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404 lines
15 KiB
404 lines
15 KiB
/* zran.c -- example of zlib/gzip stream indexing and random access |
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* Copyright (C) 2005 Mark Adler |
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* For conditions of distribution and use, see copyright notice in zlib.h |
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Version 1.0 29 May 2005 Mark Adler */ |
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|
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/* Illustrate the use of Z_BLOCK, inflatePrime(), and inflateSetDictionary() |
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for random access of a compressed file. A file containing a zlib or gzip |
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stream is provided on the command line. The compressed stream is decoded in |
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its entirety, and an index built with access points about every SPAN bytes |
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in the uncompressed output. The compressed file is left open, and can then |
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be read randomly, having to decompress on the average SPAN/2 uncompressed |
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bytes before getting to the desired block of data. |
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An access point can be created at the start of any deflate block, by saving |
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the starting file offset and bit of that block, and the 32K bytes of |
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uncompressed data that precede that block. Also the uncompressed offset of |
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that block is saved to provide a referece for locating a desired starting |
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point in the uncompressed stream. build_index() works by decompressing the |
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input zlib or gzip stream a block at a time, and at the end of each block |
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deciding if enough uncompressed data has gone by to justify the creation of |
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a new access point. If so, that point is saved in a data structure that |
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grows as needed to accommodate the points. |
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To use the index, an offset in the uncompressed data is provided, for which |
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the latest accees point at or preceding that offset is located in the index. |
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The input file is positioned to the specified location in the index, and if |
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necessary the first few bits of the compressed data is read from the file. |
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inflate is initialized with those bits and the 32K of uncompressed data, and |
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the decompression then proceeds until the desired offset in the file is |
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reached. Then the decompression continues to read the desired uncompressed |
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data from the file. |
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Another approach would be to generate the index on demand. In that case, |
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requests for random access reads from the compressed data would try to use |
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the index, but if a read far enough past the end of the index is required, |
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then further index entries would be generated and added. |
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There is some fair bit of overhead to starting inflation for the random |
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access, mainly copying the 32K byte dictionary. So if small pieces of the |
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file are being accessed, it would make sense to implement a cache to hold |
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some lookahead and avoid many calls to extract() for small lengths. |
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Another way to build an index would be to use inflateCopy(). That would |
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not be constrained to have access points at block boundaries, but requires |
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more memory per access point, and also cannot be saved to file due to the |
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use of pointers in the state. The approach here allows for storage of the |
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index in a file. |
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*/ |
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#include <stdio.h> |
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#include <stdlib.h> |
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#include <string.h> |
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#include "zlib.h" |
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#define local static |
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#define SPAN 1048576L /* desired distance between access points */ |
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#define WINSIZE 32768U /* sliding window size */ |
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#define CHUNK 16384 /* file input buffer size */ |
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/* access point entry */ |
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struct point { |
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off_t out; /* corresponding offset in uncompressed data */ |
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off_t in; /* offset in input file of first full byte */ |
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int bits; /* number of bits (1-7) from byte at in - 1, or 0 */ |
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unsigned char window[WINSIZE]; /* preceding 32K of uncompressed data */ |
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}; |
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/* access point list */ |
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struct access { |
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int have; /* number of list entries filled in */ |
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int size; /* number of list entries allocated */ |
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struct point *list; /* allocated list */ |
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}; |
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/* Deallocate an index built by build_index() */ |
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local void free_index(struct access *index) |
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{ |
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if (index != NULL) { |
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free(index->list); |
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free(index); |
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} |
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} |
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/* Add an entry to the access point list. If out of memory, deallocate the |
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existing list and return NULL. */ |
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local struct access *addpoint(struct access *index, int bits, |
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off_t in, off_t out, unsigned left, unsigned char *window) |
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{ |
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struct point *next; |
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/* if list is empty, create it (start with eight points) */ |
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if (index == NULL) { |
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index = malloc(sizeof(struct access)); |
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if (index == NULL) return NULL; |
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index->list = malloc(sizeof(struct point) << 3); |
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if (index->list == NULL) { |
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free(index); |
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return NULL; |
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} |
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index->size = 8; |
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index->have = 0; |
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} |
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/* if list is full, make it bigger */ |
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else if (index->have == index->size) { |
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index->size <<= 1; |
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next = realloc(index->list, sizeof(struct point) * index->size); |
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if (next == NULL) { |
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free_index(index); |
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return NULL; |
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} |
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index->list = next; |
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} |
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/* fill in entry and increment how many we have */ |
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next = index->list + index->have; |
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next->bits = bits; |
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next->in = in; |
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next->out = out; |
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if (left) |
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memcpy(next->window, window + WINSIZE - left, left); |
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if (left < WINSIZE) |
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memcpy(next->window + left, window, WINSIZE - left); |
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index->have++; |
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/* return list, possibly reallocated */ |
