FreeRDP/client/X11/xf_gfx.c

978 lines
25 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol Implementation
* X11 Graphics Pipeline
*
* Copyright 2014 Marc-Andre Moreau <marcandre.moreau@gmail.com>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <freerdp/log.h>
#include "xf_gfx.h"
#define TAG CLIENT_TAG("x11")
int xf_ResetGraphics(RdpgfxClientContext* context, RDPGFX_RESET_GRAPHICS_PDU* resetGraphics)
{
int count;
int index;
xfGfxSurface* surface;
UINT16* pSurfaceIds = NULL;
xfContext* xfc = (xfContext*) context->custom;
freerdp_client_codecs_reset(xfc->codecs, FREERDP_CODEC_ALL);
count = context->GetSurfaceIds(context, &pSurfaceIds);
for (index = 0; index < count; index++)
{
surface = (xfGfxSurface*) context->GetSurfaceData(context, pSurfaceIds[index]);
if (!surface || !surface->outputMapped)
continue;
region16_clear(&surface->invalidRegion);
}
free(pSurfaceIds);
xfc->graphicsReset = TRUE;
return 1;
}
int xf_OutputUpdate(xfContext* xfc, xfGfxSurface* surface)
{
UINT16 width, height;
UINT32 surfaceX, surfaceY;
RECTANGLE_16 surfaceRect;
const RECTANGLE_16* extents;
surfaceX = surface->outputOriginX;
surfaceY = surface->outputOriginY;
surfaceRect.left = surfaceX;
surfaceRect.top = surfaceY;
surfaceRect.right = surfaceX + surface->width;
surfaceRect.bottom = surfaceY + surface->height;
XSetClipMask(xfc->display, xfc->gc, None);
XSetFunction(xfc->display, xfc->gc, GXcopy);
XSetFillStyle(xfc->display, xfc->gc, FillSolid);
if (!region16_is_empty(&surface->invalidRegion))
{
extents = region16_extents(&surface->invalidRegion);
width = extents->right - extents->left;
height = extents->bottom - extents->top;
if (width > surface->width)
width = surface->width;
if (height > surface->height)
height = surface->height;
if (surface->stage)
{
freerdp_image_copy(surface->stage, xfc->format, surface->stageStep, 0, 0,
surface->width, surface->height, surface->data, surface->format, surface->scanline, 0, 0, NULL);
}
#ifdef WITH_XRENDER
if (xfc->settings->SmartSizing || xfc->settings->MultiTouchGestures)
{
XPutImage(xfc->display, xfc->primary, xfc->gc, surface->image,
extents->left, extents->top, extents->left + surfaceX, extents->top + surfaceY, width, height);
xf_draw_screen(xfc, extents->left, extents->top, width, height);
}
else
#endif
{
XPutImage(xfc->display, xfc->drawable, xfc->gc, surface->image,
extents->left, extents->top, extents->left + surfaceX, extents->top + surfaceY, width, height);
}
}
region16_clear(&surface->invalidRegion);
XSetClipMask(xfc->display, xfc->gc, None);
XSync(xfc->display, True);
return 1;
}
int xf_UpdateSurfaces(xfContext* xfc)
{
int count;
int index;
int status = 1;
xfGfxSurface* surface;
UINT16* pSurfaceIds = NULL;
RdpgfxClientContext* context = xfc->gfx;
if (!xfc->graphicsReset)
return 1;
count = context->GetSurfaceIds(context, &pSurfaceIds);
for (index = 0; index < count; index++)
{
surface = (xfGfxSurface*) context->GetSurfaceData(context, pSurfaceIds[index]);
if (!surface || !surface->outputMapped)
continue;
status = xf_OutputUpdate(xfc, surface);
if (status < 0)
break;
}
free(pSurfaceIds);
return status;
}
int xf_OutputExpose(xfContext* xfc, int x, int y, int width, int height)
{
int count;
int index;
int status = 1;
xfGfxSurface* surface;
RECTANGLE_16 invalidRect;
RECTANGLE_16 surfaceRect;
RECTANGLE_16 intersection;
UINT16* pSurfaceIds = NULL;
RdpgfxClientContext* context = xfc->gfx;
invalidRect.left = x;
