/*********************************************************** Copyright 1991 by Digital Equipment Corporation, Maynard, Massachusetts, and the Massachusetts Institute of Technology, Cambridge, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, 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 names of Digital or MIT not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL 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. ******************************************************************/ /* ** File: ** ** Xv.c --- Xv library extension module. ** ** Author: ** ** David Carver (Digital Workstation Engineering/Project Athena) ** ** Revisions: ** ** 26.06.91 Carver ** - changed XvFreeAdaptors to XvFreeAdaptorInfo ** - changed XvFreeEncodings to XvFreeEncodingInfo ** ** 11.06.91 Carver ** - changed SetPortControl to SetPortAttribute ** - changed GetPortControl to GetPortAttribute ** - changed QueryBestSize ** ** 15.05.91 Carver ** - version 2.0 upgrade ** ** 240.01.91 Carver ** - version 1.4 upgrade ** */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include "Xvlibint.h" #include #include #include #include static XExtensionInfo _xv_info_data; static XExtensionInfo *xv_info = &_xv_info_data; static const char *xv_extension_name = XvName; #define XvCheckExtension(dpy, i, val) \ XextCheckExtension(dpy, i, xv_extension_name, val) #define pad_to_int32(bytes) (((bytes) + 3) & ~3U) static char *xv_error_string(Display *dpy, int code, XExtCodes *codes, char *buf, int n); static int xv_close_display(Display *dpy, XExtCodes *codes); static Bool xv_wire_to_event(Display *dpy, XEvent *host, xEvent *wire); static XExtensionHooks xv_extension_hooks = { NULL, /* create_gc */ NULL, /* copy_gc */ NULL, /* flush_gc */ NULL, /* free_gc */ NULL, /* create_font */ NULL, /* free_font */ xv_close_display, /* close_display */ xv_wire_to_event, /* wire_to_event */ NULL, /* event_to_wire */ NULL, /* error */ xv_error_string /* error_string */ }; static const char *xv_error_list[] = { "BadPort", /* XvBadPort */ "BadEncoding", /* XvBadEncoding */ "BadControl" /* XvBadControl */ }; static XEXT_GENERATE_CLOSE_DISPLAY(xv_close_display, xv_info) static XEXT_GENERATE_FIND_DISPLAY(xv_find_display, xv_info, xv_extension_name, &xv_extension_hooks, XvNumEvents, NULL) static XEXT_GENERATE_ERROR_STRING(xv_error_string, xv_extension_name, XvNumErrors, xv_error_list) int XvQueryExtension( Display *dpy, unsigned int *p_version, unsigned int *p_revision, unsigned int *p_requestBase, unsigned int *p_eventBase, unsigned int *p_errorBase) { XExtDisplayInfo *info = xv_find_display(dpy); xvQueryExtensionReq *req; xvQueryExtensionReply rep; int status; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(QueryExtension, req); if (!_XReply(dpy, (xReply *) &rep, 0, xFalse)) { status = XvBadExtension; goto out; } *p_version = rep.version; *p_revision = rep.revision; *p_requestBase = info->codes->major_opcode; *p_eventBase = info->codes->first_event; *p_errorBase = info->codes->first_error; status = Success; out: UnlockDisplay(dpy); SyncHandle(); return status; } int XvQueryAdaptors( Display *dpy, Window window, unsigned int *p_nAdaptors, XvAdaptorInfo **p_pAdaptors) { XExtDisplayInfo *info = xv_find_display(dpy); xvQueryAdaptorsReq *req; xvQueryAdaptorsReply rep; size_t size; XvAdaptorInfo *pas = NULL, *pa; XvFormat *pfs, *pf; char *buffer = NULL; char *end; union { char *buffer; char *string; xvAdaptorInfo *pa; xvFormat *pf; } u; int status; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(QueryAdaptors, req); req->window = window; /* READ THE REPLY */ if (_XReply(dpy, (xReply *) &rep, 