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e5692a77c3
The Cochran CSV depth exports are indeed in tenths of feet, but the decimal is always 0, 3, 5 or 8. Where the 3 and 8 are obviously 0.25 and 0.75 rounded up to one decimal place. So Cochran does seem to be very much about imperial units, with depth and cylinder pressure scaled by four (depth in quarter-foot increments, pressume in 4-psi increments) Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
283 lines
7.9 KiB
C
283 lines
7.9 KiB
C
#include <stdio.h>
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#include <string.h>
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#include <unistd.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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#include "dive.h"
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#include "file.h"
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#define DON
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/*
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* The Cochran file format is designed to be annoying to read. It's roughly:
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*
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* 0x00000: room for 65534 4-byte words, giving the starting offsets
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* of the dives themselves.
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*
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* 0x3fff8: the size of the file + 1
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* 0x3ffff: 0 (high 32 bits of filesize? Bogus: the offsets into the file
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* are 32-bit, so it can't be a large file anyway)
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*
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* 0x40000: "block 0": the decoding block. The first byte is some random
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* value (0x46 in the files I have access to), the next 200+ bytes or so
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* are the "scrambling array" that needs to be added into the file
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* contents to make sense of them.
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*
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* The descrambling array seems to be of some random size which is likely
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* determinable from the array somehow, the two test files I have it as
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* 230 bytes and 234 bytes respectively.
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*/
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static unsigned int partial_decode(unsigned int start, unsigned int end,
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const unsigned char *decode, unsigned offset, unsigned mod,
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const unsigned char *buf, unsigned int size, unsigned char *dst)
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{
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unsigned i, sum = 0;
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for (i = start ; i < end; i++) {
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unsigned char d = decode[offset++];
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if (i >= size)
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break;
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if (offset == mod)
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offset = 0;
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d += buf[i];
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if (dst)
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dst[i] = d;
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sum += d;
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}
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return sum;
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}
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/*
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* The decode buffer size can be figured out by simply trying our the
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* decode: we expect that the scrambled contents are largely random, and
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* thus tend to have half the bits set. Summing over the bytes is going
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* to give an average of 0x80 per byte.
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*
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* The decoded array is mostly full of zeroes, so the sum is lower.
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*
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* Works for me.
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*/
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static int figure_out_modulus(const unsigned char *decode, const unsigned char *dive, unsigned int size)
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{
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int mod, best = -1;
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unsigned int min = ~0u;
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if (size < 0x1000)
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return best;
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for (mod = 50; mod < 300; mod++) {
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unsigned int sum;
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sum = partial_decode(0, 0x0fff, decode, 1, mod, dive, size, NULL);
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if (sum < min) {
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min = sum;
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best = mod;
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}
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}
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return best;
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}
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#define hexchar(n) ("0123456789abcdef"[(n)&15])
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static int show_line(unsigned offset, const unsigned char *data, unsigned size, int show_empty)
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{
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unsigned char bits;
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int i, off;
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char buffer[120];
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if (size > 16)
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size = 16;
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bits = 0;
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memset(buffer, ' ', sizeof(buffer));
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off = sprintf(buffer, "%06x ", offset);
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for (i = 0; i < size; i++) {
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char *hex = buffer + off + 3*i;
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char *asc = buffer + off + 50 + i;
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unsigned char byte = data[i];
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hex[0] = hexchar(byte>>4);
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hex[1] = hexchar(byte);
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bits |= byte;
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if (byte < 32 || byte > 126)
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byte = '.';
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asc[0] = byte;
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asc[1] = 0;
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}
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if (bits) {
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puts(buffer);
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return 1;
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}
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if (show_empty)
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puts("...");
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return 0;
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}
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static void cochran_debug_write(const char *filename, const unsigned char *data, unsigned size)
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{
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int i, show = 1;
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for (i = 0; i < size; i += 16)
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show = show_line(i, data + i, size - i, show);
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}
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static void parse_cochran_header(const char *filename,
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const unsigned char *decode, unsigned mod,
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const unsigned char *in, unsigned size)
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{
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char *buf = malloc(size);
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/* Do the "null decode" using a one-byte decode array of '\0' */
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partial_decode(0 , 0x0b14, "", 0, 1, in, size, buf);
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/*
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* The header scrambling is different form the dive
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* scrambling. Oh yay!
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*/
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partial_decode(0x010e, 0x0b14, decode, 0, mod, in, size, buf);
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partial_decode(0x0b14, 0x1b14, decode, 0, mod, in, size, buf);
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partial_decode(0x1b14, 0x2b14, decode, 0, mod, in, size, buf);
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partial_decode(0x2b14, 0x3b14, decode, 0, mod, in, size, buf);
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partial_decode(0x3b14, 0x5414, decode, 0, mod, in, size, buf);
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partial_decode(0x5414, size, decode, 0, mod, in, size, buf);
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printf("\n%s, header\n\n", filename);
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cochran_debug_write(filename, buf, size);
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free(buf);
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}
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/*
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* Cochran export files show that depths seem to be in
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* quarter feet (rounded up to tenths).
