/* MD5DEEP - helpers.c * * By Jesse Kornblum * * This is a work of the US Government. In accordance with 17 USC 105, * copyright protection is not available for any work of the US Government. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * */ #include "main.h" /* Removes any newlines at the end of the string buf. Works for both *nix and Windows styles of newlines. Returns the new length of the string. */ unsigned int chop (char *buf) { /* Windows newlines are 0x0d 0x0a, *nix are 0x0a */ unsigned int len = strlen(buf); if (buf[len - 1] == 0x0a) { if (buf[len - 2] == 0x0d) { buf[len - 2] = buf[len - 1]; } buf[len - 1] = buf[len]; } return strlen(buf); } char *units(unsigned int c) { switch (c) { case 0: return "B"; case 1: return "KB"; case 2: return "MB"; case 3: return "GB"; case 4: return "TB"; case 5: return "PB"; case 6: return "EB"; /* Steinbach's Guideline for Systems Programming: Never test for an error condition you don't know how to handle. Granted, given that no existing system can handle anything more than 18 exabytes, this shouldn't be an issue. But how do we communicate that 'this shouldn't happen' to the user? */ default: return "??"; } } char *human_readable(off_t size, char *buffer) { unsigned int count = 0; while (size > 1024) { size /= 1024; ++count; } /* The size will be, at most, 1023, and the units will be two characters no matter what. Thus, the maximum length of this string is six characters. e.g. strlen("1023 EB") = 6 */ if (sizeof(off_t) == 4) { snprintf(buffer, 8, "%u %s", (unsigned int)size, units(count)); } else if (sizeof(off_t) == 8) { snprintf(buffer, 8, "%llu %s", (u_int64_t) size, units(count)); } return buffer; } char *current_time(void) { time_t now = time(NULL); char *ascii_time = ctime(&now); chop(ascii_time); return ascii_time; } /* Shift the contents of a string so that the values after 'new_start' will now begin at location 'start' */ void shift_string(char *fn, int start, int new_start) { if (start < 0 || start > strlen(fn) || new_start < 0 || new_start < start) return; while (new_start < strlen(fn)) { fn[start] = fn[new_start]; new_start++; start++; } fn[start] = 0; } void make_magic(void) { printf("%s%s", "\x53\x41\x4E\x20\x44\x49\x4D\x41\x53\x20\x48\x49\x47\x48\x20\x53\x43\x48\x4F\x4F\x4C\x20\x46\x4F\x4F\x54\x42\x41\x4C\x4C\x20\x52\x55\x4C\x45\x53\x21", NEWLINE); } #if defined(__UNIX) /* Return the size, in bytes of an open file stream. On error, return 0 */ #if defined(__LINUX) off_t find_file_size(FILE *f) { off_t num_sectors = 0; int fd = fileno(f); struct stat sb; if (fstat(fd, &sb)) { return 0; } if (S_ISREG(sb.st_mode) || S_ISDIR(sb.st_mode)) return sb.st_size; else if (S_ISCHR(sb.st_mode) || S_ISBLK(sb.st_mode)) { if (ioctl(fd, BLKGETSIZE, &num_sectors)) { #if defined(__DEBUG) fprintf(stderr, "%s: ioctl call to BLKGETSIZE failed.%s", __progname, NEWLINE); #endif } else return (num_sectors * 512); } return 0; } #elif defined(__MACOSX) #include #include #include off_t find_file_size(FILE *f) { #ifdef DEBUG printf(" FIND MAC file size\n"); #endif return 0; /*FIX ME this function causes strange problems on MACOSX, so for now return 0*/ struct stat info; off_t total = 0; off_t original = ftello(f); int ok = TRUE, fd = fileno(f); /* I'd prefer not to use fstat as it will follow symbolic links. We don't follow symbolic links. That being said, all symbolic links *should* have been caught before we got here. */ fstat(fd, &info); /* Block devices, like /dev/hda, don't return a normal filesize. If we are working with a block device, we have to ask the operating system to