0, xFalse) == 0) { rep.num_adaptors = 0; status = XvBadReply; goto out; } size = rep.length << 2; if (size > 0) { if ((buffer = Xmalloc(size)) == NULL) { _XEatDataWords(dpy, rep.length); status = XvBadAlloc; goto out; } _XRead(dpy, buffer, (long) size); } /* GET INPUT ADAPTORS */ if (rep.num_adaptors == 0) { /* If there are no adaptors, there's nothing more to do. */ status = Success; goto out; } u.buffer = buffer; end = buffer + size; size = rep.num_adaptors * sizeof(XvAdaptorInfo); if ((pas = Xmalloc(size)) == NULL) { status = XvBadAlloc; goto out; } /* INIT ADAPTOR FIELDS */ pa = pas; for (unsigned int ii = 0; ii < rep.num_adaptors; ii++) { pa->num_adaptors = 0; pa->name = (char *) NULL; pa->formats = (XvFormat *) NULL; pa++; } pa = pas; for (unsigned int ii = 0; ii < rep.num_adaptors; ii++) { char *name; if (u.buffer + sz_xvAdaptorInfo > end) { status = XvBadReply; goto out; } pa->type = u.pa->type; pa->base_id = u.pa->base_id; pa->num_ports = u.pa->num_ports; pa->num_formats = u.pa->num_formats; pa->num_adaptors = rep.num_adaptors - ii; /* GET ADAPTOR NAME */ size = u.pa->name_size; u.buffer += pad_to_int32(sz_xvAdaptorInfo); if (u.buffer + size > end) { status = XvBadReply; goto out; } if ((name = Xmalloc(size + 1)) == NULL) { status = XvBadAlloc; goto out; } (void) strncpy(name, u.string, size); name[size] = '\0'; pa->name = name; u.buffer += pad_to_int32(size); /* GET FORMATS */ size = pa->num_formats * sizeof(XvFormat); if ((pfs = Xmalloc(size)) == NULL) { status = XvBadAlloc; goto out; } pf = pfs; for (unsigned int jj = 0; jj < pa->num_formats; jj++) { if (u.buffer + sz_xvFormat > end) { Xfree(pfs); status = XvBadReply; goto out; } pf->depth = u.pf->depth; pf->visual_id = u.pf->visual; pf++; u.buffer += pad_to_int32(sz_xvFormat); } pa->formats = pfs; pa++; } status = Success; out: if (status != Success) { XvFreeAdaptorInfo(pas); pas = NULL; } *p_nAdaptors = rep.num_adaptors; *p_pAdaptors = pas; Xfree(buffer); UnlockDisplay(dpy); SyncHandle(); return status; } void XvFreeAdaptorInfo(XvAdaptorInfo *pAdaptors) { XvAdaptorInfo *pa; if (!pAdaptors) return; pa = pAdaptors; for (unsigned int ii = 0; ii < pAdaptors->num_adaptors; ii++, pa++) { if (pa->name) { Xfree(pa->name); } if (pa->formats) { Xfree(pa->formats); } } Xfree(pAdaptors); } int XvQueryEncodings( Display *dpy, XvPortID port, unsigned int *p_nEncodings, XvEncodingInfo ** p_pEncodings) { XExtDisplayInfo *info = xv_find_display(dpy); xvQueryEncodingsReq *req; xvQueryEncodingsReply rep; size_t size; XvEncodingInfo *pes = NULL, *pe; char *buffer = NULL; char *end; union { char *buffer; char *string; xvEncodingInfo *pe; } u; int status; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(QueryEncodings, req); req->port = port; /* READ THE REPLY */ if (_XReply(dpy, (xReply *) &rep, 0, xFalse) == 0) { rep.num_encodings = 0; status = XvBadReply; goto out; } size = rep.length << 2; if (size > 0) { if ((buffer = Xmalloc(size)) == NULL) { _XEatDataWords(dpy, rep.length); status = XvBadAlloc; goto out; } _XRead(dpy, buffer, (long) size); } /* GET ENCODINGS */ if (rep.num_encodings == 0) { /* If there are no encodings, there's nothing more to do. */ status = Success; goto out; } u.buffer = buffer; end = buffer + size; size = rep.num_encodings * sizeof(XvEncodingInfo); if ((pes = Xmalloc(size)) == NULL) { status = XvBadAlloc; goto out; } /* INITIALIZE THE ENCODING POINTER */ pe = pes; for (unsigned int jj = 0; jj < rep.num_encodings; jj++) { pe->name = (char *) NULL; pe->num_encodings = 0; pe++; } pe = pes; for (unsigned int jj = 0; jj < rep.num_encodings; jj++) { char *name; if (u.buffer + sz_xvEncodingInfo > end) { status = XvBadReply; goto out; } pe->encoding_id = u.pe->encoding; pe->width = u.pe->width; pe->height = u.pe->height; pe->rate.numerator = u.pe->rate.numerator; pe->rate.denominator = u.pe->rate.denominator; pe->num_encodings = rep.num_encodings - jj; size = u.pe->name_size; u.buffer += pad_to_int32(sz_xvEncodingInfo); if (u.buffer + size > end) { status = XvBadReply; goto out; } if ((name = Xmalloc(size + 1)) == NULL) { status = XvBadAlloc; goto out; } strncpy(name, u.string, size); name[size] = '\0'; pe->name = name; pe++; u.buffer += pad_to_int32(size); } status = Success; out: if (status != Success) { XvFreeEncodingInfo(pes); pes = NULL; } *p_nEncodings = rep.num_encodings; *p_pEncodings = pes; Xfree(buffer); UnlockDisplay(dpy); SyncHandle(); return (Success); } void XvFreeEncodingInfo(XvEncodingInfo *pEncodings) { XvEncodingInfo *pe; if (!pEncodings) return; pe = pEncodings; for (unsigned long ii = 0; ii < pEncodings->num_encodings; ii++, pe++) { if (pe->name) Xfree(pe->name); } Xfree(pEncodings); } int XvPutVideo( Display *dpy, XvPortID port, Drawable d, GC gc, int vx, int vy, unsigned int vw, unsigned int vh, int dx, int dy, unsigned int dw, unsigned int dh) { XExtDisplayInfo *info = xv_find_display(dpy); xvPutVideoReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); FlushGC(dpy, gc); XvGetReq(PutVideo, req); req->port = port; req->drawable = d; req->gc = gc->gid; req->vid_x = vx; req->vid_y = vy; req->vid_w = vw; req->vid_h = vh; req->drw_x = dx; req->drw_y = dy; req->drw_w = dw; req->drw_h = dh; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvPutStill( Display *dpy, XvPortID port, Drawable d, GC gc, int vx, int vy, unsigned int vw, unsigned int vh, int dx, int dy, unsigned int dw, unsigned int dh) { XExtDisplayInfo *info = xv_find_display(dpy); xvPutStillReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); FlushGC(dpy, gc); XvGetReq(PutStill, req); req->port = port; req->drawable = d; req->gc = gc->gid; req->vid_x = vx; req->vid_y = vy; req->vid_w = vw; req->vid_h = vh; req->drw_x = dx; req->drw_y = dy; req->drw_w = dw; req->drw_h = dh; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvGetVideo( Display *dpy, XvPortID port, Drawable d, GC gc, int vx, int vy, unsigned int vw, unsigned int vh, int dx, int dy, unsigned int dw, unsigned int dh) { XExtDisplayInfo *info = xv_find_display(dpy); xvGetVideoReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); FlushGC(dpy, gc); XvGetReq(GetVideo, req); req->port = port; req->drawable = d; req->gc = gc->gid; req->vid_x = vx; req->vid_y = vy; req->vid_w = vw; req->vid_h = vh; req->drw_x = dx; req->drw_y = dy; req->drw_w = dw; req->drw_h = dh; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvGetStill( Display *dpy, XvPortID port, Drawable d, GC gc, int vx, int vy, unsigned int vw, unsigned int vh, int dx, int dy, unsigned int dw, unsigned int dh) { XExtDisplayInfo *info = xv_find_display(dpy); xvGetStillReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); FlushGC(dpy, gc); XvGetReq(GetStill, req); req->port = port; req->drawable = d; req->gc = gc->gid; req->vid_x = vx; req->vid_y = vy; req->vid_w = vw; req->vid_h = vh; req->drw_x = dx; req->drw_y = dy; req->drw_w = dw; req->drw_h = dh; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvStopVideo(Display *dpy, XvPortID port, Drawable draw) { XExtDisplayInfo *info = xv_find_display(dpy); xvStopVideoReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(StopVideo, req); req->port = port; req->drawable = draw; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvGrabPort(Display *dpy, XvPortID port, Time time) { XExtDisplayInfo *info = xv_find_display(dpy); int result; xvGrabPortReply rep; xvGrabPortReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(GrabPort, req); req->port = port; req->time = time; if (_XReply(dpy, (xReply *) &rep, 0, xTrue) == 0) rep.result = GrabSuccess; result = rep.result; UnlockDisplay(dpy); SyncHandle(); return result; } int XvUngrabPort(Display *dpy, XvPortID port, Time time) { XExtDisplayInfo *info = xv_find_display(dpy); xvUngrabPortReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(UngrabPort, req); req->port = port; req->time = time; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvSelectVideoNotify(Display *dpy, Drawable drawable, Bool onoff) { XExtDisplayInfo *info = xv_find_display(dpy); xvSelectVideoNotifyReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(SelectVideoNotify, req); req->drawable = drawable; req->onoff = onoff; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvSelectPortNotify(Display *dpy, XvPortID port, Bool onoff) { XExtDisplayInfo *info = xv_find_display(dpy); xvSelectPortNotifyReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(SelectPortNotify, req); req->port = port; req->onoff = onoff; UnlockDisplay(dpy); SyncHandle(); return Success; } int XvSetPortAttribute(Display *dpy, XvPortID port, Atom attribute, int value) { XExtDisplayInfo *info = xv_find_display(dpy); xvSetPortAttributeReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(SetPortAttribute, req); req->port = port; req->attribute = attribute; req->value = value; UnlockDisplay(dpy); SyncHandle(); return (Success); } int XvGetPortAttribute(Display *dpy, XvPortID port, Atom attribute, int *p_value) { XExtDisplayInfo *info = xv_find_display(dpy); xvGetPortAttributeReq *req; xvGetPortAttributeReply rep; int status; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(GetPortAttribute, req); req->port = port; req->attribute = attribute; /* READ THE REPLY */ if (_XReply(dpy, (xReply *) &rep, 0, xFalse) == 0) { status = XvBadReply; } else { *p_value = rep.value; status = Success; } UnlockDisplay(dpy); SyncHandle(); return status; } int XvQueryBestSize( Display *dpy, XvPortID port, Bool motion, unsigned int vid_w, unsigned int vid_h, unsigned int drw_w, unsigned int drw_h, unsigned int *p_actual_width, unsigned int *p_actual_height) { XExtDisplayInfo *info = xv_find_display(dpy); xvQueryBestSizeReq *req; xvQueryBestSizeReply rep; int status; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); XvGetReq(QueryBestSize, req); req->port = port; req->motion = motion; req->vid_w = vid_w; req->vid_h = vid_h; req->drw_w = drw_w; req->drw_h = drw_h; /* READ THE REPLY */ if (_XReply(dpy, (xReply *) &rep, 0, xFalse) == 0) { status = XvBadReply; } else { *p_actual_width = rep.actual_width; *p_actual_height = rep.actual_height; status = Success; } UnlockDisplay(dpy); SyncHandle(); return status; } XvAttribute * XvQueryPortAttributes(Display *dpy, XvPortID port, int *num) { XExtDisplayInfo *info = xv_find_display(dpy); xvQueryPortAttributesReq *req; xvQueryPortAttributesReply rep; XvAttribute *ret = NULL; *num = 0; XvCheckExtension(dpy, info, NULL); LockDisplay(dpy); XvGetReq(QueryPortAttributes, req); req->port = port; /* READ THE REPLY */ if (_XReply(dpy, (xReply *) &rep, 0, xFalse) == 0) { goto out; } /* * X server sends data packed as: * attribute1, name1, attribute2, name2, ... * We allocate a single buffer large enough to hold them all and * then de-interleave the data so we return it to clients as: * attribute1, attribute2, ..., name1, name2, ... * so that clients may refer to attributes as a simple array of * structs: attributes[0], attributes[1], ... * and