = (host_screen->server_depth >> 3);
        unsigned char r, g, b;
        unsigned long host_pixel;

        EPHYR_DBG("Unmatched host depth host_screen=%p\n", host_screen);
        for (y = sy; y < sy + height; y++)
            for (x = sx; x < sx + width; x++) {
                idx =
                    (host_screen->win_width * y * bytes_per_pixel) +
                    (x * bytes_per_pixel);

                switch (host_screen->server_depth) {
                case 16:
                {
                    unsigned short pixel =
                        *(unsigned short *) (host_screen->fb_data + idx);

                    r = ((pixel & 0xf800) >> 8);
                    g = ((pixel & 0x07e0) >> 3);
                    b = ((pixel & 0x001f) << 3);

                    host_pixel = (r << 16) | (g << 8) | (b);

                    XPutPixel(host_screen->ximg, x, y, host_pixel);
                    break;
                }
                case 8:
                {
                    unsigned char pixel =
                        *(unsigned char *) (host_screen->fb_data + idx);
                    XPutPixel(host_screen->ximg, x, y, HostX.cmap[pixel]);
                    break;
                }
                default:
                    break;
                }
            }
    }

    if (HostX.have_shm) {
        XShmPutImage(HostX.dpy, host_screen->win,
                     HostX.gc, host_screen->ximg,
                     sx, sy, dx, dy, width, height, False);
    }
    else {
        XPutImage(HostX.dpy, host_screen->win, HostX.gc, host_screen->ximg,
                  sx, sy, dx, dy, width, height);
    }

    XSync(HostX.dpy, False);
}

static void
hostx_paint_debug_rect(struct EphyrHostScreen *host_screen,
                       int x, int y, int width, int height)
{
    struct timespec tspec;

    tspec.tv_sec = HostX.damage_debug_msec / (1000000);
    tspec.tv_nsec = (HostX.damage_debug_msec % 1000000) * 1000;

    EPHYR_DBG("msec: %li tv_sec %li, tv_msec %li",
              HostX.damage_debug_msec, tspec.tv_sec, tspec.tv_nsec);

    /* fprintf(stderr, "Xephyr updating: %i+%i %ix%i\n", x, y, width, height); */

    XFillRectangle(HostX.dpy, host_screen->win, HostX.gc, x, y, width, height);
    XSync(HostX.dpy, False);

    /* nanosleep seems to work better than usleep for me... */
    nanosleep(&tspec, NULL);
}

void
hostx_load_keymap(void)
{
    XID *keymap;
    int host_width, min_keycode, max_keycode, width;
    int i, j;

    XDisplayKeycodes(HostX.dpy, &min_keycode, &max_keycode);

    EPHYR_DBG("min: %d, max: %d", min_keycode, max_keycode);

    keymap = XGetKeyboardMapping(HostX.dpy,
                                 min_keycode,
                                 max_keycode - min_keycode + 1, &host_width);

    /* Try and copy the hosts keymap into our keymap to avoid loads
     * of messing around.
     *
     * kdrive cannot can have more than 4 keysyms per keycode
     * so we only copy at most the first 4 ( xorg has 6 per keycode, XVNC 2 )
     */
    width = (host_width > 4) ? 4 : host_width;

    ephyrKeySyms.map = (CARD32 *) calloc(sizeof(CARD32),
                                         (max_keycode - min_keycode + 1) *
                                         width);
    if (!ephyrKeySyms.map)
        goto out;

    for (i = 0; i < (max_keycode - min_keycode + 1); i++)
        for (j = 0; j < width; j++)
            ephyrKeySyms.map[(i * width) + j] =
                (CARD32) keymap[(i * host_width) + j];

    EPHYR_DBG("keymap width, host:%d kdrive:%d", host_width, width);

    ephyrKeySyms.minKeyCode = min_keycode;
    ephyrKeySyms.maxKeyCode = max_keycode;
    ephyrKeySyms.mapWidth = width;

 out:
    XFree(keymap);
}

static struct EphyrHostScreen *
host_screen_from_window(Window w)
{
    int index = 0;
    struct EphyrHostScreen *result = NULL;

    for (index = 0; index < HostX.n_screens; index++) {
        if (HostX.screens[index].win == w
            || HostX.screens[index].peer_win == w
            || HostX.screens[index].win_pre_existing == w) {
            result = &HostX.screens[index];
            goto out;
        }
    }