tell us the true size of the device. The following only works on Linux as far as I know. If you know how to port this code to another operating system, please contact the current maintainer of this program! */ if (S_ISBLK(info.st_mode)) { daddr_t blocksize = 0; daddr_t blockcount = 0; /* Get the block size */ if (ioctl(fd, DKIOCGETBLOCKSIZE, blocksize) < 0) { ok = FALSE; #if defined(__DEBUG) perror("DKIOCGETBLOCKSIZE failed"); #endif } /* Get the number of blocks */ if (ok) { if (ioctl(fd, DKIOCGETBLOCKCOUNT, blockcount) < 0) { #if defined(__DEBUG) perror("DKIOCGETBLOCKCOUNT failed"); #endif } } total = blocksize * blockcount; } else { /* I don't know why, but if you don't initialize this value you'll get wildly innacurate results when you try to run this function */ if ((fseeko(f, 0, SEEK_END))) return 0; total = ftello(f); if ((fseeko(f, original, SEEK_SET))) return 0; } return (total - original); } #else /* This is code for general UNIX systems (e.g. NetBSD, FreeBSD, OpenBSD, etc) */ static off_t midpoint(off_t a, off_t b, long blksize) { off_t aprime = a / blksize; off_t bprime = b / blksize; off_t c, cprime; cprime = (bprime - aprime) / 2 + aprime; c = cprime * blksize; return c; } off_t find_dev_size(int fd, int blk_size) { off_t curr = 0, amount = 0; void *buf; if (blk_size == 0) return 0; buf = malloc(blk_size); for (;;) { ssize_t nread; lseek(fd, curr, SEEK_SET); nread = read(fd, buf, blk_size); if (nread < blk_size) { if (nread <= 0) { if (curr == amount) { free(buf); lseek(fd, 0, SEEK_SET); return amount; } curr = midpoint(amount, curr, blk_size); } else { /* 0 < nread < blk_size */ free(buf); lseek(fd, 0, SEEK_SET); return amount + nread; } } else { amount = curr + blk_size; curr = amount * 2; } } free(buf); lseek(fd, 0, SEEK_SET); return amount; } off_t find_file_size(FILE *f) { int fd = fileno(f); struct stat sb; return 0; /*FIX ME SOLARIS FILE SIZE CAUSES SEG FAULT, for now just return 0*/ if (fstat(fd, &sb)) return 0; if (S_ISREG(sb.st_mode) || S_ISDIR(sb.st_mode)) return sb.st_size; else if (S_ISCHR(sb.st_mode) || S_ISBLK(sb.st_mode)) return find_dev_size(fd, sb.st_blksize); return 0; } #endif /* UNIX Flavors */ #endif /* ifdef __UNIX */ #if defined(__WIN32) off_t find_file_size(FILE *f) { off_t total = 0, original = ftello(f); if ((fseeko(f, 0, SEEK_END))) return 0; total = ftello(f); if ((fseeko(f, original, SEEK_SET))) return 0; return total; } #endif /* ifdef __WIN32 */ void print_search_specs(f_state *s) { int i = 0; int j = 0; printf("\nDUMPING BUILTIN SEARCH INFO\n\t"); for (i = 0; i < s->num_builtin; i++) { printf("%s:\n\t footer_len:=%d, header_len:=%d, max_len:=%llu ", search_spec[i].suffix, search_spec[i].footer_len, search_spec[i].header_len, search_spec[i].max_len); printf("\n\t header:\t"); printx(search_spec[i].header, 0, search_spec[i].header_len); printf("\t footer:\t"); printx(search_spec[i].footer, 0, search_spec[i].footer_len); for (j = 0; j < search_spec[i].num_markers; j++) { printf("\tmarker: \t"); printx(search_spec[i].markerlist[j].value, 0, search_spec[i].markerlist[j].len); } } } void print_stats(f_state *s) { int i = 0; audit_msg(s, "\n%d FILES EXTRACTED\n\t", s->fileswritten); for (i = 0; i < s->num_builtin; i++) { if (search_spec[i].found != 0) { if (search_spec[i].type == OLE) search_spec[i].suffix = "ole"; else if (search_spec[i].type == RIFF) search_spec[i].suffix = "rif"; else if (search_spec[i].type == ZIP) search_spec[i].suffix = "zip"; audit_msg(s, "%s:= %d", search_spec[i].suffix, search_spec[i].found); } } } int charactersMatch(char a, char b, int