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return index; |
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} |
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/* Make one entire pass through the compressed stream and build an index, with |
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access points about every span bytes of uncompressed output -- span is |
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chosen to balance the speed of random access against the memory requirements |
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of the list, about 32K bytes per access point. Note that data after the end |
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of the first zlib or gzip stream in the file is ignored. build_index() |
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returns the number of access points on success (>= 1), Z_MEM_ERROR for out |
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of memory, Z_DATA_ERROR for an error in the input file, or Z_ERRNO for a |
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file read error. On success, *built points to the resulting index. */ |
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local int build_index(FILE *in, off_t span, struct access **built) |
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{ |
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int ret; |
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off_t totin, totout; /* our own total counters to avoid 4GB limit */ |
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off_t last; /* totout value of last access point */ |
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struct access *index; /* access points being generated */ |
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z_stream strm; |
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unsigned char input[CHUNK]; |
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unsigned char window[WINSIZE]; |
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/* initialize inflate */ |
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strm.zalloc = Z_NULL; |
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strm.zfree = Z_NULL; |
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strm.opaque = Z_NULL; |
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strm.avail_in = 0; |
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strm.next_in = Z_NULL; |
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ret = inflateInit2(&strm, 47); /* automatic zlib or gzip decoding */ |
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if (ret != Z_OK) |
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return ret; |
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/* inflate the input, maintain a sliding window, and build an index -- this |
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also validates the integrity of the compressed data using the check |
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information at the end of the gzip or zlib stream */ |
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totin = totout = last = 0; |
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index = NULL; /* will be allocated by first addpoint() */ |
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strm.avail_out = 0; |
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do { |
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/* get some compressed data from input file */ |
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strm.avail_in = fread(input, 1, CHUNK, in); |
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if (ferror(in)) { |
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ret = Z_ERRNO; |
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goto build_index_error; |
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} |
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if (strm.avail_in == 0) { |
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ret = Z_DATA_ERROR; |
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goto build_index_error; |
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} |
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strm.next_in = input; |
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/* process all of that, or until end of stream */ |
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do { |
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/* reset sliding window if necessary */ |
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if (strm.avail_out == 0) { |
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strm.avail_out = WINSIZE; |
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strm.next_out = window; |
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} |
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/* inflate until out of input, output, or at end of block -- |
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update the total input and output counters */ |
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totin += strm.avail_in; |
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totout += strm.avail_out; |
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ret = inflate(&strm, Z_BLOCK); /* return at end of block */ |
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totin -= strm.avail_in; |
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totout -= strm.avail_out; |
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if (ret == Z_NEED_DICT) |
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ret = Z_DATA_ERROR; |
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if (ret == Z_MEM_ERROR || ret == Z_DATA_ERROR) |
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goto build_index_error; |
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if (ret == Z_STREAM_END) |
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break; |
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/* if at end of block, consider adding an index entry (note that if |
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data_type indicates an end-of-block, then all of the |
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uncompressed data from that block has been delivered, and none |
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of the compressed data after that block has been consumed, |
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except for up to seven bits) -- the totout == 0 provides an |
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entry point after the zlib or gzip header, and assures that the |
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index always has at least one access point; we avoid creating an |
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access point after the last block by checking bit 6 of data_type |
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*/ |
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if ((strm.data_type & 128) && !(strm.data_type & 64) && |
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(totout == 0 || totout - last > span)) { |
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index = addpoint(index, strm.data_type & 7, totin, |
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totout, strm.avail_out, window); |
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if (index == NULL) { |
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ret = Z_MEM_ERROR; |
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goto build_index_error; |
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} |
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last = totout; |
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} |
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} while (strm.avail_in != 0); |
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} while (ret != Z_STREAM_END); |
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/* clean up and return index (release unused entries in list) */ |
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(void)inflateEnd(&strm); |
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index = realloc(index, sizeof(struct point) * index->have); |
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index->size = index->have; |
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*built = index; |
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return index->size; |
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/* return error */ |
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build_index_error: |
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(void)inflateEnd(&strm); |
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if (index != NULL) |
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free_index(index); |
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return ret; |
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} |
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/* Use the index to read len bytes from offset into buf, return bytes read or |
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negative for error (Z_DATA_ERROR or Z_MEM_ERROR). If data is requested past |
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the end of the uncompressed data, then extract() will return a value less |
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than len, indicating how much as actually read into buf. This function |
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should not return a data error unless the file was modified since the index |
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was generated. extract() may also return Z_ERRNO if there is an error on |
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reading or seeking the input file. */ |
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local int extract(FILE *in, struct access *index, off_t offset, |
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unsigned char *buf, int len) |
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{ |
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int ret, skip; |
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z_stream strm; |
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struct point *here; |
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unsigned char input[CHUNK]; |
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unsigned char discard[WINSIZE]; |
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/* proceed only if something reasonable to do */ |
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if (len < 0) |
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return 0; |
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/* find where in stream to start */ |
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here = index->list; |
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ret = index->have; |
