/* * Derived from: * * MDDRIVER.C - test driver for MD2, MD4 and MD5 */ /* * Copyright (C) 1990-2, RSA Data Security, Inc. Created 1990. All * rights reserved. * * RSA Data Security, Inc. makes no representations concerning either * the merchantability of this software or the suitability of this * software for any particular purpose. It is provided "as is" * without express or implied warranty of any kind. * * These notices must be retained in any copies of any part of this * documentation and/or software. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_CAPSICUM #include #include #include #include #endif /* * Length of test block, number of test blocks. */ #define TEST_BLOCK_LEN 10000 #define TEST_BLOCK_COUNT 100000 #define MDTESTCOUNT 8 static char *progname; static bool cflag; static bool pflag; static bool qflag; static bool sflag; static bool wflag; static bool strict; static bool skip; static bool ignoreMissing; static char* checkAgainst; static int checksFailed; static bool failed; static int endl = '\n'; typedef void (DIGEST_Init)(void *); typedef void (DIGEST_Update)(void *, const unsigned char *, size_t); typedef char *(DIGEST_End)(void *, char *); extern const char *MD5TestOutput[MDTESTCOUNT]; extern const char *SHA1_TestOutput[MDTESTCOUNT]; extern const char *SHA224_TestOutput[MDTESTCOUNT]; extern const char *SHA256_TestOutput[MDTESTCOUNT]; extern const char *SHA384_TestOutput[MDTESTCOUNT]; extern const char *SHA512_TestOutput[MDTESTCOUNT]; extern const char *SHA512t224_TestOutput[MDTESTCOUNT]; extern const char *SHA512t256_TestOutput[MDTESTCOUNT]; extern const char *RIPEMD160_TestOutput[MDTESTCOUNT]; extern const char *SKEIN256_TestOutput[MDTESTCOUNT]; extern const char *SKEIN512_TestOutput[MDTESTCOUNT]; extern const char *SKEIN1024_TestOutput[MDTESTCOUNT]; typedef struct Algorithm_t { const char *progname; const char *perlname; const char *name; const char *(*TestOutput)[MDTESTCOUNT]; DIGEST_Init *Init; DIGEST_Update *Update; DIGEST_End *End; char *(*Data)(const void *, unsigned int, char *); } Algorithm_t; static void MD5_Update(MD5_CTX *, const unsigned char *, size_t); static char *MDInput(const Algorithm_t *, FILE *, char *, bool); static void MDOutput(const Algorithm_t *, char *, const char *); static void MDTimeTrial(const Algorithm_t *); static void MDTestSuite(const Algorithm_t *); static void usage(const Algorithm_t *); static void version(void); typedef union { MD5_CTX md5; SHA1_CTX sha1; SHA224_CTX sha224; SHA256_CTX sha256; SHA384_CTX sha384; SHA512_CTX sha512; RIPEMD160_CTX ripemd160; SKEIN256_CTX skein256; SKEIN512_CTX skein512; SKEIN1024_CTX skein1024; } DIGEST_CTX; /* max(MD5_DIGEST_LENGTH, SHA_DIGEST_LENGTH, SHA256_DIGEST_LENGTH, SHA512_DIGEST_LENGTH, RIPEMD160_DIGEST_LENGTH, SKEIN1024_DIGEST_LENGTH)*2+1 */ #define HEX_DIGEST_LENGTH 257 /* algorithm function table */ static const struct Algorithm_t Algorithm[] = { { "md5", NULL, "MD5", &MD5TestOutput, (DIGEST_Init*)&MD5Init, (DIGEST_Update*)&MD5_Update, (DIGEST_End*)&MD5End, &MD5Data }, { "sha1", "1", "SHA1", &SHA1_TestOutput, (DIGEST_Init*)&SHA1_Init, (DIGEST_Update*)&SHA1_Update, (DIGEST_End*)&SHA1_End, &SHA1_Data }, { "sha224", "224", "SHA224", &SHA224_TestOutput, (DIGEST_Init*)&SHA224_Init, (DIGEST_Update*)&SHA224_Update, (DIGEST_End*)&SHA224_End, &SHA224_Data }, { "sha256", "256", "SHA256", &SHA256_TestOutput, (DIGEST_Init*)&SHA256_Init, (DIGEST_Update*)&SHA256_Update, (DIGEST_End*)&SHA256_End, &SHA256_Data }, { "sha384", "384", "SHA384", &SHA384_TestOutput, (DIGEST_Init*)&SHA384_Init, (DIGEST_Update*)&SHA384_Update, (DIGEST_End*)&SHA384_End, &SHA384_Data }, { "sha512", "512", "SHA512", &SHA512_TestOutput, (DIGEST_Init*)&SHA512_Init, (DIGEST_Update*)&SHA512_Update, (DIGEST_End*)&SHA512_End, &SHA512_Data }, { "sha512t224", "512224", "SHA512t224", &SHA512t224_TestOutput, (DIGEST_Init*)&SHA512_224_Init, (DIGEST_Update*)&SHA512_224_Update, (DIGEST_End*)&SHA512_224_End, &SHA512_224_Data }, { "sha512t256", "512256", "SHA512t256", &SHA512t256_TestOutput, (DIGEST_Init*)&SHA512_256_Init, (DIGEST_Update*)&SHA512_256_Update, (DIGEST_End*)&SHA512_256_End, &SHA512_256_Data }, { "rmd160", NULL, "RMD160", &RIPEMD160_TestOutput, (DIGEST_Init*)&RIPEMD160_Init, (DIGEST_Update*)&RIPEMD160_Update, (DIGEST_End*)&RIPEMD160_End, &RIPEMD160_Data }, { "skein256", NULL, "Skein256", &SKEIN256_TestOutput, (DIGEST_Init*)&SKEIN256_Init, (DIGEST_Update*)&SKEIN256_Update, (DIGEST_End*)&SKEIN256_End, &SKEIN256_Data }, { "skein512", NULL, "Skein512", &SKEIN512_TestOutput, (DIGEST_Init*)&SKEIN512_Init, (DIGEST_Update*)&SKEIN512_Update, (DIGEST_End*)&SKEIN512_End, &SKEIN512_Data }, { "skein1024", NULL, "Skein1024", &SKEIN1024_TestOutput, (DIGEST_Init*)&SKEIN1024_Init, (DIGEST_Update*)&SKEIN1024_Update, (DIGEST_End*)&SKEIN1024_End, &SKEIN1024_Data }, { } }; static int digest = -1; static unsigned int malformed; static enum mode { mode_bsd, mode_gnu, mode_perl, } mode = mode_bsd; static enum input_mode { input_binary = '*', input_text = ' ', input_universal = 'U', input_bits = '^', } input_mode = input_binary; static enum output_mode { output_bare, output_tagged, output_reverse, output_gnu, } output_mode = output_tagged; enum optval { opt_end = -1, /* ensure we don't collide with shortopts */ opt_dummy = CHAR_MAX, /* BSD options */ opt_check, opt_passthrough, opt_quiet, opt_reverse, opt_string, opt_time_trial, opt_self_test, /* GNU options */ opt_binary, opt_help, opt_ignore_missing, opt_status, opt_strict, opt_tag, opt_text, opt_warn, opt_version, opt_zero, /* Perl options */ opt_algorithm, opt_bits, opt_universal, }; static const struct option bsd_longopts[] = { { "check", required_argument, 0, opt_check }, { "passthrough", no_argument, 0, opt_passthrough }, { "quiet", no_argument, 0, opt_quiet }, { "reverse", no_argument, 0, opt_reverse }, { "string", required_argument, 0, opt_string }, { "time-trial", no_argument, 0, opt_time_trial }, { "self-test", no_argument, 0, opt_self_test }, { } }; static const char *bsd_shortopts = "bc:pqrs:tx"; static const struct option gnu_longopts[] = { { "binary", no_argument, 0, opt_binary }, { "check", no_argument, 0, opt_check }, { "help", no_argument, 0, opt_help }, { "ignore-missing", no_argument, 0, opt_ignore_missing }, { "quiet", no_argument, 0, opt_quiet }, { "status", no_argument, 0, opt_status }, { "strict", no_argument, 0, opt_strict }, { "tag", no_argument, 0, opt_tag }, { "text", no_argument, 0, opt_text }, { "version", no_argument, 0, opt_version }, { "warn", no_argument, 0, opt_warn }, { "zero", no_argument, 0, opt_zero }, { } }; static const char *gnu_shortopts = "bctwz"; static const struct option perl_longopts[] = { { "algorithm", required_argument, 0, opt_algorithm }, { "binary", no_argument, 0, opt_binary }, { "check", no_argument, 0, opt_check }, { "help", no_argument, 0, opt_help }, { "ignore-missing", no_argument, 0, opt_ignore_missing }, { "quiet", no_argument, 0, opt_quiet }, { "status", no_argument, 0, opt_status }, { "strict", no_argument, 0, opt_strict }, { "tag", no_argument, 0, opt_tag }, { "text", no_argument, 0, opt_text }, { "UNIVERSAL", no_argument, 0, opt_universal }, { "version", no_argument, 0, opt_version }, { "warn", no_argument, 0, opt_warn }, { "01", no_argument, 0, opt_bits }, { } }; static const char *perl_shortopts = "0a:bchqstUvw"; static void MD5_Update(MD5_CTX *c, const unsigned char *data, size_t len) { MD5Update(c, data, len); } struct chksumrec { char *filename; enum input_mode input_mode; char *chksum; struct chksumrec *next; }; static struct chksumrec *head = NULL; static struct chksumrec **next = &head; static unsigned int numrecs; #define PADDING 7 /* extra padding for "SHA512t256 (...) = ...