ref: f279c5eba035d018a8805a65a8a245b8b8d2ea2e
dir: /auxiliary/obfusc.c/
/* * Stand-alone tool to access the Puzzles obfuscation algorithm. * * To deobfuscate, use "obfusc -d": * * obfusc -d reads binary data from stdin, writes to stdout * obfusc -d <hex string> works on the given hex string instead of stdin * obfusc -d -h writes a hex string instead of binary to stdout * * To obfuscate, "obfusc -e": * * obfusc -e reads binary from stdin, writes hex to stdout * obfusc -e <hex string> works on the given hex string instead of stdin * obfusc -e -b writes binary instead of text to stdout * * The default output format is hex for -e and binary for -d * because that's the way obfuscation is generally used in * Puzzles. Either of -b and -h can always be specified to set it * explicitly. * * Data read from standard input is assumed always to be binary; * data provided on the command line is taken to be hex. */ #include <stdio.h> #include <stdlib.h> #include <stdarg.h> #include <string.h> #include <errno.h> #include "puzzles.h" static bool self_tests(void) { bool ok = true; #define FAILED (ok = false, "failed") /* * A few simple test vectors for the obfuscator. * * First test: the 28-bit stream 1234567. This divides up * into 1234 and 567[0]. The SHA of 56 70 30 (appending * "0") is 15ce8ab946640340bbb99f3f48fd2c45d1a31d30. Thus, * we XOR the 16-bit string 15CE into the input 1234 to get * 07FA. Next, we SHA that with "0": the SHA of 07 FA 30 is * 3370135c5e3da4fed937adc004a79533962b6391. So we XOR the * 12-bit string 337 into the input 567 to get 650. Thus * our output is 07FA650. */ { unsigned char bmp1[] = "\x12\x34\x56\x70"; obfuscate_bitmap(bmp1, 28, false); printf("test 1 encode: %s\n", memcmp(bmp1, "\x07\xfa\x65\x00", 4) ? FAILED : "passed"); obfuscate_bitmap(bmp1, 28, true); printf("test 1 decode: %s\n", memcmp(bmp1, "\x12\x34\x56\x70", 4) ? FAILED : "passed"); } /* * Second test: a long string to make sure we switch from * one SHA to the next correctly. My input string this time * is simply fifty bytes of zeroes. */ { unsigned char bmp2[50]; unsigned char bmp2a[50]; memset(bmp2, 0, 50); memset(bmp2a, 0, 50); obfuscate_bitmap(bmp2, 50 * 8, false); /* * SHA of twenty-five zero bytes plus "0" is * b202c07b990c01f6ff2d544707f60e506019b671. SHA of * twenty-five zero bytes plus "1" is * fcb1d8b5a2f6b592fe6780b36aa9d65dd7aa6db9. Thus our * first half becomes * b202c07b990c01f6ff2d544707f60e506019b671fcb1d8b5a2. * * SHA of that lot plus "0" is * 10b0af913db85d37ca27f52a9f78bba3a80030db. SHA of the * same string plus "1" is * 3d01d8df78e76d382b8106f480135a1bc751d725. So the * second half becomes * 10b0af913db85d37ca27f52a9f78bba3a80030db3d01d8df78. */ printf("test 2 encode: %s\n", memcmp(bmp2, "\xb2\x02\xc0\x7b\x99\x0c\x01\xf6\xff\x2d\x54" "\x47\x07\xf6\x0e\x50\x60\x19\xb6\x71\xfc\xb1\xd8" "\xb5\xa2\x10\xb0\xaf\x91\x3d\xb8\x5d\x37\xca\x27" "\xf5\x2a\x9f\x78\xbb\xa3\xa8\x00\x30\xdb\x3d\x01" "\xd8\xdf\x78", 50) ? FAILED : "passed"); obfuscate_bitmap(bmp2, 50 * 8, true); printf("test 2 decode: %s\n", memcmp(bmp2, bmp2a, 50) ? FAILED : "passed"); } #undef FAILED return ok; } int main(int argc, char **argv) { enum { BINARY, DEFAULT, HEX } outputmode = DEFAULT; char *inhex = NULL; unsigned char *data; int datalen; enum { UNKNOWN, DECODE, ENCODE, SELFTEST } mode = UNKNOWN; bool doing_opts = true; while (--argc > 0) { char *p = *++argv; if (doing_opts && *p == '-') { if (!strcmp(p, "--")) { doing_opts = 0; continue; } p++; while (*p) { switch (*p) { case 'e': mode = ENCODE; break; case 'd': mode = DECODE; break; case 't': mode = SELFTEST; break; case 'b': outputmode = BINARY; break; case 'h': outputmode = HEX; break; default: fprintf(stderr, "obfusc: unrecognised option '-%c'\n", *p); return 1; } p++; } } else { if (!inhex) { inhex = p; } else { fprintf(stderr, "obfusc: expected at most one argument\n"); return 1; } } } if (mode == UNKNOWN) { fprintf(stderr, "usage: obfusc < -e | -d > [ -b | -h ] [hex data]\n"); fprintf(stderr, " or: obfusc -t to run self-tests\n"); return 0; } if (mode == SELFTEST) { return self_tests() ? 0 : 1; } if (outputmode == DEFAULT) outputmode = (mode == DECODE ? BINARY : HEX); if (inhex) { datalen = strlen(inhex) / 2; data = hex2bin(inhex, datalen); } else { int datasize = 4096; datalen = 0; data = snewn(datasize, unsigned char); while (1) { int ret = fread(data + datalen, 1, datasize - datalen, stdin); if (ret < 0) { fprintf(stderr, "obfusc: read: %s\n", strerror(errno)); return 1; } else if (ret == 0) { break; } else { datalen += ret; if (datasize - datalen < 4096) { datasize = datalen * 5 / 4 + 4096; data = sresize(data, datasize, unsigned char); } } } } obfuscate_bitmap(data, datalen * 8, mode == DECODE); if (outputmode == BINARY) { int ret = fwrite(data, 1, datalen, stdout); if (ret < 0) { fprintf(stderr, "obfusc: write: %s\n", strerror(errno)); return 1; } } else { int i; for (i = 0; i < datalen; i++) printf("%02x", data[i]); printf("\n"); } return 0; }