mirror of
https://github.com/RfidResearchGroup/proxmark3.git
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481 lines
17 KiB
C
481 lines
17 KiB
C
//-----------------------------------------------------------------------------
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// piwi, 2017, 2018
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//
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// This code is licensed to you under the terms of the GNU GPL, version 2 or,
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// at your option, any later version. See the LICENSE.txt file for the text of
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// the license.
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//-----------------------------------------------------------------------------
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// Compression tool for FPGA config files. Compress several *.bit files at
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// compile time. Decompression is done at run time (see fpgaloader.c).
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// This uses the zlib library tuned to this specific case. The small file sizes
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// allow to use "insane" parameters for optimum compression ratio.
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//-----------------------------------------------------------------------------
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#include <stdio.h>
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#include <stdlib.h>
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#include <libgen.h>
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#include <string.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include <inttypes.h>
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#include "fpga.h"
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#include "zlib.h"
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#define MAX(a,b) ((a)>(b)?(a):(b))
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// zlib configuration
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#define COMPRESS_LEVEL 9 // use best possible compression
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#define COMPRESS_WINDOW_BITS 15 // default = max = 15 for a window of 2^15 = 32KBytes
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#define COMPRESS_MEM_LEVEL 9 // determines the amount of memory allocated during compression. Default = 8.
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/* COMPRESS_STRATEGY can be
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Z_DEFAULT_STRATEGY (the default),
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Z_FILTERED (more huffmann, less string matching),
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Z_HUFFMAN_ONLY (huffman only, no string matching)
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Z_RLE (distances limited to one)
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Z_FIXED (prevents the use of dynamic Huffman codes)
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*/
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#define COMPRESS_STRATEGY Z_DEFAULT_STRATEGY
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// zlib tuning parameters:
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#define COMPRESS_GOOD_LENGTH 258
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#define COMPRESS_MAX_LAZY 258
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#define COMPRESS_MAX_NICE_LENGTH 258
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#define COMPRESS_MAX_CHAIN 8192
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#define HARDNESTED_TABLE_SIZE (uint32_t)(sizeof(uint32_t) * ((1L<<19)+1))
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static void usage(void) {
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fprintf(stdout, "Usage: fpga_compress <infile1> <infile2> ... <infile_n> <outfile>\n");
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fprintf(stdout, " Combine n FPGA bitstream files and compress them into one.\n\n");
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fprintf(stdout, " fpga_compress -v <infile1> <infile2> ... <infile_n> <outfile>\n");
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fprintf(stdout, " Extract Version Information from FPGA bitstream files and write it to <outfile>\n\n");
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fprintf(stdout, " fpga_compress -d <infile> <outfile>\n");
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fprintf(stdout, " Decompress <infile>. Write result to <outfile>\n\n");
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fprintf(stdout, " fpga_compress -t <infile> <outfile>\n");
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fprintf(stdout, " Compress hardnested table <infile>. Write result to <outfile>\n\n");
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}
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static voidpf fpga_deflate_malloc(voidpf opaque, uInt items, uInt size) {
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return calloc(items * size, sizeof(uint8_t));
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}
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static void fpga_deflate_free(voidpf opaque, voidpf address) {
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free(address);
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}
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static bool all_feof(FILE *infile[], uint8_t num_infiles) {
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for (uint16_t i = 0; i < num_infiles; i++) {
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if (!feof(infile[i])) {
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return false;
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}
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}
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return true;
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}
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int zlib_compress(FILE *infile[], uint8_t num_infiles, FILE *outfile, bool hardnested_mode) {
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uint8_t *fpga_config;
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uint32_t i;
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int32_t ret;
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uint8_t c;
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z_stream compressed_fpga_stream;
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if (hardnested_mode) {
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fpga_config = calloc(num_infiles * HARDNESTED_TABLE_SIZE, sizeof(uint8_t));
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} else {
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fpga_config = calloc(num_infiles * FPGA_CONFIG_SIZE, sizeof(uint8_t));
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}
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// read the input files. Interleave them into fpga_config[]
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i = 0;
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do {
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if (i >= num_infiles * (hardnested_mode ? HARDNESTED_TABLE_SIZE : FPGA_CONFIG_SIZE)) {
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if (hardnested_mode) {
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fprintf(stderr,
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"Input file too big (> %" PRIu32 " bytes). This is probably not a hardnested bitflip state table.\n"
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, HARDNESTED_TABLE_SIZE);
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} else {
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fprintf(stderr,
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"Input files too big (total > %li bytes). These are probably not PM3 FPGA config files.\n"
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, num_infiles * FPGA_CONFIG_SIZE);
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}
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for (uint16_t j = 0; j < num_infiles; j++) {
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fclose(infile[j]);
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}
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free(fpga_config);
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return (EXIT_FAILURE);
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}
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for (uint16_t j = 0; j < num_infiles; j++) {
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for (uint16_t k = 0; k < FPGA_INTERLEAVE_SIZE; k++) {
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c = (uint8_t)fgetc(infile[j]);
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if (!feof(infile[j])) {
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fpga_config[i++] = c;
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} else if (num_infiles > 1) {
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fpga_config[i++] = '\0';
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}
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}
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}
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} while (!all_feof(infile, num_infiles));
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// initialize zlib structures