invalidRect.top = y;
invalidRect.right = x + width;
invalidRect.bottom = y + height;
count = context->GetSurfaceIds(context, &pSurfaceIds);
for (index = 0; index < count; index++)
{
surface = (xfGfxSurface*) context->GetSurfaceData(context, pSurfaceIds[index]);
if (!surface || !surface->outputMapped)
continue;
surfaceRect.left = surface->outputOriginX;
surfaceRect.top = surface->outputOriginY;
surfaceRect.right = surface->outputOriginX + surface->width;
surfaceRect.bottom = surface->outputOriginY + surface->height;
if (rectangles_intersection(&invalidRect, &surfaceRect, &intersection))
{
/* Invalid rects are specified relative to surface origin */
intersection.left -= surfaceRect.left;
intersection.top -= surfaceRect.top;
intersection.right -= surfaceRect.left;
intersection.bottom -= surfaceRect.top;
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &intersection);
}
}
free(pSurfaceIds);
if (xf_UpdateSurfaces(xfc) < 0)
status = -1;
return status;
}
int xf_StartFrame(RdpgfxClientContext* context, RDPGFX_START_FRAME_PDU* startFrame)
{
xfContext* xfc = (xfContext*) context->custom;
xfc->inGfxFrame = TRUE;
return 1;
}
int xf_EndFrame(RdpgfxClientContext* context, RDPGFX_END_FRAME_PDU* endFrame)
{
xfContext* xfc = (xfContext*) context->custom;
xf_UpdateSurfaces(xfc);
xfc->inGfxFrame = FALSE;
return 1;
}
int xf_SurfaceCommand_Uncompressed(xfContext* xfc, RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
xfGfxSurface* surface;
RECTANGLE_16 invalidRect;
surface = (xfGfxSurface*) context->GetSurfaceData(context, cmd->surfaceId);
if (!surface)
return -1;
freerdp_image_copy(surface->data, surface->format, surface->scanline, cmd->left, cmd->top,
cmd->width, cmd->height, cmd->data, PIXEL_FORMAT_XRGB32, -1, 0, 0, NULL);
invalidRect.left = cmd->left;
invalidRect.top = cmd->top;
invalidRect.right = cmd->right;
invalidRect.bottom = cmd->bottom;
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &invalidRect);
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceCommand_RemoteFX(xfContext* xfc, RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
int j;
UINT16 i;
RFX_RECT* rect;
RFX_TILE* tile;
int nXDst, nYDst;
int nWidth, nHeight;
int nbUpdateRects;
RFX_MESSAGE* message;
xfGfxSurface* surface;
REGION16 updateRegion;
RECTANGLE_16 updateRect;
RECTANGLE_16* updateRects;
REGION16 clippingRects;
RECTANGLE_16 clippingRect;
freerdp_client_codecs_prepare(xfc->codecs, FREERDP_CODEC_REMOTEFX);
surface = (xfGfxSurface*) context->GetSurfaceData(context, cmd->surfaceId);
if (!surface)
return -1;
message = rfx_process_message(xfc->codecs->rfx, cmd->data, cmd->length);
if (!message)
return -1;
region16_init(&clippingRects);
for (i = 0; i < message->numRects; i++)
{
rect = &(message->rects[i]);
clippingRect.left = cmd->left + rect->x;
clippingRect.top = cmd->top + rect->y;
clippingRect.right = clippingRect.left + rect->width;
clippingRect.bottom = clippingRect.top + rect->height;
region16_union_rect(&clippingRects, &clippingRects, &clippingRect);
}
for (i = 0; i < message->numTiles; i++)
{
tile = message->tiles[i];
updateRect.left = cmd->left + tile->x;
updateRect.top = cmd->top + tile->y;
updateRect.right = updateRect.left + 64;
updateRect.bottom = updateRect.top + 64;
region16_init(&updateRegion);
region16_intersect_rect(&updateRegion, &clippingRects, &updateRect);
updateRects = (RECTANGLE_16*) region16_rects(&updateRegion, &nbUpdateRects);
