#include "precomp.h" // // RBC.CPP // Received Bitmap Cache // // Copyright(c) Microsoft 1997- // #define MLZ_FILE_ZONE ZONE_CORE // // RBC_ViewStarting() // // For 3.0 nodes, we create the cache each time they start hosting. // For 2.x nodes, we create the cache once and use it until they leave the // share. // BOOL ASShare::RBC_ViewStarting(ASPerson * pasPerson) { BOOL rc = FALSE; DebugEntry(ASShare::RBC_ViewStarting); ValidatePerson(pasPerson); // // Allocate the INCOMING cache data for this host. // pasPerson->prbcHost = new RBC_HOST_INFO; if (!pasPerson->prbcHost) { ERROR_OUT(( "Failed to get memory for prbcHost info")); DC_QUIT; } ZeroMemory(pasPerson->prbcHost, sizeof(*(pasPerson->prbcHost))); SET_STAMP(pasPerson->prbcHost, RBCHOST); TRACE_OUT(( "Allocated RBC root for host [%d] at 0x%08x", pasPerson->mcsID, pasPerson->prbcHost)); // // Create the bitmap caches for the sender // // SMALL if (!BMCAllocateCacheData(pasPerson->cpcCaps.bitmaps.sender.capsSmallCacheNumEntries, pasPerson->cpcCaps.bitmaps.sender.capsSmallCacheCellSize, ID_SMALL_BMP_CACHE, &(pasPerson->prbcHost->bitmapCache[ID_SMALL_BMP_CACHE]))) { DC_QUIT; } // MEDIUM if (!BMCAllocateCacheData(pasPerson->cpcCaps.bitmaps.sender.capsMediumCacheNumEntries, pasPerson->cpcCaps.bitmaps.sender.capsMediumCacheCellSize, ID_MEDIUM_BMP_CACHE, &(pasPerson->prbcHost->bitmapCache[ID_MEDIUM_BMP_CACHE]))) { DC_QUIT; } // LARGE if (!BMCAllocateCacheData(pasPerson->cpcCaps.bitmaps.sender.capsLargeCacheNumEntries, pasPerson->cpcCaps.bitmaps.sender.capsLargeCacheCellSize, ID_LARGE_BMP_CACHE, &(pasPerson->prbcHost->bitmapCache[ID_LARGE_BMP_CACHE]))) { DC_QUIT; } // // The host can join the share. // rc = TRUE; DC_EXIT_POINT: DebugExitBOOL(ASShare::RBC_ViewStarting, rc); return(rc); } // // RBC_ViewEnded() // void ASShare::RBC_ViewEnded(ASPerson * pasPerson) { DebugEntry(ASShare::RBC_ViewEnded); ValidatePerson(pasPerson); RBCFreeIncoming(pasPerson); DebugExitVOID(ASShare::RBC_ViewEnded); } // // RBC_PartyLeftShare() // For 2.x nodes, frees the incoming RBC data // void ASShare::RBC_PartyLeftShare(ASPerson * pasPerson) { DebugEntry(ASShare::RBC_PartyLeftShare); ValidatePerson(pasPerson); // This should be gone! ASSERT(pasPerson->prbcHost == NULL); DebugExitVOID(ASShare::RBC_PartyLeftShare); } // // RBCFreeIncoming() // Frees the party RBC incoming structures. This happens // * For 3.0 nodes when they stop hosting // * For 2.x nodes when leave the share // void ASShare::RBCFreeIncoming(ASPerson * pasPerson) { DebugEntry(ASShare::RBCFreeIncoming); // // Free this host's cache bitmaps. // if (pasPerson->prbcHost != NULL) { UINT i; // // Delete all of this host's cache bitmaps. // for (i = 0; i < NUM_BMP_CACHES; i++) { BMCFreeCacheData(&(pasPerson->prbcHost->bitmapCache[i])); } delete pasPerson->prbcHost; pasPerson->prbcHost = NULL; } DebugExitVOID(ASShare::RBCFreeIncoming); } // // RBC_ProcessCacheOrder(..) // void ASShare::RBC_ProcessCacheOrder ( ASPerson * pasPerson, LPCOM_ORDER_UA pOrder ) { PBMC_ORDER_HDR