/* vo_xv.c, X11 Xv interface */ // Number of buffers _FOR_DOUBLEBUFFERING_MODE_ // Use option -double to enable double buffering! (default: single buffer) #define NUM_BUFFERS 3 /* Buffer allocation: -nodr: 1: TEMP 2: 2*TEMP -dr: 1: TEMP 3: 2*STATIC+TEMP */ #include #include #include #include "config.h" #include "mp_msg.h" #include "help_mp.h" #include "video_out.h" #include "video_out_internal.h" #include #include #include #include "x11_common.h" #include "fastmemcpy.h" #include "sub.h" #include "aspect.h" #include "subopt-helper.h" #include "input/input.h" #ifdef CONFIG_GUI #include "gui/interface.h" #endif #include "libavutil/common.h" static const vo_info_t info = { "X11/Xv", "xv", "Gerd Knorr and others", "" }; const LIBVO_EXTERN(xv) #ifdef HAVE_SHM #include #include #include static XShmSegmentInfo Shminfo[NUM_BUFFERS]; static int Shmem_Flag; #endif // Note: depends on the inclusion of X11/extensions/XShm.h #include #include // FIXME: dynamically allocate this stuff static void allocate_xvimage(int); static unsigned int ver, rel, req, ev, err; static unsigned int formats, adaptors, xv_format; static XvAdaptorInfo *ai = NULL; static XvImageFormatValues *fo=NULL; static int current_buf = 0; static int current_ip_buf = 0; static int num_buffers = 1; // default static int visible_buf = -1; // -1 means: no buffer was drawn yet static XvImage *xvimage[NUM_BUFFERS]; static uint32_t image_width; static uint32_t image_height; static uint32_t image_format; static int flip_flag; static int int_pause; static uint32_t drwX, drwY; static uint32_t max_width = 0, max_height = 0; // zero means: not set static void (*draw_alpha_fnc) (int x0, int y0, int w, int h, unsigned char *src, unsigned char *srca, int stride); static void draw_alpha_yv12(int x0, int y0, int w, int h, unsigned char *src, unsigned char *srca, int stride) { x0 += image_width * (vo_panscan_x >> 1) / (vo_dwidth + vo_panscan_x); vo_draw_alpha_yv12(w, h, src, srca, stride, xvimage[current_buf]->data + xvimage[current_buf]->offsets[0] + xvimage[current_buf]->pitches[0] * y0 + x0, xvimage[current_buf]->pitches[0]); } static void draw_alpha_yuy2(int x0, int y0, int w, int h, unsigned char *src, unsigned char *srca, int stride) { x0 += image_width * (vo_panscan_x >> 1) / (vo_dwidth + vo_panscan_x); vo_draw_alpha_yuy2(w, h, src, srca, stride, xvimage[current_buf]->data + xvimage[current_buf]->offsets[0] + xvimage[current_buf]->pitches[0] * y0 + 2 * x0, xvimage[current_buf]->pitches[0]); } static void draw_alpha_uyvy(int x0, int y0, int w, int h, unsigned char *src, unsigned char *srca, int stride) { x0 += image_width * (vo_panscan_x >> 1) / (vo_dwidth + vo_panscan_x); vo_draw_alpha_yuy2(w, h, src, srca, stride, xvimage[current_buf]->data + xvimage[current_buf]->offsets[0] + xvimage[current_buf]->pitches[0] * y0 + 2 * x0 + 1, xvimage[current_buf]->pitches[0]); } static void draw_alpha_null(int x0, int y0, int w, int h, unsigned char *src, unsigned char *srca, int stride) { } static void