/* Copyright (c) 1995 Jon Tombs Copyright (c) 1995,1996 The XFree86 Project, Inc */ /* THIS IS NOT AN X CONSORTIUM STANDARD */ #ifdef HAVE_CONFIG_H #include #endif #ifdef __UNIXOS2__ /* needed here to override certain constants in X headers */ #define INCL_DOS #define INCL_DOSIOCTL #define I_NEED_OS2_H #include #endif #include #include #include #include #include #include #include #include #ifndef HAVE__XEATDATAWORDS static inline void _XEatDataWords(Display *dpy, unsigned long n) { # ifndef LONG64 if (n >= (ULONG_MAX >> 2)) _XIOError(dpy); # endif _XEatData (dpy, n << 2); } #endif /* If you change this, change the Bases[] array below as well */ #define MAX_HEADS 16 const char *xdga_extension_name = XF86DGANAME; static XExtensionInfo _xdga_info_data; static XExtensionInfo *xdga_info = &_xdga_info_data; Bool XDGAMapFramebuffer(int, char *, unsigned char*, CARD32, CARD32, CARD32); void XDGAUnmapFramebuffer(int); unsigned char* XDGAGetMappedMemory(int); #define XDGACheckExtension(dpy,i,val) \ XextCheckExtension (dpy, i, xdga_extension_name, val) /***************************************************************************** * * * private utility routines * * * *****************************************************************************/ static int xdga_close_display(Display *dpy, XExtCodes *codes); static Bool xdga_wire_to_event(Display *dpy, XEvent *event, xEvent *wire_ev); static Status xdga_event_to_wire(Display *dpy, XEvent *event, xEvent *wire_ev); static XExtensionHooks xdga_extension_hooks = { NULL, /* create_gc */ NULL, /* copy_gc */ NULL, /* flush_gc */ NULL, /* free_gc */ NULL, /* create_font */ NULL, /* free_font */ xdga_close_display, /* close_display */ xdga_wire_to_event, /* wire_to_event */ xdga_event_to_wire, /* event_to_wire */ NULL, /* error */ NULL, /* error_string */ }; static XEXT_GENERATE_CLOSE_DISPLAY (xdga_close_display, xdga_info) XExtDisplayInfo* xdga_find_display(Display*); XEXT_GENERATE_FIND_DISPLAY (xdga_find_display, xdga_info, "XFree86-DGA", &xdga_extension_hooks, 0, NULL) static Status xdga_event_to_wire( Display *dpy, XEvent *event, xEvent *wire_ev ){ return True; } static Bool xdga_wire_to_event( Display *dpy, XEvent *event, xEvent *wire_ev ){ dgaEvent *wire = (dgaEvent *) wire_ev; XDGAButtonEvent *bevent; XDGAKeyEvent *kevent; XDGAMotionEvent *mevent; XExtDisplayInfo *info = xdga_find_display (dpy); XDGACheckExtension (dpy, info, False); switch((wire->u.u.type & 0x7f) - info->codes->first_event) { case MotionNotify: mevent = (XDGAMotionEvent*)event; mevent->type = wire->u.u.type & 0x7F; mevent->serial = _XSetLastRequestRead(dpy, (xGenericReply *)wire); mevent->display = dpy; mevent->screen = wire->u.event.screen; mevent->time = wire->u.event.time; mevent->state = wire->u.event.state; mevent->dx = wire->u.event.dx; mevent->dy = wire->u.event.dy; return True; case ButtonPress: case ButtonRelease: bevent = (XDGAButtonEvent*)event; bevent->type = wire->u.u.type & 0x7F; bevent->serial = _XSetLastRequestRead(dpy, (xGenericReply *)wire); bevent->display = dpy; bevent->screen = wire->u.event.screen; bevent->time = wire->u.event.time; bevent->state = wire->u.event.state; bevent->button = wire->u.u.detail; return True; case KeyPress: case KeyRelease: kevent = (XDGAKeyEvent*)event; kevent->type = wire->u.u.type & 0x7F; kevent->serial = _XSetLastRequestRead(dpy, (xGenericReply *)wire); kevent->display = dpy; kevent->screen = wire->u.event.screen; kevent->time = wire->u.event.time; kevent->state = wire->u.event.state; kevent->keycode = wire->u.u.detail; return True; } return False; } Bool XDGAQueryExtension ( Display *dpy, int *event_basep, int *error_basep ){ XExtDisplayInfo *info = xdga_find_display (dpy); if (XextHasExtension(info)) { *event_basep = info->codes->first_event; *error_basep = info->codes->first_error; return True; } else { return False; } } Bool XDGAQueryVersion( Display *dpy, int *majorVersion, int *minorVersion ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGAQueryVersionReply rep; xXDGAQueryVersionReq *req; XDGACheckExtension (dpy, info, False); LockDisplay(dpy); GetReq(XDGAQueryVersion, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGAQueryVersion; if (!