pBmcOrderHdr; PBMC_COLOR_TABLE_ORDER_UA pColorOrder; PBMC_BITMAP_BITS_ORDER_R2_UA pBitsOrderR2; BOOL fCompressed = FALSE; UINT cxFixedBitmapWidth; UINT iCacheEntry; LPBYTE pBitmapBits; UINT cbBitmapBits; DebugEntry(ASShare::RBC_ProcessCacheOrder); ValidatePerson(pasPerson); // // The rectangle is not included in the header for private order data // (see SBC_CopyPrivateOrderData) so we must take this into account // when working out the address of the order data. // pBmcOrderHdr = (PBMC_ORDER_HDR) (pOrder->abOrderData - sizeof(pOrder->OrderHeader.rcsDst)); switch (pBmcOrderHdr->bmcPacketType) { case BMC_PT_COLOR_TABLE: // // This is a new color table. Simply cache the RGB values for // use when we come to process a memblt order // For backlevel calls the color table is always stored at // index 0 because the index field in the order reuses a // zero initialized "padding" field in the old structure. // TRACE_OUT(("Person [%d] Caching color table", pasPerson->mcsID)); pColorOrder = (PBMC_COLOR_TABLE_ORDER_UA)pBmcOrderHdr; PM_CacheRxColorTable(pasPerson, pColorOrder->index, EXTRACT_TSHR_UINT16_UA(&(pColorOrder->colorTableSize)), (LPTSHR_RGBQUAD)&pColorOrder->data[0]); break; case BMC_PT_BITMAP_BITS_COMPRESSED: fCompressed = TRUE; TRACE_OUT(( "Compressed BMP")); case BMC_PT_BITMAP_BITS_UNCOMPRESSED: // // This is some cached bitmap data. We have to store it in the // specified slot in the specified cache. // // // The width of the bitmaps we use are actually fixed as // multiples of 16 pels wide. Work out the width that // corresponds to the sub-bitmap width of data we are caching. // pBitsOrderR2 = (PBMC_BITMAP_BITS_ORDER_R2_UA)pBmcOrderHdr; cbBitmapBits = EXTRACT_TSHR_UINT16_UA( &(pBitsOrderR2->header.cbBitmapBits)); cxFixedBitmapWidth = ((pBitsOrderR2->header.cxSubBitmapWidth +15)/16)*16; // // The location of cache entry field depends on the R1/R2 // protocol // iCacheEntry = EXTRACT_TSHR_UINT16_UA(&(pBitsOrderR2->iCacheEntryR2)); pBitmapBits = pBitsOrderR2->data; TRACE_OUT(("Person [%d] Rx bmp: id(%d) entry(%d) size(%dx%d) " \ "fixed(%d) bpp(%d) bytes(%d) compressed(%d)", pasPerson->mcsID, pBitsOrderR2->header.cacheID, iCacheEntry, pBitsOrderR2->header.cxSubBitmapWidth, pBitsOrderR2->header.cySubBitmapHeight, cxFixedBitmapWidth, pBitsOrderR2->header.bpp, cbBitmapBits, fCompressed)); // // Pass the BMC data to the caching code. When calculating the // pointer to the bitmap bits remember that we did not send the // pBitmapBits field of the BMC_BITMAP_BITS_ORDER_Rx structure // (see SBC_CopyPrivateOrderData). // RBCStoreBitsInCacheBitmap(pasPerson, pBitsOrderR2->header.cacheID, iCacheEntry, pBitsOrderR2->header.cxSubBitmapWidth, cxFixedBitmapWidth, pBitsOrderR2->header.cySubBitmapHeight, pBitsOrderR2->header.bpp, pBitmapBits, cbBitmapBits, fCompressed); break; default: ERROR_OUT(( "[%u]Invalid packet type(%d)", pasPerson, (UINT)pBmcOrderHdr->bmcPacketType)); break; } DebugExitVOID(ASShare::RBC_ProcessCacheOrder); } // // RBC_MapCacheIDToBitmapHandle(..) // HBITMAP