deallocate_xvimage(int foo); static void calc_drwXY(uint32_t *drwX, uint32_t *drwY) { *drwX = *drwY = 0; if (vo_fs) { aspect(&vo_dwidth, &vo_dheight, A_ZOOM); vo_dwidth = FFMIN(vo_dwidth, vo_screenwidth); vo_dheight = FFMIN(vo_dheight, vo_screenheight); *drwX = (vo_screenwidth - vo_dwidth) / 2; *drwY = (vo_screenheight - vo_dheight) / 2; mp_msg(MSGT_VO, MSGL_V, "[xv-fs] dx: %d dy: %d dw: %d dh: %d\n", *drwX, *drwY, vo_dwidth, vo_dheight); } else if (WinID == 0) { *drwX = vo_dx; *drwY = vo_dy; } } /* * connect to server, create and map window, * allocate colors and (shared) memory */ static int config(uint32_t width, uint32_t height, uint32_t d_width, uint32_t d_height, uint32_t flags, char *title, uint32_t format) { XVisualInfo vinfo; XSetWindowAttributes xswa; XWindowAttributes attribs; unsigned long xswamask; int depth; #ifdef CONFIG_XF86VM int vm = 0; #endif image_height = height; image_width = width; image_format = format; if ((max_width != 0 && max_height != 0) && (image_width > max_width || image_height > max_height)) { mp_msg( MSGT_VO, MSGL_ERR, MSGTR_VO_XV_ImagedimTooHigh, image_width, image_height, max_width, max_height); return -1; } int_pause = 0; visible_buf = -1; #ifdef CONFIG_XF86VM if (flags & VOFLAG_MODESWITCHING) vm = 1; #endif flip_flag = flags & VOFLAG_FLIPPING; num_buffers = vo_doublebuffering ? (vo_directrendering ? NUM_BUFFERS : 2) : 1; /* check image formats */ { unsigned int i; xv_format = 0; for (i = 0; i < formats; i++) { mp_msg(MSGT_VO, MSGL_V, "Xvideo image format: 0x%x (%4.4s) %s\n", fo[i].id, (char *) &fo[i].id, (fo[i].format == XvPacked) ? "packed" : "planar"); if (fo[i].id == format) xv_format = fo[i].id; } if (!xv_format) return -1; } #ifdef CONFIG_GUI if (use_gui) guiGetEvent(guiSetShVideo, 0); // the GUI will set up / resize the window else #endif { #ifdef CONFIG_XF86VM if (vm) { vo_vm_switch(); } #endif XGetWindowAttributes(mDisplay, DefaultRootWindow(mDisplay), &attribs); depth = attribs.depth; if (depth != 15 && depth != 16 && depth != 24 && depth != 32) depth = 24; XMatchVisualInfo(mDisplay, mScreen, depth, TrueColor, &vinfo); xswa.background_pixel = 0; if (xv_ck_info.method == CK_METHOD_BACKGROUND) { xswa.background_pixel = xv_colorkey; } xswa.border_pixel = 0; xswamask = CWBackPixel | CWBorderPixel; vo_x11_create_vo_window(&vinfo, vo_dx, vo_dy, vo_dwidth, vo_dheight, flags, CopyFromParent, "xv", title); XChangeWindowAttributes(mDisplay, vo_window, xswamask, &xswa); #ifdef CONFIG_XF86VM if (vm) { /* Grab the mouse pointer in our window */ if (vo_grabpointer) XGrabPointer(mDisplay, vo_window, True, 0, GrabModeAsync, GrabModeAsync, vo_window, None, CurrentTime); XSetInputFocus(mDisplay, vo_window, RevertToNone, CurrentTime); } #endif } mp_msg(MSGT_VO, MSGL_V, "using Xvideo port %d for hw scaling\n", xv_port); switch (xv_format) { case IMGFMT_YV12: case IMGFMT_I420: case IMGFMT_IYUV: draw_alpha_fnc = draw_alpha_yv12; break; case IMGFMT_YUY2: case IMGFMT_YVYU: draw_alpha_fnc = draw_alpha_yuy2; break; case