_XReply(dpy, (xReply *)&rep, 0, xFalse)) { UnlockDisplay(dpy); SyncHandle(); return False; } *majorVersion = rep.majorVersion; *minorVersion = rep.minorVersion; UnlockDisplay(dpy); SyncHandle(); if (*majorVersion >= 2) { int i, j; for (i = 0, j = info->codes->first_event; i < XF86DGANumberEvents; i++, j++) { XESetWireToEvent (dpy, j, xdga_wire_to_event); XESetEventToWire (dpy, j, xdga_event_to_wire); } XDGASetClientVersion(dpy); } return True; } Bool XDGASetClientVersion( Display *dpy ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGASetClientVersionReq *req; XDGACheckExtension (dpy, info, False); LockDisplay(dpy); GetReq(XDGASetClientVersion, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGASetClientVersion; req->major = XDGA_MAJOR_VERSION; req->minor = XDGA_MINOR_VERSION; UnlockDisplay(dpy); SyncHandle(); return True; } Bool XDGAOpenFramebuffer( Display *dpy, int screen ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGAOpenFramebufferReply rep; xXDGAOpenFramebufferReq *req; char *deviceName = NULL; Bool ret; XDGACheckExtension (dpy, info, False); LockDisplay(dpy); GetReq(XDGAOpenFramebuffer, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGAOpenFramebuffer; req->screen = screen; if (!_XReply(dpy, (xReply *)&rep, 0, xFalse)) { UnlockDisplay(dpy); SyncHandle(); return False; } if(rep.length) { deviceName = Xmalloc(rep.length << 2); _XRead(dpy, deviceName, rep.length << 2); } ret = XDGAMapFramebuffer(screen, deviceName, (unsigned char*)(long)rep.mem1, rep.size, rep.offset, rep.extra); if(deviceName) Xfree(deviceName); UnlockDisplay(dpy); SyncHandle(); return ret; } void XDGACloseFramebuffer( Display *dpy, int screen ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGACloseFramebufferReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); XDGAUnmapFramebuffer(screen); LockDisplay(dpy); GetReq(XDGACloseFramebuffer, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGACloseFramebuffer; req->screen = screen; UnlockDisplay(dpy); SyncHandle(); } XDGAMode* XDGAQueryModes( Display *dpy, int screen, int *num ){ XExtDisplayInfo *dinfo = xdga_find_display (dpy); xXDGAQueryModesReply rep; xXDGAQueryModesReq *req; XDGAMode *modes = NULL; *num = 0; XDGACheckExtension (dpy, dinfo, NULL); LockDisplay(dpy); GetReq(XDGAQueryModes, req); req->reqType = dinfo->codes->major_opcode; req->dgaReqType = X_XDGAQueryModes; req->screen = screen; if (_XReply(dpy, (xReply *)&rep, 0, xFalse)) { if(rep.length) { xXDGAModeInfo info; int i, size; char *offset; size = rep.length << 2; size -= rep.number * sz_xXDGAModeInfo; /* find text size */ modes = (XDGAMode*)Xmalloc((rep.number * sizeof(XDGAMode)) + size); offset = (char*)(&modes[rep.number]); /* start of text */ if(modes) { for(i = 0; i < rep.number; i++) { _XRead(dpy, (char*)(&info), sz_xXDGAModeInfo); modes[i].num = info.num; modes[i].verticalRefresh = (float)info.vsync_num / (float)info.vsync_den; modes[i].flags = info.flags; modes[i].imageWidth = info.image_width; modes[i].imageHeight = info.image_height; modes[i].pixmapWidth = info.pixmap_width; modes[i].pixmapHeight = info.pixmap_height; modes[i].bytesPerScanline = info.bytes_per_scanline; modes[i].byteOrder = info.byte_order; modes[i].depth = info.depth; modes[i].bitsPerPixel = info.bpp; modes[i].redMask = info.red_mask; modes[i].greenMask = info.green_mask; modes[i].blueMask = info.blue_mask; modes[i].visualClass = info.visual_class; modes[i].viewportWidth = info.viewport_width; modes[i].viewportHeight = info.viewport_height; modes[i].xViewportStep = info.viewport_xstep; modes[i].yViewportStep = info.viewport_ystep; modes[i].maxViewportX = info.viewport_xmax; modes[i].maxViewportY = info.viewport_ymax; modes[i].viewportFlags = info.viewport_flags; modes[i].reserved1 = info.reserved1; modes[i].reserved2 = info.reserved2; _XRead(dpy, offset, info.name_size); modes[i].name = offset; offset += info.name_size; } *num = rep.number; } else _XEatDataWords(dpy, rep.length); } } UnlockDisplay(dpy); SyncHandle(); return modes; } XDGADevice * XDGASetMode( Display *dpy, int screen, int mode ){ XExtDisplayInfo *dinfo = xdga_find_display (dpy); xXDGASetModeReply rep; xXDGASetModeReq *req; XDGADevice *dev = NULL; Pixmap pid; XDGACheckExtension (dpy, dinfo, NULL); LockDisplay(dpy); GetReq(XDGASetMode, req); req->reqType = dinfo->codes->major_opcode; req->dgaReqType = X_XDGASetMode; req->screen = screen; req->mode = mode; req->pid = pid = XAllocID(dpy); if (_XReply(dpy, (xReply *)&rep, 0, xFalse)) { if(rep.length) { xXDGAModeInfo info; int size; size = rep.length << 2; size -= sz_xXDGAModeInfo; /* get text size */ dev = (XDGADevice*)Xmalloc(sizeof(XDGADevice) + size); if(dev) { _XRead(dpy, (char*)(&info), sz_xXDGAModeInfo); dev->mode.num = info.num; dev->mode.verticalRefresh = (float)info.vsync_num / (float)info.vsync_den; dev->mode.flags = info.flags; dev->mode.imageWidth = info.image_width; dev->mode.imageHeight = info.image_height; dev->mode.pixmapWidth = info.pixmap_width; dev->mode.pixmapHeight = info.pixmap_height; dev->mode.bytesPerScanline = info.bytes_per_scanline; dev->mode.byteOrder = info.byte_order; dev->mode.depth = info.depth; dev->mode.bitsPerPixel = info.bpp; dev->mode.redMask = info.red_mask; dev->mode.greenMask = info.green_mask; dev->mode.blueMask = info.blue_mask; dev->mode.visualClass = info.visual_class; dev->mode.viewportWidth = info.viewport_width; dev->mode.viewportHeight = info.viewport_height; dev->mode.xViewportStep = info.viewport_xstep; dev->mode.yViewportStep = info.viewport_ystep; dev->mode.maxViewportX = info.viewport_xmax; dev->mode.maxViewportY = info.viewport_ymax; dev->mode.viewportFlags = info.viewport_flags; dev->mode.reserved1 = info.reserved1; dev->mode.reserved2 = info.reserved2; dev->mode.name = (char*)(&dev[1]); _XRead(dpy, dev->mode.name, info.name_size); dev->pixmap = (rep.flags & XDGAPixmap) ? pid : 0; dev->data = XDGAGetMappedMemory(screen); if(dev->data) dev->data += rep.offset; } /* not sure what to do if the allocation fails */ } } UnlockDisplay(dpy); SyncHandle(); return dev; } void XDGASetViewport( Display *dpy, int screen, int x, int y, int flags ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGASetViewportReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGASetViewport, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGASetViewport; req->screen = screen; req->x = x; req->y = y; req->flags = flags; UnlockDisplay(dpy); SyncHandle(); } void XDGAInstallColormap( Display *dpy, int screen, Colormap cmap ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGAInstallColormapReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGAInstallColormap, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGAInstallColormap; req->screen = screen; req->cmap = cmap; UnlockDisplay(dpy); SyncHandle(); } void XDGASelectInput( Display *dpy, int screen, long mask ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGASelectInputReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGASelectInput, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGASelectInput; req->screen = screen; req->mask = mask; UnlockDisplay(dpy); SyncHandle(); } void XDGAFillRectangle( Display *dpy, int screen, int x, int y, unsigned int width, unsigned int height, unsigned long color ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGAFillRectangleReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGAFillRectangle, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGAFillRectangle; req->screen = screen; req->x = x; req->y = y; req->width = width; req->height = height; req->color = color; UnlockDisplay(dpy); SyncHandle(); } void XDGACopyArea( Display *dpy, int screen, int srcx, int srcy, unsigned int width, unsigned int height, int