/** * FreeRDP: A Remote Desktop Protocol Implementation * Interleaved RLE Bitmap Codec * * Copyright 2014 Marc-Andre Moreau * Copyright 2015 Thincast Technologies GmbH * Copyright 2015 DI (FH) Martin Haimberger * Copyright 2016 Armin Novak * Copyright 2016 Thincast Technologies GmbH * * 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 #include #define TAG FREERDP_TAG("codec") #define UNROLL_BODY(_exp, _count) do \ { \ size_t x; \ for (x=0; x<(_count); x++) \ { \ do _exp while(FALSE); \ } \ } \ while (FALSE) #define UNROLL_MULTIPLE(_condition, _exp, _count) do \ { \ while ((_condition) >= _count) \ { \ UNROLL_BODY(_exp, _count); \ (_condition) -= _count; \ } \ } \ while (FALSE) #define UNROLL(_condition, _exp) do \ { \ UNROLL_MULTIPLE(_condition, _exp, 16); \ UNROLL_MULTIPLE(_condition, _exp, 4); \ UNROLL_MULTIPLE(_condition, _exp, 1); \ } \ while (FALSE) /* RLE Compressed Bitmap Stream (RLE_BITMAP_STREAM) http://msdn.microsoft.com/en-us/library/cc240895%28v=prot.10%29.aspx pseudo-code http://msdn.microsoft.com/en-us/library/dd240593%28v=prot.10%29.aspx */ #define REGULAR_BG_RUN 0x00 #define MEGA_MEGA_BG_RUN 0xF0 #define REGULAR_FG_RUN 0x01 #define MEGA_MEGA_FG_RUN 0xF1 #define LITE_SET_FG_FG_RUN 0x0C #define MEGA_MEGA_SET_FG_RUN 0xF6 #define LITE_DITHERED_RUN 0x0E #define MEGA_MEGA_DITHERED_RUN 0xF8 #define REGULAR_COLOR_RUN 0x03 #define MEGA_MEGA_COLOR_RUN 0xF3 #define REGULAR_FGBG_IMAGE 0x02 #define MEGA_MEGA_FGBG_IMAGE 0xF2 #define LITE_SET_FG_FGBG_IMAGE 0x0D #define MEGA_MEGA_SET_FGBG_IMAGE 0xF7 #define REGULAR_COLOR_IMAGE 0x04 #define MEGA_MEGA_COLOR_IMAGE 0xF4 #define SPECIAL_FGBG_1 0xF9 #define SPECIAL_FGBG_2 0xFA #define SPECIAL_WHITE 0xFD #define SPECIAL_BLACK 0xFE #define BLACK_PIXEL 0x000000 typedef UINT32 PIXEL; static const BYTE g_MaskSpecialFgBg1 = 0x03; static const BYTE g_MaskSpecialFgBg2 = 0x05; static const BYTE g_MaskRegularRunLength = 0x1F; static const BYTE g_MaskLiteRunLength = 0x0F; /** * Reads the supplied order header and extracts the compression * order code ID. */ static INLINE UINT32 ExtractCodeId(BYTE bOrderHdr) { if ((bOrderHdr & 0xC0U) != 0xC0U) { /* REGULAR orders * (000x xxxx, 001x xxxx, 010x xxxx, 011x xxxx, 100x xxxx) */ return bOrderHdr >> 5; } else if ((bOrderHdr & 0xF0U) == 0xF0U) { /* MEGA and SPECIAL orders (0xF*) */ return bOrderHdr; } else { /* LITE orders * 1100 xxxx, 1101 xxxx, 1110 xxxx) */ return bOrderHdr >> 4; } } /** * Extract the run length of a compression order. */ static INLINE UINT32 ExtractRunLength(UINT32 code, const BYTE* pbOrderHdr, UINT32* advance) { UINT32 runLength; UINT32 ladvance; ladvance = 1; runLength = 0; switch (code) { case REGULAR_FGBG_IMAGE: runLength = (*pbOrderHdr) & g_MaskRegularRunLength; if (runLength == 0) { runLength = (*(pbOrderHdr + 1)) + 1; ladvance += 1; } else { runLength = runLength * 8; } break; case LITE_SET_FG_FGBG_IMAGE: runLength = (*pbOrderHdr) & g_MaskLiteRunLength; if (runLength == 0) { runLength = (*(pbOrderHdr + 1)) + 1; ladvance += 1; } else { runLength = runLength * 8; } break; case REGULAR_BG_RUN: case REGULAR_FG_RUN: case REGULAR_COLOR_RUN: case REGULAR_COLOR_IMAGE: runLength = (*pbOrderHdr) & g_MaskRegularRunLength; if (runLength == 0) { /* An extended (MEGA) run. */ runLength = (*(pbOrderHdr + 1)) + 32; ladvance += 1; } break; case LITE_SET_FG_FG_RUN: case LITE_DITHERED_RUN: runLength = (*pbOrderHdr) & g_MaskLiteRunLength; if (runLength == 0) { /* An extended (MEGA) run. */ runLength = (*(pbOrderHdr + 1)) + 16; ladvance += 1; } break; case MEGA_MEGA_BG_RUN: case MEGA_MEGA_FG_RUN: case MEGA_MEGA_SET_FG_RUN: case MEGA_MEGA_DITHERED_RUN: case MEGA_MEGA_COLOR_RUN: case MEGA_MEGA_FGBG_IMAGE: case MEGA_MEGA_SET_FGBG_IMAGE: case MEGA_MEGA_COLOR_IMAGE: runLength = ((UINT16) pbOrderHdr[1]) | ((UINT16)(pbOrderHdr[2] << 8)); ladvance += 2; break; } *advance = ladvance; return runLength; } static INLINE BOOL ensure_capacity(const BYTE* start, const BYTE* end, size_t size, size_t base) { const size_t available = (uintptr_t)end - (uintptr_t)start; const BOOL rc = available >= size * base; return rc; } static INLINE void write_pixel_8(BYTE* _buf, BYTE _pix) { *_buf = _pix; } static INLINE void write_pixel_24(BYTE* _buf, UINT32 _pix) { (_buf)[0] = (BYTE)(_pix); (_buf)[1] = (BYTE)((_pix) >> 8); (_buf)[2] = (BYTE)((_pix) >> 16); } static INLINE void write_pixel_16(BYTE* _buf, UINT16 _pix) { *(UINT16*)_buf = _pix; } #undef DESTWRITEPIXEL #undef DESTREADPIXEL #undef SRCREADPIXEL #undef DESTNEXTPIXEL #undef SRCNEXTPIXEL #undef WRITEFGBGIMAGE #undef WRITEFIRSTLINEFGBGIMAGE #undef RLEDECOMPRESS #undef RLEEXTRA #undef WHITE_PIXEL #define WHITE_PIXEL 0xFF #define DESTWRITEPIXEL(_buf, _pix) write_pixel_8(_buf, _pix) #define DESTREADPIXEL(_pix, _buf) _pix = (_buf)[0] #define SRCREADPIXEL(_pix, _buf) _pix = (_buf)[0] #define DESTNEXTPIXEL(_buf) _buf += 1 #define SRCNEXTPIXEL(_buf) _buf += 1 #define WRITEFGBGIMAGE WriteFgBgImage8to8 #define WRITEFIRSTLINEFGBGIMAGE WriteFirstLineFgBgImage8to8 #define RLEDECOMPRESS RleDecompress8to8 #define RLEEXTRA #undef ENSURE_CAPACITY #define ENSURE_CAPACITY(_start, _end, _size) ensure_capacity(_start, _end, _size, 1) #include "include/bitmap.c" #undef DESTWRITEPIXEL #undef DESTREADPIXEL #undef SRCREADPIXEL #undef DESTNEXTPIXEL #undef SRCNEXTPIXEL #undef WRITEFGBGIMAGE #undef WRITEFIRSTLINEFGBGIMAGE #undef RLEDECOMPRESS #undef RLEEXTRA #undef WHITE_PIXEL #define WHITE_PIXEL 0xFFFF #define DESTWRITEPIXEL(_buf, _pix) write_pixel_16(_buf, _pix) #define DESTREADPIXEL(_pix, _buf) _pix = ((UINT16*)(_buf))[0] #ifdef