\n" style */ #define CHKFILELINELEN (HEX_DIGEST_LENGTH + MAXPATHLEN + PADDING) static void gnu_check(const char *checksumsfile) { FILE *inp; char *linebuf = NULL; size_t linecap; ssize_t linelen; int lineno; char *filename; char *hashstr; struct chksumrec *rec; const char *digestname; size_t digestnamelen; size_t hashstrlen; struct stat st; if (strcmp(checksumsfile, "-") == 0) inp = stdin; else if ((inp = fopen(checksumsfile, "r")) == NULL) err(1, "%s", checksumsfile); digestname = Algorithm[digest].name; digestnamelen = strlen(digestname); hashstrlen = strlen(*(Algorithm[digest].TestOutput[0])); lineno = 0; linecap = CHKFILELINELEN; while ((linelen = getline(&linebuf, &linecap, inp)) > 0) { lineno++; while (linelen > 0 && linebuf[linelen - 1] == '\n') linelen--; linebuf[linelen] = '\0'; filename = linebuf + digestnamelen + 2; hashstr = linebuf + linelen - hashstrlen; /* * supported formats: * BSD: (): * GNU: [ *U^] */ if ((size_t)linelen >= digestnamelen + hashstrlen + 6 && strncmp(linebuf, digestname, digestnamelen) == 0 && strncmp(filename - 2, " (", 2) == 0 && strncmp(hashstr - 4, ") = ", 4) == 0 && strspn(hashstr, "0123456789ABCDEFabcdef") == hashstrlen) { *(hashstr - 4) = '\0'; } else if ((size_t)linelen >= hashstrlen + 3 && strspn(linebuf, "0123456789ABCDEFabcdef") == hashstrlen && linebuf[hashstrlen] == ' ') { linebuf[hashstrlen] = '\0'; hashstr = linebuf; filename = linebuf + hashstrlen + 1; } else { if (wflag) { warnx("%s: %d: improperly formatted " "%s checksum line", checksumsfile, lineno, mode == mode_perl ? "SHA" : digestname); } malformed++; continue; } rec = malloc(sizeof(*rec)); if (rec == NULL) errx(1, "malloc failed"); if ((*filename == '*' || *filename == ' ' || *filename == 'U' || *filename == '^') && lstat(filename, &st) != 0 && lstat(filename + 1, &st) == 0) { rec->filename = strdup(filename + 1); rec->input_mode = (enum input_mode)*filename; } else { rec->filename = strdup(filename); rec->input_mode = input_mode; } rec->chksum = strdup(hashstr); if (rec->chksum == NULL || rec->filename == NULL) errx(1, "malloc failed"); rec->next = NULL; *next = rec; next = &rec->next; numrecs++; } if (inp != stdin) fclose(inp); } /* Main driver. Arguments (may be any combination): -sstring - digests string -t - runs time trial -x - runs test script filename - digests file (none) - digests standard input */ int main(int argc, char *argv[]) { #ifdef HAVE_CAPSICUM cap_rights_t rights; fileargs_t *fa = NULL; #endif const struct option *longopts; const char *shortopts; FILE *f; int i, opt; char *p, *string = NULL; char buf[HEX_DIGEST_LENGTH]; size_t len; struct chksumrec *rec; if ((progname = strrchr(argv[0], '/')) == NULL) progname = argv[0]; else progname++; /* * GNU coreutils has a number of programs named *sum. These produce * similar results to the BSD version, but in a different format, * similar to BSD's -r flag. We install links to this program with * ending 'sum' to provide this compatibility. Check here to see if the * name of the program ends in 'sum', set the flag and drop the 'sum' so * the digest lookup works. Also, make -t a nop when running in this mode * since that means 'text file' there (though it's a nop in coreutils * on unix-like systems). The -c flag conflicts, so it's just disabled * in this mode (though in the future it might be implemented). * * We also strive to be compatible with the shasum script which is * included in Perl. It is roughly equivalent to the GNU offering * but uses a command-line argument to select the algorithm, and * supports only SHA-1 and SHA-2. */ len = strlen(progname); if (strcmp(progname, "shasum") == 0) { mode = mode_perl; input_mode = input_text; output_mode = output_gnu; digest = 1; longopts = perl_longopts; shortopts = perl_shortopts; } else if (len > 3 && strcmp(progname + len - 3, "sum") == 0) { len -= 3; mode = mode_gnu; input_mode = input_text; /* * The historical behavior in GNU emulation mode is * output_reverse, however this not true to the original * and the flag that was used to force the correct output * was -b, which means something else (input_binary) in * GNU land. Switch to the correct behavior. */ output_mode = output_gnu; longopts = gnu_longopts; shortopts = gnu_shortopts; } else { mode = mode_bsd; input_mode = input_binary; output_mode = output_tagged; longopts = bsd_longopts; shortopts = bsd_shortopts; } if (digest < 0) { for (digest = 0; Algorithm[digest].progname != NULL; digest++) if (strncasecmp(Algorithm[digest].progname, progname, len) == 0) break; if (Algorithm[digest].progname == NULL) digest = 0; } failed = false; checkAgainst = NULL; checksFailed = 0; skip = false; while ((opt = getopt_long(argc, argv, shortopts, longopts, NULL)) != opt_end) switch (opt) { case opt_bits: case '0': input_mode = input_bits; break; case opt_algorithm: case 'a': for (i = 0; Algorithm[i].progname != NULL; i++) { if (Algorithm[i].perlname != NULL && strcasecmp(Algorithm[i].perlname, optarg) == 0) { digest = i; break; } } if (Algorithm[i].progname == NULL) usage(&Algorithm[digest]); break; case opt_binary: case 'b': /* in BSD mode, -b is now a no-op */ if (mode != mode_bsd) input_mode = input_binary; break; case opt_check: case 'c': cflag = true; if (mode == mode_bsd) checkAgainst = optarg; break; case opt_passthrough: case 'p': pflag = true; break; case opt_quiet: case 'q': output_mode = output_bare; qflag = true; break; case opt_reverse: case 'r': if (!qflag) output_mode = output_reverse; break; case opt_status: sflag = true; break; case opt_strict: strict = 1; break; case 's': if (mode == mode_perl) { sflag = true; break; } /* fall through */ case opt_string: output_mode = output_bare; string = optarg; break; case opt_tag: output_mode = output_tagged; break; case opt_time_trial: case opt_text: case 't': if (mode == mode_bsd) { MDTimeTrial(&Algorithm[digest]); skip = true; } else { input_mode = input_text; } break; case opt_universal: case 'U': input_mode = input_universal; break; case opt_version: version(); break; case opt_warn: case 'w': wflag = true; break; case opt_self_test: case 'x': MDTestSuite(&Algorithm[digest]); skip = true; break; case opt_zero: case 'z': endl = '\0'; break; case opt_ignore_missing: ignoreMissing = true; break; default: usage(&Algorithm[digest]); } argc -= optind; argv += optind; #ifdef HAVE_CAPSICUM if (caph_limit_stdio() < 0) err(1, "unable to limit rights for stdio"); #endif if (cflag && mode != mode_bsd) { /* * Read digest files into a linked list, then replace argv * with an array of the filenames from that list. */ if (argc < 1) usage(&Algorithm[digest]); while (argc--) gnu_check(*argv++); argc = 0; argv = calloc(numrecs + 1, sizeof(char *)); for (rec = head; rec != NULL; rec = rec->next) { argv[argc] = rec->filename; argc++; } argv[argc] = NULL; rec = head; } #ifdef HAVE_CAPSICUM fa = fileargs_init(argc, argv, O_RDONLY, 0, cap_rights_init(&rights, CAP_READ, CAP_FSTAT, CAP_FCNTL), FA_OPEN | FA_LSTAT); if (fa == NULL) err(1, "Unable to initialize casper"); if (caph_enter_casper() < 0) err(1, "Unable to enter capability mode"); #endif if (*argv && !pflag && string == NULL) { do { const char *filename = *argv; const char *filemode = "rb"; if (cflag && mode != mode_bsd) { input_mode = rec->input_mode; checkAgainst = rec->chksum; rec = rec->next; } if (input_mode == input_text) filemode = "r"; if (strcmp(filename, "-") == 0) { f = stdin; } else { #ifdef HAVE_CAPSICUM f = fileargs_fopen(fa, filename, filemode); #else f = fopen(filename, filemode); #endif } if (f == NULL) { if (errno != ENOENT || !