IMGFMT_UYVY: draw_alpha_fnc = draw_alpha_uyvy; break; default: draw_alpha_fnc = draw_alpha_null; } if (vo_config_count) for (current_buf = 0; current_buf < num_buffers; ++current_buf) deallocate_xvimage(current_buf); for (current_buf = 0; current_buf < num_buffers; ++current_buf) allocate_xvimage(current_buf); current_buf = 0; current_ip_buf = 0; if ((flags & VOFLAG_FULLSCREEN) && WinID <= 0) vo_fs = 1; calc_drwXY(&drwX, &drwY); panscan_calc(); vo_xv_draw_colorkey(drwX - (vo_panscan_x >> 1), drwY - (vo_panscan_y >> 1), vo_dwidth + vo_panscan_x - 1, vo_dheight + vo_panscan_y - 1); mp_msg(MSGT_VO, MSGL_V, "[xv] dx: %d dy: %d dw: %d dh: %d\n", drwX, drwY, vo_dwidth, vo_dheight); return 0; } static void allocate_xvimage(int foo) { /* * allocate XvImages. FIXME: no error checking, without * mit-shm this will bomb... trzing to fix ::atmos */ #ifdef HAVE_SHM if (mLocalDisplay && XShmQueryExtension(mDisplay)) Shmem_Flag = 1; else { Shmem_Flag = 0; mp_msg(MSGT_VO, MSGL_INFO, MSGTR_LIBVO_XV_SharedMemoryNotSupported); } if (Shmem_Flag) { xvimage[foo] = (XvImage *) XvShmCreateImage(mDisplay, xv_port, xv_format, NULL, image_width, image_height, &Shminfo[foo]); Shminfo[foo].shmid = shmget(IPC_PRIVATE, xvimage[foo]->data_size, IPC_CREAT | 0777); Shminfo[foo].shmaddr = (char *) shmat(Shminfo[foo].shmid, 0, 0); Shminfo[foo].readOnly = False; xvimage[foo]->data = Shminfo[foo].shmaddr; XShmAttach(mDisplay, &Shminfo[foo]); XSync(mDisplay, False); shmctl(Shminfo[foo].shmid, IPC_RMID, 0); } else #endif { xvimage[foo] = (XvImage *) XvCreateImage(mDisplay, xv_port, xv_format, NULL, image_width, image_height); xvimage[foo]->data = malloc(xvimage[foo]->data_size); XSync(mDisplay, False); } memset(xvimage[foo]->data, 128, xvimage[foo]->data_size); return; } static void deallocate_xvimage(int foo) { #ifdef HAVE_SHM if (Shmem_Flag) { XShmDetach(mDisplay, &Shminfo[foo]); shmdt(Shminfo[foo].shmaddr); } else #endif { free(xvimage[foo]->data); } XFree(xvimage[foo]); XSync(mDisplay, False); return; } static inline void put_xvimage( XvImage * xvi ) { #ifdef HAVE_SHM if (Shmem_Flag) { XvShmPutImage(mDisplay, xv_port, vo_window, vo_gc, xvi, 0, 0, image_width, image_height, drwX - (vo_panscan_x >> 1), drwY - (vo_panscan_y >> 1), vo_dwidth + vo_panscan_x, vo_dheight + vo_panscan_y, False); } else #endif { XvPutImage(mDisplay, xv_port, vo_window, vo_gc, xvi, 0, 0, image_width, image_height, drwX - (vo_panscan_x >> 1), drwY - (vo_panscan_y >> 1), vo_dwidth + vo_panscan_x, vo_dheight + vo_panscan_y); } } static void check_events(void) { int e = vo_x11_check_events(mDisplay); if (e & VO_EVENT_RESIZE) { calc_drwXY(&drwX, &drwY); } if (e & VO_EVENT_EXPOSE || e & VO_EVENT_RESIZE) { vo_xv_draw_colorkey(drwX - (vo_panscan_x >> 1), drwY - (vo_panscan_y >> 1), vo_dwidth + vo_panscan_x - 1, vo_dheight + vo_panscan_y - 1); } if ((e & VO_EVENT_EXPOSE || e & VO_EVENT_RESIZE) && int_pause) { /* did we already draw a buffer */ if ( visible_buf != -1 ) { /* redraw the last visible buffer */ put_xvimage( xvimage[visible_buf] ); } } } static void draw_osd(void) { vo_draw_text(image_width - image_width * vo_panscan_x / (vo_dwidth + vo_panscan_x), image_height, draw_alpha_fnc); } static void flip_page(void) { put_xvimage( xvimage[current_buf] ); /* remember the currently visible buffer */ visible_buf = current_buf; if (num_buffers > 1) { current_buf = vo_directrendering ? 