/* * Copyright (C) 2010 Karel Zak * Copyright (C) 2010 Davidlohr Bueso * * No copyright is claimed. This code is in the public domain; do with * it what you wish. */ #include #include #include #include #include #include #include #include #include "c.h" #include "nls.h" #include "strutils.h" #include "bitops.h" #include "pathnames.h" static int STRTOXX_EXIT_CODE = EXIT_FAILURE; void strutils_set_exitcode(int ex) { STRTOXX_EXIT_CODE = ex; } static int do_scale_by_power (uintmax_t *x, int base, int power) { while (power--) { if (UINTMAX_MAX / base < *x) return -ERANGE; *x *= base; } return 0; } /* * strtosize() - convert string to size (uintmax_t). * * Supported suffixes: * * XiB or X for 2^N * where X = {K,M,G,T,P,E,Z,Y} * or X = {k,m,g,t,p,e} (undocumented for backward compatibility only) * for example: * 10KiB = 10240 * 10K = 10240 * * XB for 10^N * where X = {K,M,G,T,P,E,Z,Y} * for example: * 10KB = 10000 * * The optional 'power' variable returns number associated with used suffix * {K,M,G,T,P,E,Z,Y} = {1,2,3,4,5,6,7,8}. * * The function also supports decimal point, for example: * 0.5MB = 500000 * 0.5MiB = 512000 * * Note that the function does not accept numbers with '-' (negative sign) * prefix. */ int parse_size(const char *str, uintmax_t *res, int *power) { const char *p; char *end; uintmax_t x, frac = 0; int base = 1024, rc = 0, pwr = 0, frac_zeros = 0; static const char *suf = "KMGTPEZY"; static const char *suf2 = "kmgtpezy"; const char *sp; *res = 0; if (!str || !*str) { rc = -EINVAL; goto err; } /* Only positive numbers are acceptable * * Note that this check is not perfect, it would be better to * use lconv->negative_sign. But coreutils use the same solution, * so it's probably good enough... */ p = str; while (isspace((unsigned char) *p)) p++; if (*p == '-') { rc = -EINVAL; goto err; } errno = 0, end = NULL; x = strtoumax(str, &end, 0); if (end == str || (errno != 0 && (x == UINTMAX_MAX || x == 0))) { rc = errno ? -errno : -EINVAL; goto err; } if (!end || !*end) goto done; /* without suffix */ p = end; /* * Check size suffixes */ check_suffix: if (*(p + 1) == 'i' && (*(p + 2) == 'B' || *(p + 2) == 'b') && !*(p + 3)) base = 1024; /* XiB, 2^N */ else if ((*(p + 1) == 'B' || *(p + 1) == 'b') && !*(p + 2)) base = 1000; /* XB, 10^N */ else if (*(p + 1)) { struct lconv const *l = localeconv(); const char *dp = l ? l->decimal_point : NULL; size_t dpsz = dp ? strlen(dp) : 0; if (frac == 0 && *p && dp && strncmp(dp, p, dpsz) == 0) { const char *fstr = p + dpsz; for (p = fstr; *p == '0'; p++) frac_zeros++; fstr = p; if (isdigit(*fstr)) { errno = 0, end = NULL; frac = strtoumax(fstr, &end, 0); if (end == fstr || (errno != 0 && (frac == UINTMAX_MAX || frac == 0))) { rc = errno ? -errno : -EINVAL; goto err; } } else end = (char *) p; if (frac && (!end || !*end)) { rc = -EINVAL; goto err; /* without suffix, but with frac */ } p = end; goto check_suffix; } rc = -EINVAL; goto err; /* unexpected suffix */ } sp = strchr(suf, *p); if (sp) pwr = (sp - suf) + 1; else { sp = strchr(suf2, *p); if (sp) pwr = (sp - suf2) + 1; else { rc = -EINVAL; goto err; } } rc = do_scale_by_power(&x, base, pwr); if (power) *power = pwr; if (frac && pwr) { int i; uintmax_t frac_div = 10, frac_poz = 1, frac_base = 1; /* mega, giga, ... */ do_scale_by_power(&frac_base, base, pwr); /* maximal divisor for last digit (e.g. for 0.05 is * frac_div=100, for 0.054 is frac_div=1000, etc.) * * Reduce frac if too large. */ while (frac_div < frac) { if (frac_div <= UINTMAX_MAX/10) frac_div *= 10; else frac /= 10; } /* 'frac' is without zeros (5 means 0.5 as well as 0.05) */ for (i = 0; i < frac_zeros; i++) { if (frac_div <= UINTMAX_MAX/10) frac_div *= 10; else frac /= 10; } /* * Go backwardly from last digit and add to result what the * digit represents in the frac_base. For example 0.25G * * 5 means 1GiB / (100/5) * 2 means 1GiB / (10/2) */ do { unsigned int seg = frac % 10; /* last digit of the frac */ uintmax_t seg_div = frac_div / frac_poz; /* what represents the segment 1000, 100, .. */ frac /= 10; /* remove last digit from frac */ frac_poz *= 10; if (seg && seg_div / seg) x += frac_base / (seg_div / seg); } while (frac); } done: *res = x; err: if (rc < 0) errno = -rc; return rc; } int strtosize(const char *str, uintmax_t *res) { return parse_size(str, res, NULL); } int isdigit_strend(const char *str, const char **end) { const char *p; for (p = str; p && *p && isdigit((unsigned char) *p); p++); if (end) *end = p; return p && p > str && !*p; } int isxdigit_strend(const char *str, const char **end) { const char *p; for (p = str; p && *p && isxdigit((unsigned char) *p); p++); if (end) *end = p; return p && p > str && !*p; } /* * parse_switch(argv[i], "on", "off", "yes", "no", NULL); */ int parse_switch(const char *arg, const char *errmesg, ...) { const char *a, *b; va_list ap; va_start(ap, errmesg); do { a = va_arg(ap, char *); if (!a) break; b = va_arg(ap, char *); if (!b) break; if (strcmp(arg, a) == 0) { va_end(ap); return 1; } if (strcmp(arg, b) == 0) { va_end(ap); return 0; } } while (1); va_end(ap); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, arg); } #ifndef HAVE_MEMPCPY void *mempcpy(void *restrict dest, const void *restrict src, size_t n) { return ((char *)memcpy(dest, src, n)) + n; } #endif #ifndef HAVE_STRNLEN size_t strnlen(const char *s, size_t maxlen) { size_t i; for (i = 0; i < maxlen; i++) { if (s[i] == '\0') return i; } return maxlen; } #endif #ifndef HAVE_STRNCHR char *strnchr(const char *s, size_t maxlen, int c) { for (; maxlen-- && *s != '\0'; ++s) if (*s == (char)c) return (char *)s; return NULL; } #endif #ifndef HAVE_STRNDUP char *strndup(const char *s, size_t n) { size_t len = strnlen(s, n); char *new = malloc((len + 1) * sizeof(char)); if (!new) return NULL; new[len] = '\0'; return (char *) memcpy(new, s, len); } #endif /* * convert strings to numbers; returns <0 on error, and 0 on success */ int ul_strtos64(const char *str, int64_t *num, int base) { char *end = NULL; errno = 0; if (str == NULL || *str == '\0') return -EINVAL; *num = (int64_t) strtoimax(str, &end, base); if (errno || str == end || (end && *end)) return -EINVAL; return 0; } int ul_strtou64(const char *str, uint64_t *num, int base) { char *end = NULL; int64_t tmp; errno = 0; if (str == NULL || *str == '\0') return -EINVAL; /* we need to ignore negative numbers, note that for invalid negative * number strtoimax() returns negative number too, so we do not * need to check errno here */ tmp = (int64_t) strtoimax(str, &end, base); if (tmp < 0) errno = ERANGE; else { errno = 0; *num = strtoumax(str, &end, base); } if (errno || str == end || (end && *end)) return -EINVAL; return 0; } int ul_strtos32(const char *str, int32_t *num, int base) { int64_t tmp; int rc; rc = ul_strtos64(str, &tmp, base); if (rc == 0 && (tmp < INT32_MIN || tmp > INT32_MAX)) rc = -(errno = ERANGE); if (rc == 0) *num = (int32_t) tmp; return rc; } int ul_strtou32(const char *str, uint32_t *num, int base) { uint64_t tmp; int rc; rc = ul_strtou64(str, &tmp, base); if (rc == 0 && tmp > UINT32_MAX) rc = -(errno = ERANGE); if (rc == 0) *num = (uint32_t) tmp; return rc; } /* * Convert strings to numbers in defined range and print message on error. * * These functions are used when we read input from users (getopt() etc.). It's * better to consolidate