/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * Copyright by The HDF Group. * * All rights reserved. * * * * This file is part of HDF5. The full HDF5 copyright notice, including * * terms governing use, modification, and redistribution, is contained in * * the COPYING file, which can be found at the root of the source code * * distribution tree, or in https://www.hdfgroup.org/licenses. * * If you do not have access to either file, you may request a copy from * * help@hdfgroup.org. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ #include #include #include "gif.h" int EndianOrder; static GIFBYTE *ReadDataSubBlocks(GIFBYTE **MemGif2, GIFWORD *DSize); GIFWORD GetWord(GIFBYTE *MemGif) { GIFWORD w; if (EndianOrder == 1) { /* LittleEndian */ w = (GIFWORD)(*MemGif++ & 0xFF); w |= (GIFWORD)((*MemGif++ & 0xFF) << 0x08); } else { w = (GIFWORD)(*MemGif++ & 0xFF); w = ((GIFWORD)(*MemGif++ & 0xFF)) | (w << 0x08); } return w; } GIFBYTE GetByte(const GIFBYTE *MemGif) { return *MemGif; } /* * Read a GIF image GIFBYTE Header. * * This function reads the Header, Logical Screen Descriptor, and * Global Color Table (if any) from a GIF image file. The information * is stored in a GIFHEAD structure. * * Returns: -1 if a FILE stream error occurred during the read, * otherwise 0 if no error occurred. */ int ReadGifHeader(GIFHEAD *GifHead, /* Pointer to GIF header structure */ GIFBYTE **MemGif2) /* GIF image file input FILE stream */ { GIFWORD i; /* Loop counter */ GIFWORD tableSize; /* Number of entries in the Global Color Table */ GifHead->TableSize = 0; for (i = 0; i < 6; i++) { GifHead->HeaderDump[i] = *(*MemGif2)++; } if (strncmp((const char *)GifHead->HeaderDump, "GIF", (size_t)3) != 0) { printf("The file does not appear to be a valid GIF file.\n"); exit(EXIT_FAILURE); } for (i = 0; i < 7; i++) { GifHead->LSDDump[i] = *(*MemGif2)++; } GifHead->PackedField = GifHead->LSDDump[4]; /* Check if a Global Color Table is present */ if (GifHead->PackedField & 0x80) { /* Read number of color table entries */ tableSize = (GIFWORD)(1L << ((GifHead->PackedField & 0x07) + 1)); GifHead->TableSize = tableSize; /* Read the Global Color Table */ /* * There are some changes made here apart from just reading in the * global color table as would seem intuitively obvious. The colors * are stored in the bottom part of the palette as opposed to the top */ for (i = 0; i < tableSize; i++) { GifHead->HDFPalette[i][0] = *(*MemGif2)++; GifHead->HDFPalette[i][1] = *(*MemGif2)++; GifHead->HDFPalette[i][2] = *(*MemGif2)++; } } /* Check for a FILE stream error */ #if 0 if (ferror(FpGif)) return -1; #endif /* 0 */ return 0; /* No FILE stream error occurred */ } /* ** Read a GIF Local Image Descriptor. ** ** This function reads the Local Image Descriptor, and Local Color ** Table (if any) from a GIF image file. The information is stored ** in a GIFIMAGEDESC structure. ** ** Note that the ImageSeparator field value in the GIFIMAGEDESC ** structure is assigned by the function calling ReadGifImageDesc(). ** ** Returns: -1 if a FILE stream error occurred during the read, ** otherwise 0 if no error occurred. */ int ReadGifImageDesc(GIFIMAGEDESC *GifImageDesc, /* Pointer to GIF image descriptor structure */ GIFBYTE **MemGif2 /* GIF image file input FILE stream */ ) { GIFWORD i; /* Loop counter */ GIFWORD tableSize; /* Number of entries in the Local Color Table */ /* GIFBYTE Interlace; */ /* PackedField & 0x20 gives information on