 out:
    return result;
}

int
hostx_get_event(EphyrHostXEvent * ev)
{
    XEvent xev;
    static int grabbed_screen = -1;

    if (XPending(HostX.dpy)) {
        XNextEvent(HostX.dpy, &xev);

        switch (xev.type) {
        case Expose:
            /* Not so great event compression, but works ok */
            while (XCheckTypedWindowEvent(HostX.dpy, xev.xexpose.window,
                                          Expose, &xev));
            {
                struct EphyrHostScreen *host_screen =
                    host_screen_from_window(xev.xexpose.window);
                if (host_screen) {
                    hostx_paint_rect(host_screen->info, 0, 0, 0, 0,
                                     host_screen->win_width,
                                     host_screen->win_height);
                }
                else {
                    EPHYR_LOG_ERROR("failed to get host screen\n");
                    ev->type = EPHYR_EV_EXPOSE;
                    ev->data.expose.window = xev.xexpose.window;
                    return 1;
                }
            }
            return 0;

        case MotionNotify:
        {
            struct EphyrHostScreen *host_screen =
                host_screen_from_window(xev.xmotion.window);

            ev->type = EPHYR_EV_MOUSE_MOTION;
            ev->data.mouse_motion.x = xev.xmotion.x;
            ev->data.mouse_motion.y = xev.xmotion.y;
            ev->data.mouse_motion.window = xev.xmotion.window;
            ev->data.mouse_motion.screen =
                (host_screen ? host_screen->mynum : -1);
        }
            return 1;

        case ButtonPress:
            ev->type = EPHYR_EV_MOUSE_PRESS;
            ev->key_state = xev.xkey.state;
            /* 
             * This is a bit hacky. will break for button 5 ( defined as 0x10 )
             * Check KD_BUTTON defines in kdrive.h 
             */
            ev->data.mouse_down.button_num = 1 << (xev.xbutton.button - 1);
            return 1;

        case ButtonRelease:
            ev->type = EPHYR_EV_MOUSE_RELEASE;
            ev->key_state = xev.xkey.state;
            ev->data.mouse_up.button_num = 1 << (xev.xbutton.button - 1);
            return 1;

        case KeyPress:
        {
            ev->type = EPHYR_EV_KEY_PRESS;
            ev->key_state = xev.xkey.state;
            ev->data.key_down.scancode = xev.xkey.keycode;
            return 1;
        }
        case KeyRelease:

            if ((XKeycodeToKeysym(HostX.dpy, xev.xkey.keycode, 0) == XK_Shift_L
                 || XKeycodeToKeysym(HostX.dpy, xev.xkey.keycode,
                                     0) == XK_Shift_R)
                && (xev.xkey.state & ControlMask)) {
                struct EphyrHostScreen *host_screen =
                    host_screen_from_window(xev.xexpose.window);

                if (grabbed_screen != -1) {
                    XUngrabKeyboard(HostX.dpy, CurrentTime);
                    XUngrabPointer(HostX.dpy, CurrentTime);
                    grabbed_screen = -1;
                    hostx_set_win_title(host_screen->info,
                                        "(ctrl+shift grabs mouse and keyboard)");
                }
                else {
                    /* Attempt grab */
                    if (XGrabKeyboard(HostX.dpy, host_screen->win, True,
                                      GrabModeAsync,
                                      GrabModeAsync, CurrentTime) == 0) {
                        if (XGrabPointer(HostX.dpy, host_screen->win, True,
                                         NoEventMask,
                                         GrabModeAsync,
                                         GrabModeAsync,
                                         host_screen->win, None,
                                         CurrentTime) == 0) {
                            grabbed_screen = host_screen->mynum;
                            hostx_set_win_title
                                (host_screen->info,
                                 "(ctrl+shift releases mouse and keyboard)");
                        }
                        else    /* Failed pointer grabm  ungrab keyboard */
                            XUngrabKeyboard(HostX.dpy, CurrentTime);
                    }
                }
            }

            /* Still send the release event even if above has happened
             * server will get confused with just an up event. 
             * Maybe it would be better to just block shift+ctrls getting to
             * kdrive all togeather. 
             */
            ev->type = EPHYR_EV_KEY_RELEASE;
            ev->key_state = xev.xkey.state;
            ev->data.key_up.scancode = xev.xkey.keycode;
            return 1;

        case ConfigureNotify:
        {
            struct EphyrHostScreen *host_screen;