0 : ((current_buf + 1) % num_buffers); XFlush(mDisplay); } else XSync(mDisplay, False); return; } static int draw_slice(uint8_t * image[], int stride[], int w, int h, int x, int y) { uint8_t *dst; dst = xvimage[current_buf]->data + xvimage[current_buf]->offsets[0] + xvimage[current_buf]->pitches[0] * y + x; memcpy_pic(dst, image[0], w, h, xvimage[current_buf]->pitches[0], stride[0]); x /= 2; y /= 2; w /= 2; h /= 2; dst = xvimage[current_buf]->data + xvimage[current_buf]->offsets[1] + xvimage[current_buf]->pitches[1] * y + x; if (image_format != IMGFMT_YV12) memcpy_pic(dst, image[1], w, h, xvimage[current_buf]->pitches[1], stride[1]); else memcpy_pic(dst, image[2], w, h, xvimage[current_buf]->pitches[1], stride[2]); dst = xvimage[current_buf]->data + xvimage[current_buf]->offsets[2] + xvimage[current_buf]->pitches[2] * y + x; if (image_format == IMGFMT_YV12) memcpy_pic(dst, image[1], w, h, xvimage[current_buf]->pitches[1], stride[1]); else memcpy_pic(dst, image[2], w, h, xvimage[current_buf]->pitches[1], stride[2]); return 0; } static int draw_frame(uint8_t * src[]) { return VO_ERROR; } static uint32_t draw_image(mp_image_t * mpi) { if (mpi->flags & MP_IMGFLAG_DIRECT) { // direct rendering: current_buf = (int) (mpi->priv); // hack! return VO_TRUE; } if (mpi->flags & MP_IMGFLAG_DRAW_CALLBACK) return VO_TRUE; // done if (mpi->flags & MP_IMGFLAG_PLANAR) { draw_slice(mpi->planes, mpi->stride, mpi->w, mpi->h, 0, 0); return VO_TRUE; } if (mpi->flags & MP_IMGFLAG_YUV) { // packed YUV: memcpy_pic(xvimage[current_buf]->data + xvimage[current_buf]->offsets[0], mpi->planes[0], mpi->w * (mpi->bpp / 8), mpi->h, xvimage[current_buf]->pitches[0], mpi->stride[0]); return VO_TRUE; } return VO_FALSE; // not (yet) supported } static uint32_t get_image(mp_image_t * mpi) { int buf = current_buf; // we shouldn't change current_buf unless we do DR! if (mpi->type == MP_IMGTYPE_STATIC && num_buffers > 1) return VO_FALSE; // it is not static if (mpi->imgfmt != image_format) return VO_FALSE; // needs conversion :( // if(mpi->flags&MP_IMGFLAG_READABLE) return VO_FALSE; // slow video ram if (mpi->flags & MP_IMGFLAG_READABLE && (mpi->type == MP_IMGTYPE_IPB || mpi->type == MP_IMGTYPE_IP)) { // reference (I/P) frame of IP or IPB: if (num_buffers < 2) return VO_FALSE; // not enough current_ip_buf ^= 1; // for IPB with 2 buffers we can DR only one of the 2 P frames: if (mpi->type == MP_IMGTYPE_IPB && num_buffers < 3 && current_ip_buf) return VO_FALSE; buf = current_ip_buf; if (mpi->type == MP_IMGTYPE_IPB) ++buf; // preserve space for B } if (mpi->height > xvimage[buf]->height) return VO_FALSE; //buffer