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|
/* SPDX-License-Identifier: LGPL-2.1+ */
#include <errno.h>
#include <stdarg.h>
#include <stdint.h>
#include <stdio.h>
#include <stdio_ext.h>
#include <stdlib.h>
#include <string.h>
#include "alloc-util.h"
#include "escape.h"
#include "gunicode.h"
#include "locale-util.h"
#include "macro.h"
#include "string-util.h"
#include "terminal-util.h"
#include "utf8.h"
#include "util.h"
#include "fileio.h"
int strcmp_ptr(const char *a, const char *b) {
/* Like strcmp(), but tries to make sense of NULL pointers */
if (a && b)
return strcmp(a, b);
if (!a && b)
return -1;
if (a && !b)
return 1;
return 0;
}
char* endswith(const char *s, const char *postfix) {
size_t sl, pl;
assert(s);
assert(postfix);
sl = strlen(s);
pl = strlen(postfix);
if (pl == 0)
return (char*) s + sl;
if (sl < pl)
return NULL;
if (memcmp(s + sl - pl, postfix, pl) != 0)
return NULL;
return (char*) s + sl - pl;
}
char* endswith_no_case(const char *s, const char *postfix) {
size_t sl, pl;
assert(s);
assert(postfix);
sl = strlen(s);
pl = strlen(postfix);
if (pl == 0)
return (char*) s + sl;
if (sl < pl)
return NULL;
if (strcasecmp(s + sl - pl, postfix) != 0)
return NULL;
return (char*) s + sl - pl;
}
char* first_word(const char *s, const char *word) {
size_t sl, wl;
const char *p;
assert(s);
assert(word);
/* Checks if the string starts with the specified word, either
* followed by NUL or by whitespace. Returns a pointer to the
* NUL or the first character after the whitespace. */
sl = strlen(s);
wl = strlen(word);
if (sl < wl)
return NULL;
if (wl == 0)
return (char*) s;
if (memcmp(s, word, wl) != 0)
return NULL;
p = s + wl;
if (*p == 0)
return (char*) p;
if (!strchr(WHITESPACE, *p))
return NULL;
p += strspn(p, WHITESPACE);
return (char*) p;
}
static size_t strcspn_escaped(const char *s, const char *reject) {
bool escaped = false;
int n;
for (n=0; s[n]; n++) {
if (escaped)
escaped = false;
else if (s[n] == '\\')
escaped = true;
else if (strchr(reject, s[n]))
break;
}
/* if s ends in \, return index of previous char */
return n - escaped;
}
/* Split a string into words. */
const char* split(const char **state, size_t *l, const char *separator, bool 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;
}
char *strnappend(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 = new(char, a+b+1);
if (!r)
return NULL;
memcpy(r, s, a);
memcpy(r+a, suffix, b);
r[a+b] = 0;
return r;
}
char *strappend(const char *s, const char *suffix) {
return strnappend(s, suffix, strlen_ptr(suffix));
}
char *strjoin_real(const char *x, ...) {
va_list ap;
size_t l;
char *r, *p;
va_start(ap, x);
if (x) {
l = strlen(x);
for (;;) {
const char *t;
size_t n;
t = va_arg(ap, const char *);
if (!t)
break;
n = strlen(t);
if (n > ((size_t) -1) - l) {
va_end(ap);
return NULL;
}
l += n;
}
} else
l = 0;
va_end(ap);
r = new(char, l+1);
if (!r)
return NULL;
if (x) {
p = stpcpy(r, x);
va_start(ap, x);
for (;;) {
const char *t;
t = va_arg(ap, const char *);
if (!t)
break;
p = stpcpy(p, t);
}
va_end(ap);
} else
r[0] = 0;
return r;
}
char *strstrip(char *s) {
if (!s)
return NULL;
/* Drops trailing whitespace. Modifies the string in place. Returns pointer to first non-space character */
return delete_trailing_chars(skip_leading_chars(s, WHITESPACE), WHITESPACE);
}
char *delete_chars(char *s, const char *bad) {
char *f, *t;
/* Drops all specified bad characters, regardless where in the string */
if (!s)
return NULL;
if (!bad)
bad = WHITESPACE;
for (f = s, t = s; *f; f++) {
if (strchr(bad, *f))
continue;
*(t++) = *f;
}
*t = 0;
return s;
}
char *delete_trailing_chars(char *s, const char *bad) {