            /* event compression as for Expose events, cause
             * we don't want to resize the framebuffer for
             * every single change */
            while (XCheckTypedWindowEvent(HostX.dpy, xev.xconfigure.window,
                                          ConfigureNotify, &xev));
            host_screen = host_screen_from_window(xev.xconfigure.window);

            if (!host_screen ||
                (host_screen->win_pre_existing == None && !EphyrWantResize)) {
                return 0;
            }

            ev->type = EPHYR_EV_CONFIGURE;
            ev->data.configure.width = xev.xconfigure.width;
            ev->data.configure.height = xev.xconfigure.height;
            ev->data.configure.window = xev.xconfigure.window;
            ev->data.configure.screen = host_screen->mynum;

            return 1;
        }
        default:
            break;

        }
    }
    return 0;
}

void *
hostx_get_display(void)
{
    return HostX.dpy;
}

int
hostx_get_window(int a_screen_number)
{
    if (a_screen_number < 0 || a_screen_number >= HostX.n_screens) {
        EPHYR_LOG_ERROR("bad screen number:%d\n", a_screen_number);
        return 0;
    }
    return HostX.screens[a_screen_number].win;
}

int
hostx_get_window_attributes(int a_window, EphyrHostWindowAttributes * a_attrs)
{
    XWindowAttributes attrs;

    memset(&attrs, 0, sizeof(attrs));

    if (!XGetWindowAttributes(hostx_get_display(), a_window, &attrs)) {
        return FALSE;
    }
    a_attrs->x = attrs.x;
    a_attrs->y = attrs.y;
    a_attrs->width = attrs.width;
    a_attrs->height = attrs.height;
    if (attrs.visual)
        a_attrs->visualid = attrs.visual->visualid;
    return TRUE;
}

int
hostx_get_extension_info(const char *a_ext_name,
                         int *a_major_opcode,
                         int *a_first_event, int *a_first_error)
{
    if (!a_ext_name || !a_major_opcode || !a_first_event || !a_first_error)
        return 0;
    if (!XQueryExtension(HostX.dpy,
                         a_ext_name,
                         a_major_opcode, a_first_event, a_first_error)) {
        return 0;
    }
    return 1;
}

int
hostx_get_visuals_info(EphyrHostVisualInfo ** a_visuals, int *a_num_entries)
{
    Display *dpy = hostx_get_display();
    Bool is_ok = False;
    XVisualInfo templ, *visuals = NULL;
    EphyrHostVisualInfo *host_visuals = NULL;
    int nb_items = 0, i = 0;

    EPHYR_RETURN_VAL_IF_FAIL(a_visuals && a_num_entries && dpy, False);
    EPHYR_LOG("enter\n");
    memset(&templ, 0, sizeof(templ));
    visuals = XGetVisualInfo(dpy, VisualNoMask, &templ, &nb_items);
    if (!visuals) {
        EPHYR_LOG_ERROR("host does not advertise any visual\n");
        goto out;
    }
    EPHYR_LOG("host advertises %d visuals\n", nb_items);
    host_visuals = calloc(nb_items, sizeof(EphyrHostVisualInfo));
    for (i = 0; i < nb_items; i++) {
        host_visuals[i].visualid = visuals[i].visualid;
        host_visuals[i].screen = visuals[i].screen;
        host_visuals[i].depth = visuals[i].depth;
        host_visuals[i].class = visuals[i].class;
        host_visuals[i].red_mask = visuals[i].red_mask;
        host_visuals[i].green_mask = visuals[i].green_mask;
        host_visuals[i].blue_mask = visuals[i].blue_mask;
        host_visuals[i].colormap_size = visuals[i].colormap_size;
        host_visuals[i].bits_per_rgb = visuals[i].bits_per_rgb;
    }
    *a_visuals = host_visuals;
    *a_num_entries = nb_items;
    host_visuals = NULL;

    is_ok = TRUE;
 out:
    if (visuals) {
        XFree(visuals);
        visuals = NULL;
    }
    free(host_visuals);
    host_visuals = NULL;
    EPHYR_LOG("leave\n");
    return is_ok;