the code and keep it all based on 64-bit numbers then * implement it for 32 and 16-bit numbers too. */ int64_t str2num_or_err(const char *str, int base, const char *errmesg, int64_t low, int64_t up) { int64_t num = 0; int rc; rc = ul_strtos64(str, &num, base); if (rc == 0 && ((low && num < low) || (up && num > up))) rc = -(errno = ERANGE); if (rc) { if (errno == ERANGE) err(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); } return num; } uint64_t str2unum_or_err(const char *str, int base, const char *errmesg, uint64_t up) { uint64_t num = 0; int rc; rc = ul_strtou64(str, &num, base); if (rc == 0 && (up && num > up)) rc = -(errno = ERANGE); if (rc) { if (errno == ERANGE) err(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); } return num; } double strtod_or_err(const char *str, const char *errmesg) { double num; char *end = NULL; errno = 0; if (str == NULL || *str == '\0') goto err; num = strtod(str, &end); if (errno || str == end || (end && *end)) goto err; return num; err: if (errno == ERANGE) err(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); } long double strtold_or_err(const char *str, const char *errmesg) { double num; char *end = NULL; errno = 0; if (str == NULL || *str == '\0') goto err; num = strtold(str, &end); if (errno || str == end || (end && *end)) goto err; return num; err: if (errno == ERANGE) err(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); } long strtol_or_err(const char *str, const char *errmesg) { long num; char *end = NULL; errno = 0; if (str == NULL || *str == '\0') goto err; num = strtol(str, &end, 10); if (errno || str == end || (end && *end)) goto err; return num; err: if (errno == ERANGE) err(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); } unsigned long strtoul_or_err(const char *str, const char *errmesg) { unsigned long num; char *end = NULL; errno = 0; if (str == NULL || *str == '\0') goto err; num = strtoul(str, &end, 10); if (errno || str == end || (end && *end)) goto err; return num; err: if (errno == ERANGE) err(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); } uintmax_t strtosize_or_err(const char *str, const char *errmesg) { uintmax_t num; if (strtosize(str, &num) == 0) return num; if (errno) err(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); errx(STRTOXX_EXIT_CODE, "%s: '%s'", errmesg, str); } void strtotimeval_or_err(const char *str, struct timeval *tv, const char *errmesg) { long double user_input; user_input = strtold_or_err(str, errmesg); tv->tv_sec = (time_t) user_input; tv->tv_usec = (suseconds_t)((user_input - tv->tv_sec) * 1000000); } time_t strtotime_or_err(const char *str, const char *errmesg) { int64_t user_input; user_input = strtos64_or_err(str, errmesg); return (time_t) user_input; } /* * Converts stat->st_mode to ls(1)-like mode string. The size of "str" must * be 11 bytes. */ char *xstrmode(mode_t mode, char *str) { unsigned short i = 0; if (S_ISDIR(mode)) str[i++] = 'd'; else if (S_ISLNK(mode)) str[i++] = 'l'; else if (S_ISCHR(mode)) str[i++] = 'c'; else if (S_ISBLK(mode)) str[i++] = 'b'; else if (S_ISSOCK(mode)) str[i++] = 's'; else if (S_ISFIFO(mode)) str[i++] = 'p'; else if (S_ISREG(mode)) str[i++] = '-'; str[i++] = mode & S_IRUSR ? 'r' : '-'; str[i++] = mode & S_IWUSR ? 'w' : '-'; str[i++] = (mode & S_ISUID ? (mode & S_IXUSR ? 's' : 'S') : (mode & S_IXUSR ? 'x' : '-')); str[i++] = mode & S_IRGRP ? 'r' : '-'; str[i++] = mode & S_IWGRP ? 'w' : '-'; str[i++] = (mode & S_ISGID ? (mode & S_IXGRP ? 's' : 'S') : (mode & S_IXGRP ? 'x' : '-')); str[i++] = mode & S_IROTH ? 'r' : '-'; str[i++] = mode & S_IWOTH ? 'w' : '-'; str[i++] = (mode & S_ISVTX ? (mode & S_IXOTH ? 