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compressed_fpga_stream.next_in = fpga_config;
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compressed_fpga_stream.avail_in = i;
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compressed_fpga_stream.zalloc = fpga_deflate_malloc;
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compressed_fpga_stream.zfree = fpga_deflate_free;
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compressed_fpga_stream.opaque = Z_NULL;
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ret = deflateInit2(&compressed_fpga_stream,
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COMPRESS_LEVEL,
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Z_DEFLATED,
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COMPRESS_WINDOW_BITS,
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COMPRESS_MEM_LEVEL,
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COMPRESS_STRATEGY);
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// estimate the size of the compressed output
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uint32_t outsize_max = deflateBound(&compressed_fpga_stream, compressed_fpga_stream.avail_in);
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uint8_t *outbuf = calloc(outsize_max, sizeof(uint8_t));
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compressed_fpga_stream.next_out = outbuf;
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compressed_fpga_stream.avail_out = outsize_max;
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if (ret == Z_OK) {
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ret = deflateTune(&compressed_fpga_stream,
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COMPRESS_GOOD_LENGTH,
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COMPRESS_MAX_LAZY,
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COMPRESS_MAX_NICE_LENGTH,
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COMPRESS_MAX_CHAIN);
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}
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if (ret == Z_OK) {
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ret = deflate(&compressed_fpga_stream, Z_FINISH);
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}
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fprintf(stdout, "compressed %u input bytes to %lu output bytes\n", i, compressed_fpga_stream.total_out);
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if (ret != Z_STREAM_END) {
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fprintf(stderr, "Error in deflate(): %d %s\n", ret, compressed_fpga_stream.msg);
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free(outbuf);
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deflateEnd(&compressed_fpga_stream);
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for (uint16_t j = 0; j < num_infiles; j++) {
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fclose(infile[j]);
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}
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fclose(outfile);
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free(fpga_config);
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return (EXIT_FAILURE);
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}
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for (i = 0; i < compressed_fpga_stream.total_out; i++) {
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fputc(outbuf[i], outfile);
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}
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free(outbuf);
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deflateEnd(&compressed_fpga_stream);
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for (uint16_t j = 0; j < num_infiles; j++) {
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fclose(infile[j]);
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}
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fclose(outfile);
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free(fpga_config);
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return (EXIT_SUCCESS);
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}
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int zlib_decompress(FILE *infile, FILE *outfile) {
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#define DECOMPRESS_BUF_SIZE 1024
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uint8_t outbuf[DECOMPRESS_BUF_SIZE];
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uint8_t inbuf[DECOMPRESS_BUF_SIZE];
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int32_t ret;
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z_stream compressed_fpga_stream;
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// initialize zlib structures
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compressed_fpga_stream.next_in = inbuf;
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compressed_fpga_stream.avail_in = 0;
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compressed_fpga_stream.next_out = outbuf;
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compressed_fpga_stream.avail_out = DECOMPRESS_BUF_SIZE;
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compressed_fpga_stream.zalloc = fpga_deflate_malloc;
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compressed_fpga_stream.zfree = fpga_deflate_free;
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compressed_fpga_stream.opaque = Z_NULL;
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ret = inflateInit2(&compressed_fpga_stream, 0);
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if (ret < 0)
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return (EXIT_FAILURE);
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do {
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if (compressed_fpga_stream.avail_in == 0) {
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compressed_fpga_stream.next_in = inbuf;
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uint16_t i = 0;
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do {
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int32_t c = fgetc(infile);
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if (!feof(infile)) {
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inbuf[i++] = c & 0xFF;
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compressed_fpga_stream.avail_in++;
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} else {
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break;
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}
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} while (i < DECOMPRESS_BUF_SIZE);
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}
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ret = inflate(&compressed_fpga_stream, Z_SYNC_FLUSH);
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if (ret != Z_OK && ret != Z_STREAM_END) {
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break;
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}
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if (compressed_fpga_stream.avail_out == 0) {
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for (uint16_t i = 0; i < DECOMPRESS_BUF_SIZE; i++) {
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fputc(outbuf[i], outfile);
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}
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compressed_fpga_stream.avail_out = DECOMPRESS_BUF_SIZE;
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compressed_fpga_stream.next_out = outbuf;
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}
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} while (ret == Z_OK);
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if (ret == Z_STREAM_END) { // reached end of input
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uint16_t i = 0;
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while (compressed_fpga_stream.avail_out < DECOMPRESS_BUF_SIZE) {
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fputc(outbuf[i++], outfile);
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compressed_fpga_stream.avail_out++;
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}
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fclose(outfile);
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fclose(infile);
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return (EXIT_SUCCESS);
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} else {
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fprintf(stderr, "Error. Inflate() returned error %d, %s", ret, compressed_fpga_stream.msg);
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fclose(outfile);
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fclose(infile);
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return (EXIT_FAILURE);
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}
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}
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/* Simple Xilinx .bit parser. The file starts with the fixed opaque byte sequence
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* 00 09 0f f0 0f f0 0f f0 0f f0 00 00 01
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* After that the format is 1 byte section type (ASCII character), 2 byte length
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* (big endian), <length> bytes content. Except for section 'e' which has 4 bytes
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* length.