interlacing */ GIFBYTE *TempPtr; int ch, ch1; GifImageDesc->TableSize = 0; for (i = 0; i < 9; i++) { GifImageDesc->GIDDump[i] = *(*MemGif2)++; } /* ** Get the relevant fields. I need ImageWidth and Height actively hence I have ** taken information from those fields. I intend to keep the GifImageDesc data ** structure as it is so that anyone needing the rest of the fields can do so ** quickly. */ if (EndianOrder == 1) /* LittleEndian */ { GifImageDesc->ImageWidth = (GIFWORD)(GifImageDesc->GIDDump[4] & 0xFF); GifImageDesc->ImageWidth |= (GIFWORD)((GifImageDesc->GIDDump[5] & 0xFF) << 0x08); GifImageDesc->ImageHeight = (GIFWORD)(GifImageDesc->GIDDump[6] & 0xFF); GifImageDesc->ImageHeight |= (GIFWORD)((GifImageDesc->GIDDump[7] & 0xFF) << 0x08); } else { GifImageDesc->ImageWidth = (GIFWORD)(GifImageDesc->GIDDump[4] & 0xFF); GifImageDesc->ImageWidth = ((GIFWORD)(GifImageDesc->GIDDump[5] & 0xFF)) | (GifImageDesc->ImageWidth << 0x08); GifImageDesc->ImageHeight = (GIFWORD)(GifImageDesc->GIDDump[6] & 0xFF); GifImageDesc->ImageHeight = ((GIFWORD)(GifImageDesc->GIDDump[7] & 0xFF)) | (GifImageDesc->ImageWidth << 0x08); } GifImageDesc->PackedField = GifImageDesc->GIDDump[8]; /* Interlace = GifImageDesc->PackedField & 0x20; */ /* Check if a Local Color Table is present */ if (GifImageDesc->PackedField & 0x80) { /* Read number of color table entries */ tableSize = (GIFWORD)(1L << ((GifImageDesc->PackedField & 0x07) + 1)); GifImageDesc->TableSize = tableSize; /* Read the Local Color Table */ for (i = 0; i < tableSize; i++) { GifImageDesc->HDFPalette[i][0] = *(*MemGif2)++; GifImageDesc->HDFPalette[i][1] = *(*MemGif2)++; GifImageDesc->HDFPalette[i][2] = *(*MemGif2)++; } } /* ** Get LZW minimum Code Size */ GifImageDesc->CodeSize = (GIFWORD) * (*MemGif2)++; /*GifImageDesc->GIFImage = ReadDataSubBlocks(FpGif);*/ if (!(GifImageDesc->GIFImage = (GIFBYTE *)malloc((GifImageDesc->ImageWidth) * (GifImageDesc->ImageHeight)))) { printf("Out of memory"); exit(EXIT_FAILURE); } TempPtr = GifImageDesc->GIFImage; do { ch = ch1 = (int)*(*MemGif2)++; while (ch--) *TempPtr++ = *(*MemGif2)++; } while (ch1); return (0); /* No FILE stream error occurred */ } /* ** Read a GIF Graphic Control Extension block. ** ** Note that the Introducer and Label field values in the GIFGRAPHICCONTROL ** structure are assigned by the function calling ReadGifGraphicControl(). ** ** Returns: -1 if a FILE stream error occurred during the read, ** otherwise 0 if no error occurred. */ int ReadGifGraphicControl(GIFGRAPHICCONTROL *GifGraphicControl, /* Pointer to GC Extension structure */ GIFBYTE **MemGif2 /* GIF image file input FILE stream */ ) { int i; for (i = 0; i < 5; i++) { GifGraphicControl->GCEDump[i] = *(*MemGif2)++; } return (0); /* No FILE stream error occurred */ } /* ** Read a GIF Plain Text Extension block. ** ** Note that the Introducer and Label field values in the GIFLPLAINTEXT ** structure are assigned by the function calling ReadGifPlainText(). ** ** Returns: -1 if a FILE stream error occurred during the read, ** otherwise 0 if no error occurred. */ int ReadGifPlainText(GIFPLAINTEXT *GifPlainText, /* Pointer to Plain Text Extension structure */ GIFBYTE **MemGif2 /* GIF image file input FILE stream */ ) { int i; for (i = 0; i < 13; i++) { GifPlainText->PTEDump[i] = *(*MemGif2)++; } /* Read in the Plain Text data sub-blocks */ if (!