(cflag && ignoreMissing)) { warn("%s", filename); failed = true; } continue; } p = MDInput(&Algorithm[digest], f, buf, false); if (f != stdin) (void)fclose(f); MDOutput(&Algorithm[digest], p, filename); } while (*++argv); } else if (!cflag && string == NULL && !skip) { if (mode == mode_bsd) output_mode = output_bare; p = MDInput(&Algorithm[digest], stdin, buf, pflag); MDOutput(&Algorithm[digest], p, "-"); } else if (string != NULL) { len = strlen(string); p = Algorithm[digest].Data(string, len, buf); MDOutput(&Algorithm[digest], p, string); } if (cflag && mode != mode_bsd) { if (!sflag && malformed > 1) warnx("WARNING: %d lines are improperly formatted", malformed); else if (!sflag && malformed > 0) warnx("WARNING: %d line is improperly formatted", malformed); if (!sflag && checksFailed > 1) warnx("WARNING: %d computed checksums did NOT match", checksFailed); else if (!sflag && checksFailed > 0) warnx("WARNING: %d computed checksum did NOT match", checksFailed); if (checksFailed != 0 || (strict && malformed > 0)) return (1); } #ifdef HAVE_CAPSICUM fileargs_free(fa); #endif if (failed) return (1); if (checksFailed > 0) return (2); return (0); } /* * Common input handling */ static char * MDInput(const Algorithm_t *alg, FILE *f, char *buf, bool tee) { char block[4096]; DIGEST_CTX context; char *end, *p, *q; size_t len; int bits; uint8_t byte; bool cr = false; alg->Init(&context); while ((len = fread(block, 1, sizeof(block), f)) > 0) { switch (input_mode) { case input_binary: case input_text: if (tee && fwrite(block, 1, len, stdout) != len) err(1, "stdout"); alg->Update(&context, block, len); break; case input_universal: end = block + len; for (p = q = block; p < end; p = q) { if (cr) { if (*p == '\n') p++; if (tee && putchar('\n') == EOF) err(1, "stdout"); alg->Update(&context, "\n", 1); cr = false; } for (q = p; q < end && *q != '\r'; q++) /* nothing */; if (q > p) { if (tee && fwrite(p, 1, q - p, stdout) != (size_t)(q - p)) err(1, "stdout"); alg->Update(&context, p, q - p); } if (q < end && *q == '\r') { cr = true; q++; } } break; case input_bits: end = block + len; bits = byte = 0; for (p = block; p < end; p++) { if (*p == '0' || *p == '1') { byte <<= 1; byte |= *p - '0'; if (++bits == 8) { if (tee && putchar(byte) == EOF) err(1, "stdout"); alg->Update(&context, &byte, 1); bits = byte = 0; } } } break; } } if (ferror(f)) { alg->End(&context, buf); return (NULL); } if (cr) { if (tee && putchar('\n') == EOF) err(1, "stdout"); alg->Update(&context, "\n", 1); } if (input_mode == input_bits && bits != 0) errx(1, "input length was not a multiple of 8"); return (alg->End(&context, buf)); } /* * Common output handling */ static void MDOutput(const Algorithm_t *alg, char *p, const char *name) { bool checkfailed = false; if (p == NULL) { warn("%s", name); failed = true; } else if (cflag && mode != mode_bsd) { checkfailed = strcasecmp(checkAgainst, p) != 0; if (!sflag && (!qflag || checkfailed)) printf("%s: %s%c", name, checkfailed ? "FAILED" : "OK", endl); } else { switch (output_mode) { case output_bare: printf("%s", p); break; case output_gnu: printf("%s %c%s", p, input_mode, name); break; case output_reverse: printf("%s %s", p, name); break; case output_tagged: if (mode == mode_perl && strncmp(alg->name, "SHA512t", 7) == 0) { printf("%.6s/%s", alg->name, alg->name + 7); } else { printf("%s", alg->name); } printf(" (%s) = %s", name, p); break; } if (checkAgainst) { checkfailed = strcasecmp(checkAgainst, p) != 0; if (!qflag && checkfailed) printf(" [ Failed ]"); } printf("%c", endl); } if (checkfailed) checksFailed++; } /* * Measures the time to digest TEST_BLOCK_COUNT TEST_BLOCK_LEN-byte blocks. */ static void MDTimeTrial(const Algorithm_t *alg) { DIGEST_CTX context; struct rusage before, after; struct timeval total; float seconds; unsigned char block[TEST_BLOCK_LEN]; unsigned