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*/
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static int bitparse_find_section(FILE *infile, char section_name, unsigned int *section_length) {
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int result = 0;
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#define MAX_FPGA_BIT_STREAM_HEADER_SEARCH 100 // maximum number of bytes to search for the requested section
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uint16_t numbytes = 0;
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while (numbytes < MAX_FPGA_BIT_STREAM_HEADER_SEARCH) {
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char current_name = (char)fgetc(infile);
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numbytes++;
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if (current_name < 'a' || current_name > 'e') {
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/* Strange section name, abort */
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break;
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}
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unsigned int current_length = 0;
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switch (current_name) {
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case 'e':
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/* Four byte length field */
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current_length += fgetc(infile) << 24;
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current_length += fgetc(infile) << 16;
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numbytes += 2;
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default: /* Fall through, two byte length field */
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current_length += fgetc(infile) << 8;
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current_length += fgetc(infile) << 0;
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numbytes += 2;
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}
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if (current_name != 'e' && current_length > 255) {
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/* Maybe a parse error */
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break;
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}
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if (current_name == section_name) {
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/* Found it */
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*section_length = current_length;
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result = 1;
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break;
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}
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for (uint16_t i = 0; i < current_length && numbytes < MAX_FPGA_BIT_STREAM_HEADER_SEARCH; i++) {
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(void)fgetc(infile);
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numbytes++;
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}
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}
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return result;
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}
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static int FpgaGatherVersion(FILE *infile, char *infile_name, char *dst, int len) {
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unsigned int fpga_info_len;
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char tempstr[40] = {0x00};
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dst[0] = '\0';
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for (uint16_t i = 0; i < FPGA_BITSTREAM_FIXED_HEADER_SIZE; i++) {
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if (fgetc(infile) != bitparse_fixed_header[i]) {
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fprintf(stderr, "Invalid FPGA file. Aborting...\n\n");
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return (EXIT_FAILURE);
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}
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}
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if (!memcmp("fpga_lf", basename(infile_name), 7))
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strncat(dst, "LF", len - strlen(dst) - 1);
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else if (!memcmp("fpga_hf", basename(infile_name), 7))
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strncat(dst, "HF", len - strlen(dst) - 1);
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strncat(dst, " image built", len - strlen(dst) - 1);
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if (bitparse_find_section(infile, 'b', &fpga_info_len)) {
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strncat(dst, " for ", len - strlen(dst) - 1);
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for (uint16_t i = 0; i < fpga_info_len; i++) {
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char c = (char)fgetc(infile);
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if (i < sizeof(tempstr)) {
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tempstr[i] = c;
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}
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}
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strncat(dst, tempstr, len - strlen(dst) - 1);
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}
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if (bitparse_find_section(infile, 'c', &fpga_info_len)) {
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strncat(dst, " on ", len - strlen(dst) - 1);
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for (uint16_t i = 0; i < fpga_info_len; i++) {
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char c = (char)fgetc(infile);
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if (i < sizeof(tempstr)) {
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tempstr[i] = c;
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}
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}
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strncat(dst, tempstr, len - strlen(dst) - 1);
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}
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if (bitparse_find_section(infile, 'd', &fpga_info_len)) {
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strncat(dst, " at ", len - strlen(dst) - 1);
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for (uint16_t i = 0; i < fpga_info_len; i++) {
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char c = (char)fgetc(infile);
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if (i < sizeof(tempstr)) {
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tempstr[i] = c;
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}
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}
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strncat(dst, tempstr, len - strlen(dst) - 1);
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}
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return 0;
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}
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static void print_version_info_preamble(FILE *outfile, int num_infiles) {
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fprintf(outfile, "//-----------------------------------------------------------------------------\n");
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fprintf(outfile, "// piwi, 2018\n");
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fprintf(outfile, "//\n");
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fprintf(outfile, "// This code is licensed to you under the terms of the GNU GPL, version 2 or,\n");