char *p, *c = s;
/* Drops all specified bad characters, at the end of the string */
if (!s)
return NULL;
if (!bad)
bad = WHITESPACE;
for (p = s; *p; p++)
if (!strchr(bad, *p))
c = p + 1;
*c = 0;
return s;
}
char *truncate_nl(char *s) {
assert(s);
s[strcspn(s, NEWLINE)] = 0;
return s;
}
char ascii_tolower(char x) {
if (x >= 'A' && x <= 'Z')
return x - 'A' + 'a';
return x;
}
char ascii_toupper(char x) {
if (x >= 'a' && x <= 'z')
return x - 'a' + 'A';
return x;
}
char *ascii_strlower(char *t) {
char *p;
assert(t);
for (p = t; *p; p++)
*p = ascii_tolower(*p);
return t;
}
char *ascii_strupper(char *t) {
char *p;
assert(t);
for (p = t; *p; p++)
*p = ascii_toupper(*p);
return t;
}
char *ascii_strlower_n(char *t, size_t n) {
size_t i;
if (n <= 0)
return t;
for (i = 0; i < n; i++)
t[i] = ascii_tolower(t[i]);
return t;
}
int ascii_strcasecmp_n(const char *a, const char *b, size_t n) {
for (; n > 0; a++, b++, n--) {
int x, y;
x = (int) (uint8_t) ascii_tolower(*a);
y = (int) (uint8_t) ascii_tolower(*b);
if (x != y)
return x - y;
}
return 0;
}
int ascii_strcasecmp_nn(const char *a, size_t n, const char *b, size_t m) {
int r;
r = ascii_strcasecmp_n(a, b, MIN(n, m));
if (r != 0)
return r;
if (n < m)
return -1;
else if (n > m)
return 1;
else
return 0;
}
bool chars_intersect(const char *a, const char *b) {
const char *p;
/* Returns true if any of the chars in a are in b. */
for (p = a; *p; p++)
if (strchr(b, *p))
return true;
return false;
}
bool string_has_cc(const char *p, const char *ok) {
const char *t;
assert(p);
/*
* Check if a string contains control characters. If 'ok' is
* non-NULL it may be a string containing additional CCs to be
* considered OK.
*/
for (t = p; *t; t++) {
if (ok && strchr(ok, *t))
continue;
if (*t > 0 && *t < ' ')
return true;
if (*t == 127)
return true;
}
return false;
}
static int write_ellipsis(char *buf, bool unicode) {
if (unicode || is_locale_utf8()) {
buf[0] = 0xe2; /* tri-dot ellipsis: … */
buf[1] = 0x80;
buf[2] = 0xa6;
} else {
buf[0] = '.';
buf[1] = '.';
buf[2] = '.';
}
return 3;
}
static char *ascii_ellipsize_mem(const char *s, size_t old_length, size_t new_length, unsigned percent) {
size_t x, need_space, suffix_len;
char *t;
assert(s);
assert(percent <= 100);
assert(new_length != (size_t) -1);
if (old_length <= new_length)
return strndup(s, old_length);
/* Special case short ellipsations */
switch (new_length) {
case 0:
return strdup("");
case 1:
if (is_locale_utf8())
return strdup("…");
else
return strdup(".");
case 2:
if (!is_locale_utf8())
return strdup("..");
break;
default:
break;
}
/* Calculate how much space the ellipsis will take up. If we are in UTF-8 mode we only need space for one
* character ("…"), otherwise for three characters ("..."). Note that in both cases we need 3 bytes of storage,
* either for the UTF-8 encoded character or for three ASCII characters. */
need_space = is_locale_utf8() ? 1 : 3;
t = new(char, new_length+3);
if (!t)
return NULL;
assert(new_length >= need_space);
x = ((new_length - need_space) * percent + 50) / 100;
assert(x <= new_length - need_space);
memcpy(t, s, x);
write_ellipsis(t + x, false);
suffix_len = new_length - x - need_space;
memcpy(t + x + 3, s + old_length - suffix_len, suffix_len);
*(t + x + 3 + suffix_len) = '\0';
return t;
}
char *ellipsize_mem(const char *s, size_t old_length, size_t new_length, unsigned percent) {
size_t x, k, len, len2;
const char *i, *j;
char *e;
int r;
/* Note that 'old_length' refers to bytes in the string, while 'new_length' refers to character cells taken up
* on screen. This distinction doesn't matter for ASCII strings, but it does matter for non-ASCII UTF-8
* strings.