ASShare::RBC_MapCacheIDToBitmapHandle ( ASPerson * pasPerson, UINT cache, UINT cacheEntry, UINT colorIndex ) { PBMC_DIB_CACHE pDIBCache; PBMC_DIB_ENTRY pDIBEntry; BITMAPINFO_ours bitmapInfo; UINT cColors; HBITMAP hWorkBitmap = NULL; HPALETTE hpalOldDIB = NULL; LPBYTE pBits; UINT cacheOffset; DebugEntry(ASShare::RBC_MapCacheIDToBitmapHandle); ValidateView(pasPerson); // // Check that the supplied cache ID is valid. // if (cache >= NUM_BMP_CACHES) { ERROR_OUT(( "[%u]Invalid cache ID (%d)", pasPerson, cache)); cache = 0; } // // Get a pointer to the bitmap data // // Note that there are two indexes floating around. From the host's // perspective this index is a Cache Handler token and it must be // translated in order to address the associated data. However we // use it as the direct index into our receive cache and so the // slots used on host and remote will be diferent. // // There is no reason why the slots should be the same. This is just // to warn you that if you try correlating cache offsets between // host and remote you will get confused as soon as the cache fills // up and entries are reallocated in different positions. // // pDIBCache = &(pasPerson->prbcHost->bitmapCache[cache]); TRACE_OUT(( "Local person [%d] cache id %d pointer %lx", pasPerson->mcsID, cache, pDIBCache)); cacheOffset = cacheEntry * pDIBCache->cSize; pDIBEntry = (PBMC_DIB_ENTRY)(pDIBCache->data + cacheOffset); TRACE_OUT(( "Bits for index %u are at offset %ld, pointer 0x%08x", cacheEntry, (cacheEntry * pDIBCache->cSize), pDIBEntry)); // // Set up the BitmapInfo structure. // USR_InitDIBitmapHeader((BITMAPINFOHEADER *)&bitmapInfo, pDIBEntry->bpp); bitmapInfo.bmiHeader.biWidth = pDIBEntry->cxFixed; bitmapInfo.bmiHeader.biHeight = pDIBEntry->cy; // // Copy the Rx color table into the bitmap header. // if ( (pDIBEntry->bpp == 1) || (pDIBEntry->bpp == 4) || (pDIBEntry->bpp == 8) ) { cColors = COLORS_FOR_BPP(pDIBEntry->bpp); PM_GetColorTable( pasPerson, colorIndex, &cColors, (LPTSHR_RGBQUAD)(&bitmapInfo.bmiColors) ); TRACE_OUT(( "Got %u colors from table",cColors)); bitmapInfo.bmiHeader.biClrUsed = cColors; } else if (pDIBEntry->bpp == 24) { ASSERT(colorIndex == COLORCACHEINDEX_NONE); } else { ERROR_OUT(("RBC: Unexpected bpp %d from [%d]", pDIBEntry->bpp, pasPerson->mcsID)); DC_QUIT; } // // Select which fixed width bitmap we are going to use to store the // incoming DIB bits. // switch (pDIBEntry->cxFixed) { case 16: hWorkBitmap = m_usrBmp16; break; case 32: hWorkBitmap = m_usrBmp32; break; case 48: hWorkBitmap = m_usrBmp48; break; case 64: hWorkBitmap = m_usrBmp64; break; case 80: hWorkBitmap = m_usrBmp80; break; case 96: hWorkBitmap = m_usrBmp96; break; case 112: hWorkBitmap = m_usrBmp112; break; case 128: hWorkBitmap = m_usrBmp128; break; case 256: hWorkBitmap = m_usrBmp256; break; default: ERROR_OUT(("RBC_MapCacheIDToBitmapHandle: invalid size from [%d]", pDIBEntry->cxFixed, pasPerson->mcsID)); hWorkBitmap = m_usrBmp256; break; } ASSERT(hWorkBitmap != NULL); // // If the cached