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fprintf(outfile, "// at your option, any later version. See the LICENSE.txt file for the text of\n");
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fprintf(outfile, "// the license.\n");
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fprintf(outfile, "//-----------------------------------------------------------------------------\n");
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fprintf(outfile, "// Version information on fpga images\n");
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fprintf(outfile, "//\n");
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fprintf(outfile, "// This file is generated by fpga_compress. Don't edit!\n");
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fprintf(outfile, "//-----------------------------------------------------------------------------\n");
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fprintf(outfile, "\n");
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fprintf(outfile, "\n");
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fprintf(outfile, "const int fpga_bitstream_num = %d;\n", num_infiles);
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fprintf(outfile, "const char* const fpga_version_information[%d] = {\n", num_infiles);
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}
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static int generate_fpga_version_info(FILE *infile[], char *infile_names[], int num_infiles, FILE *outfile) {
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char version_string[80] = "";
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print_version_info_preamble(outfile, num_infiles);
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for (int i = 0; i < num_infiles; i++) {
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FpgaGatherVersion(infile[i], infile_names[i], version_string, sizeof(version_string));
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fprintf(outfile, "\t\" %s\"", version_string);
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if (i != num_infiles - 1) {
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fprintf(outfile, ",");
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}
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fprintf(outfile, "\n");
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}
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fprintf(outfile, "};\n");
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return 0;
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}
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int main(int argc, char **argv) {
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if (argc == 1 || argc == 2) {
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usage();
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return (EXIT_FAILURE);
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}
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if (!strcmp(argv[1], "-d")) { // Decompress
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FILE **infiles = calloc(1, sizeof(FILE *));
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if (argc != 4) {
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usage();
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free(infiles);
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return (EXIT_FAILURE);
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}
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infiles[0] = fopen(argv[2], "rb");
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if (infiles[0] == NULL) {
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fprintf(stderr, "Error. Cannot open input file %s\n\n", argv[2]);
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free(infiles);
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return (EXIT_FAILURE);
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}
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FILE *outfile = fopen(argv[3], "wb");
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if (outfile == NULL) {
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fprintf(stderr, "Error. Cannot open output file %s\n\n", argv[3]);
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free(infiles);
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return (EXIT_FAILURE);
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}
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int ret = zlib_decompress(infiles[0], outfile);
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free(infiles);
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return (ret);
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} else { // Compress or generate version info
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bool hardnested_mode = false;
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bool generate_version_file = false;
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int num_input_files = 0;
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if (!strcmp(argv[1], "-t")) { // compress one hardnested table
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if (argc != 4) {
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usage();
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return (EXIT_FAILURE);
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}
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hardnested_mode = true;
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num_input_files = 1;
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} else if (!strcmp(argv[1], "-v")) { // generate version info
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generate_version_file = true;
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num_input_files = argc - 3;
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} else { // compress 1..n fpga files
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num_input_files = argc - 2;
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}
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FILE **infiles = calloc(num_input_files, sizeof(FILE *));
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char **infile_names = calloc(num_input_files, sizeof(char *));
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for (uint16_t i = 0; i < num_input_files; i++) {
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infile_names[i] = argv[i + ((hardnested_mode || generate_version_file) ? 2 : 1)];
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infiles[i] = fopen(infile_names[i], "rb");
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if (infiles[i] == NULL) {
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fprintf(stderr, "Error. Cannot open input file %s\n\n", infile_names[i]);
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free(infile_names);
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free(infiles);
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return (EXIT_FAILURE);
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}
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}
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FILE *outfile = fopen(argv[argc - 1], "wb");
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if (outfile == NULL) {
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fprintf(stderr, "Error. Cannot open output file %s\n\n", argv[argc - 1]);
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|
free(infile_names);
|
|
free(infiles);
|
|
return (EXIT_FAILURE);
|
|
}
|
|
if (generate_version_file) {
|
|
if (generate_fpga_version_info(infiles, infile_names, num_input_files, outfile)) {
|
|
free(infile_names);
|
|
free(infiles);
|
|
return (EXIT_FAILURE);
|
|
}
|
|
} else {
|
|
int ret = zlib_compress(infiles, num_input_files, outfile, hardnested_mode);
|
|
free(infile_names);
|
|
free(infiles);
|
|
return (ret);
|
|
}
|
|
}
|
|
}
|