FreeRDP/libfreerdp/codec/nsc_encode.c

561 lines
17 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol Implementation
* NSCodec Encoder
*
* Copyright 2012 Vic Lee
* Copyright 2016 Armin Novak <armin.novak@thincast.com>
* 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 <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <winpr/crt.h>
#include <freerdp/codec/nsc.h>
#include <freerdp/codec/color.h>
#include "nsc_types.h"
#include "nsc_encode.h"
static void 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++)
context->priv->PlaneBuffers[i] = (BYTE*) realloc(context->priv->PlaneBuffers[i],
length);
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;
}
}
static void nsc_encode_argb_to_aycocg(NSC_CONTEXT* context, const BYTE* data,
UINT32 scanline)
{
UINT16 x;
UINT16 y;
UINT16 rw;
BYTE ccl;
const BYTE* src;
BYTE* yplane;
BYTE* coplane;
BYTE* cgplane;
BYTE* aplane;
INT16 r_val;
INT16 g_val;
INT16 b_val;
BYTE a_val;
UINT32 tempWidth;
UINT32 tempHeight;
tempWidth = ROUND_UP_TO(context->width, 8);
tempHeight = ROUND_UP_TO(context->height, 2);
rw = (context->ChromaSubsamplingLevel ? tempWidth : context->width);
ccl = context->ColorLossLevel;
yplane = context->priv->PlaneBuffers[0];
coplane = context->priv->PlaneBuffers[1];
cgplane = context->priv->PlaneBuffers[2];
aplane = context->priv->PlaneBuffers[3];
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;
for (x = 0; x < context->width; x++)
{
switch (context->pixel_format)
{
case PIXEL_FORMAT_BGRA32:
b_val = *src++;
g_val = *src++;
r_val = *src++;
a_val = *src++;
break;
case PIXEL_FORMAT_RGBA32:
r_val = *src++;
g_val = *src++;
b_val = *src++;
a_val = *src++;
break;
case PIXEL_FORMAT_BGR24:
b_val = *src++;
g_val = *src++;
r_val = *src++;
a_val = 0xFF;
break;
case PIXEL_FORMAT_RGB24:
r_val = *src++;
g_val = *src++;
b_val = *src++;
a_val = 0xFF;
break;
case PIXEL_FORMAT_BGR16:
b_val = (INT16)(((*(src + 1)) & 0xF8) | ((*(src + 1)) >> 5));
g_val = (INT16)((((*(src + 1)) & 0x07) << 5) | (((*src) & 0xE0) >> 3));
r_val = (INT16)((((*src) & 0x1F) << 3) | (((*src) >> 2) & 0x07));
a_val = 0xFF;
src += 2;
break;
case PIXEL_FORMAT_RGB16:
r_val = (INT16)(((*(src + 1)) & 0xF8) | ((*(src + 1)) >> 5));
g_val = (INT16)((((*(src + 1)) & 0x07) << 5) | (((*src) & 0xE0) >> 3));
b_val = (INT16)((((*src) & 0x1F) << 3) | (((*src) >> 2) & 0x07));
a_val = 0xFF;
src += 2;
break;
case PIXEL_FORMAT_A4:
{
int shift;
BYTE idx;
shift = (7 - (x % 8));
idx = ((*src) >> shift) & 1;
idx |= (((*(src + 1)) >> shift) & 1) << 1;
idx |= (((*(src + 2)) >> shift) & 1) << 2;
idx |= (((*(src + 3)) >> 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 += 4;
}
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)
{
CopyMemory(yplane + rw, yplane, rw);
CopyMemory(coplane + rw, coplane, rw);
CopyMemory(cgplane + rw, cgplane, rw);
}
}
static void nsc_encode_subsampling(NSC_CONTEXT* context)
{
UINT16 x;
UINT16 y;
BYTE* co_dst;
BYTE* cg_dst;
INT8* co_src0;
INT8* co_src1;
INT8* cg_src0;
INT8* cg_src1;