for (j = 0; j < nbUpdateRects; j++)
{
nXDst = updateRects[j].left;
nYDst = updateRects[j].top;
nWidth = updateRects[j].right - updateRects[j].left;
nHeight = updateRects[j].bottom - updateRects[j].top;
freerdp_image_copy(surface->data, surface->format, surface->scanline,
nXDst, nYDst, nWidth, nHeight,
tile->data, PIXEL_FORMAT_XRGB32, 64 * 4, 0, 0, NULL);
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &updateRects[j]);
}
region16_uninit(&updateRegion);
}
rfx_message_free(xfc->codecs->rfx, message);
region16_uninit(&clippingRects);
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceCommand_ClearCodec(xfContext* xfc, RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
int status;
BYTE* DstData = NULL;
xfGfxSurface* surface;
RECTANGLE_16 invalidRect;
freerdp_client_codecs_prepare(xfc->codecs, FREERDP_CODEC_CLEARCODEC);
surface = (xfGfxSurface*) context->GetSurfaceData(context, cmd->surfaceId);
if (!surface)
return -1;
DstData = surface->data;
status = clear_decompress(xfc->codecs->clear, cmd->data, cmd->length, &DstData,
surface->format, surface->scanline, cmd->left, cmd->top, cmd->width, cmd->height);
if (status < 0)
{
WLog_ERR(TAG, "clear_decompress failure: %d\n", status);
return -1;
}
invalidRect.left = cmd->left;
invalidRect.top = cmd->top;
invalidRect.right = cmd->right;
invalidRect.bottom = cmd->bottom;
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &invalidRect);
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceCommand_Planar(xfContext* xfc, RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
int status;
BYTE* DstData = NULL;
xfGfxSurface* surface;
RECTANGLE_16 invalidRect;
freerdp_client_codecs_prepare(xfc->codecs, FREERDP_CODEC_PLANAR);
surface = (xfGfxSurface*) context->GetSurfaceData(context, cmd->surfaceId);
if (!surface)
return -1;
DstData = surface->data;
status = planar_decompress(xfc->codecs->planar, cmd->data, cmd->length, &DstData,
surface->format, surface->scanline, cmd->left, cmd->top, cmd->width, cmd->height, FALSE);
invalidRect.left = cmd->left;
invalidRect.top = cmd->top;
invalidRect.right = cmd->right;
invalidRect.bottom = cmd->bottom;
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &invalidRect);
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceCommand_H264(xfContext* xfc, RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
int status;
UINT32 i;
BYTE* DstData = NULL;
H264_CONTEXT* h264;
xfGfxSurface* surface;
RDPGFX_H264_METABLOCK* meta;
RDPGFX_H264_BITMAP_STREAM* bs;
freerdp_client_codecs_prepare(xfc->codecs, FREERDP_CODEC_H264);
h264 = xfc->codecs->h264;
bs = (RDPGFX_H264_BITMAP_STREAM*) cmd->extra;
if (!bs)
return -1;
meta = &(bs->meta);
surface = (xfGfxSurface*) context->GetSurfaceData(context, cmd->surfaceId);
if (!surface)
return -1;
DstData = surface->data;
status = h264_decompress(xfc->codecs->h264, bs->data, bs->length, &DstData,
surface->format, surface->scanline , surface->width,
surface->height, meta->regionRects, meta->numRegionRects);
if (status < 0)
{
WLog_ERR(TAG, "h264_decompress failure: %d",status);
return -1;
}
for (i = 0; i < meta->numRegionRects; i++)
{
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, (RECTANGLE_16*) &(meta->regionRects[i]));
}
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceCommand_Alpha(xfContext* xfc, RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
int status = 0;
xfGfxSurface* surface;