(GifPlainText->PlainTextData = ReadDataSubBlocks(MemGif2, &(GifPlainText->DataSize)))) return (1); /* GifPlainText->Terminator = 0; */ /* Check for a FILE stream error */ /* if (ferror(FpGif)) return(-1); */ return (0); /* No FILE stream error occurred */ } /* ** Read a GIF Application Extension block. ** ** Note that the Introducer and Label field values in the GIFAPPLICATION ** structure are assigned by the function calling ReadGifApplication(). ** ** Returns: -1 if a FILE stream error occurred during the read, ** otherwise 0 if no error occurred. */ int ReadGifApplication(GIFAPPLICATION *GifApplication, /* Pointer to Application Extension structure */ GIFBYTE **MemGif2 /* GIF image file input FILE stream */ ) { int i; for (i = 0; i < 12; i++) { GifApplication->AEDump[i] = *(*MemGif2)++; } /* Read in the Plain Text data sub-blocks */ if (!(GifApplication->ApplicationData = ReadDataSubBlocks(MemGif2, &(GifApplication->DataSize)))) return (1); /* GifApplication->Terminator = 0; */ /* Check for a FILE stream error */ /* if (ferror(FpGif)) return(-1); */ return (0); /* No FILE stream error occurred */ } /* ** Read a GIF Comment Extension block. ** ** Note that the Introducer and Label field values in the GIFCOMMENT ** structure are assigned by the function calling ReadGifComment(). ** ** Returns: -1 if a FILE stream error occurred during the read, ** otherwise 0 if no error occurred. */ int ReadGifComment(GIFCOMMENT *GifComment, /* Pointer to GIF Comment Extension structure */ GIFBYTE **MemGif2 /* GIF image file input FILE stream */ ) { /* Read in the Plain Text data sub-blocks */ if (!(GifComment->CommentData = ReadDataSubBlocks(MemGif2, &(GifComment->DataSize)))) return (1); GifComment->Terminator = 0; return (0); /* No FILE stream error occurred */ } /* ** Read one or more GIF data sub-blocks and write the information ** to a buffer. ** ** A GIF "sub-block" is a single count byte followed by 1 to 255 ** additional data bytes. ** ** Returns: A NULL pointer if a memory allocation error occurred, ** otherwise a valid pointer if no error occurred. */ static GIFBYTE * ReadDataSubBlocks(GIFBYTE **MemGif2, /* GIF image file input FILE stream */ GIFWORD *DSize) { GIFBYTE *ptr1; /* Pointer used to "walk the heap" */ GIFBYTE *ptr2; /* Pointer used to mark the top of the heap */ GIFBYTE dataSize; /* Size of the current data sub-block being read */ GIFWORD bufSize; /* Total size of the Plain Text data buffer */ int tempcount = 0; bufSize = 0; /* The output buffer is empty */ dataSize = *(*MemGif2)++; /* Get the size of the first sub-block */ /* Allocate initial data buffer */ if (!(ptr1 = ptr2 = (GIFBYTE *)malloc((size_t)dataSize + 1))) { printf("Out of memory. Allocation of memory for data sub-blocks for\neither Comment, Plain Text or " "Application Extensions failed"); return ((GIFBYTE *)NULL); } for (;;) { tempcount++; bufSize += (dataSize); /* Running total of the buffer size */ *DSize = bufSize; #ifdef COMMENTED_OUT *ptr1++ = dataSize; /* Write the data count */ #endif /* COMMENTED_OUT */ while (dataSize--) /* Read/write the Plain Text data */ *ptr1++ = *(*MemGif2)++; /* Check if there is another data sub-block */ if ((dataSize = *(*MemGif2)++) == 0) break; /* Block Terminator encountered */ /* Increase the buffer size to accommodate the next sub-block */ if (!(ptr1 = ptr2 = (GIFBYTE *)realloc(ptr2, bufSize + dataSize + 1))) return ((GIFBYTE *)NULL); ptr1 += bufSize; /* Move pointer to the end of the data */ } *ptr1++ = '\0'; return (ptr2); /* Return a pointer to the sub-block data */ }