int i; char *p, buf[HEX_DIGEST_LENGTH]; printf("%s time trial. Digesting %d %d-byte blocks ...", alg->name, TEST_BLOCK_COUNT, TEST_BLOCK_LEN); fflush(stdout); /* Initialize block */ for (i = 0; i < TEST_BLOCK_LEN; i++) block[i] = (unsigned char) (i & 0xff); /* Start timer */ getrusage(RUSAGE_SELF, &before); /* Digest blocks */ alg->Init(&context); for (i = 0; i < TEST_BLOCK_COUNT; i++) alg->Update(&context, block, TEST_BLOCK_LEN); p = alg->End(&context, buf); /* Stop timer */ getrusage(RUSAGE_SELF, &after); timersub(&after.ru_utime, &before.ru_utime, &total); seconds = total.tv_sec + (float) total.tv_usec / 1000000; printf(" done\n"); printf("Digest = %s", p); printf("\nTime = %f seconds\n", seconds); printf("Speed = %f MiB/second\n", (float) TEST_BLOCK_LEN * (float) TEST_BLOCK_COUNT / seconds / (1 << 20)); } /* * Digests a reference suite of strings and prints the results. */ static const char *MDTestInput[MDTESTCOUNT] = { "", "a", "abc", "message digest", "abcdefghijklmnopqrstuvwxyz", "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789", "12345678901234567890123456789012345678901234567890123456789012345678901234567890", "MD5 has not yet (2001-09-03) been broken, but sufficient attacks have been made \ that its security is in some doubt" }; const char *MD5TestOutput[MDTESTCOUNT] = { "d41d8cd98f00b204e9800998ecf8427e", "0cc175b9c0f1b6a831c399e269772661", "900150983cd24fb0d6963f7d28e17f72", "f96b697d7cb7938d525a2f31aaf161d0", "c3fcd3d76192e4007dfb496cca67e13b", "d174ab98d277d9f5a5611c2c9f419d9f", "57edf4a22be3c955ac49da2e2107b67a", "b50663f41d44d92171cb9976bc118538" }; const char *SHA1_TestOutput[MDTESTCOUNT] = { "da39a3ee5e6b4b0d3255bfef95601890afd80709", "86f7e437faa5a7fce15d1ddcb9eaeaea377667b8", "a9993e364706816aba3e25717850c26c9cd0d89d", "c12252ceda8be8994d5fa0290a47231c1d16aae3", "32d10c7b8cf96570ca04ce37f2a19d84240d3a89", "761c457bf73b14d27e9e9265c46f4b4dda11f940", "50abf5706a150990a08b2c5ea40fa0e585554732", "18eca4333979c4181199b7b4fab8786d16cf2846" }; const char *SHA224_TestOutput[MDTESTCOUNT] = { "d14a028c2a3a2bc9476102bb288234c415a2b01f828ea62ac5b3e42f", "abd37534c7d9a2efb9465de931cd7055ffdb8879563ae98078d6d6d5", "23097d223405d8228642a477bda255b32aadbce4bda0b3f7e36c9da7", "2cb21c83ae2f004de7e81c3c7019cbcb65b71ab656b22d6d0c39b8eb", "45a5f72c39c5cff2522eb3429799e49e5f44b356ef926bcf390dccc2", "bff72b4fcb7d75e5632900ac5f90d219e05e97a7bde72e740db393d9", "b50aecbe4e9bb0b57bc5f3ae760a8e01db24f203fb3cdcd13148046e", "5ae55f3779c8a1204210d7ed7689f661fbe140f96f272ab79e19d470" }; const char *SHA256_TestOutput[MDTESTCOUNT] = { "e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855", "ca978112ca1bbdcafac231b39a23dc4da786eff8147c4e72b9807785afee48bb", "ba7816bf8f01cfea414140de5dae2223b00361a396177a9cb410ff61f20015ad", "f7846f55cf23e14eebeab5b4e1550cad5b509e3348fbc4efa3a1413d393cb650", "71c480df93d6ae2f1efad1447c66c9525e316218cf51fc8d9ed832f2daf18b73", "db4bfcbd4da0cd85a60c3c37d3fbd8805c77f15fc6b1fdfe614ee0a7c8fdb4c0", "f371bc4a311f2b009eef952dd83ca80e2b60026c8e935592d0f9c308453c813e", "e6eae09f10ad4122a0e2a4075761d185a272ebd9f5aa489e998ff2f09cbfdd9f" }; const char *SHA384_TestOutput[MDTESTCOUNT] = { "38b060a751ac96384cd9327eb1b1e36a21fdb71114be07434c0cc7bf63f6e1da274edebfe76f65fbd51ad2f14898b95b", "54a59b9f22b0b80880d8427e548b7c23abd873486e1f035dce9cd697e85175033caa88e6d57bc35efae0b5afd3145f31", "cb00753f45a35e8bb5a03d699ac65007272c32ab0eded1631a8b605a43ff5bed8086072ba1e7cc2358baeca134c825a7", "473ed35167ec1f5d8e550368a3db39be54639f828868e9454c239fc8b52e3c61dbd0d8b4de1390c256dcbb5d5fd99cd5", "feb67349df3db6f5924815d6c3dc133f091809213731fe5c7b5f4999e463479ff2877f5f2936fa63bb43784b12f3ebb4", "1761336e3f7cbfe51deb137f026f89e01a448e3b1fafa64039c1464ee8732f11a5341a6f41e0c202294736ed64db1a84", "b12932b0627d1c060942f5447764155655bd4da0c9afa6dd9b9ef53129af1b8fb0195996d2de9ca0df9d821ffee67026", "99428d401bf4abcd4ee0695248c9858b7503853acfae21a9cffa7855f46d1395ef38596fcd06d5a8c32d41a839cc5dfb" }; const