caseSensitive) { //if(a==b) return 1; if (a == wildcard || a == b) return 1; if (caseSensitive || (a < 'A' || a > 'z' || b < 'A' || b > 'z')) return 0; /* This line is equivalent to (abs(a-b)) == 'a' - 'A' */ return (abs(a - b) == 32); } int memwildcardcmp(const void *s1, const void *s2, size_t n, int caseSensitive) { if (n != 0) { register const unsigned char *p1 = s1, *p2 = s2; do { if (!charactersMatch(*p1++, *p2++, caseSensitive)) return (*--p1 -*--p2); } while (--n != 0); } return (0); } void printx(unsigned char *buf, int start, int end) { int i = 0; for (i = start; i < end; i++) { printf("%x ", buf[i]); } printf("\n"); } char *reverse_string(char *to, char *from, int startLocation, int endLocation) { int i = endLocation; int j = 0; for (j = startLocation; j < endLocation; j++) { i--; to[j] = from[i]; } return to; } unsigned short htos(unsigned char s[], int endian) { unsigned char *bytes = (unsigned char *)malloc(sizeof(unsigned short) * sizeof(char)); unsigned short size = 0; char temp = 'x'; bytes = memcpy(bytes, s, sizeof(short)); if (endian == FOREMOST_BIG_ENDIAN && BYTE_ORDER == LITTLE_ENDIAN) { //printf("switching the byte order\n"); temp = bytes[0]; bytes[0] = bytes[1]; bytes[1] = temp; } else if (endian == FOREMOST_LITTLE_ENDIAN && BYTE_ORDER == BIG_ENDIAN) { temp = bytes[0]; bytes[0] = bytes[1]; bytes[1] = temp; } size = *((unsigned short *)bytes); free(bytes); return size; } unsigned int htoi(unsigned char s[], int endian) { int length = sizeof(int); unsigned char *bytes = (unsigned char *)malloc(length * sizeof(char)); unsigned int size = 0; bytes = memcpy(bytes, s, length); if (endian == FOREMOST_BIG_ENDIAN && BYTE_ORDER == LITTLE_ENDIAN) { bytes = (unsigned char *)reverse_string((char *)bytes, (char *)s, 0, length); } else if (endian == FOREMOST_LITTLE_ENDIAN && BYTE_ORDER == BIG_ENDIAN) { bytes = (unsigned char *)reverse_string((char *)bytes, (char *)s, 0, length); } size = *((unsigned int *)bytes); free(bytes); return size; } u_int64_t htoll(unsigned char s[], int endian) { int length = sizeof(long long); unsigned char *bytes = (unsigned char *)malloc(length * sizeof(char)); unsigned int size = 0; bytes = memcpy(bytes, s, length); if (endian == FOREMOST_BIG_ENDIAN && BYTE_ORDER == LITTLE_ENDIAN) { bytes = (unsigned char *)reverse_string((char *)bytes, (char *)s, 0, length); } else if (endian == FOREMOST_LITTLE_ENDIAN && BYTE_ORDER == BIG_ENDIAN) { bytes = (unsigned char *)reverse_string((char *)bytes, (char *)s, 0, length); } size = *((unsigned long *)bytes); free(bytes); return size; } /* display Position: Tell the user how far through the infile we are */ int displayPosition(f_state *s, f_info *i, u_int64_t pos) { int percentDone = 0; static int last_val = 0; int count; int flag = FALSE; int factor = 4; int multiplier = 25; int number_of_stars = 0; char buffer[256]; long double skip = s->skip * s->block_size; long double tot_bytes = (long double)((i->total_bytes)); tot_bytes -= skip; if (i->total_bytes > 0) { percentDone = (((long double)pos) / ((long double)tot_bytes)) * 100; if (percentDone != last_val) flag = TRUE; last_val = percentDone; } else { flag = TRUE; factor = 4; multiplier = 25; } if (flag) { number_of_stars = percentDone / factor; printf("%s: |", s->input_file); for (count = 0; count < number_of_stars; count++) { printf("*"); } for (count = 0; count < (multiplier - number_of_stars); count++) { printf(" "); } if (i->total_bytes > 0) { printf("|\t %d%% done\n", percentDone); } else { printf("|\t %s done\n", human_readable(pos, buffer)); } } if (percentDone == 100) { last_val = 0; } return TRUE; }