RECTANGLE_16 invalidRect;
freerdp_client_codecs_prepare(xfc->codecs, FREERDP_CODEC_ALPHACODEC);
surface = (xfGfxSurface*) context->GetSurfaceData(context, cmd->surfaceId);
if (!surface)
return -1;
WLog_DBG(TAG, "xf_SurfaceCommand_Alpha: status: %d\n", status);
/* fill with green for now to distinguish from the rest */
freerdp_image_fill(surface->data, PIXEL_FORMAT_XRGB32, surface->scanline,
cmd->left, cmd->top, cmd->width, cmd->height, 0x00FF00);
invalidRect.left = cmd->left;
invalidRect.top = cmd->top;
invalidRect.right = cmd->right;
invalidRect.bottom = cmd->bottom;
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &invalidRect);
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceCommand_Progressive(xfContext* xfc, RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
int i, j;
int status;
BYTE* DstData;
RFX_RECT* rect;
int nXDst, nYDst;
int nXSrc, nYSrc;
int nWidth, nHeight;
int nbUpdateRects;
xfGfxSurface* surface;
REGION16 updateRegion;
RECTANGLE_16 updateRect;
RECTANGLE_16* updateRects;
REGION16 clippingRects;
RECTANGLE_16 clippingRect;
RFX_PROGRESSIVE_TILE* tile;
PROGRESSIVE_BLOCK_REGION* region;
freerdp_client_codecs_prepare(xfc->codecs, FREERDP_CODEC_PROGRESSIVE);
surface = (xfGfxSurface*) context->GetSurfaceData(context, cmd->surfaceId);
if (!surface)
return -1;
progressive_create_surface_context(xfc->codecs->progressive, cmd->surfaceId, surface->width, surface->height);
DstData = surface->data;
status = progressive_decompress(xfc->codecs->progressive, cmd->data, cmd->length, &DstData,
surface->format, surface->scanline, cmd->left, cmd->top, cmd->width, cmd->height, cmd->surfaceId);
if (status < 0)
{
WLog_ERR(TAG, "progressive_decompress failure: %d", status);
return -1;
}
region = &(xfc->codecs->progressive->region);
region16_init(&clippingRects);
for (i = 0; i < region->numRects; i++)
{
rect = &(region->rects[i]);
clippingRect.left = cmd->left + rect->x;
clippingRect.top = cmd->top + rect->y;
clippingRect.right = clippingRect.left + rect->width;
clippingRect.bottom = clippingRect.top + rect->height;
region16_union_rect(&clippingRects, &clippingRects, &clippingRect);
}
for (i = 0; i < region->numTiles; i++)
{
tile = region->tiles[i];
updateRect.left = cmd->left + tile->x;
updateRect.top = cmd->top + tile->y;
updateRect.right = updateRect.left + 64;
updateRect.bottom = updateRect.top + 64;
region16_init(&updateRegion);
region16_intersect_rect(&updateRegion, &clippingRects, &updateRect);
updateRects = (RECTANGLE_16*) region16_rects(&updateRegion, &nbUpdateRects);
for (j = 0; j < nbUpdateRects; j++)
{
nXDst = updateRects[j].left;
nYDst = updateRects[j].top;
nWidth = updateRects[j].right - updateRects[j].left;
nHeight = updateRects[j].bottom - updateRects[j].top;
nXSrc = nXDst - (cmd->left + tile->x);
nYSrc = nYDst - (cmd->top + tile->y);
freerdp_image_copy(surface->data, PIXEL_FORMAT_XRGB32,
surface->scanline, nXDst, nYDst, nWidth, nHeight,
tile->data, PIXEL_FORMAT_XRGB32, 64 * 4, nXSrc, nYSrc, NULL);
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &updateRects[j]);
}
region16_uninit(&updateRegion);
}
region16_uninit(&clippingRects);
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceCommand(RdpgfxClientContext* context, RDPGFX_SURFACE_COMMAND* cmd)
{
int status = 1;
xfContext* xfc = (xfContext*) context->custom;
switch (cmd->codecId)
{
case RDPGFX_CODECID_UNCOMPRESSED:
