#include "stdafx.h" #include "Emu/Memory/Memory.h" #include "Emu/SysCalls/Modules.h" #include "stblib/stb_image.h" #include "Emu/SysCalls/lv2/cellFs.h" #include "cellJpgDec.h" Module *cellJpgDec = nullptr; int cellJpgDecCreate(u32 mainHandle, u32 threadInParam, u32 threadOutParam) { UNIMPLEMENTED_FUNC(cellJpgDec); return CELL_OK; } int cellJpgDecExtCreate(u32 mainHandle, u32 threadInParam, u32 threadOutParam, u32 extThreadInParam, u32 extThreadOutParam) { UNIMPLEMENTED_FUNC(cellJpgDec); return CELL_OK; } int cellJpgDecDestroy(u32 mainHandle) { UNIMPLEMENTED_FUNC(cellJpgDec); return CELL_OK; } int cellJpgDecOpen(u32 mainHandle, vm::ptr subHandle, vm::ptr src, vm::ptr openInfo) { cellJpgDec->Warning("cellJpgDecOpen(mainHandle=0x%x, subHandle_addr=0x%x, src_addr=0x%x, openInfo_addr=0x%x)", mainHandle, subHandle.addr(), src.addr(), openInfo.addr()); std::shared_ptr current_subHandle(new CellJpgDecSubHandle); current_subHandle->fd = 0; current_subHandle->src = *src; switch(src->srcSelect.data()) { case se32(CELL_JPGDEC_BUFFER): current_subHandle->fileSize = src->streamSize; break; case se32(CELL_JPGDEC_FILE): // Get file descriptor vm::var> fd; int ret = cellFsOpen(src->fileName.to_le(), 0, fd, vm::ptr::make(0), 0); current_subHandle->fd = fd.value(); if (ret != CELL_OK) return CELL_JPGDEC_ERROR_OPEN_FILE; // Get size of file vm::var sb; // Alloc a CellFsStat struct ret = cellFsFstat(current_subHandle->fd, sb); if (ret != CELL_OK) return ret; current_subHandle->fileSize = sb->st_size; // Get CellFsStat.st_size break; } // From now, every u32 subHandle argument is a pointer to a CellJpgDecSubHandle struct. *subHandle = cellJpgDec->GetNewId(current_subHandle); return CELL_OK; } int cellJpgDecClose(u32 mainHandle, u32 subHandle) { cellJpgDec->Warning("cellJpgDecOpen(mainHandle=0x%x, subHandle=0x%x)", mainHandle, subHandle); std::shared_ptr subHandle_data; if(!cellJpgDec->CheckId(subHandle, subHandle_data)) return CELL_JPGDEC_ERROR_FATAL; cellFsClose(subHandle_data->fd); cellJpgDec->RemoveId(subHandle); return CELL_OK; } int cellJpgDecReadHeader(u32 mainHandle, u32 subHandle, vm::ptr info) { cellJpgDec->Log("cellJpgDecReadHeader(mainHandle=0x%x, subHandle=0x%x, info_addr=0x%x)", mainHandle, subHandle, info.addr()); std::shared_ptr subHandle_data; if(!cellJpgDec->CheckId(subHandle, subHandle_data)) return CELL_JPGDEC_ERROR_FATAL; const u32& fd = subHandle_data->fd; const u64& fileSize = subHandle_data->fileSize; CellJpgDecInfo& current_info = subHandle_data->info; //Write the header to buffer vm::var buffer((u32)fileSize); vm::var> pos, nread; switch(subHandle_data->src.srcSelect.data()) { case se32(CELL_JPGDEC_BUFFER): memmove(buffer.begin(), vm::get_ptr(subHandle_data->src.streamPtr), buffer.size()); break; case se32(CELL_JPGDEC_FILE): cellFsLseek(fd, 0, CELL_SEEK_SET, pos); cellFsRead(fd, vm::ptr::make(buffer.addr()), buffer.size(), nread); break; } if (*buffer.To(0) != 0xE0FFD8FF || // Error: Not a valid SOI header *buffer.To(6) != 0x4649464A) // Error: Not a valid JFIF string { return CELL_JPGDEC_ERROR_HEADER; } u32 i = 4; if(i >= fileSize) return CELL_JPGDEC_ERROR_HEADER; u16 block_length = buffer[i] * 0xFF + buffer[i+1]; while(true) { i += block_length; // Increase the file index to get to the next block if (i >= fileSize || // Check to protect against