't' : 'T') : (mode & S_IXOTH ? 'x' : '-')); str[i] = '\0'; return str; } /* * returns exponent (2^x=n) in range KiB..EiB (2^10..2^60) */ static int get_exp(uint64_t n) { int shft; for (shft = 10; shft <= 60; shft += 10) { if (n < (1ULL << shft)) break; } return shft - 10; } char *size_to_human_string(int options, uint64_t bytes) { char buf[32]; int dec, exp; uint64_t frac; const char *letters = "BKMGTPE"; char suffix[sizeof(" KiB")], *psuf = suffix; char c; if (options & SIZE_SUFFIX_SPACE) *psuf++ = ' '; exp = get_exp(bytes); c = *(letters + (exp ? exp / 10 : 0)); dec = exp ? bytes / (1ULL << exp) : bytes; frac = exp ? bytes % (1ULL << exp) : 0; *psuf++ = c; if ((options & SIZE_SUFFIX_3LETTER) && (c != 'B')) { *psuf++ = 'i'; *psuf++ = 'B'; } *psuf = '\0'; /* fprintf(stderr, "exp: %d, unit: %c, dec: %d, frac: %jd\n", * exp, suffix[0], dec, frac); */ /* round */ if (frac) { /* get 3 digits after decimal point */ if (frac >= UINT64_MAX / 1000) frac = ((frac / 1024) * 1000) / (1ULL << (exp - 10)) ; else frac = (frac * 1000) / (1ULL << (exp)) ; if (options & SIZE_DECIMAL_2DIGITS) { /* round 4/5 and keep 2 digits after decimal point */ frac = (frac + 5) / 10 ; } else { /* round 4/5 and keep 1 digit after decimal point */ frac = ((frac + 50) / 100) * 10 ; } /* rounding could have overflowed */ if (frac == 100) { dec++; frac = 0; } } if (frac) { struct lconv const *l = localeconv(); char *dp = l ? l->decimal_point : NULL; int len; if (!dp || !*dp) dp = "."; len = snprintf(buf, sizeof(buf), "%d%s%02" PRIu64, dec, dp, frac); if (len > 0 && (size_t) len < sizeof(buf)) { /* remove potential extraneous zero */ if (buf[len - 1] == '0') buf[len--] = '\0'; /* append suffix */ xstrncpy(buf+len, suffix, sizeof(buf) - len); } else *buf = '\0'; /* snprintf error */ } else snprintf(buf, sizeof(buf), "%d%s", dec, suffix); return strdup(buf); } /* * Parses comma delimited list to array with IDs, for example: * * "aaa,bbb,ccc" --> ary[0] = FOO_AAA; * ary[1] = FOO_BBB; * ary[3] = FOO_CCC; * * The function name2id() provides conversion from string to ID. * * Returns: >= 0 : number of items added to ary[] * -1 : parse error or unknown item * -2 : arysz reached */ int string_to_idarray(const char *list, int ary[], size_t arysz, int (name2id)(const char *, size_t)) { const char *begin = NULL, *p; size_t n = 0; if (!list || !*list || !ary || !arysz || !name2id) return -1; for (p = list; p && *p; p++) { const char *end = NULL; int id; if (n >= arysz) return -2; if (!begin) begin = p; /* begin of the column name */ if (*p == ',') end = p; /* terminate the name */ if (*(p + 1) == '\0') end = p + 1; /* end of string */ if (!begin || !end) continue; if (end <= begin) return -1; id = name2id(begin, end - begin); if (id == -1) return -1; ary[ n++ ] = id; begin = NULL; if (end && !*end) break; } return n; } /* * Parses the array like string_to_idarray but if format is "+aaa,bbb" * it adds fields to array instead of replacing them. */ int string_add_to_idarray(const char *list, int ary[], size_t arysz, size_t *ary_pos, int (name2id)(const char *, size_t)) { const char *list_add; int r; if (!list || !*list || !ary_pos || *ary_pos > arysz) return -1; if (list[0] == '+') list_add = &list[1]; else { list_add = list; *ary_pos = 0; } r = string_to_idarray(list_add, &ary[*ary_pos], arysz - *ary_pos, name2id); if (r > 0) *ary_pos += r; return r; } /* * LIST ::= [, ] * * The is translated to 'id' by name2id() function and the 'id' is used * as a position in the 'ary' bit array. It means that the 'id' has to be in * range <0..N> where N < sizeof(ary) * NBBY. * * Returns: 0 on success, <0 on error. */ int string_to_bitarray(const char *list, char *ary, int (*name2bit)(const char *, size_t)) { const char *begin = NULL, *p; if (!list || !name2bit || !ary) return -EINVAL; for (p = list; p && *p; p++) { const char *end = NULL; int bit; if (!begin) begin = p; /* begin of the level name */ if (*p == ',') end = p; /* terminate the name */ if (*(p + 1) == '\0') end = p + 1; /* end of string */ if (!begin || !end) continue; if (end <= begin) return -1; bit = name2bit(begin, end - begin); if (bit < 0) return bit; setbit(ary, bit); begin = NULL; if (end && !