HAVE_ALIGNED_REQUIRED #define SRCREADPIXEL(_pix, _buf) _pix = (_buf)[0] | ((_buf)[1] << 8) #else #define SRCREADPIXEL(_pix, _buf) _pix = ((UINT16*)(_buf))[0] #endif #define DESTNEXTPIXEL(_buf) _buf += 2 #define SRCNEXTPIXEL(_buf) _buf += 2 #define WRITEFGBGIMAGE WriteFgBgImage16to16 #define WRITEFIRSTLINEFGBGIMAGE WriteFirstLineFgBgImage16to16 #define RLEDECOMPRESS RleDecompress16to16 #define RLEEXTRA #undef ENSURE_CAPACITY #define ENSURE_CAPACITY(_start, _end, _size) ensure_capacity(_start, _end, _size, 2) #include "include/bitmap.c" #undef DESTWRITEPIXEL #undef DESTREADPIXEL #undef SRCREADPIXEL #undef DESTNEXTPIXEL #undef SRCNEXTPIXEL #undef WRITEFGBGIMAGE #undef WRITEFIRSTLINEFGBGIMAGE #undef RLEDECOMPRESS #undef RLEEXTRA #undef WHITE_PIXEL #define WHITE_PIXEL 0xFFFFFF #define DESTWRITEPIXEL(_buf, _pix) write_pixel_24(_buf, _pix) #define DESTREADPIXEL(_pix, _buf) _pix = (_buf)[0] | ((_buf)[1] << 8) | \ ((_buf)[2] << 16) #define SRCREADPIXEL(_pix, _buf) _pix = (_buf)[0] | ((_buf)[1] << 8) | \ ((_buf)[2] << 16) #define DESTNEXTPIXEL(_buf) _buf += 3 #define SRCNEXTPIXEL(_buf) _buf += 3 #define WRITEFGBGIMAGE WriteFgBgImage24to24 #define WRITEFIRSTLINEFGBGIMAGE WriteFirstLineFgBgImage24to24 #define RLEDECOMPRESS RleDecompress24to24 #define RLEEXTRA #undef ENSURE_CAPACITY #define ENSURE_CAPACITY(_start, _end, _size) ensure_capacity(_start, _end, _size, 3) #include "include/bitmap.c" BOOL interleaved_decompress(BITMAP_INTERLEAVED_CONTEXT* interleaved, const BYTE* pSrcData, UINT32 SrcSize, UINT32 nSrcWidth, UINT32 nSrcHeight, UINT32 bpp, BYTE* pDstData, UINT32 DstFormat, UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst, UINT32 nDstWidth, UINT32 nDstHeight, const gdiPalette* palette) { UINT32 scanline; UINT32 SrcFormat; UINT32 BufferSize; if (!interleaved || !pSrcData || !pDstData) return FALSE; switch (bpp) { case 24: scanline = nSrcWidth * 3; SrcFormat = PIXEL_FORMAT_BGR24; break; case 16: scanline = nSrcWidth * 2; SrcFormat = PIXEL_FORMAT_RGB16; break; case 15: scanline = nSrcWidth * 2; SrcFormat = PIXEL_FORMAT_RGB15; break; case 8: scanline = nSrcWidth; SrcFormat = PIXEL_FORMAT_RGB8; break; default: WLog_ERR(TAG, "Invalid color depth %"PRIu32"", bpp); return FALSE; } BufferSize = scanline * nSrcHeight; if (BufferSize > interleaved->TempSize) { interleaved->TempBuffer = _aligned_realloc( interleaved->TempBuffer, BufferSize, 16); interleaved->TempSize = BufferSize; } if (!interleaved->TempBuffer) return FALSE; switch (bpp) { case 24: if (!RleDecompress24to24(pSrcData, SrcSize, interleaved->TempBuffer, scanline, nSrcWidth, nSrcHeight)) return FALSE; break; case 16: case 15: if (!RleDecompress16to16(pSrcData, SrcSize, interleaved->TempBuffer, scanline, nSrcWidth, nSrcHeight)) return FALSE; break; case 8: if (!RleDecompress8to8(pSrcData, SrcSize, interleaved->TempBuffer, scanline, nSrcWidth, nSrcHeight)) return FALSE; break; default: return FALSE; } return freerdp_image_copy(pDstData, DstFormat, nDstStep, nXDst, nYDst, nDstWidth, nDstHeight, interleaved->TempBuffer, SrcFormat, scanline, 0, 0, palette, FREERDP_FLIP_VERTICAL); } BOOL interleaved_compress(BITMAP_INTERLEAVED_CONTEXT* interleaved, BYTE* pDstData, UINT32* pDstSize, UINT32 nWidth, UINT32 nHeight, const BYTE* pSrcData, UINT32 SrcFormat, UINT32 nSrcStep, UINT32 nXSrc, UINT32 nYSrc, const gdiPalette* palette, UINT32 bpp) { BOOL status; wStream* s; UINT32 DstFormat = 0; const size_t maxSize = 64 * 64 * 4; if (!interleaved || !pDstData || !pSrcData) return FALSE; if ((nWidth == 0) || (nHeight == 0)) return FALSE; if (nWidth % 4) { WLog_ERR(TAG, "interleaved_compress: width is not a multiple of 4"); return FALSE; } if ((nWidth > 64) || (nHeight > 64)) { WLog_ERR(TAG, "interleaved_compress: width (%"PRIu32") or height (%"PRIu32") is greater than 64", nWidth, nHeight); return FALSE; } switch (bpp) { case 24: DstFormat = PIXEL_FORMAT_BGRX32; break; case 16: DstFormat = PIXEL_FORMAT_RGB16; break; case 15: DstFormat = PIXEL_FORMAT_RGB15; break; default: return FALSE; } if (!freerdp_image_copy(interleaved->TempBuffer, DstFormat, 0, 0, 0, nWidth, nHeight, pSrcData, SrcFormat, nSrcStep, nXSrc, nYSrc, palette, FREERDP_FLIP_NONE)) return FALSE; s = Stream_New(pDstData, *pDstSize); if (!s) return FALSE; Stream_SetPosition(interleaved->bts, 0); if (freerdp_bitmap_compress(interleaved->TempBuffer, nWidth, nHeight, s, bpp, maxSize, nHeight - 1, interleaved->bts, 0) < 0) status = FALSE; else status = TRUE; Stream_SealLength(s); *pDstSize = (UINT32) Stream_Length(s); Stream_Free(s, FALSE); return status; } BOOL bitmap_interleaved_context_reset(BITMAP_INTERLEAVED_CONTEXT* interleaved) { if (!interleaved) return FALSE; return TRUE; } BITMAP_INTERLEAVED_CONTEXT* bitmap_interleaved_context_new(BOOL Compressor) { BITMAP_INTERLEAVED_CONTEXT* interleaved; interleaved = (BITMAP_INTERLEAVED_CONTEXT*) calloc(1, sizeof(BITMAP_INTERLEAVED_CONTEXT)); if (interleaved) { interleaved->TempSize = 64 * 64 * 4; interleaved->TempBuffer = _aligned_malloc(interleaved->TempSize, 16); if (!interleaved->TempBuffer) { free(interleaved); WLog_ERR(TAG, "_aligned_malloc failed!"); return NULL; } interleaved->bts = Stream_New(NULL, interleaved->TempSize); if (!interleaved->bts) { _aligned_free(interleaved->TempBuffer); free(interleaved); WLog_ERR(TAG, "Stream_New failed!"); return NULL; } } return interleaved; } void bitmap_interleaved_context_free(BITMAP_INTERLEAVED_CONTEXT* interleaved) { if (!interleaved) return; _aligned_free(interleaved->TempBuffer); Stream_Free(interleaved->bts, TRUE); free(interleaved); }