segmentation faults buffer[i] != 0xFF) // Check that we are truly at the start of another block { return CELL_JPGDEC_ERROR_HEADER; } if(buffer[i+1] == 0xC0) break; // 0xFFC0 is the "Start of frame" marker which contains the file size i += 2; // Skip the block marker block_length = buffer[i] * 0xFF + buffer[i+1]; // Go to the next block } current_info.imageWidth = buffer[i+7]*0x100 + buffer[i+8]; current_info.imageHeight = buffer[i+5]*0x100 + buffer[i+6]; current_info.numComponents = 3; // Unimplemented current_info.colorSpace = CELL_JPG_RGB; *info = current_info; return CELL_OK; } int cellJpgDecDecodeData(u32 mainHandle, u32 subHandle, vm::ptr data, vm::ptr dataCtrlParam, vm::ptr dataOutInfo) { cellJpgDec->Log("cellJpgDecDecodeData(mainHandle=0x%x, subHandle=0x%x, data_addr=0x%x, dataCtrlParam_addr=0x%x, dataOutInfo_addr=0x%x)", mainHandle, subHandle, data.addr(), dataCtrlParam.addr(), dataOutInfo.addr()); dataOutInfo->status = CELL_JPGDEC_DEC_STATUS_STOP; std::shared_ptr subHandle_data; if(!cellJpgDec->CheckId(subHandle, subHandle_data)) return CELL_JPGDEC_ERROR_FATAL; const u32& fd = subHandle_data->fd; const u64& fileSize = subHandle_data->fileSize; const CellJpgDecOutParam& current_outParam = subHandle_data->outParam; //Copy the JPG file to a buffer vm::var jpg((u32)fileSize); vm::var> pos, nread; switch(subHandle_data->src.srcSelect.data()) { case se32(CELL_JPGDEC_BUFFER): memmove(jpg.begin(), vm::get_ptr(subHandle_data->src.streamPtr), jpg.size()); break; case se32(CELL_JPGDEC_FILE): cellFsLseek(fd, 0, CELL_SEEK_SET, pos); cellFsRead(fd, vm::ptr::make(jpg.addr()), jpg.size(), nread); break; } //Decode JPG file. (TODO: Is there any faster alternative? Can we do it without external libraries?) int width, height, actual_components; auto image = std::unique_ptr ( stbi_load_from_memory(jpg.ptr(), (s32)fileSize, &width, &height, &actual_components, 4), &::free ); if (!image) return CELL_JPGDEC_ERROR_STREAM_FORMAT; const bool flip = current_outParam.outputMode == CELL_JPGDEC_BOTTOM_TO_TOP; const int bytesPerLine = (u32)dataCtrlParam->outputBytesPerLine; size_t image_size = width * height; switch((u32)current_outParam.outputColorSpace) { case CELL_JPG_RGB: case CELL_JPG_RGBA: { const char nComponents = current_outParam.outputColorSpace == CELL_JPG_RGBA ? 4 : 3; image_size *= nComponents; if (bytesPerLine > width * nComponents || flip) //check if we need padding { const int linesize = std::min(bytesPerLine, width * nComponents); for (int i = 0; i < height; i++) { const int dstOffset = i * bytesPerLine; const int srcOffset = width * nComponents * (flip ? height - i - 1 : i); memcpy(&data[dstOffset], &image.get()[srcOffset], linesize); } } else { memcpy(data.get_ptr(), image.get(), image_size); } } break; case CELL_JPG_ARGB: { const int nComponents = 4; image_size *= nComponents; if (bytesPerLine > width * nComponents || flip) //check if we need padding { //TODO: Find out if we can't do padding without an extra copy const int linesize = std::min(bytesPerLine, width * nComponents); char *output = (char *) malloc(linesize); for (int i = 0; i < height; i++) { const int dstOffset = i * bytesPerLine; const int srcOffset = width * nComponents * (flip ? height - i - 1 : i); for (int j = 0; j < linesize; j += nComponents) { output[j + 0] = image.get()[srcOffset + j + 3]; output[j + 1] = image.get()[srcOffset + j + 0]; output[j + 2] = image.get()[srcOffset + j + 1]; output[j + 3] = image.get()[srcOffset + j + 2]; } memcpy(&data[dstOffset], output, linesize); } free(output); } else { uint* img = (uint*)new char[image_size]; uint* source_current = (uint*)&(image.get()[0]); uint* dest_current = img; for (uint i = 0; i < image_size / nComponents; i++) { uint val = *source_current; *dest_current = (val >> 24) | (val << 8); // set alpha (A8) as leftmost byte source_current++; dest_current++; } memcpy(data.get_ptr(), img, image_size); delete[] img; } } break; case CELL_JPG_GRAYSCALE: case CELL_JPG_YCbCr: case CELL_JPG_UPSAMPLE_ONLY: case CELL_JPG_GRAYSCALE_TO_ALPHA_RGBA: case CELL_JPG_GRAYSCALE_TO_ALPHA_ARGB: cellJpgDec->Error("cellJpgDecDecodeData: Unsupported color space (%d)", current_outParam.outputColorSpace); break; default: return CELL_JPGDEC_ERROR_ARG; } dataOutInfo->status = CELL_JPGDEC_DEC_STATUS_FINISH; if(dataCtrlParam->outputBytesPerLine) dataOutInfo->outputLines = (u32)(image_size / dataCtrlParam->outputBytesPerLine); return CELL_OK; } int cellJpgDecSetParameter(u32 mainHandle, u32 subHandle, vm::ptr inParam, vm::ptr outParam) { cellJpgDec->Log("cellJpgDecSetParameter(mainHandle=0x%x, subHandle=0x%x, inParam_addr=0x%x, outParam_addr=0x%x)", mainHandle, subHandle, inParam.addr(), outParam.addr()); std::shared_ptr subHandle_data; if(!cellJpgDec->CheckId(subHandle, subHandle_data)) return CELL_JPGDEC_ERROR_FATAL; CellJpgDecInfo& current_info = subHandle_data->info; CellJpgDecOutParam& current_outParam = subHandle_data->outParam; current_outParam.outputWidthByte = (current_info.imageWidth * current_info.numComponents); current_outParam.outputWidth = current_info.imageWidth; current_outParam.outputHeight = current_info.imageHeight; current_outParam.outputColorSpace = inParam->outputColorSpace; switch ((u32)current_outParam.outputColorSpace) { case CELL_JPG_GRAYSCALE: current_outParam.outputComponents = 1; break; case CELL_JPG_RGB: case CELL_JPG_YCbCr: current_outParam.outputComponents = 3; break; case CELL_JPG_UPSAMPLE_ONLY: current_outParam.outputComponents = current_info.numComponents; break; case CELL_JPG_RGBA: case CELL_JPG_ARGB: case CELL_JPG_GRAYSCALE_TO_ALPHA_RGBA: case CELL_JPG_GRAYSCALE_TO_ALPHA_ARGB: current_outParam.outputComponents = 4; break; default: return CELL_JPGDEC_ERROR_ARG; // Not supported color space } current_outParam.outputMode = inParam->outputMode; current_outParam.downScale = inParam->downScale; current_outParam.useMemorySpace = 0; // Unimplemented *outParam = current_outParam; return CELL_OK; } void cellJpgDec_init(Module *pxThis) { cellJpgDec = pxThis; cellJpgDec->AddFunc(0xa7978f59, cellJpgDecCreate); cellJpgDec->AddFunc(0x8b300f66, cellJpgDecExtCreate); cellJpgDec->AddFunc(0x976ca5c2, cellJpgDecOpen); cellJpgDec->AddFunc(0x6d9ebccf, cellJpgDecReadHeader); cellJpgDec->AddFunc(0xe08f3910, cellJpgDecSetParameter); cellJpgDec->AddFunc(0xaf8bb012, cellJpgDecDecodeData); cellJpgDec->AddFunc(0x9338a07a, cellJpgDecClose); cellJpgDec->AddFunc(0xd8ea91f8, cellJpgDecDestroy); /*cellJpgDec->AddFunc(0xa9f703e3, cellJpgDecExtOpen); cellJpgDec->AddFunc(0xb91eb3d2, cellJpgDecExtReadHeader); cellJpgDec->AddFunc(0x65cbbb16, cellJpgDecExtSetParameter); cellJpgDec->AddFunc(0x716f8792, cellJpgDecExtDecodeData);*/ }