*
* Ellipsation is done in a locale-dependent way:
* 1. If the string passed in is fully ASCII and the current locale is not UTF-8, three dots are used ("...")
* 2. Otherwise, a unicode ellipsis is used ("…")
*
* In other words: you'll get a unicode ellipsis as soon as either the string contains non-ASCII characters or
* the current locale is UTF-8.
*/
assert(s);
assert(percent <= 100);
if (new_length == (size_t) -1)
return strndup(s, old_length);
if (new_length == 0)
return strdup("");
/* If no multibyte characters use ascii_ellipsize_mem for speed */
if (ascii_is_valid_n(s, old_length))
return ascii_ellipsize_mem(s, old_length, new_length, percent);
x = ((new_length - 1) * percent) / 100;
assert(x <= new_length - 1);
k = 0;
for (i = s; i < s + old_length; i = utf8_next_char(i)) {
char32_t c;
int w;
r = utf8_encoded_to_unichar(i, &c);
if (r < 0)
return NULL;
w = unichar_iswide(c) ? 2 : 1;
if (k + w <= x)
k += w;
else
break;
}
for (j = s + old_length; j > i; ) {
char32_t c;
int w;
const char *jj;
jj = utf8_prev_char(j);
r = utf8_encoded_to_unichar(jj, &c);
if (r < 0)
return NULL;
w = unichar_iswide(c) ? 2 : 1;
if (k + w <= new_length) {
k += w;
j = jj;
} else
break;
}
assert(i <= j);
/* we don't actually need to ellipsize */
if (i == j)
return memdup_suffix0(s, old_length);
/* make space for ellipsis, if possible */
if (j < s + old_length)
j = utf8_next_char(j);
else if (i > s)
i = utf8_prev_char(i);
len = i - s;
len2 = s + old_length - j;
e = new(char, len + 3 + len2 + 1);
if (!e)
return NULL;
/*
printf("old_length=%zu new_length=%zu x=%zu len=%u len2=%u k=%u\n",
old_length, new_length, x, len, len2, k);
*/
memcpy(e, s, len);
write_ellipsis(e + len, true);
memcpy(e + len + 3, j, len2);
*(e + len + 3 + len2) = '\0';
return e;
}
char *cellescape(char *buf, size_t len, const char *s) {
/* Escape and ellipsize s into buffer buf of size len. Only non-control ASCII
* characters are copied as they are, everything else is escaped. The result
* is different then if escaping and ellipsization was performed in two
* separate steps, because each sequence is either stored in full or skipped.
*
* This function should be used for logging about strings which expected to
* be plain ASCII in a safe way.
*
* An ellipsis will be used if s is too long. It was always placed at the
* very end.
*/
size_t i = 0, last_char_width[4] = {}, k = 0, j;
assert(len > 0); /* at least a terminating NUL */
for (;;) {
char four[4];
int w;
if (*s == 0) /* terminating NUL detected? then we are done! */
goto done;
w = cescape_char(*s, four);
if (i + w + 1 > len) /* This character doesn't fit into the buffer anymore? In that case let's
* ellipsize at the previous location */
break;
/* OK, there was space, let's add this escaped character to the buffer */
memcpy(buf + i, four, w);
i += w;
/* And remember its width in the ring buffer */
last_char_width[k] = w;
k = (k + 1) % 4;
s++;
}
/* Ellipsation is necessary. This means we might need to truncate the string again to make space for 4
* characters ideally, but the buffer is shorter than that in the first place take what we can get */
for (j = 0; j < ELEMENTSOF(last_char_width); j++) {
if (i + 4 <= len) /* nice, we reached our space goal */
break;
k = k == 0 ? 3 : k - 1;
if (last_char_width[k] == 0) /* bummer, we reached the beginning of the strings */
break;
assert(i >= last_char_width[k]);