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*
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* Temperature seems to be exported in Fahrenheit.
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*
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* Cylinder pressure seems to be in multiples of 4 psi.
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*
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* The data seems to be some byte-stream where the pattern
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* appears to be that the two high bits indicate type of
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* data.
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*
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* For '00', the low six bits seem to be positive
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* values with a distribution towards zero, probably depth
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* deltas. '0 0' exists, but is very rare ("surface"?). 63
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* exists, but is rare.
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*
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* For '01', the low six bits seem to be a signed binary value,
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* with the most common being 0, and 1 and -1 (63) being the
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* next most common values.
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*
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* NOTE! Don's CAN data is different. It shows the reverse pattern
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* for 00 and 01 above: 00 looks like signed data, with 01 looking
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* like unsigned data.
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*
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* For '10', there seems to be another positive value distribution,
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* but unlike '00' the value 0 is common, and I see examples of 63
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* too ("overflow"?) and a spike at '7'.
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*
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* Again, Don's data is different.
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*
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* The values for '11' seem to be some exception case. Possibly
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* overflow handling, possibly warning events. It doesn't have
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* any clear distribution: values 0, 1, 16, 33, 35, 48, 51, 55
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* and 63 are common.
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*
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* For David and Don's data, '01' is the most common, with '00'
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* and '10' not uncommon. '11' is two orders of magnitude less
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* common.
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*
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* For Alex, '00' is the most common, with 01 about a third as
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* common, and 02 a third of that. 11 is least common.
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*
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* There clearly are variations in the format here. And Alex has
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* a different data offset than Don/David too (see the #ifdef DON).
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* Christ. Maybe I've misread the patterns entirely.
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*/
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static void cochran_profile_write(const unsigned char *buf, int size)
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{
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int i;
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for (i = 0; i < size; i++) {
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unsigned char c = buf[i];
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printf("%d %d\n",
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c >> 6, c & 0x3f);
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}
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}
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static void parse_cochran_dive(const char *filename, int dive,
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const unsigned char *decode, unsigned mod,
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const unsigned char *in, unsigned size)
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{
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char *buf = malloc(size);
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#ifdef DON
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unsigned int offset = 0x4a14;
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#else
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unsigned int offset = 0x4b14;
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#endif
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/*
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* The scrambling has odd boundaries. I think the boundaries
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* match some data structure size, but I don't know. They were
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* discovered the same way we dynamically discover the decode
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* size: automatically looking for least random output.
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*
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* The boundaries are also this confused "off-by-one" thing,
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* the same way the file size is off by one. It's as if the
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* cochran software forgot to write one byte at the beginning.
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*/
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partial_decode(0 , 0x0fff, decode, 1, mod, in, size, buf);
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partial_decode(0x0fff, 0x1fff, decode, 0, mod, in, size, buf);
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partial_decode(0x1fff, 0x2fff, decode, 0, mod, in, size, buf);
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partial_decode(0x2fff, 0x48ff, decode, 0, mod, in, size, buf);
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/*
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* This is not all the descrambling you need - the above are just
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* what appears to be the fixed-size blocks. The rest is also
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* scrambled, but there seems to be size differences in the data,
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* so this just descrambles part of it:
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*/
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partial_decode(0x48ff, offset, decode, 0, mod, in, size, buf);
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partial_decode(offset, size, decode, 0, mod, in, size, buf);
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printf("\n%s, dive %d\n\n", filename, dive);
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cochran_debug_write(filename, buf, size);
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cochran_profile_write(buf + offset, size - offset);
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free(buf);
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}
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int try_to_open_cochran(const char *filename, struct memblock *mem, GError **error)
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{
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unsigned int i;
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unsigned int mod;
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unsigned int *offsets, dive1, dive2;
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unsigned char *decode = mem->buffer + 0x40001;
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if (mem->size < 0x40000)
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return 0;
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offsets = mem->buffer;
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dive1 = offsets[0];
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dive2 = offsets[1];
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if (dive1 < 0x40000 || dive2 < dive1 || dive2 > mem->size)
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return 0;
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mod = figure_out_modulus(decode, mem->buffer + dive1, dive2 - dive1);
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parse_cochran_header(filename, decode, mod, mem->buffer + 0x40000, dive1 - 0x40000);
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for (i = 0; i < 65534; i++) {
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dive1 = offsets[i];
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dive2 = offsets[i+1];
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if (dive2 < dive1)
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break;
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if (dive2 > mem->size)
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break;
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parse_cochran_dive(filename, i+1, decode, mod, mem->buffer + dive1, dive2 - dive1);
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}
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exit(0);
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}
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