dstx, int dsty ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGACopyAreaReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGACopyArea, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGACopyArea; req->screen = screen; req->srcx = srcx; req->srcy = srcy; req->width = width; req->height = height; req->dstx = dstx; req->dsty = dsty; UnlockDisplay(dpy); SyncHandle(); } void XDGACopyTransparentArea( Display *dpy, int screen, int srcx, int srcy, unsigned int width, unsigned int height, int dstx, int dsty, unsigned long key ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGACopyTransparentAreaReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGACopyTransparentArea, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGACopyTransparentArea; req->screen = screen; req->srcx = srcx; req->srcy = srcy; req->width = width; req->height = height; req->dstx = dstx; req->dsty = dsty; req->key = key; UnlockDisplay(dpy); SyncHandle(); } int XDGAGetViewportStatus( Display *dpy, int screen ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGAGetViewportStatusReply rep; xXDGAGetViewportStatusReq *req; int status = 0; XDGACheckExtension (dpy, info, 0); LockDisplay(dpy); GetReq(XDGAGetViewportStatus, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGAGetViewportStatus; req->screen = screen; if (!_XReply(dpy, (xReply *)&rep, 0, xFalse)) status = rep.status; UnlockDisplay(dpy); SyncHandle(); return status; } void XDGASync( Display *dpy, int screen ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGASyncReply rep; xXDGASyncReq *req; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGASync, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGASync; req->screen = screen; _XReply(dpy, (xReply *)&rep, 0, xFalse); UnlockDisplay(dpy); SyncHandle(); } void XDGAChangePixmapMode( Display *dpy, int screen, int *x, int *y, int mode ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGAChangePixmapModeReq *req; xXDGAChangePixmapModeReply rep; XextSimpleCheckExtension (dpy, info, xdga_extension_name); LockDisplay(dpy); GetReq(XDGAChangePixmapMode, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGAChangePixmapMode; req->screen = screen; req->x = *x; req->y = *y; req->flags = mode; _XReply(dpy, (xReply *)&rep, 0, xFalse); *x = rep.x; *y = rep.y; UnlockDisplay(dpy); SyncHandle(); } Colormap XDGACreateColormap( Display *dpy, int screen, XDGADevice *dev, int alloc ){ XExtDisplayInfo *info = xdga_find_display (dpy); xXDGACreateColormapReq *req; Colormap cid; XDGACheckExtension (dpy, info, -1); LockDisplay(dpy); GetReq(XDGACreateColormap, req); req->reqType = info->codes->major_opcode; req->dgaReqType = X_XDGACreateColormap; req->screen = screen; req->mode = dev->mode.num; req->alloc = alloc; cid = req->id = XAllocID(dpy); UnlockDisplay(dpy); SyncHandle(); return cid; } void XDGAKeyEventToXKeyEvent( XDGAKeyEvent* dk, XKeyEvent* xk ){ xk->type = dk->type; xk->serial = dk->serial; xk->send_event = False; xk->display = dk->display; xk->window = RootWindow(dk->display, dk->screen); xk->root = xk->window; xk->subwindow = None; xk->time = dk->time; xk->x = xk->y = xk->x_root = xk->y_root = 0; xk->state = dk->state; xk->keycode = dk->keycode; xk->same_screen = True; } #include #include #include #include #if defined(ISC) # define HAS_SVR3_MMAP # include # include # include # include # include # include # include # include #else # if defined(Lynx) && defined(NO_MMAP) # include # include # include # else # if !defined(__UNIXOS2__) # include # endif # endif #endif #include #include #include #if defined(SVR4) && !defined(sun) #define DEV_MEM "/dev/pmem" #elif defined(SVR4) && defined(sun) #define DEV_MEM "/dev/xsvc" #elif defined(HAS_APERTURE_DRV) #define DEV_MEM "/dev/xf86" #else #define DEV_MEM "/dev/mem" #endif typedef struct _DGAMapRec{ unsigned char *physical; unsigned char *virtual; CARD32 size; int fd; int screen; struct _DGAMapRec *next; } DGAMapRec, *DGAMapPtr; static Bool DGAMapPhysical(int, const