UINT32 tempWidth;
UINT32 tempHeight;
tempWidth = ROUND_UP_TO(context->width, 8);
tempHeight = ROUND_UP_TO(context->height, 2);
for (y = 0; y < tempHeight >> 1; y++)
{
co_dst = context->priv->PlaneBuffers[1] + y * (tempWidth >> 1);
cg_dst = context->priv->PlaneBuffers[2] + y * (tempWidth >> 1);
co_src0 = (INT8*) context->priv->PlaneBuffers[1] + (y << 1) * tempWidth;
co_src1 = co_src0 + tempWidth;
cg_src0 = (INT8*) context->priv->PlaneBuffers[2] + (y << 1) * tempWidth;
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;
}
}
}
void nsc_encode(NSC_CONTEXT* context, const BYTE* bmpdata, UINT32 rowstride)
{
nsc_encode_argb_to_aycocg(context, bmpdata, rowstride);
if (context->ChromaSubsamplingLevel)
{
nsc_encode_subsampling(context);
}
}
static UINT32 nsc_rle_encode(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;
}
}
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;
}
NSC_MESSAGE* nsc_encode_messages(NSC_CONTEXT* context, const BYTE* data,
UINT32 x, UINT32 y, UINT32 width, UINT32 height,
UINT32 scanline, UINT32* numMessages,
UINT32 maxDataSize)
{
UINT32 i, j, k;
UINT32 dataOffset;
UINT32 rows, cols;
UINT32 BytesPerPixel;
UINT32 MaxRegionWidth;
UINT32 MaxRegionHeight;
UINT32 ByteCount[4];
UINT32 MaxPlaneSize;
UINT32 MaxMessageSize;
NSC_MESSAGE* messages;
UINT32 PaddedMaxPlaneSize;
k = 0;
MaxRegionWidth = 64 * 4;
MaxRegionHeight = 64 * 2;
BytesPerPixel = GetBytesPerPixel(context->format);
rows = (width + (MaxRegionWidth - (width % MaxRegionWidth))) / MaxRegionWidth;
cols = (height + (MaxRegionHeight - (height % MaxRegionHeight))) /
MaxRegionHeight;
*numMessages = rows * cols;
MaxPlaneSize = nsc_compute_byte_count(context, (UINT32*) ByteCount, width,
height);
MaxMessageSize = ByteCount[0] + ByteCount[1] + ByteCount[2] + ByteCount[3] + 20;
maxDataSize -= 1024; /* reserve enough space for headers */
messages = (NSC_MESSAGE*) calloc(*numMessages, sizeof(NSC_MESSAGE));
if (!messages)
return NULL;
for (i = 0; i < rows; i++)
{
for (j = 0; j < cols; j++)
{
messages[k].x = x + (i * MaxRegionWidth);
messages[k].y = y + (j * MaxRegionHeight);
messages[k].width = (i < (rows - 1)) ? MaxRegionWidth : width -
(i * MaxRegionWidth);
messages[k].height = (j < (cols - 1)) ? MaxRegionHeight : height -
(j * MaxRegionHeight);
messages[k].data = data;
messages[k].scanline = scanline;
messages[k].MaxPlaneSize = nsc_compute_byte_count(context,
(UINT32*) messages[k].OrgByteCount, messages[k].width, messages[k].height);
k++;
}
}
*numMessages = k;
for (i = 0; i < *numMessages; i++)
{
PaddedMaxPlaneSize = messages[i].MaxPlaneSize + 32;
messages[i].PlaneBuffer = (BYTE*) BufferPool_Take(context->priv->PlanePool,
PaddedMaxPlaneSize * 5);
messages[i].PlaneBuffers[0] = (BYTE*) &
(messages[i].PlaneBuffer[(PaddedMaxPlaneSize * 0) + 16]);
messages[i].PlaneBuffers[1] = (BYTE*) &
(messages[i].PlaneBuffer[(PaddedMaxPlaneSize * 1) + 16]);
messages[i].PlaneBuffers[2] = (BYTE*) &
(messages[i].PlaneBuffer[(PaddedMaxPlaneSize * 2) + 16]);