free it as a single/simple buffer. */ if (rep.num_attributes) { /* limit each part to no more than one half the max size */ if ((rep.num_attributes < ((INT_MAX / 2) / sizeof(XvAttribute))) && (rep.text_size < (INT_MAX / 2) - 1)) { unsigned long size; size = (rep.num_attributes * sizeof(XvAttribute)) + rep.text_size + 1; ret = Xmalloc(size); } if (ret != NULL) { char *marker = (char *) (&ret[rep.num_attributes]); xvAttributeInfo Info; /* keep track of remaining room for text strings */ unsigned long size = rep.text_size; for (unsigned int i = 0; i < rep.num_attributes; i++) { _XRead(dpy, (char *) (&Info), sz_xvAttributeInfo); ret[i].flags = (int) Info.flags; ret[i].min_value = Info.min; ret[i].max_value = Info.max; ret[i].name = marker; if (Info.size <= size) { _XRead(dpy, marker, Info.size); marker += Info.size; size -= Info.size; } (*num)++; } /* ensure final string is nil-terminated to avoid exposure of uninitialized memory */ *marker = '\0'; } else _XEatDataWords(dpy, rep.length); } out: UnlockDisplay(dpy); SyncHandle(); return ret; } XvImageFormatValues * XvListImageFormats(Display *dpy, XvPortID port, int *num) { XExtDisplayInfo *info = xv_find_display(dpy); xvListImageFormatsReq *req; xvListImageFormatsReply rep; XvImageFormatValues *ret = NULL; *num = 0; XvCheckExtension(dpy, info, NULL); LockDisplay(dpy); XvGetReq(ListImageFormats, req); req->port = port; /* READ THE REPLY */ if (_XReply(dpy, (xReply *) &rep, 0, xFalse) == 0) { goto out; } if (rep.num_formats) { if (rep.num_formats < (INT_MAX / sizeof(XvImageFormatValues))) ret = Xmalloc(rep.num_formats * sizeof(XvImageFormatValues)); if (ret != NULL) { for (unsigned int i = 0; i < rep.num_formats; i++) { xvImageFormatInfo Info; _XRead(dpy, (char *) (&Info), sz_xvImageFormatInfo); ret[i].id = Info.id; ret[i].type = Info.type; ret[i].byte_order = Info.byte_order; memcpy(&(ret[i].guid[0]), &(Info.guid[0]), 16); ret[i].bits_per_pixel = Info.bpp; ret[i].format = Info.format; ret[i].num_planes = Info.num_planes; ret[i].depth = Info.depth; ret[i].red_mask = Info.red_mask; ret[i].green_mask = Info.green_mask; ret[i].blue_mask = Info.blue_mask; ret[i].y_sample_bits = Info.y_sample_bits; ret[i].u_sample_bits = Info.u_sample_bits; ret[i].v_sample_bits = Info.v_sample_bits; ret[i].horz_y_period = Info.horz_y_period; ret[i].horz_u_period = Info.horz_u_period; ret[i].horz_v_period = Info.horz_v_period; ret[i].vert_y_period = Info.vert_y_period; ret[i].vert_u_period = Info.vert_u_period; ret[i].vert_v_period = Info.vert_v_period; memcpy(&(ret[i].component_order[0]), &(Info.comp_order[0]), 32); ret[i].scanline_order = Info.scanline_order; (*num)++; } } else _XEatDataWords(dpy, rep.length); } out: UnlockDisplay(dpy); SyncHandle(); return ret; } XvImage * XvCreateImage( Display *dpy, XvPortID port, int id, char *data, int width, int height) { XExtDisplayInfo *info = xv_find_display(dpy); xvQueryImageAttributesReq *req; xvQueryImageAttributesReply rep; XvImage *ret = NULL; XvCheckExtension(dpy, info, NULL); LockDisplay(dpy); XvGetReq(QueryImageAttributes, req); req->id = id; req->port = port; req->width = width; req->height = height; /* READ THE REPLY */ if (!