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while (--ret && here[1].out <= offset) |
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here++; |
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/* initialize file and inflate state to start there */ |
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strm.zalloc = Z_NULL; |
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strm.zfree = Z_NULL; |
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strm.opaque = Z_NULL; |
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strm.avail_in = 0; |
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strm.next_in = Z_NULL; |
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ret = inflateInit2(&strm, -15); /* raw inflate */ |
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if (ret != Z_OK) |
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return ret; |
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ret = fseeko(in, here->in - (here->bits ? 1 : 0), SEEK_SET); |
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if (ret == -1) |
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goto extract_ret; |
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if (here->bits) { |
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ret = getc(in); |
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if (ret == -1) { |
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ret = ferror(in) ? Z_ERRNO : Z_DATA_ERROR; |
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goto extract_ret; |
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} |
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(void)inflatePrime(&strm, here->bits, ret >> (8 - here->bits)); |
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} |
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(void)inflateSetDictionary(&strm, here->window, WINSIZE); |
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/* skip uncompressed bytes until offset reached, then satisfy request */ |
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offset -= here->out; |
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strm.avail_in = 0; |
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skip = 1; /* while skipping to offset */ |
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do { |
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/* define where to put uncompressed data, and how much */ |
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if (offset == 0 && skip) { /* at offset now */ |
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strm.avail_out = len; |
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strm.next_out = buf; |
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skip = 0; /* only do this once */ |
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} |
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if (offset > WINSIZE) { /* skip WINSIZE bytes */ |
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strm.avail_out = WINSIZE; |
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strm.next_out = discard; |
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offset -= WINSIZE; |
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} |
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else if (offset != 0) { /* last skip */ |
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strm.avail_out = (unsigned)offset; |
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strm.next_out = discard; |
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offset = 0; |
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} |
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/* uncompress until avail_out filled, or end of stream */ |
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do { |
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if (strm.avail_in == 0) { |
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strm.avail_in = fread(input, 1, CHUNK, in); |
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if (ferror(in)) { |
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ret = Z_ERRNO; |
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goto extract_ret; |
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} |
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if (strm.avail_in == 0) { |
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ret = Z_DATA_ERROR; |
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goto extract_ret; |
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} |
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strm.next_in = input; |
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} |
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ret = inflate(&strm, Z_NO_FLUSH); /* normal inflate */ |
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if (ret == Z_NEED_DICT) |
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ret = Z_DATA_ERROR; |
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if (ret == Z_MEM_ERROR || ret == Z_DATA_ERROR) |
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goto extract_ret; |
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if (ret == Z_STREAM_END) |
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break; |
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} while (strm.avail_out != 0); |
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/* if reach end of stream, then don't keep trying to get more */ |
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if (ret == Z_STREAM_END) |
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break; |
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/* do until offset reached and requested data read, or stream ends */ |
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} while (skip); |
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/* compute number of uncompressed bytes read after offset */ |
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ret = skip ? 0 : len - strm.avail_out; |
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/* clean up and return bytes read or error */ |
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extract_ret: |
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(void)inflateEnd(&strm); |
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return ret; |
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} |
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/* Demonstrate the use of build_index() and extract() by processing the file |
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provided on the command line, and the extracting 16K from about 2/3rds of |
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the way through the uncompressed output, and writing that to stdout. */ |
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int main(int argc, char **argv) |
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{ |
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int len; |
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off_t offset; |
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FILE *in; |
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struct access *index = NULL; |
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unsigned char buf[CHUNK]; |
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/* open input file */ |
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if (argc != 2) { |
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fprintf(stderr, "usage: zran file.gz\n"); |
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return 1; |
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} |
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in = fopen(argv[1], "rb"); |
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if (in == NULL) { |
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fprintf(stderr, "zran: could not open %s for reading\n", argv[1]); |
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return 1; |
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} |
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/* build index */ |
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len = build_index(in, SPAN, &index); |
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if (len < 0) { |
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fclose(in); |
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switch (len) { |
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case Z_MEM_ERROR: |
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fprintf(stderr, "zran: out of memory\n"); |
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break; |
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case Z_DATA_ERROR: |
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fprintf(stderr, "zran: compressed data error in %s\n", argv[1]); |
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break; |
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case Z_ERRNO: |
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fprintf(stderr, "zran: read error on %s\n", argv[1]); |
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break; |
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default: |
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fprintf(stderr, "zran: error %d while building index\n", len); |
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} |
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return 1; |
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} |
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fprintf(stderr, "zran: built index with %d access points\n", len); |
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/* use index by reading some bytes from an arbitrary offset */ |
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offset = (index->list[index->have - 1].out << 1) / 3; |
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len = extract(in, index, offset, buf, CHUNK); |
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if (len < 0) |
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fprintf(stderr, "zran: extraction failed: %s error\n", |
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len == Z_MEM_ERROR ? "out of memory" : "input corrupted"); |
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else { |
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fwrite(buf, 1, len, stdout); |
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fprintf(stderr, "zran: extracted %d bytes at %llu\n", len, offset); |
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} |
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/* clean up and exit */ |
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free_index(index); |
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fclose(in); |
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return 0; |
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}
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