wifi-tally_Oostendam/nodemcu-firmware/app/uzlib/host/uz_unzip.c
Eljakim Herrewijnen 50b5fc1824 Initial commit
2021-09-27 21:52:27 +02:00

179 lines
4.9 KiB
C

/************************************************************************
* NodeMCU unzip wrapper code for uzlib_inflate
*
* Note that whilst it would be more straightforward to implement a
* simple in memory approach, this utility adopts the same streaming
* callback architecture as app/lua/lflash.c to enable this code to be
* tested in a pure host development environment
*/
#include <string.h>
#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include "uzlib.h"
/* Test wrapper */
#define DICTIONARY_WINDOW 16384
#define READ_BLOCKSIZE 2048
#define WRITE_BLOCKSIZE 2048
#define WRITE_BLOCKS ((DICTIONARY_WINDOW/WRITE_BLOCKSIZE)+1)
#define FREE(v) if (v) uz_free(v)
typedef uint8_t uchar;
typedef uint16_t ushort;
typedef uint32_t uint;
struct INPUT {
FILE *fin;
int len;
uint8_t block[READ_BLOCKSIZE];
uint8_t *inPtr;
int bytesRead;
int left;
} *in;
typedef struct {
uint8_t byte[WRITE_BLOCKSIZE];
} outBlock;
struct OUTPUT {
FILE *fout;
outBlock *block[WRITE_BLOCKS];
int ndx;
int written;
int len;
uint32_t crc;
int breakNdx;
int (*fullBlkCB) (void);
} *out;
/*
* uzlib_inflate does a stream inflate on an RFC 1951 encoded data stream.
* It uses three application-specific CBs passed in the call to do the work:
*
* - get_byte() CB to return next byte in input stream
* - put_byte() CB to output byte to output buffer
* - recall_byte() CB to output byte to retrieve a historic byte from
* the output buffer.
*
* Note that put_byte() also triggers secondary CBs to do further processing.
*/
uint8_t get_byte (void) {
if (--in->left < 0) {
/* Read next input block */
int remaining = in->len - in->bytesRead;
int wanted = remaining >= READ_BLOCKSIZE ? READ_BLOCKSIZE : remaining;
if (fread(in->block, 1, wanted, in->fin) != wanted)
UZLIB_THROW(UZLIB_DATA_ERROR);
in->bytesRead += wanted;
in->inPtr = in->block;
in->left = wanted-1;
}
return *in->inPtr++;
}
void put_byte (uint8_t value) {
int offset = out->ndx % WRITE_BLOCKSIZE; /* counts from 0 */
out->block[0]->byte[offset++] = value;
out->ndx++;
if (offset == WRITE_BLOCKSIZE || out->ndx == out->len) {
if (out->fullBlkCB)
out->fullBlkCB();
/* circular shift the block pointers (redundant on last block, but so what) */
outBlock *nextBlock = out->block[WRITE_BLOCKS - 1];
memmove(out->block+1, out->block, (WRITE_BLOCKS-1)*sizeof(void*));
out->block[0] = nextBlock;
}
}
uint8_t recall_byte (uint offset) {
if(offset > DICTIONARY_WINDOW || offset >= out->ndx)
UZLIB_THROW(UZLIB_DICT_ERROR);
/* ndx starts at 1. Need relative to 0 */
uint n = out->ndx - offset;
uint pos = n % WRITE_BLOCKSIZE;
uint blockNo = out->ndx / WRITE_BLOCKSIZE - n / WRITE_BLOCKSIZE;
return out->block[blockNo]->byte[pos];
}
int processOutRec (void) {
int len = (out->ndx % WRITE_BLOCKSIZE) ? out->ndx % WRITE_BLOCKSIZE :
WRITE_BLOCKSIZE;
if (fwrite(out->block[0], 1, len, out->fout) != len)
UZLIB_THROW(UZLIB_DATA_ERROR);
out->crc = uzlib_crc32(out->block[0], len, out->crc);
out->written += len;
if (out->written == out->len) {
fclose(out->fout);
out->fullBlkCB = NULL;
}
return 1;
}
int main(int argc, char *argv[]) {
assert (argc==3);
const char *inFile = argv[1], *outFile = argv[2];
int i, n, res;
uint crc;
void *cxt_not_used;
assert(sizeof(unsigned int) == 4);
/* allocate and zero the in and out Blocks */
assert((in = uz_malloc(sizeof(*in))) != NULL);
assert((out = uz_malloc(sizeof(*out))) != NULL);
memset(in, 0, sizeof(*in));
memset(out, 0, sizeof(*out));
/* open input files and probe end to read the expanded length */
assert((in->fin = fopen(inFile, "rb")) != NULL);
fseek(in->fin, -4, SEEK_END);
assert(fread((uchar*)&(out->len), 1, 4, in->fin) == 4);
in->len = ftell(in->fin);
fseek(in->fin, 0, SEEK_SET);
assert((out->fout = fopen(outFile, "wb")) != NULL);
printf ("Inflating in=%s out=%s\n", inFile, outFile);
/* Allocate the out buffers (number depends on the unpacked length) */
n = (out->len > DICTIONARY_WINDOW) ? WRITE_BLOCKS :
1 + (out->len-1) / WRITE_BLOCKSIZE;
for(i = WRITE_BLOCKS - n + 1; i <= WRITE_BLOCKS; i++)
assert((out->block[i % WRITE_BLOCKS] = uz_malloc(sizeof(outBlock))) != NULL);
out->breakNdx = (out->len < WRITE_BLOCKSIZE) ? out->len : WRITE_BLOCKSIZE;
out->fullBlkCB = processOutRec;
out->crc = ~0;
/* Call inflate to do the business */
res = uzlib_inflate (get_byte, put_byte, recall_byte, in->len, &crc, &cxt_not_used);
if (res > 0 && crc != ~out->crc)
res = UZLIB_CHKSUM_ERROR;
for (i = 0; i < WRITE_BLOCKS; i++)
FREE(out->block[i]);
fclose(in->fin);
FREE(in);
FREE(out);
if (res < 0)
printf("Error during decompression: %d\n", res);
return (res != 0) ? 1: 0;
}