status = xf_SurfaceCommand_Uncompressed(xfc, context, cmd);
break;
case RDPGFX_CODECID_CAVIDEO:
status = xf_SurfaceCommand_RemoteFX(xfc, context, cmd);
break;
case RDPGFX_CODECID_CLEARCODEC:
status = xf_SurfaceCommand_ClearCodec(xfc, context, cmd);
break;
case RDPGFX_CODECID_PLANAR:
status = xf_SurfaceCommand_Planar(xfc, context, cmd);
break;
case RDPGFX_CODECID_H264:
status = xf_SurfaceCommand_H264(xfc, context, cmd);
break;
case RDPGFX_CODECID_ALPHA:
status = xf_SurfaceCommand_Alpha(xfc, context, cmd);
break;
case RDPGFX_CODECID_CAPROGRESSIVE:
status = xf_SurfaceCommand_Progressive(xfc, context, cmd);
break;
case RDPGFX_CODECID_CAPROGRESSIVE_V2:
break;
}
return 1;
}
int xf_DeleteEncodingContext(RdpgfxClientContext* context, RDPGFX_DELETE_ENCODING_CONTEXT_PDU* deleteEncodingContext)
{
return 1;
}
int xf_CreateSurface(RdpgfxClientContext* context, RDPGFX_CREATE_SURFACE_PDU* createSurface)
{
size_t size;
UINT32 bytesPerPixel;
xfGfxSurface* surface;
xfContext* xfc = (xfContext*) context->custom;
surface = (xfGfxSurface*) calloc(1, sizeof(xfGfxSurface));
if (!surface)
return -1;
surface->surfaceId = createSurface->surfaceId;
surface->width = (UINT32) createSurface->width;
surface->height = (UINT32) createSurface->height;
surface->alpha = (createSurface->pixelFormat == PIXEL_FORMAT_ARGB_8888) ? TRUE : FALSE;
surface->format = PIXEL_FORMAT_XRGB32;
surface->scanline = surface->width * 4;
surface->scanline += (surface->scanline % (xfc->scanline_pad / 8));
size = surface->scanline * surface->height;
surface->data = (BYTE*) _aligned_malloc(size, 16);
if (!surface->data)
{
free (surface);
return -1;
}
ZeroMemory(surface->data, size);
if ((xfc->depth == 24) || (xfc->depth == 32))
{
surface->image = XCreateImage(xfc->display, xfc->visual, xfc->depth, ZPixmap, 0,
(char*) surface->data, surface->width, surface->height, xfc->scanline_pad, surface->scanline);
}
else
{
bytesPerPixel = (FREERDP_PIXEL_FORMAT_BPP(xfc->format) / 8);
surface->stageStep = surface->width * bytesPerPixel;
surface->stageStep += (surface->stageStep % (xfc->scanline_pad / 8));
size = surface->stageStep * surface->height;
surface->stage = (BYTE*) _aligned_malloc(size, 16);
if (!surface->stage)
{
free (surface->data);
free (surface);
return -1;
}
ZeroMemory(surface->stage, size);
surface->image = XCreateImage(xfc->display, xfc->visual, xfc->depth, ZPixmap, 0,
(char*) surface->stage, surface->width, surface->height, xfc->scanline_pad, surface->stageStep);
}
surface->outputMapped = FALSE;
region16_init(&surface->invalidRegion);
context->SetSurfaceData(context, surface->surfaceId, (void*) surface);
return 1;
}
int xf_DeleteSurface(RdpgfxClientContext* context, RDPGFX_DELETE_SURFACE_PDU* deleteSurface)
{
xfGfxSurface* surface = NULL;
xfContext* xfc = (xfContext*) context->custom;
surface = (xfGfxSurface*) context->GetSurfaceData(context, deleteSurface->surfaceId);
if (surface)
{
XFree(surface->image);
_aligned_free(surface->data);
_aligned_free(surface->stage);
region16_uninit(&surface->invalidRegion);
free(surface);
}
context->SetSurfaceData(context, deleteSurface->surfaceId, NULL);
if (xfc->codecs->progressive)
progressive_delete_surface_context(xfc->codecs->progressive, deleteSurface->surfaceId);
return 1;
}
int xf_SolidFill(RdpgfxClientContext* context, RDPGFX_SOLID_FILL_PDU* solidFill)
{
UINT16 index;
UINT32 color;
BYTE a, r, g, b;
int nWidth, nHeight;
RDPGFX_RECT16* rect;
xfGfxSurface* surface;