}

int
hostx_create_window(int a_screen_number,
                    EphyrBox * a_geometry,
                    int a_visual_id, int *a_host_peer /*out parameter */ )
{
    Bool is_ok = FALSE;
    Display *dpy = hostx_get_display();
    XVisualInfo *visual_info = NULL, visual_info_templ;
    int visual_mask = VisualIDMask;
    Window win = None;
    int nb_visuals = 0, winmask = 0;
    XSetWindowAttributes attrs;

    EPHYR_RETURN_VAL_IF_FAIL(dpy && a_geometry, FALSE);

    EPHYR_LOG("enter\n");

    /*get visual */
    memset(&visual_info, 0, sizeof(visual_info));
    visual_info_templ.visualid = a_visual_id;
    visual_info = XGetVisualInfo(dpy, visual_mask,
                                 &visual_info_templ, &nb_visuals);
    if (!visual_info) {
        EPHYR_LOG_ERROR("argh, could not find a remote visual with id:%d\n",
                        a_visual_id);
        goto out;
    }
    memset(&attrs, 0, sizeof(attrs));
    attrs.colormap = XCreateColormap(dpy,
                                     RootWindow(dpy,
                                                visual_info->screen),
                                     visual_info->visual, AllocNone);
    attrs.event_mask = ButtonPressMask
        | ButtonReleaseMask
        | PointerMotionMask | KeyPressMask | KeyReleaseMask | ExposureMask;
    winmask = CWColormap | CWEventMask;

    win = XCreateWindow(dpy, hostx_get_window(a_screen_number),
                        a_geometry->x, a_geometry->y,
                        a_geometry->width, a_geometry->height, 0,
                        visual_info->depth, CopyFromParent,
                        visual_info->visual, winmask, &attrs);
    if (win == None) {
        EPHYR_LOG_ERROR("failed to create peer window\n");
        goto out;
    }
    if (HostX.screens[a_screen_number].peer_win == None) {
        HostX.screens[a_screen_number].peer_win = win;
    }
    else {
        EPHYR_LOG_ERROR("multiple peer windows created for same screen\n");
    }
    XFlush(dpy);
    XMapWindow(dpy, win);
    *a_host_peer = win;
    is_ok = TRUE;
 out:
    EPHYR_LOG("leave\n");
    return is_ok;
}

int
hostx_destroy_window(int a_win)
{
    Display *dpy = hostx_get_display();

    EPHYR_RETURN_VAL_IF_FAIL(dpy, FALSE);
    XDestroyWindow(dpy, a_win);
    XFlush(dpy);
    return TRUE;
}

int
hostx_set_window_geometry(int a_win, EphyrBox * a_geo)
{
    Display *dpy = hostx_get_display();

    EPHYR_RETURN_VAL_IF_FAIL(dpy && a_geo, FALSE);

    EPHYR_LOG("enter. x,y,w,h:(%d,%d,%d,%d)\n",
              a_geo->x, a_geo->y, a_geo->width, a_geo->height);

    XMoveWindow(dpy, a_win, a_geo->x, a_geo->y);
    XResizeWindow(dpy, a_win, a_geo->width, a_geo->height);
    EPHYR_LOG("leave\n");
    return TRUE;
}

int
hostx_set_window_bounding_rectangles(int a_window,
                                     EphyrRect * a_rects, int a_num_rects)
{
    Bool is_ok = FALSE;
    Display *dpy = hostx_get_display();
    int i = 0;
    XRectangle *rects = NULL;

    EPHYR_RETURN_VAL_IF_FAIL(dpy && a_rects, FALSE);

    EPHYR_LOG("enter. num rects:%d\n", a_num_rects);

    rects = calloc(a_num_rects, sizeof(XRectangle));
    for (i = 0; i < a_num_rects; i++) {
        rects[i].x = a_rects[i].x1;
        rects[i].y = a_rects[i].y1;
        rects[i].width = abs(a_rects[i].x2 - a_rects[i].x1);
        rects[i].height = abs(a_rects[i].y2 - a_rects[i].y1);
        EPHYR_LOG("borders clipped to rect[x:%d,y:%d,w:%d,h:%d]\n",
                  rects[i].x, rects[i].y, rects[i].width, rects[i].height);
    }
    /*this aways returns 1 */
    XShapeCombineRectangles(dpy, a_window, ShapeBounding, 0, 0,
                            rects, a_num_rects, ShapeSet, YXBanded);
    is_ok = TRUE;

    free(rects);
    rects = NULL;
    EPHYR_LOG("leave\n");
    return is_ok;
}

int
hostx_set_window_clipping_rectangles(int a_window,
                                     EphyrRect * a_rects, int a_num_rects)
{
    Bool is_ok = FALSE;
    Display *dpy = hostx_get_display();
    int i = 0;
    XRectangle *rects = NULL;

