/** * FreeRDP: A Remote Desktop Protocol Implementation * NSCodec Encoder * * Copyright 2012 Vic Lee * 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. */ #include #include #include #include #include #include #include #include "nsc_types.h" #include "nsc_encode.h" typedef struct { UINT32 x; UINT32 y; UINT32 width; UINT32 height; const BYTE* data; UINT32 scanline; BYTE* PlaneBuffer; UINT32 MaxPlaneSize; BYTE* PlaneBuffers[5]; UINT32 OrgByteCount[4]; UINT32 LumaPlaneByteCount; UINT32 OrangeChromaPlaneByteCount; UINT32 GreenChromaPlaneByteCount; UINT32 AlphaPlaneByteCount; UINT8 ColorLossLevel; UINT8 ChromaSubsamplingLevel; } NSC_MESSAGE; static BOOL nsc_write_message(NSC_CONTEXT* context, wStream* s, const NSC_MESSAGE* message); static BOOL nsc_context_initialize_encode(NSC_CONTEXT* context) { int i; UINT32 length; UINT32 tempWidth; UINT32 tempHeight; tempWidth = ROUND_UP_TO(context->width, 8); tempHeight = ROUND_UP_TO(context->height, 2); /* The maximum length a decoded plane can reach in all cases */ length = tempWidth * tempHeight + 16; if (length > context->priv->PlaneBuffersLength) { for (i = 0; i < 5; i++) { BYTE* tmp = (BYTE*)winpr_aligned_recalloc(context->priv->PlaneBuffers[i], length, sizeof(BYTE), 32); if (!tmp) goto fail; context->priv->PlaneBuffers[i] = tmp; } context->priv->PlaneBuffersLength = length; } if (context->ChromaSubsamplingLevel) { context->OrgByteCount[0] = tempWidth * context->height; context->OrgByteCount[1] = tempWidth * tempHeight / 4; context->OrgByteCount[2] = tempWidth * tempHeight / 4; context->OrgByteCount[3] = context->width * context->height; } else { context->OrgByteCount[0] = context->width * context->height; context->OrgByteCount[1] = context->width * context->height; context->OrgByteCount[2] = context->width * context->height; context->OrgByteCount[3] = context->width * context->height; } return TRUE; fail: if (length > context->priv->PlaneBuffersLength) { for (i = 0; i < 5; i++) winpr_aligned_free(context->priv->PlaneBuffers[i]); } return FALSE; } static BOOL nsc_encode_argb_to_aycocg(NSC_CONTEXT* context, const BYTE* data, UINT32 scanline) { UINT16 x; UINT16 y; UINT16 rw; BYTE ccl; const BYTE* src; const UINT32* src_32; const UINT16* src_16; BYTE* yplane = NULL; BYTE* coplane = NULL; BYTE* cgplane = NULL; BYTE* aplane = NULL; INT16 r_val; INT16 g_val; INT16 b_val; BYTE a_val; UINT32 tempWidth; tempWidth = ROUND_UP_TO(context->width, 8); rw = (context->ChromaSubsamplingLevel ? tempWidth : context->width); ccl = context->ColorLossLevel; for (y = 0; y < context->height; y++) { src = data + (context->height - 1 - y) * scanline; yplane = context->priv->PlaneBuffers[0] + y * rw; coplane = context->priv->PlaneBuffers[1] + y * rw; cgplane = context->priv->PlaneBuffers[2] + y * rw; aplane = context->priv->PlaneBuffers[3] + y * context->width; src_32 = (UINT32*)src; src_16 = (UINT16*)src; for (x = 0; x < context->width; x++) { switch (context->format) { case PIXEL_FORMAT_BGRX32: b_val = (INT16)(*src_32 & 0xFF); g_val = (INT16)((*src_32 >> 8) & 0xFF); r_val = (INT16)((*src_32 >> 16) & 0xFF); a_val = 0xFF; src_32++; break; case PIXEL_FORMAT_BGRA32: b_val = (INT16)(*src_32 & 0xFF); g_val = (INT16)((*src_32 >> 8) & 0xFF); r_val = (INT16)((*src_32 >> 16) & 0xFF); a_val = (INT16)((*src_32 >> 24) & 0xFF); src_32++; break; case PIXEL_FORMAT_RGBX32: r_val = (INT16)(*src_32 & 0xFF); g_val = (INT16)((*src_32 >> 8) & 0xFF); b_val = (INT16)((*src_32 >> 16) & 0xFF); a_val = 0xFF; src_32++; break; case PIXEL_FORMAT_RGBA32: r_val = (INT16)(*src_32 & 0xFF); g_val = (INT16)((*src_32 >> 8) & 0xFF); b_val = (INT16)((*src_32 >> 16) & 0xFF); a_val = (INT16)((*src_32 >> 24) & 0xFF); src_32++; break; case PIXEL_FORMAT_BGR24: #ifdef __LITTLE_ENDIAN__ b_val = *src++; g_val = *src++; r_val = *src++; #else r_val = *src++; g_val = *src++; b_val = *src++; #endif a_val = 0xFF; break; case PIXEL_FORMAT_RGB24: #ifdef __LITTLE_ENDIAN__ r_val = *src++; g_val = *src++; b_val = *src++; #else b_val = *src++; g_val = *src++; r_val = *src++; #endif a_val = 0xFF; break; case PIXEL_FORMAT_BGR16: b_val = (INT16)((*src_16) & 0x1F); g_val = (INT16)((*src_16 >> 5) & 0x3F); r_val = (INT16)((*src_16 >> 11) & 0x1F); a_val = 0xFF; src_16++; break; case PIXEL_FORMAT_RGB16: r_val = (INT16)((*src_16) & 0x1F); g_val = (INT16)((*src_16 >> 5) & 0x3F); b_val = (INT16)((*src_16 >> 11) & 0x1F); a_val = 0xFF; src_16++; break; case PIXEL_FORMAT_A4: { int shift; BYTE idx; shift = (7 - (x % 8)); idx = (BYTE)(((*src_32 & 0xFF) >> shift) & 1); idx |= (BYTE)(((((*src_32 >> 8) & 0xFF) >> shift) & 1) << 1); idx |= (BYTE)(((((*src_32 >> 16) & 0xFF) >> shift) & 1) << 2); idx |= (BYTE)(((((*src_32 >> 24) & 0xFF) >> shift) & 1) << 3); idx *= 3; r_val = (INT16)context->palette[idx]; g_val = (INT16)context->palette[idx + 1]; b_val = (INT16)context->palette[idx + 2]; if (shift == 0) src_32++; } a_val = 0xFF; break; case PIXEL_FORMAT_RGB8: { int idx = (*src) * 3; r_val = (INT16)context->palette[idx]; g_val = (INT16)context->palette[idx + 1]; b_val = (INT16)context->palette[idx + 2]; src++; } a_val = 0xFF; break; default: r_val = g_val = b_val = a_val = 0; break; } *yplane++ = (BYTE)((r_val >> 2) + (g_val >> 1) + (b_val >> 2)); /* Perform color loss reduction here */ *coplane++ = (BYTE)((r_val - b_val) >> ccl); *cgplane++ = (BYTE)((-(r_val >> 1) + g_val - (b_val >> 1)) >> ccl); *aplane++ = a_val; } if (context->ChromaSubsamplingLevel && (x % 2) == 1) { *yplane = *(yplane - 1); *coplane = *(coplane - 1); *cgplane = *(cgplane - 1); } } if (context->ChromaSubsamplingLevel && (y % 2) == 1) { yplane = context->priv->PlaneBuffers[0] + y * rw; coplane = context->priv->PlaneBuffers[1] + y * rw; cgplane = context->priv->PlaneBuffers[2] + y * rw; CopyMemory(yplane, yplane - rw, rw); CopyMemory(coplane, coplane - rw, rw); CopyMemory(cgplane, cgplane - rw, rw); } return TRUE; } static BOOL nsc_encode_subsampling(NSC_CONTEXT* context) { UINT32 y; UINT32 tempWidth; UINT32 tempHeight; if (!context) return FALSE; tempWidth = ROUND_UP_TO(context->width, 8); tempHeight = ROUND_UP_TO(context->height, 2); if (tempHeight == 0) return FALSE; if (tempWidth > context->priv->PlaneBuffersLength / tempHeight) return FALSE; for (y = 0; y < tempHeight >> 1; y++) { UINT32 x; BYTE* co_dst = context->priv->PlaneBuffers[1] + y * (tempWidth >> 1); BYTE* cg_dst = context->priv->PlaneBuffers[2] + y * (tempWidth >> 1); const INT8* co_src0 = (INT8*)context->priv->PlaneBuffers[1] + (y << 1) * tempWidth; const INT8* co_src1 = co_src0 + tempWidth; const INT8* cg_src0 = (INT8*)context->priv->PlaneBuffers[2] + (y << 1) * tempWidth; const INT8* cg_src1 = cg_src0 + tempWidth; for (x = 0; x < tempWidth >> 1; x++) { *co_dst++ = (BYTE)(((INT16)*co_src0 + (INT16) * (co_src0 + 1) + (INT16)*co_src1 + (INT16) * (co_src1 + 1)) >> 2); *cg_dst++ = (BYTE)(((INT16)*cg_src0 + (INT16) * (cg_src0 + 1) + (INT16)*cg_src1 + (INT16) * (cg_src1 + 1)) >> 2); co_src0 += 2; co_src1 += 2; cg_src0 += 2; cg_src1 += 2; } } return TRUE; } BOOL nsc_encode(NSC_CONTEXT* context, const BYTE* bmpdata, UINT32 rowstride) { if (!context || !bmpdata || (rowstride == 0)) return FALSE; if (!nsc_encode_argb_to_aycocg(context, bmpdata, rowstride)) return FALSE; if (context->ChromaSubsamplingLevel) { if (!nsc_encode_subsampling(context)) return FALSE; } return TRUE; } static UINT32 nsc_rle_encode(const BYTE* in, BYTE* out, UINT32 originalSize) { UINT32 left; UINT32 runlength = 1; UINT32 planeSize = 0; left = originalSize; /** * We quit the loop if the running compressed size is larger than the original. * In such cases data will be sent uncompressed. */ while (left > 4 && planeSize < originalSize - 4) { if (left > 5 && *in == *(in + 1)) { runlength++; } else if (runlength == 1) { *out++ = *in; planeSize++; } else if (runlength < 256) { *out++ = *in; *out++ = *in; *out++ = runlength - 2; runlength = 1; planeSize += 3; } else { *out++ = *in; *out++ = *in; *out++ = 0xFF; *out++ = (runlength & 0x000000FF); *out++ = (runlength & 0x0000FF00) >> 8; *out++ = (runlength & 0x00FF0000) >> 16; *out++ = (runlength & 0xFF000000) >> 24; runlength = 1; planeSize += 7; } in++; left--; } if (planeSize < originalSize - 4) CopyMemory(out, in, 4); planeSize += 4; return planeSize; } static void nsc_rle_compress_data(NSC_CONTEXT* context) { UINT16 i; UINT32 planeSize; UINT32 originalSize; for (i = 0; i < 4; i++) { originalSize = context->OrgByteCount[i]; if (originalSize == 0) { planeSize = 0; } else { planeSize = nsc_rle_encode(context->priv->PlaneBuffers[i], context->priv->PlaneBuffers[4], originalSize); if (planeSize < originalSize) CopyMemory(context->priv->PlaneBuffers[i], context->priv->PlaneBuffers[4], planeSize); else planeSize = originalSize; } context->PlaneByteCount[i] = planeSize; } } static UINT32 nsc_compute_byte_count(NSC_CONTEXT* context, UINT32* ByteCount, UINT32 width, UINT32 height) { UINT32 tempWidth; UINT32 tempHeight; UINT32 maxPlaneSize; tempWidth = ROUND_UP_TO(width, 8); tempHeight = ROUND_UP_TO(height, 2); maxPlaneSize = tempWidth * tempHeight + 16; if (context->ChromaSubsamplingLevel) { ByteCount[0] = tempWidth * height; ByteCount[1] = tempWidth * tempHeight / 4; ByteCount[2] = tempWidth * tempHeight / 4; ByteCount[3] = width * height; } else { ByteCount[0] = width * height; ByteCount[1] = width * height; ByteCount[2] = width * height; ByteCount[3] = width * height; } return maxPlaneSize; } BOOL nsc_write_message(NSC_CONTEXT* context, wStream* s, const NSC_MESSAGE* message) { UINT32 totalPlaneByteCount; totalPlaneByteCount = message->LumaPlaneByteCount + message->OrangeChromaPlaneByteCount + message->GreenChromaPlaneByteCount + message->AlphaPlaneByteCount; if (!Stream_EnsureRemainingCapacity(s, 20 + totalPlaneByteCount)) return FALSE; Stream_Write_UINT32(s, message->LumaPlaneByteCount); /* LumaPlaneByteCount (4 bytes) */ Stream_Write_UINT32( s, message->OrangeChromaPlaneByteCount); /* OrangeChromaPlaneByteCount (4 bytes) */ Stream_Write_UINT32( s, message->GreenChromaPlaneByteCount); /* GreenChromaPlaneByteCount (4 bytes) */ Stream_Write_UINT32(s, message->AlphaPlaneByteCount); /* AlphaPlaneByteCount (4 bytes) */ Stream_Write_UINT8(s, message->ColorLossLevel); /* ColorLossLevel (1 byte) */ Stream_Write_UINT8(s, message->ChromaSubsamplingLevel); /* ChromaSubsamplingLevel (1 byte) */ Stream_Write_UINT16(s, 0); /* Reserved (2 bytes) */ if (message->LumaPlaneByteCount) Stream_Write(s, message->PlaneBuffers[0], message->LumaPlaneByteCount); /* LumaPlane */ if (message->OrangeChromaPlaneByteCount) Stream_Write(s, message->PlaneBuffers[1], message->OrangeChromaPlaneByteCount); /* OrangeChromaPlane */ if (message->GreenChromaPlaneByteCount) Stream_Write(s, message->PlaneBuffers[2], message->GreenChromaPlaneByteCount); /* GreenChromaPlane */ if (message->AlphaPlaneByteCount) Stream_Write(s, message->PlaneBuffers[3], message->AlphaPlaneByteCount); /* AlphaPlane */ return TRUE; } BOOL nsc_compose_message(NSC_CONTEXT* context, wStream* s, const BYTE* data, UINT32 width, UINT32 height, UINT32 scanline) { BOOL rc; NSC_MESSAGE message = { 0 }; if (!context || !s || !data) return FALSE; context->width = width; context->height = height; if (!nsc_context_initialize_encode(context)) return FALSE; /* ARGB to AYCoCg conversion, chroma subsampling and colorloss reduction */ PROFILER_ENTER(context->priv->prof_nsc_encode) rc = context->encode(context, data, scanline); PROFILER_EXIT(context->priv->prof_nsc_encode) if (!rc) return FALSE; /* RLE encode */ PROFILER_ENTER(context->priv->prof_nsc_rle_compress_data) nsc_rle_compress_data(context); PROFILER_EXIT(context->priv->prof_nsc_rle_compress_data) message.PlaneBuffers[0] = context->priv->PlaneBuffers[0]; message.PlaneBuffers[1] = context->priv->PlaneBuffers[1]; message.PlaneBuffers[2] = context->priv->PlaneBuffers[2]; message.PlaneBuffers[3] = context->priv->PlaneBuffers[3]; message.LumaPlaneByteCount = context->PlaneByteCount[0]; message.OrangeChromaPlaneByteCount = context->PlaneByteCount[1]; message.GreenChromaPlaneByteCount = context->PlaneByteCount[2]; message.AlphaPlaneByteCount = context->PlaneByteCount[3]; message.ColorLossLevel = context->ColorLossLevel; message.ChromaSubsamplingLevel = context->ChromaSubsamplingLevel; return nsc_write_message(context, s, &message); } BOOL nsc_decompose_message(NSC_CONTEXT* context, wStream* s, BYTE* bmpdata, UINT32 x, UINT32 y, UINT32 width, UINT32 height, UINT32 rowstride, UINT32 format, UINT32 flip) { size_t size = Stream_GetRemainingLength(s); if (size > UINT32_MAX) return FALSE; if (!nsc_process_message(context, (UINT16)FreeRDPGetBitsPerPixel(context->format), width, height, Stream_Pointer(s), (UINT32)size, bmpdata, format, rowstride, x, y, width, height, flip)) return FALSE; Stream_Seek(s, size); return TRUE; }