char *SHA512_TestOutput[MDTESTCOUNT] = { "cf83e1357eefb8bdf1542850d66d8007d620e4050b5715dc83f4a921d36ce9ce47d0d13c5d85f2b0ff8318d2877eec2f63b931bd47417a81a538327af927da3e", "1f40fc92da241694750979ee6cf582f2d5d7d28e18335de05abc54d0560e0f5302860c652bf08d560252aa5e74210546f369fbbbce8c12cfc7957b2652fe9a75", "ddaf35a193617abacc417349ae20413112e6fa4e89a97ea20a9eeee64b55d39a2192992a274fc1a836ba3c23a3feebbd454d4423643ce80e2a9ac94fa54ca49f", "107dbf389d9e9f71a3a95f6c055b9251bc5268c2be16d6c13492ea45b0199f3309e16455ab1e96118e8a905d5597b72038ddb372a89826046de66687bb420e7c", "4dbff86cc2ca1bae1e16468a05cb9881c97f1753bce3619034898faa1aabe429955a1bf8ec483d7421fe3c1646613a59ed5441fb0f321389f77f48a879c7b1f1", "1e07be23c26a86ea37ea810c8ec7809352515a970e9253c26f536cfc7a9996c45c8370583e0a78fa4a90041d71a4ceab7423f19c71b9d5a3e01249f0bebd5894", "72ec1ef1124a45b047e8b7c75a932195135bb61de24ec0d1914042246e0aec3a2354e093d76f3048b456764346900cb130d2a4fd5dd16abb5e30bcb850dee843", "e8a835195e039708b13d9131e025f4441dbdc521ce625f245a436dcd762f54bf5cb298d96235e6c6a304e087ec8189b9512cbdf6427737ea82793460c367b9c3" }; const char *SHA512t224_TestOutput[MDTESTCOUNT] = { "6ed0dd02806fa89e25de060c19d3ac86cabb87d6a0ddd05c333b84f4", "d5cdb9ccc769a5121d4175f2bfdd13d6310e0d3d361ea75d82108327", "4634270f707b6a54daae7530460842e20e37ed265ceee9a43e8924aa", "ad1a4db188fe57064f4f24609d2a83cd0afb9b398eb2fcaeaae2c564", "ff83148aa07ec30655c1b40aff86141c0215fe2a54f767d3f38743d8", "a8b4b9174b99ffc67d6f49be9981587b96441051e16e6dd036b140d3", "ae988faaa47e401a45f704d1272d99702458fea2ddc6582827556dd2", "b3c3b945249b0c8c94aba76ea887bcaad5401665a1fbeb384af4d06b" }; const char *SHA512t256_TestOutput[MDTESTCOUNT] = { "c672b8d1ef56ed28ab87c3622c5114069bdd3ad7b8f9737498d0c01ecef0967a", "455e518824bc0601f9fb858ff5c37d417d67c2f8e0df2babe4808858aea830f8", "53048e2681941ef99b2e29b76b4c7dabe4c2d0c634fc6d46e0e2f13107e7af23", "0cf471fd17ed69d990daf3433c89b16d63dec1bb9cb42a6094604ee5d7b4e9fb", "fc3189443f9c268f626aea08a756abe7b726b05f701cb08222312ccfd6710a26", "cdf1cc0effe26ecc0c13758f7b4a48e000615df241284185c39eb05d355bb9c8", "2c9fdbc0c90bdd87612ee8455474f9044850241dc105b1e8b94b8ddf5fac9148", "dd095fc859b336c30a52548b3dc59fcc0d1be8616ebcf3368fad23107db2d736" }; const char *RIPEMD160_TestOutput[MDTESTCOUNT] = { "9c1185a5c5e9fc54612808977ee8f548b2258d31", "0bdc9d2d256b3ee9daae347be6f4dc835a467ffe", "8eb208f7e05d987a9b044a8e98c6b087f15a0bfc", "5d0689ef49d2fae572b881b123a85ffa21595f36", "f71c27109c692c1b56bbdceb5b9d2865b3708dbc", "b0e20b6e3116640286ed3a87a5713079b21f5189", "9b752e45573d4b39f4dbd3323cab82bf63326bfb", "5feb69c6bf7c29d95715ad55f57d8ac5b2b7dd32" }; const char *SKEIN256_TestOutput[MDTESTCOUNT] = { "c8877087da56e072870daa843f176e9453115929094c3a40c463a196c29bf7ba", "7fba44ff1a31d71a0c1f82e6e82fb5e9ac6c92a39c9185b9951fed82d82fe635", "258bdec343b9fde1639221a5ae0144a96e552e5288753c5fec76c05fc2fc1870", "4d2ce0062b5eb3a4db95bc1117dd8aa014f6cd50fdc8e64f31f7d41f9231e488", "46d8440685461b00e3ddb891b2ecc6855287d2bd8834a95fb1c1708b00ea5e82", "7c5eb606389556b33d34eb2536459528dc0af97adbcd0ce273aeb650f598d4b2", "4def7a7e5464a140ae9c3a80279fbebce4bd00f9faad819ab7e001512f67a10d", "d9c017dbe355f318d036469eb9b5fbe129fc2b5786a9dc6746a516eab6fe0126" }; const char *SKEIN512_TestOutput[MDTESTCOUNT] = { "bc5b4c50925519c290cc634277ae3d6257212395cba733bbad37a4af0fa06af41fca7903d06564fea7a2d3730dbdb80c1f85562dfcc070334ea4d1d9e72cba7a", "b1cd8d33f61b3737adfd59bb13ad82f4a9548e92f22956a8976cca3fdb7fee4fe91698146c4197cec85d38b83c5d93bdba92c01fd9a53870d0c7f967bc62bdce", "8f5dd9ec798152668e35129496b029a960c9a9b88662f7f9482f110b31f9f93893ecfb25c009baad9e46737197d5630379816a886aa05526d3a70df272d96e75", "15b73c158ffb875fed4d72801ded0794c720b121c0c78edf45f900937e6933d9e21a3a984206933d504b5dbb2368000411477ee1b204c986068df77886542fcc", "23793ad900ef12f9165c8080da6fdfd2c8354a2929b8aadf83aa82a3c6470342f57cf8c035ec0d97429b626c4d94f28632c8f5134fd367dca5cf293d2ec13f8c", "0c6bed927e022f5ddcf81877d42e5f75798a9f8fd3ede3d83baac0a2f364b082e036c11af35fe478745459dd8f5c0b73efe3c56ba5bb2009208d5a29cc6e469c", "2ca9fcffb3456f297d1b5f407014ecb856f0baac8eb540f534b1f187196f21e88f31103128c2f03fcc9857d7a58eb66f9525e2302d88833ee069295537a434ce", "1131f2aaa0e97126c9314f9f968cc827259bbfabced2943bb8c9274448998fb3b78738b4580dd500c76105fd3c03e465e1414f2c29664286b1f79d3e51128125" }; const char *SKEIN1024_TestOutput[MDTESTCOUNT] = { "0fff9563bb3279289227ac77d319b6fff8d7e9f09da1247b72a0a265cd6d2a62645ad547ed8193db48cff847c06494a03f55666d3b47eb4c20456c9373c86297d630d5578ebd34cb40991578f9f52b18003efa35d3da6553ff35db91b81ab890bec1b189b7f52cb2a783ebb7d823d725b0b4a71f6824e88f68f982eefc6d19c6", "6ab4c4ba9814a3d976ec8bffa7fcc638ceba0544a97b3c98411323ffd2dc936315d13dc93c13c4e88cda6f5bac6f2558b2d8694d3b6143e40d644ae43ca940685cb37f809d3d0550c56cba8036dee729a4f8fb960732e59e64d57f7f7710f8670963cdcdc95b41daab4855fcf8b6762a64b173ee61343a2c7689af1d293eba97", "35a599a0f91abcdb4cb73c19b8cb8d947742d82c309137a7caed29e8e0a2ca7a9ff9a90c34c1908cc7e7fd99bb15032fb86e76df21b72628399b5f7c3cc209d7bb31c99cd4e19465622a049afbb87c03b5ce3888d17e6e667279ec0aa9b3e2712624c01b5f5bbe1a564220bdcf6990af0c2539019f313fdd7406cca3892a1f1f", "ea891f5268acd0fac97467fc1aa89d1ce8681a9992a42540e53babee861483110c2d16f49e73bac27653ff173003e40cfb08516cd34262e6af95a5d8645c9c1abb3e813604d508b8511b30f9a5c1b352aa0791c7d2f27b2706dccea54bc7de6555b5202351751c3299f97c09cf89c40f67187e2521c0fad82b30edbb224f0458", "f23d95c2a25fbcd0e797cd058fec39d3c52d2b5afd7a9af1df934e63257d1d3dcf3246e7329c0f1104c1e51e3d22e300507b0c3b9f985bb1f645ef49835080536becf83788e17fed09c9982ba65c3cb7ffe6a5f745b911c506962adf226e435c42f6f6bc08d288f9c810e807e3216ef444f3db22744441deefa4900982a1371f", "cf3889e8a8d11bfd3938055d7d061437962bc5eac8ae83b1b71c94be201b8cf657fdbfc38674997a008c0c903f56a23feb3ae30e012377f1cfa080a9ca7fe8b96138662653fb3335c7d06595bf8baf65e215307532094cfdfa056bd8052ab792a3944a2adaa47b30335b8badb8fe9eb94fe329cdca04e58bbc530f0af709f469", "cf21a613620e6c119eca31fdfaad449a8e02f95ca256c21d2a105f8e4157048f9fe1e897893ea18b64e0e37cb07d5ac947f27ba544caf7cbc1ad094e675aed77a366270f7eb7f46543bccfa61c526fd628408058ed00ed566ac35a9761d002e629c4fb0d430b2f4ad016fcc49c44d2981c4002da0eecc42144160e2eaea4855a", "e6799b78db54085a2be7ff4c8007f147fa88d326abab30be0560b953396d8802feee9a15419b48a467574e9283be15685ca8a079ee52b27166b64dd70b124b1d4e4f6aca37224c3f2685e67e67baef9f94b905698adc794a09672aba977a61b20966912acdb08c21a2c37001785355dc884751a21f848ab36e590331ff938138" }; static void MDTestSuite(const Algorithm_t *alg) { int i; char buffer[HEX_DIGEST_LENGTH]; printf("%s test suite:\n", alg->name); for (i = 0; i < MDTESTCOUNT; i++) { (*alg->Data)(MDTestInput[i], strlen(MDTestInput[i]), buffer); printf("%s (\"%s\") = %s", alg->name, MDTestInput[i], buffer); if (strcmp(buffer, (*alg->TestOutput)[i]) == 0) { printf(" - verified correct\n"); } else { printf(" - INCORRECT RESULT!\n"); failed = true; } } } static void usage(const Algorithm_t *alg) { switch (mode) { case mode_gnu: fprintf(stderr, "usage: %ssum [-bctwz] [files ...]\n", alg->progname); break; case mode_perl: fprintf(stderr, "usage: shasum [-0bchqstUvw] [-a alg] [files ...]\n"); break; default: fprintf(stderr, "usage: %s [-pqrtx] [-c string] [-s string] [files ...]\n", alg->progname); } exit(1); } static void version(void) { if (mode == mode_gnu) printf("%s (FreeBSD) ", progname); printf("%d.%d\n", __FreeBSD_version / 100000, (__FreeBSD_version / 1000) % 100); exit(0); }