    EPHYR_RETURN_VAL_IF_FAIL(dpy && a_rects, FALSE);

    EPHYR_LOG("enter. num rects:%d\n", a_num_rects);

    rects = calloc(a_num_rects, sizeof(XRectangle));
    for (i = 0; i < a_num_rects; i++) {
        rects[i].x = a_rects[i].x1;
        rects[i].y = a_rects[i].y1;
        rects[i].width = abs(a_rects[i].x2 - a_rects[i].x1);
        rects[i].height = abs(a_rects[i].y2 - a_rects[i].y1);
        EPHYR_LOG("clipped to rect[x:%d,y:%d,w:%d,h:%d]\n",
                  rects[i].x, rects[i].y, rects[i].width, rects[i].height);
    }
    /*this aways returns 1 */
    XShapeCombineRectangles(dpy, a_window, ShapeClip, 0, 0,
                            rects, a_num_rects, ShapeSet, YXBanded);
    is_ok = TRUE;

    free(rects);
    rects = NULL;
    EPHYR_LOG("leave\n");
    return is_ok;
}

int
hostx_has_xshape(void)
{
    int event_base = 0, error_base = 0;
    Display *dpy = hostx_get_display();

    if (!XShapeQueryExtension(dpy, &event_base, &error_base)) {
        return FALSE;
    }
    return TRUE;
}

#ifdef XF86DRI
typedef struct {
    int is_valid;
    int local_id;
    int remote_id;
} ResourcePair;

#define RESOURCE_PEERS_SIZE 1024*10
static ResourcePair resource_peers[RESOURCE_PEERS_SIZE];

int
hostx_allocate_resource_id_peer(int a_local_resource_id,
                                int *a_remote_resource_id)
{
    int i = 0;
    ResourcePair *peer = NULL;
    Display *dpy = hostx_get_display();

    /*
     * first make sure a resource peer
     * does not exist already for
     * a_local_resource_id
     */
    for (i = 0; i < RESOURCE_PEERS_SIZE; i++) {
        if (resource_peers[i].is_valid
            && resource_peers[i].local_id == a_local_resource_id) {
            peer = &resource_peers[i];
            break;
        }
    }
    /*
     * find one free peer entry, an feed it with
     */
    if (!peer) {
        for (i = 0; i < RESOURCE_PEERS_SIZE; i++) {
            if (!resource_peers[i].is_valid) {
                peer = &resource_peers[i];
                break;
            }
        }
        if (peer) {
            peer->remote_id = XAllocID(dpy);
            peer->local_id = a_local_resource_id;
            peer->is_valid = TRUE;
        }
    }
    if (peer) {
        *a_remote_resource_id = peer->remote_id;
        return TRUE;
    }
    return FALSE;
}

int
hostx_get_resource_id_peer(int a_local_resource_id, int *a_remote_resource_id)
{
    int i = 0;
    ResourcePair *peer = NULL;

    for (i = 0; i < RESOURCE_PEERS_SIZE; i++) {
        if (resource_peers[i].is_valid
            && resource_peers[i].local_id == a_local_resource_id) {
            peer = &resource_peers[i];
            break;
        }
    }
    if (peer) {
        *a_remote_resource_id = peer->remote_id;
        return TRUE;
    }
    return FALSE;
}

int
hostx_has_dri(void)
{
    int event_base = 0, error_base = 0;
    Display *dpy = hostx_get_display();

    if (!dpy)
        return FALSE;

    if (!XF86DRIQueryExtension(dpy, &event_base, &error_base)) {
        return FALSE;
    }
    return TRUE;
}

int
hostx_has_glx(void)
{
    Display *dpy = hostx_get_display();
    int event_base = 0, error_base = 0;

    if (!glXQueryExtension(dpy, &event_base, &error_base)) {
        return FALSE;
    }
    return TRUE;
}

#endif                          /* XF86DRI */