*end) break; } return 0; } /* * LIST ::= [, ] * * The is translated to 'id' by name2flag() function and the flags is * set to the 'mask' * * Returns: 0 on success, <0 on error. */ int string_to_bitmask(const char *list, unsigned long *mask, long (*name2flag)(const char *, size_t)) { const char *begin = NULL, *p; if (!list || !name2flag || !mask) return -EINVAL; for (p = list; p && *p; p++) { const char *end = NULL; long flag; if (!begin) begin = p; /* begin of the level name */ if (*p == ',') end = p; /* terminate the name */ if (*(p + 1) == '\0') end = p + 1; /* end of string */ if (!begin || !end) continue; if (end <= begin) return -1; flag = name2flag(begin, end - begin); if (flag < 0) return flag; /* error */ *mask |= flag; begin = NULL; if (end && !*end) break; } return 0; } /* * Parse the lower and higher values in a string containing * "lower:higher" or "lower-higher" format. Note that either * the lower or the higher values may be missing, and the def * value will be assigned to it by default. * * Returns: 0 on success, <0 on error. */ int parse_range(const char *str, int *lower, int *upper, int def) { char *end = NULL; if (!str) return 0; *upper = *lower = def; errno = 0; if (*str == ':') { /* <:N> */ str++; *upper = strtol(str, &end, 10); if (errno || !end || *end || end == str) return -1; } else { *upper = *lower = strtol(str, &end, 10); if (errno || !end || end == str) return -1; if (*end == ':' && !*(end + 1)) /* */ *upper = def; else if (*end == '-' || *end == ':') { /* */ str = end + 1; end = NULL; errno = 0; *upper = strtol(str, &end, 10); if (errno || !end || *end || end == str) return -1; } } return 0; } static const char *next_path_segment(const char *str, size_t *sz) { const char *start, *p; start = str; *sz = 0; while (start && *start == '/' && *(start + 1) == '/') start++; if (!start || !*start) return NULL; for (*sz = 1, p = start + 1; *p && *p != '/'; p++) { (*sz)++; } return start; } int streq_paths(const char *a, const char *b) { while (a && b) { size_t a_sz, b_sz; const char *a_seg = next_path_segment(a, &a_sz); const char *b_seg = next_path_segment(b, &b_sz); /* fprintf(stderr, "A>>>(%zu) '%s'\n", a_sz, a_seg); fprintf(stderr, "B>>>(%zu) '%s'\n", b_sz, b_seg); */ /* end of the path */ if (a_sz + b_sz == 0) return 1; /* ignore tailing slash */ if (a_sz + b_sz == 1 && ((a_seg && *a_seg == '/') || (b_seg && *b_seg == '/'))) return 1; if (!a_seg || !b_seg) break; if (a_sz != b_sz || strncmp(a_seg, b_seg, a_sz) != 0) break; a = a_seg + a_sz; b = b_seg + b_sz; }; return 0; } /* concatenate two strings to a new string, the size of the second string is limited by @b */ char *strnconcat(const char *s, const char *suffix, size_t b) { size_t a; char *r; if (!s && !suffix) return strdup(""); if (!s) return strndup(suffix, b); if (!suffix) return strdup(s); assert(s); assert(suffix); a = strlen(s); if (b > ((size_t) -1) - a) return NULL; r = malloc(a + b + 1); if (!r) return NULL; memcpy(r, s, a); memcpy(r + a, suffix, b); r[a+b] = 0; return r; } /* concatenate two strings to a new string */ char *strconcat(const char *s, const char *suffix) { return strnconcat(s, suffix, suffix ? strlen(suffix) : 0); } /* concatenate @s and string defined by @format to a new string */ char *strfconcat(const char *s, const char *format, ...) { va_list ap; char *val, *res; int sz; va_start(ap, format); sz = vasprintf(&val, format, ap); va_end(ap); if (sz < 0) return NULL; res = strnconcat(s, val, sz); free(val); return res; } int strappend(char **a, const char *b) { size_t al, bl; char *tmp; if (!a) return -EINVAL; if (!b || !