i -= last_char_width[k];
}
if (i + 4 <= len) /* yay, enough space */
i += write_ellipsis(buf + i, false);
else if (i + 3 <= len) { /* only space for ".." */
buf[i++] = '.';
buf[i++] = '.';
} else if (i + 2 <= len) /* only space for a single "." */
buf[i++] = '.';
else
assert(i + 1 <= len);
done:
buf[i] = '\0';
return buf;
}
bool nulstr_contains(const char *nulstr, const char *needle) {
const char *i;
if (!nulstr)
return false;
NULSTR_FOREACH(i, nulstr)
if (streq(i, needle))
return true;
return false;
}
char* strshorten(char *s, size_t l) {
assert(s);
if (strnlen(s, l+1) > l)
s[l] = 0;
return s;
}
char *strreplace(const char *text, const char *old_string, const char *new_string) {
size_t l, old_len, new_len, allocated = 0;
char *t, *ret = NULL;
const char *f;
assert(old_string);
assert(new_string);
if (!text)
return NULL;
old_len = strlen(old_string);
new_len = strlen(new_string);
l = strlen(text);
if (!GREEDY_REALLOC(ret, allocated, l+1))
return NULL;
f = text;
t = ret;
while (*f) {
size_t d, nl;
if (!startswith(f, old_string)) {
*(t++) = *(f++);
continue;
}
d = t - ret;
nl = l - old_len + new_len;
if (!GREEDY_REALLOC(ret, allocated, nl + 1))
return mfree(ret);
l = nl;
t = ret + d;
t = stpcpy(t, new_string);
f += old_len;
}
*t = 0;
return ret;
}
static void advance_offsets(ssize_t diff, size_t offsets[2], size_t shift[2], size_t size) {
if (!offsets)
return;
if ((size_t) diff < offsets[0])
shift[0] += size;
if ((size_t) diff < offsets[1])
shift[1] += size;
}
char *strip_tab_ansi(char **ibuf, size_t *_isz, size_t highlight[2]) {
const char *i, *begin = NULL;
enum {
STATE_OTHER,
STATE_ESCAPE,
STATE_CSI,
STATE_CSO,
} state = STATE_OTHER;
char *obuf = NULL;
size_t osz = 0, isz, shift[2] = {};
FILE *f;
assert(ibuf);
assert(*ibuf);
/* This does three things:
*
* 1. Replaces TABs by 8 spaces
* 2. Strips ANSI color sequences (a subset of CSI), i.e. ESC '[' … 'm' sequences
* 3. Strips ANSI operating system sequences (CSO), i.e. ESC ']' … BEL sequences
*
* Everything else will be left as it is. In particular other ANSI sequences are left as they are, as are any
* other special characters. Truncated ANSI sequences are left-as is too. This call is supposed to suppress the
* most basic formatting noise, but nothing else.
*
* Why care for CSO sequences? Well, to undo what terminal_urlify() and friends generate. */
isz = _isz ? *_isz : strlen(*ibuf);
f = open_memstream(&obuf, &osz);
if (!f)
return NULL;
/* Note we turn off internal locking on f for performance reasons. It's safe to do so since we created f here
* and it doesn't leave our scope. */
(void) __fsetlocking(f, FSETLOCKING_BYCALLER);
for (i = *ibuf; i < *ibuf + isz + 1; i++) {
switch (state) {
case STATE_OTHER:
if (i >= *ibuf + isz) /* EOT */
break;
else if (*i == '\x1B')
state = STATE_ESCAPE;
else if (*i == '\t') {
fputs(" ", f);
advance_offsets(i - *ibuf, highlight, shift, 7);
} else
fputc(*i, f);
break;
case STATE_ESCAPE:
if (i >= *ibuf + isz) { /* EOT */
fputc('\x1B', f);
advance_offsets(i - *ibuf, highlight, shift, 1);
break;
} else if (*i == '[') { /* ANSI CSI */
state = STATE_CSI;
begin = i + 1;
} else if (*i == ']') { /* ANSI CSO */
state = STATE_CSO;
begin = i + 1;
} else {
fputc('\x1B', f);
fputc(*i, f);
advance_offsets(i - *ibuf, highlight, shift, 1);
state = STATE_OTHER;
}
break;
case STATE_CSI:
if (i >= *ibuf + isz || /* EOT … */