_XReply(dpy, (xReply *) &rep, 0, xFalse)) { goto out; } if (rep.num_planes < ((INT_MAX >> 3) - sizeof(XvImage))) ret = Xmalloc(sizeof(XvImage) + (rep.num_planes << 3)); if (ret != NULL) { ret->id = id; ret->width = rep.width; ret->height = rep.height; ret->data_size = rep.data_size; ret->num_planes = rep.num_planes; ret->pitches = (int *) (&ret[1]); ret->offsets = ret->pitches + rep.num_planes; ret->data = data; ret->obdata = NULL; _XRead(dpy, (char *) (ret->pitches), rep.num_planes << 2); _XRead(dpy, (char *) (ret->offsets), rep.num_planes << 2); } else _XEatDataWords(dpy, rep.length); out: UnlockDisplay(dpy); SyncHandle(); return ret; } XvImage * XvShmCreateImage( Display *dpy, XvPortID port, int id, char *data, int width, int height, XShmSegmentInfo *shminfo) { XvImage *ret; ret = XvCreateImage(dpy, port, id, data, width, height); if (ret) ret->obdata = (XPointer) shminfo; return ret; } int XvPutImage( Display *dpy, XvPortID port, Drawable d, GC gc, XvImage *image, int src_x, int src_y, unsigned int src_w, unsigned int src_h, int dest_x, int dest_y, unsigned int dest_w, unsigned int dest_h) { XExtDisplayInfo *info = xv_find_display(dpy); xvPutImageReq *req; unsigned int len; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); FlushGC(dpy, gc); XvGetReq(PutImage, req); req->port = port; req->drawable = d; req->gc = gc->gid; req->id = image->id; req->src_x = src_x; req->src_y = src_y; req->src_w = src_w; req->src_h = src_h; req->drw_x = dest_x; req->drw_y = dest_y; req->drw_w = dest_w; req->drw_h = dest_h; req->width = image->width; req->height = image->height; len = ((unsigned int) image->data_size + 3) >> 2; SetReqLen(req, len, len); /* Yes it's kindof lame that we are sending the whole thing, but for video all of it may be needed even if displaying only a subsection, and I don't want to go through the trouble of creating subregions to send */ Data(dpy, (char *) image->data, image->data_size); UnlockDisplay(dpy); SyncHandle(); return Success; } int XvShmPutImage( Display *dpy, XvPortID port, Drawable d, GC gc, XvImage *image, int src_x, int src_y, unsigned int src_w, unsigned int src_h, int dest_x, int dest_y, unsigned int dest_w, unsigned int dest_h, Bool send_event) { XExtDisplayInfo *info = xv_find_display(dpy); XShmSegmentInfo *shminfo = (XShmSegmentInfo *) image->obdata; xvShmPutImageReq *req; XvCheckExtension(dpy, info, XvBadExtension); LockDisplay(dpy); FlushGC(dpy, gc); XvGetReq(ShmPutImage, req); req->port = port; req->drawable = d; req->gc = gc->gid; req->shmseg = shminfo->shmseg; req->id = image->id; req->src_x = src_x; req->src_y = src_y; req->src_w = src_w; req->src_h = src_h; req->drw_x = dest_x; req->drw_y = dest_y; req->drw_w = dest_w; req->drw_h = dest_h; req->offset = image->data - shminfo->shmaddr; req->width = image->width; req->height = image->height; req->send_event = send_event; UnlockDisplay(dpy); SyncHandle(); return Success; } static Bool xv_wire_to_event(Display *dpy, XEvent *host, xEvent *wire) { XExtDisplayInfo *info = xv_find_display(dpy); XvEvent *re = (XvEvent *) host; xvEvent *event = (xvEvent *) wire; XvCheckExtension(dpy, info, False); switch ((event->u.u.type & 0x7F) - info->codes->first_event) { case XvVideoNotify: re->xvvideo.type = event->u.u.type & 0x7f; re->xvvideo.serial = _XSetLastRequestRead(dpy, (xGenericReply *) event); re->xvvideo.send_event = ((event->u.u.type & 0x80) != 0); re->xvvideo.display = dpy; re->xvvideo.time = event->u.videoNotify.time; re->xvvideo.reason = event->u.videoNotify.reason; re->xvvideo.drawable = event->u.videoNotify.drawable; re->xvvideo.port_id = event->u.videoNotify.port; break; case XvPortNotify: re->xvport.type = event->u.u.type & 0x7f; re->xvport.serial = _XSetLastRequestRead(dpy, (xGenericReply *) event); re->xvport.send_event = ((event->u.u.type & 0x80) != 0); re->xvport.display = dpy; re->xvport.time = event->u.portNotify.time; re->xvport.port_id = event->u.portNotify.port; re->xvport.attribute = event->u.portNotify.attribute; re->xvport.value = event->u.portNotify.value; break; default: return False; } return (True); }