*b) return 0; if (!*a) { *a = strdup(b); return !*a ? -ENOMEM : 0; } al = strlen(*a); bl = strlen(b); tmp = realloc(*a, al + bl + 1); if (!tmp) return -ENOMEM; *a = tmp; memcpy((*a) + al, b, bl + 1); return 0; } static size_t strcspn_escaped(const char *s, const char *reject) { int escaped = 0; int n; for (n=0; s[n]; n++) { if (escaped) escaped = 0; else if (s[n] == '\\') escaped = 1; else if (strchr(reject, s[n])) break; } /* if s ends in \, return index of previous char */ return n - escaped; } /* * Like strchr() but ignores @c if escaped by '\', '\\' is interpreted like '\'. * * For example for @c='X': * * "abcdXefgXh" --> "XefgXh" * "abcd\XefgXh" --> "Xh" * "abcd\\XefgXh" --> "XefgXh" * "abcd\\\XefgXh" --> "Xh" * "abcd\Xefg\Xh" --> (null) * * "abcd\\XefgXh" --> "\XefgXh" for @c='\\' */ char *ul_strchr_escaped(const char *s, int c) { char *p; int esc = 0; for (p = (char *) s; p && *p; p++) { if (!esc && *p == '\\') { esc = 1; continue; } if (*p == c && (!esc || c == '\\')) return p; esc = 0; } return NULL; } /* Split a string into words. */ const char *split(const char **state, size_t *l, const char *separator, int quoted) { const char *current; current = *state; if (!*current) { assert(**state == '\0'); return NULL; } current += strspn(current, separator); if (!*current) { *state = current; return NULL; } if (quoted && strchr("\'\"", *current)) { char quotechars[2] = {*current, '\0'}; *l = strcspn_escaped(current + 1, quotechars); if (current[*l + 1] == '\0' || current[*l + 1] != quotechars[0] || (current[*l + 2] && !strchr(separator, current[*l + 2]))) { /* right quote missing or garbage at the end */ *state = current; return NULL; } *state = current++ + *l + 2; } else if (quoted) { *l = strcspn_escaped(current, separator); if (current[*l] && !strchr(separator, current[*l])) { /* unfinished escape */ *state = current; return NULL; } *state = current + *l; } else { *l = strcspn(current, separator); *state = current + *l; } return current; } /* Rewind file pointer forward to new line. */ int skip_fline(FILE *fp) { int ch; do { if ((ch = fgetc(fp)) == EOF) return 1; if (ch == '\n') return 0; } while (1); } /* compare two strings, but ignoring non-alnum and case of the characters, for example * "Hello (123)!" is the same as "hello123". */ int ul_stralnumcmp(const char *p1, const char *p2) { const unsigned char *s1 = (const unsigned char *) p1; const unsigned char *s2 = (const unsigned char *) p2; unsigned char c1, c2; do { do { c1 = (unsigned char) *s1++; } while (c1 != '\0' && !isalnum((unsigned int) c1)); do { c2 = (unsigned char) *s2++; } while (c2 != '\0' && !isalnum((unsigned int) c2)); if (c1 != '\0') c1 = tolower(c1); if (c2 != '\0') c2 = tolower(c2); if (c1 == '\0') return c1 - c2; } while (c1 == c2); return c1 - c2; } #ifdef TEST_PROGRAM_STRUTILS struct testS { char *name; char *value; }; static int test_strdup_to_member(int argc, char *argv[]) { struct testS *xx; if (argc < 3) return EXIT_FAILURE; xx = calloc(1, sizeof(*xx)); if (!xx) err(EXIT_FAILURE, "calloc() failed"); strdup_to_struct_member(xx, name, argv[1]); strdup_to_struct_member(xx, value, argv[2]); if (strcmp(xx->name, argv[1]) != 0 && strcmp(xx->value, argv[2]) != 