char*, unsigned char*, CARD32, CARD32, CARD32, DGAMapPtr); static void DGAUnmapPhysical(DGAMapPtr); static DGAMapPtr _Maps = NULL; unsigned char* XDGAGetMappedMemory(int screen) { DGAMapPtr pMap = _Maps; unsigned char *pntr = NULL; while(pMap != NULL) { if(pMap->screen == screen) { pntr = pMap->virtual; break; } pMap = pMap->next; } return pntr; } Bool XDGAMapFramebuffer( int screen, char *name, /* optional device name */ unsigned char* base, /* physical memory */ CARD32 size, /* size */ CARD32 offset, /* optional offset */ CARD32 extra /* optional extra data */ ){ DGAMapPtr pMap = _Maps; Bool result; /* is it already mapped ? */ while(pMap != NULL) { if(pMap->screen == screen) return True; pMap = pMap->next; } if(extra & XDGANeedRoot) { /* we should probably check if we have root permissions and return False here */ } pMap = (DGAMapPtr)Xmalloc(sizeof(DGAMapRec)); result = DGAMapPhysical(screen, name, base, size, offset, extra, pMap); if(result) { pMap->next = _Maps; _Maps = pMap; } else Xfree(pMap); return result; } void XDGAUnmapFramebuffer(int screen) { DGAMapPtr pMap = _Maps; DGAMapPtr pPrev = NULL; /* is it already mapped */ while(pMap != NULL) { if(pMap->screen == screen) break; pPrev = pMap; pMap = pMap->next; } if(!pMap) return; DGAUnmapPhysical(pMap); if(!pPrev) _Maps = pMap->next; else pPrev->next = pMap->next; Xfree(pMap); } static Bool DGAMapPhysical( int screen, const char *name, /* optional device name */ unsigned char* base, /* physical memory */ CARD32 size, /* size */ CARD32 offset, /* optional offset */ CARD32 extra, /* optional extra data */ DGAMapPtr pMap ) { #if defined(ISC) && defined(HAS_SVR3_MMAP) struct kd_memloc mloc; #elif defined(__UNIXOS2__) APIRET rc; ULONG action; HFILE hfd; #endif base += offset; pMap->screen = screen; pMap->physical = base; pMap->size = size; #if defined(ISC) && defined(HAS_SVR3_MMAP) if ((pMap->fd = open("/dev/mmap", O_RDWR)) < 0) return False; mloc.vaddr = (char *)0; mloc.physaddr = (char *)base; mloc.length = size; mloc.ioflg=1; if ((pMap->virtual = (void *)ioctl(pMap->fd, MAP, &mloc)) == (void *)-1) return False; #elif defined (__UNIXOS2__) /* * Dragon warning here! /dev/pmap$ is never closed, except on progam exit. * Consecutive calling of this routine will make PMAP$ driver run out * of memory handles. Some umap/close mechanism should be provided */ rc = DosOpen("/dev/pmap$", &hfd, &action, 0, FILE_NORMAL, FILE_OPEN, OPEN_ACCESS_READWRITE | OPEN_SHARE_DENYNONE, (PEAOP2)NULL); if (rc != 0) return False; { struct map_ioctl { union { ULONG phys; void* user; } a; ULONG size; } pmap,dmap; ULONG plen,dlen; #define XFREE86_PMAP 0x76 #define PMAP_MAP 0x44 pmap.a.phys = base; pmap.size = size; rc = DosDevIOCtl(hfd, XFREE86_PMAP, PMAP_MAP, (PULONG)&pmap, sizeof(pmap), &plen, (PULONG)&dmap, sizeof(dmap), &dlen); if (rc == 0) { pMap->virtual = dmap.a.user; } } if (rc != 0) return False; #elif defined (Lynx) && defined(NO_MMAP) pMap->virtual = smem_create("XF86DGA", (char*)base, size, SM_READ|SM_WRITE); #else #ifndef MAP_FILE #define MAP_FILE 0 #endif if (!name) name = DEV_MEM; if ((pMap->fd = open(name, O_RDWR)) < 0) return False; pMap->virtual = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_FILE | MAP_SHARED, pMap->fd, (off_t)(uintptr_t)base); if (pMap->virtual == (void *)-1) return False; mprotect(pMap->virtual, size, PROT_READ | PROT_WRITE); #endif return True; } static void DGAUnmapPhysical(DGAMapPtr pMap) { #if defined(ISC) && defined(HAS_SVR3_MMAP) /* XXX Add unmapping code here. */ #elif defined (__UNIXOS2__) /* XXX Add unmapping code here. */ #elif defined(Lynx) && defined(NO_MMAP) /* XXX this doesn't allow enable after disable */ smem_create(NULL, pMap->virtual, pMap->size, SM_DETACH); smem_remove("XF86DGA"); #else if (pMap->virtual && pMap->virtual != (void *)-1) { mprotect(pMap->virtual,pMap->size, PROT_READ); munmap(pMap->virtual, pMap->size); pMap->virtual = 0; } if (pMap->fd >= 0) { close(pMap->fd); pMap->fd = -1; } #endif }