messages[i].PlaneBuffers[3] = (BYTE*) &
(messages[i].PlaneBuffer[(PaddedMaxPlaneSize * 3) + 16]);
messages[i].PlaneBuffers[4] = (BYTE*) &
(messages[i].PlaneBuffer[(PaddedMaxPlaneSize * 4) + 16]);
}
for (i = 0; i < *numMessages; i++)
{
context->width = messages[i].width;
context->height = messages[i].height;
context->OrgByteCount[0] = messages[i].OrgByteCount[0];
context->OrgByteCount[1] = messages[i].OrgByteCount[1];
context->OrgByteCount[2] = messages[i].OrgByteCount[2];
context->OrgByteCount[3] = messages[i].OrgByteCount[3];
context->priv->PlaneBuffersLength = messages[i].MaxPlaneSize;
context->priv->PlaneBuffers[0] = messages[i].PlaneBuffers[0];
context->priv->PlaneBuffers[1] = messages[i].PlaneBuffers[1];
context->priv->PlaneBuffers[2] = messages[i].PlaneBuffers[2];
context->priv->PlaneBuffers[3] = messages[i].PlaneBuffers[3];
context->priv->PlaneBuffers[4] = messages[i].PlaneBuffers[4];
dataOffset = (messages[i].y * messages[i].scanline) + (messages[i].x *
BytesPerPixel);
PROFILER_ENTER(context->priv->prof_nsc_encode);
context->encode(context, &data[dataOffset], scanline);
PROFILER_EXIT(context->priv->prof_nsc_encode);
PROFILER_ENTER(context->priv->prof_nsc_rle_compress_data);
nsc_rle_compress_data(context);
PROFILER_EXIT(context->priv->prof_nsc_rle_compress_data);
messages[i].LumaPlaneByteCount = context->PlaneByteCount[0];
messages[i].OrangeChromaPlaneByteCount = context->PlaneByteCount[1];
messages[i].GreenChromaPlaneByteCount = context->PlaneByteCount[2];
messages[i].AlphaPlaneByteCount = context->PlaneByteCount[3];
messages[i].ColorLossLevel = context->ColorLossLevel;
messages[i].ChromaSubsamplingLevel = context->ChromaSubsamplingLevel;
}
context->priv->PlaneBuffers[0] = NULL;
context->priv->PlaneBuffers[1] = NULL;
context->priv->PlaneBuffers[2] = NULL;
context->priv->PlaneBuffers[3] = NULL;
context->priv->PlaneBuffers[4] = NULL;
return messages;
}
BOOL nsc_write_message(NSC_CONTEXT* context, wStream* s, NSC_MESSAGE* message)
{
UINT32 totalPlaneByteCount;
totalPlaneByteCount = message->LumaPlaneByteCount +
message->OrangeChromaPlaneByteCount +
message->GreenChromaPlaneByteCount + message->AlphaPlaneByteCount;
if (!Stream_EnsureRemainingCapacity(s, 20 + totalPlaneByteCount))
return -1;
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;
}
void nsc_message_free(NSC_CONTEXT* context, NSC_MESSAGE* message)
{
BufferPool_Return(context->priv->PlanePool, message->PlaneBuffer);
}
BOOL nsc_compose_message(NSC_CONTEXT* context, wStream* s, const BYTE* data,
UINT32 width, UINT32 height, UINT32 scanline)
{
NSC_MESSAGE s_message = { 0 };
NSC_MESSAGE* message = &s_message;
context->width = width;
context->height = height;
nsc_context_initialize_encode(context);
/* ARGB to AYCoCg conversion, chroma subsampling and colorloss reduction */
PROFILER_ENTER(context->priv->prof_nsc_encode);
context->encode(context, data, scanline);
PROFILER_EXIT(context->priv->prof_nsc_encode);
/* 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);
}