RECTANGLE_16 invalidRect;
xfContext* xfc = (xfContext*) context->custom;
surface = (xfGfxSurface*) context->GetSurfaceData(context, solidFill->surfaceId);
if (!surface)
return -1;
b = solidFill->fillPixel.B;
g = solidFill->fillPixel.G;
r = solidFill->fillPixel.R;
a = solidFill->fillPixel.XA;
color = ARGB32(a, r, g, b);
for (index = 0; index < solidFill->fillRectCount; index++)
{
rect = &(solidFill->fillRects[index]);
nWidth = rect->right - rect->left;
nHeight = rect->bottom - rect->top;
invalidRect.left = rect->left;
invalidRect.top = rect->top;
invalidRect.right = rect->right;
invalidRect.bottom = rect->bottom;
freerdp_image_fill(surface->data, surface->format, surface->scanline,
rect->left, rect->top, nWidth, nHeight, color);
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &invalidRect);
}
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceToSurface(RdpgfxClientContext* context, RDPGFX_SURFACE_TO_SURFACE_PDU* surfaceToSurface)
{
UINT16 index;
BOOL sameSurface;
int nWidth, nHeight;
RDPGFX_RECT16* rectSrc;
RDPGFX_POINT16* destPt;
RECTANGLE_16 invalidRect;
xfGfxSurface* surfaceSrc;
xfGfxSurface* surfaceDst;
xfContext* xfc = (xfContext*) context->custom;
rectSrc = &(surfaceToSurface->rectSrc);
destPt = &surfaceToSurface->destPts[0];
surfaceSrc = (xfGfxSurface*) context->GetSurfaceData(context, surfaceToSurface->surfaceIdSrc);
sameSurface = (surfaceToSurface->surfaceIdSrc == surfaceToSurface->surfaceIdDest) ? TRUE : FALSE;
if (!sameSurface)
surfaceDst = (xfGfxSurface*) context->GetSurfaceData(context, surfaceToSurface->surfaceIdDest);
else
surfaceDst = surfaceSrc;
if (!surfaceSrc || !surfaceDst)
return -1;
nWidth = rectSrc->right - rectSrc->left;
nHeight = rectSrc->bottom - rectSrc->top;
for (index = 0; index < surfaceToSurface->destPtsCount; index++)
{
destPt = &surfaceToSurface->destPts[index];
if (sameSurface)
{
freerdp_image_move(surfaceDst->data, surfaceDst->format, surfaceDst->scanline,
destPt->x, destPt->y, nWidth, nHeight, rectSrc->left, rectSrc->top);
}
else
{
freerdp_image_copy(surfaceDst->data, surfaceDst->format, surfaceDst->scanline,
destPt->x, destPt->y, nWidth, nHeight, surfaceSrc->data, surfaceSrc->format,
surfaceSrc->scanline, rectSrc->left, rectSrc->top, NULL);
}
invalidRect.left = destPt->x;
invalidRect.top = destPt->y;
invalidRect.right = destPt->x + rectSrc->right;
invalidRect.bottom = destPt->y + rectSrc->bottom;
region16_union_rect(&surfaceDst->invalidRegion, &surfaceDst->invalidRegion, &invalidRect);
}
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_SurfaceToCache(RdpgfxClientContext* context, RDPGFX_SURFACE_TO_CACHE_PDU* surfaceToCache)
{
size_t size;
RDPGFX_RECT16* rect;
xfGfxSurface* surface;
xfGfxCacheEntry* cacheEntry;
xfContext* xfc = (xfContext*) context->custom;
rect = &(surfaceToCache->rectSrc);
surface = (xfGfxSurface*) context->GetSurfaceData(context, surfaceToCache->surfaceId);
if (!surface)
return -1;
cacheEntry = (xfGfxCacheEntry*) calloc(1, sizeof(xfGfxCacheEntry));
if (!cacheEntry)
return -1;
cacheEntry->width = (UINT32) (rect->right - rect->left);
cacheEntry->height = (UINT32) (rect->bottom - rect->top);
cacheEntry->alpha = surface->alpha;
cacheEntry->format = surface->format;
cacheEntry->scanline = cacheEntry->width * 4;
cacheEntry->scanline += (cacheEntry->scanline % (xfc->scanline_pad / 8));
size = cacheEntry->scanline * cacheEntry->height;