bitmap bits are compressed, we first have to // decompress them. // if (pDIBEntry->bCompressed) { ASSERT(pDIBEntry->bpp <= 8); // // Use the decompression buffer to decompress the bitmap data. // if (!BD_DecompressBitmap(pDIBEntry->bits, m_usrPBitmapBuffer, pDIBEntry->cCompressed, pDIBEntry->cxFixed, pDIBEntry->cy, pDIBEntry->bpp)) { ERROR_OUT(( "Failed to decompress bitmap pBits(%lx)" " pBuf(%lx) cb(%x) cx(%d) cy(%d) bpp(%d)", pDIBEntry->bits, m_usrPBitmapBuffer, pDIBEntry->cCompressed, pDIBEntry->cxFixed, pDIBEntry->cy, pDIBEntry->bpp)); DC_QUIT; } pBits = m_usrPBitmapBuffer; } else { // // For uncompressed data just use direct from the cache // TRACE_OUT(( "Bitmap bits are uncompressed")); pBits = pDIBEntry->bits; } // // Set the bits into the bitmap we are about to return to the caller // hpalOldDIB = SelectPalette(pasPerson->m_pView->m_usrWorkDC, pasPerson->pmPalette, FALSE); RealizePalette(pasPerson->m_pView->m_usrWorkDC); if (!SetDIBits(pasPerson->m_pView->m_usrWorkDC, hWorkBitmap, 0, pDIBEntry->cy, pBits, (BITMAPINFO *)&bitmapInfo, DIB_RGB_COLORS)) { ERROR_OUT(("SetDIBits failed in RBC_MapCacheIDToBitmapHandle")); } SelectPalette(pasPerson->m_pView->m_usrWorkDC, hpalOldDIB, FALSE ); TRACE_OUT(( "Returning bitmap for person [%d] cache %u index %u color %u", pasPerson->mcsID, cache, cacheEntry, colorIndex)); DC_EXIT_POINT: DebugExitVOID(ASShare::RBC_MapCacheIDToBitmapHandle); return(hWorkBitmap); } // // FUNCTION: RBCStoreBitsInCacheBitmap(..) // // DESCRIPTION: // // Stores received bitmap bits into one of the receiver's cache bitmaps. // // PARAMETERS: // // pasPerson - pasPerson of host the bits came from. // // cache - the id of the cache bitmap to store the bits in. // // iCacheEntry - the cache entry number (index). // // cxSubBitmapWidth - the width in pels of the actual sub-bitmap (ie. // excluding padding) // // cxFixedWidth - the fixed width in pels of the supplied bits (ie. // including padding) // // cySubBitmapHeight - the height in pels of the sub-bitmap. // // pBitmapBits - a pointer to the actual bitmap bits. These may or may // not be compressed (determined by the value of the fCompressed // flag). // // cbBitmapBits - the size of the bitmap bits pointed to by pBitmapBits. // // fCompressed - a flag specifying whether the supplied bitmap // bits are compressed. // // RETURNS: // // Nothing. // // void ASShare::RBCStoreBitsInCacheBitmap ( ASPerson * pasPerson, UINT cache, UINT iCacheEntry, UINT cxSubBitmapWidth, UINT cxFixedWidth, UINT cySubBitmapHeight, UINT bpp, LPBYTE pBitmapBits, UINT cbBitmapBits, BOOL fCompressed ) { PBMC_DIB_ENTRY pDIBEntry; DebugEntry(ASShare::RBCStoreBitsInCacheBitmap); ValidatePerson(pasPerson); // // Do some error checking. // if (cache >= NUM_BMP_CACHES) { ERROR_OUT(("Invalid cache ID %d from [%d]", cache, pasPerson->mcsID)); DC_QUIT; } // // Now store the bits in the cache // The cache is a huge chunk of memory comprising cache slots of cSize // bytes each. cSize is rounded to a power of 2 to ensure the