to small if (mpi->width * (mpi->bpp / 8) > xvimage[buf]->pitches[0]) return VO_FALSE; //buffer to small if ((mpi->flags & (MP_IMGFLAG_ACCEPT_STRIDE | MP_IMGFLAG_ACCEPT_WIDTH)) || (mpi->width * (mpi->bpp / 8) == xvimage[buf]->pitches[0])) { current_buf = buf; mpi->planes[0] = xvimage[current_buf]->data + xvimage[current_buf]->offsets[0]; mpi->stride[0] = xvimage[current_buf]->pitches[0]; mpi->width = mpi->stride[0] / (mpi->bpp / 8); if (mpi->flags & MP_IMGFLAG_PLANAR) { if (mpi->flags & MP_IMGFLAG_SWAPPED) { // I420 mpi->planes[1] = xvimage[current_buf]->data + xvimage[current_buf]->offsets[1]; mpi->planes[2] = xvimage[current_buf]->data + xvimage[current_buf]->offsets[2]; mpi->stride[1] = xvimage[current_buf]->pitches[1]; mpi->stride[2] = xvimage[current_buf]->pitches[2]; } else { // YV12 mpi->planes[1] = xvimage[current_buf]->data + xvimage[current_buf]->offsets[2]; mpi->planes[2] = xvimage[current_buf]->data + xvimage[current_buf]->offsets[1]; mpi->stride[1] = xvimage[current_buf]->pitches[2]; mpi->stride[2] = xvimage[current_buf]->pitches[1]; } } mpi->flags |= MP_IMGFLAG_DIRECT; mpi->priv = (void *) current_buf; // printf("mga: get_image() SUCCESS -> Direct Rendering ENABLED\n"); return VO_TRUE; } return VO_FALSE; } static int query_format(uint32_t format) { uint32_t i; int flag = VFCAP_CSP_SUPPORTED | VFCAP_CSP_SUPPORTED_BY_HW | VFCAP_HWSCALE_UP | VFCAP_HWSCALE_DOWN | VFCAP_OSD | VFCAP_ACCEPT_STRIDE; // FIXME! check for DOWN /* check image formats */ for (i = 0; i < formats; i++) { if (fo[i].id == format) return flag; //xv_format = fo[i].id; } return 0; } static void uninit(void) { int i; if (!vo_config_count) return; visible_buf = -1; XvFreeAdaptorInfo(ai); ai = NULL; if(fo){ XFree(fo); fo=NULL; } for (i = 0; i < num_buffers; i++) deallocate_xvimage(i); #ifdef CONFIG_XF86VM vo_vm_close(); #endif mp_input_rm_event_fd(ConnectionNumber(mDisplay)); vo_x11_uninit(); } static int preinit(const char *arg) { XvPortID xv_p; int busy_ports = 0; unsigned int i; strarg_t ck_src_arg = { 0, NULL }; strarg_t ck_method_arg = { 0, NULL }; int xv_adaptor = -1; opt_t subopts[] = { /* name arg type arg var test */ { "port", OPT_ARG_INT, &xv_port, (opt_test_f)int_pos }, { "adaptor", OPT_ARG_INT, &xv_adaptor, (opt_test_f)int_non_neg }, { "ck", OPT_ARG_STR, &ck_src_arg, xv_test_ck }, { "ck-method", OPT_ARG_STR, &ck_method_arg, xv_test_ckm }, { NULL } }; xv_port = 0; /* parse suboptions */ if ( subopt_parse( arg, subopts ) != 0 ) { return -1; } /* modify colorkey settings according to the given options */ xv_setup_colorkeyhandling( ck_method_arg.str, ck_src_arg.str ); if (!vo_init()) return -1; /* check for Xvideo extension */ if (Success != XvQueryExtension(mDisplay, &ver, &rel, &req, &ev, &err)) { mp_msg(MSGT_VO, MSGL_ERR, MSGTR_LIBVO_XV_XvNotSupportedByX11); return -1; } /* check for Xvideo support */ if (Success != XvQueryAdaptors(mDisplay, DefaultRootWindow(mDisplay), &adaptors, &ai)) { mp_msg(MSGT_VO, MSGL_ERR, MSGTR_LIBVO_XV_XvQueryAdaptorsFailed); return -1; } /* check adaptors */ if (xv_port) { int port_found; for (port_found = 0, i = 0; !port_found && i < adaptors; i++) { if ((ai[i].type & XvInputMask) && (ai[i].type & XvImageMask)) { for (xv_p = ai[i].base_id; xv_p < ai[i].base_id + ai[i].num_ports; ++xv_p) { if (xv_p == xv_port) { port_found = 1; break; } } } } if (port_found) { if (XvGrabPort(mDisplay, xv_port, CurrentTime)) xv_port = 0; } else { mp_msg(MSGT_VO, MSGL_WARN, MSGTR_LIBVO_XV_InvalidPortParameter); xv_port = 0; } } for (i = 0; i < adaptors && xv_port == 0; i++) { /* check if adaptor number has been specified */ if (xv_adaptor != -1 && xv_adaptor != i) continue; if ((ai[i].type & XvInputMask) && (ai[i].type & XvImageMask)) { for (xv_p = ai[i].base_id; xv_p < ai[i].base_id + ai[i].num_ports; ++xv_p) if (!XvGrabPort(mDisplay, xv_p, CurrentTime)) { xv_port = xv_p; mp_msg(MSGT_VO, MSGL_V, "[VO_XV] Using Xv Adapter #%d (%s)\n", i, ai[i].name); break; } else { mp_msg(MSGT_VO, MSGL_WARN, MSGTR_LIBVO_XV_CouldNotGrabPort, (int) xv_p); ++busy_ports; } } } if (!xv_port) { if (busy_ports) mp_msg(MSGT_VO, MSGL_ERR, MSGTR_LIBVO_XV_CouldNotFindFreePort); else mp_msg(MSGT_VO, MSGL_ERR, MSGTR_LIBVO_XV_NoXvideoSupport); return -1; } if ( !vo_xv_init_colorkey() ) { return -1; // bail out, colorkey setup failed } vo_xv_enable_vsync(); vo_xv_get_max_img_dim( &max_width, &max_height ); fo = XvListImageFormats(mDisplay, xv_port, (int *) &formats); mp_input_add_event_fd(ConnectionNumber(mDisplay), check_events); return 0; } static int control(uint32_t request, void *data, ...) { switch (request) { case VOCTRL_PAUSE: return int_pause = 1; case VOCTRL_RESUME: return int_pause = 0; case VOCTRL_QUERY_FORMAT: return query_format(*((uint32_t *) data)); case VOCTRL_GET_IMAGE: return get_image(data); case VOCTRL_DRAW_IMAGE: return draw_image(data); case VOCTRL_GUISUPPORT: return VO_TRUE; case VOCTRL_GET_PANSCAN: if (!vo_config_count || !vo_fs) return VO_FALSE; return VO_TRUE; case VOCTRL_FULLSCREEN: vo_x11_fullscreen(); /* indended, fallthrough to update panscan on fullscreen/windowed switch */ case VOCTRL_SET_PANSCAN: if ((vo_fs && (vo_panscan != vo_panscan_amount)) || (!vo_fs && vo_panscan_amount)) { int old_y = vo_panscan_y; panscan_calc(); if (old_y != vo_panscan_y) { vo_x11_clearwindow_part(mDisplay, vo_window, vo_dwidth + vo_panscan_x - 1, vo_dheight + vo_panscan_y - 1, 1); vo_xv_draw_colorkey(drwX - (vo_panscan_x >> 1), drwY - (vo_panscan_y >> 1), vo_dwidth + vo_panscan_x - 1, vo_dheight + vo_panscan_y - 1); flip_page(); } } return VO_TRUE; case VOCTRL_SET_EQUALIZER: { va_list ap; int value; va_start(ap, data); value = va_arg(ap, int); va_end(ap); return vo_xv_set_eq(xv_port, data, value); } case VOCTRL_GET_EQUALIZER: { va_list ap; int *value; va_start(ap, data); value = va_arg(ap, int *); va_end(ap); return vo_xv_get_eq(xv_port, data, value); } case VOCTRL_ONTOP: vo_x11_ontop(); return VO_TRUE; case VOCTRL_UPDATE_SCREENINFO: update_xinerama_info(); return VO_TRUE; } return VO_NOTIMPL; }