0) errx(EXIT_FAILURE, "strdup_to_struct_member() failed"); printf("1: '%s', 2: '%s'\n", xx->name, xx->value); free(xx->name); free(xx->value); free(xx); return EXIT_SUCCESS; } static int test_strutils_sizes(int argc, char *argv[]) { uintmax_t size = 0; char *hum1, *hum2, *hum3; if (argc < 2) return EXIT_FAILURE; if (strtosize(argv[1], &size)) errx(EXIT_FAILURE, "invalid size '%s' value", argv[1]); hum1 = size_to_human_string(SIZE_SUFFIX_1LETTER, size); hum2 = size_to_human_string(SIZE_SUFFIX_3LETTER | SIZE_SUFFIX_SPACE, size); hum3 = size_to_human_string(SIZE_SUFFIX_3LETTER | SIZE_SUFFIX_SPACE | SIZE_DECIMAL_2DIGITS, size); printf("%25s : %20ju : %8s : %12s : %13s\n", argv[1], size, hum1, hum2, hum3); free(hum1); free(hum2); free(hum3); return EXIT_SUCCESS; } static int test_strutils_cmp_paths(int argc, char *argv[]) { int rc = streq_paths(argv[1], argv[2]); if (argc < 3) return EXIT_FAILURE; printf("%s: '%s' '%s'\n", rc == 1 ? "YES" : "NOT", argv[1], argv[2]); return EXIT_SUCCESS; } static int test_strutils_normalize(int argc, char *argv[]) { unsigned char *src, *dst, *org; size_t sz, len; if (argc < 2) return EXIT_FAILURE; org = (unsigned char *) strdup(argv[1]); src = (unsigned char *) strdup((char *) org); len = strlen((char *) src); dst = malloc(len + 1); if (!org || !src || !dst) goto done; /* two buffers */ sz = __normalize_whitespace(src, len, dst, len + 1); printf("1: '%s' --> '%s' [sz=%zu]\n", src, dst, sz); /* one buffer */ sz = normalize_whitespace(src); printf("2: '%s' --> '%s' [sz=%zu]\n", org, src, sz); done: free(src); free(dst); free(org); return EXIT_SUCCESS; } int main(int argc, char *argv[]) { if (argc == 3 && strcmp(argv[1], "--size") == 0) { return test_strutils_sizes(argc - 1, argv + 1); } else if (argc == 4 && strcmp(argv[1], "--cmp-paths") == 0) { return test_strutils_cmp_paths(argc - 1, argv + 1); } else if (argc == 4 && strcmp(argv[1], "--strdup-member") == 0) { return test_strdup_to_member(argc - 1, argv + 1); } else if (argc == 4 && strcmp(argv[1], "--stralnumcmp") == 0) { printf("%s\n", ul_stralnumcmp(argv[2], argv[3]) == 0 ? "match" : "dismatch"); return EXIT_SUCCESS; } else if (argc == 3 && strcmp(argv[1], "--normalize") == 0) { return test_strutils_normalize(argc - 1, argv + 1); } else if (argc == 3 && strcmp(argv[1], "--strtos64") == 0) { printf("'%s'-->%jd\n", argv[2], strtos64_or_err(argv[2], "strtos64 failed")); return EXIT_SUCCESS; } else if (argc == 3 && strcmp(argv[1], "--strtou64") == 0) { printf("'%s'-->%ju\n", argv[2], strtou64_or_err(argv[2], "strtou64 failed")); return EXIT_SUCCESS; } else if (argc == 3 && strcmp(argv[1], "--strtos32") == 0) { printf("'%s'-->%d\n", argv[2], strtos32_or_err(argv[2], "strtos32 failed")); return EXIT_SUCCESS; } else if (argc == 3 && strcmp(argv[1], "--strtou32") == 0) { printf("'%s'-->%u\n", argv[2], strtou32_or_err(argv[2], "strtou32 failed")); return EXIT_SUCCESS; } else if (argc == 3 && strcmp(argv[1], "--strtos16") == 0) { printf("'%s'-->%hd\n", argv[2], strtos16_or_err(argv[2], "strtos16 failed")); return EXIT_SUCCESS; } else if (argc == 3 && strcmp(argv[1], "--strtou16") == 0) { printf("'%s'-->%hu\n", argv[2], strtou16_or_err(argv[2], "strtou16 failed")); return EXIT_SUCCESS; } else if (argc == 4 && strcmp(argv[1], "--strchr-escaped") == 0) { printf("\"%s\" --> \"%s\"\n", argv[2], ul_strchr_escaped(argv[2], *argv[3])); return EXIT_SUCCESS; } else { fprintf(stderr, "usage: %1$s --size [suffix]\n" " %1$s --cmp-paths \n" " %1$s --strdup-member \n" " %1$s --stralnumcmp \n" " %1$s --normalize \n" " %1$s --strto{s,u}{16,32,64} \n", argv[0]); exit(EXIT_FAILURE); } return EXIT_FAILURE; } #endif /* TEST_PROGRAM_STRUTILS */