cacheEntry->data = (BYTE*) _aligned_malloc(size, 16);
if (!cacheEntry->data)
{
free (cacheEntry);
return -1;
}
ZeroMemory(cacheEntry->data, size);
freerdp_image_copy(cacheEntry->data, cacheEntry->format, cacheEntry->scanline,
0, 0, cacheEntry->width, cacheEntry->height, surface->data,
surface->format, surface->scanline, rect->left, rect->top, NULL);
context->SetCacheSlotData(context, surfaceToCache->cacheSlot, (void*) cacheEntry);
return 1;
}
int xf_CacheToSurface(RdpgfxClientContext* context, RDPGFX_CACHE_TO_SURFACE_PDU* cacheToSurface)
{
UINT16 index;
RDPGFX_POINT16* destPt;
xfGfxSurface* surface;
xfGfxCacheEntry* cacheEntry;
RECTANGLE_16 invalidRect;
xfContext* xfc = (xfContext*) context->custom;
surface = (xfGfxSurface*) context->GetSurfaceData(context, cacheToSurface->surfaceId);
cacheEntry = (xfGfxCacheEntry*) context->GetCacheSlotData(context, cacheToSurface->cacheSlot);
if (!surface || !cacheEntry)
return -1;
for (index = 0; index < cacheToSurface->destPtsCount; index++)
{
destPt = &cacheToSurface->destPts[index];
freerdp_image_copy(surface->data, surface->format, surface->scanline,
destPt->x, destPt->y, cacheEntry->width, cacheEntry->height,
cacheEntry->data, cacheEntry->format, cacheEntry->scanline, 0, 0, NULL);
invalidRect.left = destPt->x;
invalidRect.top = destPt->y;
invalidRect.right = destPt->x + cacheEntry->width - 1;
invalidRect.bottom = destPt->y + cacheEntry->height - 1;
region16_union_rect(&surface->invalidRegion, &surface->invalidRegion, &invalidRect);
}
if (!xfc->inGfxFrame)
xf_UpdateSurfaces(xfc);
return 1;
}
int xf_CacheImportReply(RdpgfxClientContext* context, RDPGFX_CACHE_IMPORT_REPLY_PDU* cacheImportReply)
{
return 1;
}
int xf_EvictCacheEntry(RdpgfxClientContext* context, RDPGFX_EVICT_CACHE_ENTRY_PDU* evictCacheEntry)
{
xfGfxCacheEntry* cacheEntry;
cacheEntry = (xfGfxCacheEntry*) context->GetCacheSlotData(context, evictCacheEntry->cacheSlot);
if (cacheEntry)
{
_aligned_free(cacheEntry->data);
free(cacheEntry);
}
context->SetCacheSlotData(context, evictCacheEntry->cacheSlot, NULL);
return 1;
}
int xf_MapSurfaceToOutput(RdpgfxClientContext* context, RDPGFX_MAP_SURFACE_TO_OUTPUT_PDU* surfaceToOutput)
{
xfGfxSurface* surface;
surface = (xfGfxSurface*) context->GetSurfaceData(context, surfaceToOutput->surfaceId);
surface->outputMapped = TRUE;
surface->outputOriginX = surfaceToOutput->outputOriginX;
surface->outputOriginY = surfaceToOutput->outputOriginY;
region16_clear(&surface->invalidRegion);
return 1;
}
int xf_MapSurfaceToWindow(RdpgfxClientContext* context, RDPGFX_MAP_SURFACE_TO_WINDOW_PDU* surfaceToWindow)
{
return 1;
}
void xf_graphics_pipeline_init(xfContext* xfc, RdpgfxClientContext* gfx)
{
xfc->gfx = gfx;
gfx->custom = (void*) xfc;
gfx->ResetGraphics = xf_ResetGraphics;
gfx->StartFrame = xf_StartFrame;
gfx->EndFrame = xf_EndFrame;
gfx->SurfaceCommand = xf_SurfaceCommand;
gfx->DeleteEncodingContext = xf_DeleteEncodingContext;
gfx->CreateSurface = xf_CreateSurface;
gfx->DeleteSurface = xf_DeleteSurface;
gfx->SolidFill = xf_SolidFill;
gfx->SurfaceToSurface = xf_SurfaceToSurface;
gfx->SurfaceToCache = xf_SurfaceToCache;
gfx->CacheToSurface = xf_CacheToSurface;
gfx->CacheImportReply = xf_CacheImportReply;
gfx->EvictCacheEntry = xf_EvictCacheEntry;
gfx->MapSurfaceToOutput = xf_MapSurfaceToOutput;
gfx->MapSurfaceToWindow = xf_MapSurfaceToWindow;
}
void xf_graphics_pipeline_uninit(xfContext* xfc, RdpgfxClientContext* gfx)
{
}