array // spans segment boundaries cleanly for segmented architecture OSs. // pDIBEntry = (PBMC_DIB_ENTRY) (((LPBYTE)(pasPerson->prbcHost->bitmapCache[cache].data) + (iCacheEntry * pasPerson->prbcHost->bitmapCache[cache].cSize))); TRACE_OUT(( "Selected cache entry 0x%08x",pDIBEntry)); pDIBEntry->inUse = TRUE; pDIBEntry->cx = (TSHR_UINT16)cxSubBitmapWidth; pDIBEntry->cxFixed = (TSHR_UINT16)cxFixedWidth; pDIBEntry->cy = (TSHR_UINT16)cySubBitmapHeight; pDIBEntry->bpp = (TSHR_UINT16)bpp; pDIBEntry->bCompressed = (fCompressed != FALSE); pDIBEntry->cCompressed = cbBitmapBits; // // Now copy the bits into the cache entry // memcpy(pDIBEntry->bits, pBitmapBits, cbBitmapBits); // // THIS FIELD IS NEVER ACCESSED. // pDIBEntry->cBits = BYTES_IN_BITMAP(cxFixedWidth, cySubBitmapHeight, pDIBEntry->bpp); DC_EXIT_POINT: DebugExitVOID(ASShare::RBCStoreBitsInCacheBitmap); } // // BMCAllocateCacheData() // // DESCRIPTION: // // Allocates memory for a bitmap cache // // PARAMETERS: // // cellSize // // RETURNS: // // Area needed // // BOOL BMCAllocateCacheData ( UINT numEntries, UINT cellSize, UINT cacheID, PBMC_DIB_CACHE pCache ) { BOOL rc = TRUE; UINT memoryNeeded; UINT workSize; PBMC_DIB_ENTRY pCacheEntry; UINT i; DebugEntry(BMCAllocateCacheData); // // First we must free up any data, if it has been allocated // BMCFreeCacheData(pCache); // // For 2.x compat, we have SEND caps of 1 entry, 1 byte since 2.x // remotes fail for zero entries. But we don't want a small cache // at all, and for W95 nodes that don't have a cache at all, we don't // want viewers to alloc memory which will never be used. // if ((cellSize > 1) && (numEntries > 1)) { // // Calculate the cell area // workSize = cellSize + sizeof(BMC_DIB_ENTRY) - 1; memoryNeeded = numEntries * workSize; TRACE_OUT(("Need 0x%08x bytes for cache %d, %d cells of size 0x%08x", memoryNeeded, cacheID, numEntries, cellSize)); // // Malloc the huge space // pCache->data = new BYTE[memoryNeeded]; if (pCache->data == NULL) { ERROR_OUT(( "Failed to alloc bitmap cache %d", cacheID)); rc = FALSE; DC_QUIT; } pCache->cCellSize = cellSize; pCache->cEntries = numEntries; pCache->cSize = workSize; pCache->freeEntry = NULL; pCacheEntry = (PBMC_DIB_ENTRY)(pCache->data); for (i = 0; i < numEntries; i++) { pCacheEntry->inUse = FALSE; pCacheEntry = (PBMC_DIB_ENTRY)(((LPBYTE)pCacheEntry) + workSize); } TRACE_OUT(( "Allocated cache %d size %d, pointer 0x%08x stored at 0x%08x", cacheID, memoryNeeded, pCache->data, &pCache->data)); } DC_EXIT_POINT: DebugExitBOOL(BMCAllocateCacheData, rc); return(rc); } // // FUNCTION: BMCFreeCacheData() // // DESCRIPTION: // // Deletes selected cache's memory // // PARAMETERS: // // cacheID - id of cache for free // pCache - pointer to memory to be freed // // // RETURNS: // // Nothing. // // void BMCFreeCacheData(PBMC_DIB_CACHE pCache) { DebugEntry(BMCFreeCacheData); if (pCache->data) { delete[] pCache->data; pCache->data = NULL; } pCache->cCellSize = 0; pCache->cEntries = 0; DebugExitVOID(BMCFreeCacheData); }