FreeRDP/libfreerdp-cache/bitmap.c
Nicolas Graziano ad2b9b23af Get the right dimension when creating offscreen.
Offscreen is still selected by cacheId.
2011-10-14 01:32:18 +02:00

211 lines
5.5 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol Client
* Bitmap Cache V2
*
* Copyright 2011 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.
*/
#include <freerdp/utils/stream.h>
#include <freerdp/utils/memory.h>
#include <freerdp/cache/bitmap.h>
void bitmap_free(rdpBitmap* bitmap)
{
if (bitmap != NULL)
{
if (bitmap->dstData != NULL)
xfree(bitmap->dstData);
xfree(bitmap);
}
}
void update_gdi_memblt(rdpUpdate* update, MEMBLT_ORDER* memblt)
{
rdpBitmap* bitmap;
rdpCache* cache = (rdpCache*) update->cache;
if (memblt->cacheId == 0xFF)
bitmap = offscreen_cache_get(cache->offscreen, memblt->cacheIndex);
else
bitmap = bitmap_cache_get(cache->bitmap, memblt->cacheId, memblt->cacheIndex);
memblt->bitmap = bitmap;
IFCALL(cache->bitmap->MemBlt, update, memblt);
}
void update_gdi_mem3blt(rdpUpdate* update, MEM3BLT_ORDER* mem3blt)
{
rdpBitmap* bitmap;
rdpCache* cache = (rdpCache*) update->cache;
if (mem3blt->cacheId == 0xFF)
bitmap = offscreen_cache_get(cache->offscreen, mem3blt->cacheIndex);
else
bitmap = bitmap_cache_get(cache->bitmap, mem3blt->cacheId, mem3blt->cacheIndex);
mem3blt->bitmap = bitmap;
IFCALL(cache->bitmap->Mem3Blt, update, mem3blt);
}
void update_gdi_cache_bitmap(rdpUpdate* update, CACHE_BITMAP_V2_ORDER* cache_bitmap)
{
rdpBitmap* bitmap;
rdpBitmap* prevBitmap;
uint32 size = sizeof(rdpBitmap);
rdpCache* cache = (rdpCache*) update->cache;
bitmap = cache_bitmap->bitmap;
IFCALL(cache->bitmap->BitmapSize, update, &size);
bitmap = (rdpBitmap*) xrealloc(bitmap, size);
IFCALL(cache->bitmap->BitmapNew, update, bitmap);
cache_bitmap->bitmap = bitmap;
prevBitmap = bitmap_cache_get(cache->bitmap, cache_bitmap->cacheId, cache_bitmap->cacheIndex);
if (prevBitmap != NULL)
{
IFCALL(cache->bitmap->BitmapFree, update, prevBitmap);
bitmap_free(prevBitmap);
}
bitmap_cache_put(cache->bitmap, cache_bitmap->cacheId, cache_bitmap->cacheIndex, bitmap);
}
rdpBitmap* bitmap_cache_get(rdpBitmapCache* bitmap_cache, uint8 id, uint16 index)
{
rdpBitmap* bitmap;
if (id > bitmap_cache->maxCells)
{
printf("get invalid bitmap cell id: %d\n", id);
return NULL;
}
if (index == 0x7FFF)
index = bitmap_cache->cells[id].number - 1;
if (index > bitmap_cache->cells[id].number)
{
printf("get invalid bitmap index %d in cell id: %d\n", index, id);
return NULL;
}
bitmap = bitmap_cache->cells[id].entries[index];
return bitmap;
}
void bitmap_cache_put(rdpBitmapCache* bitmap_cache, uint8 id, uint16 index, rdpBitmap* bitmap)
{
if (id > bitmap_cache->maxCells)
{
printf("put invalid bitmap cell id: %d\n", id);
return;
}
if (index == 0x7FFF)
index = bitmap_cache->cells[id].number - 1;
if (index > bitmap_cache->cells[id].number)
{
printf("put invalid bitmap index %d in cell id: %d\n", index, id);
return;
}
bitmap_cache->cells[id].entries[index] = bitmap;
}
void bitmap_cache_register_callbacks(rdpUpdate* update)
{
rdpCache* cache = (rdpCache*) update->cache;
cache->bitmap->MemBlt = update->MemBlt;
cache->bitmap->Mem3Blt = update->Mem3Blt;
update->MemBlt = update_gdi_memblt;
update->Mem3Blt = update_gdi_mem3blt;
update->CacheBitmapV2 = update_gdi_cache_bitmap;
}
rdpBitmapCache* bitmap_cache_new(rdpSettings* settings)
{
int i;
rdpBitmapCache* bitmap_cache;
bitmap_cache = (rdpBitmapCache*) xzalloc(sizeof(rdpBitmapCache));
if (bitmap_cache != NULL)
{
bitmap_cache->settings = settings;
bitmap_cache->update = ((freerdp*) settings->instance)->update;
bitmap_cache->maxCells = 5;
settings->bitmap_cache = False;
settings->bitmapCacheV2NumCells = 5;
settings->bitmapCacheV2CellInfo[0].numEntries = 600;
settings->bitmapCacheV2CellInfo[0].persistent = False;
settings->bitmapCacheV2CellInfo[1].numEntries = 600;
settings->bitmapCacheV2CellInfo[1].persistent = False;
settings->bitmapCacheV2CellInfo[2].numEntries = 2048;
settings->bitmapCacheV2CellInfo[2].persistent = False;
settings->bitmapCacheV2CellInfo[3].numEntries = 4096;
settings->bitmapCacheV2CellInfo[3].persistent = False;
settings->bitmapCacheV2CellInfo[4].numEntries = 2048;
settings->bitmapCacheV2CellInfo[4].persistent = False;
bitmap_cache->cells = (BITMAP_V2_CELL*) xzalloc(sizeof(BITMAP_V2_CELL) * bitmap_cache->maxCells);
for (i = 0; i < bitmap_cache->maxCells; i++)
{
bitmap_cache->cells[i].number = settings->bitmapCacheV2CellInfo[i].numEntries;
bitmap_cache->cells[i].entries = (rdpBitmap**) xzalloc(sizeof(rdpBitmap*) * bitmap_cache->cells[i].number);
}
}
return bitmap_cache;
}
void bitmap_cache_free(rdpBitmapCache* bitmap_cache)
{
int i, j;
rdpBitmap* bitmap;
if (bitmap_cache != NULL)
{
for (i = 0; i < bitmap_cache->maxCells; i++)
{
for (j = 0; j < (int) bitmap_cache->cells[i].number; j++)
{
bitmap = bitmap_cache->cells[i].entries[j];
if (bitmap != NULL)
{
IFCALL(bitmap_cache->BitmapFree, bitmap_cache->update, bitmap);
bitmap_free(bitmap);
}
}
xfree(bitmap_cache->cells[i].entries);
}
xfree(bitmap_cache->cells);
xfree(bitmap_cache);
}
}