!strchr("01234567890;m", *i)) { /* … or invalid chars in sequence */
fputc('\x1B', f);
fputc('[', f);
advance_offsets(i - *ibuf, highlight, shift, 2);
state = STATE_OTHER;
i = begin-1;
} else if (*i == 'm')
state = STATE_OTHER;
break;
case STATE_CSO:
if (i >= *ibuf + isz || /* EOT … */
(*i != '\a' && (uint8_t) *i < 32U) || (uint8_t) *i > 126U) { /* … or invalid chars in sequence */
fputc('\x1B', f);
fputc(']', f);
advance_offsets(i - *ibuf, highlight, shift, 2);
state = STATE_OTHER;
i = begin-1;
} else if (*i == '\a')
state = STATE_OTHER;
break;
}
}
if (fflush_and_check(f) < 0) {
fclose(f);
return mfree(obuf);
}
fclose(f);
free(*ibuf);
*ibuf = obuf;
if (_isz)
*_isz = osz;
if (highlight) {
highlight[0] += shift[0];
highlight[1] += shift[1];
}
return obuf;
}
char *strextend_with_separator(char **x, const char *separator, ...) {
bool need_separator;
size_t f, l, l_separator;
char *r, *p;
va_list ap;
assert(x);
l = f = strlen_ptr(*x);
need_separator = !isempty(*x);
l_separator = strlen_ptr(separator);
va_start(ap, separator);
for (;;) {
const char *t;
size_t n;
t = va_arg(ap, const char *);
if (!t)
break;
n = strlen(t);
if (need_separator)
n += l_separator;
if (n > ((size_t) -1) - l) {
va_end(ap);
return NULL;
}
l += n;
need_separator = true;
}
va_end(ap);
need_separator = !isempty(*x);
r = realloc(*x, l+1);
if (!r)
return NULL;
p = r + f;
va_start(ap, separator);
for (;;) {
const char *t;
t = va_arg(ap, const char *);
if (!t)
break;
if (need_separator && separator)
p = stpcpy(p, separator);
p = stpcpy(p, t);
need_separator = true;
}
va_end(ap);
assert(p == r + l);
*p = 0;
*x = r;
return r + l;
}
char *strrep(const char *s, unsigned n) {
size_t l;
char *r, *p;
unsigned i;
assert(s);
l = strlen(s);
p = r = malloc(l * n + 1);
if (!r)
return NULL;
for (i = 0; i < n; i++)
p = stpcpy(p, s);
*p = 0;
return r;
}
int split_pair(const char *s, const char *sep, char **l, char **r) {
char *x, *a, *b;
assert(s);
assert(sep);
assert(l);
assert(r);
if (isempty(sep))
return -EINVAL;
x = strstr(s, sep);
if (!x)
return -EINVAL;
a = strndup(s, x - s);
if (!a)
return -ENOMEM;
b = strdup(x + strlen(sep));
if (!b) {
free(a);
return -ENOMEM;
}
*l = a;
*r = b;
return 0;
}
int free_and_strdup(char **p, const char *s) {
char *t;
assert(p);
/* Replaces a string pointer with an strdup()ed new string,
* possibly freeing the old one. */
if (streq_ptr(*p, s))
return 0;
if (s) {
t = strdup(s);
if (!t)
return -ENOMEM;
} else
t = NULL;
free(*p);
*p = t;
return 1;
}
#if !HAVE_EXPLICIT_BZERO
/*
* Pointer to memset is volatile so that compiler must de-reference
* the pointer and can't assume that it points to any function in
* particular (such as memset, which it then might further "optimize")
* This approach is inspired by openssl's crypto/mem_clr.c.
*/
typedef void *(*memset_t)(void *,int,size_t);
static volatile memset_t memset_func = memset;
void explicit_bzero(void *p, size_t l) {
memset_func(p, '\0', l);
}
#endif
char* string_erase(char *x) {
if (!x)
return NULL;
/* A delicious drop of snake-oil! To be called on memory where
* we stored passphrases or so, after we used them. */
explicit_bzero(x, strlen(x));
return x;
}
char *string_free_erase(char *s) {
return mfree(string_erase(s));
}
bool string_is_safe(const char *p) {
const char *t;
if (!p)
return false;
for (t = p; *t; t++) {
if (*t > 0 && *t < ' ') /* no control characters */
return false;
if (strchr(QUOTES "\\\x7f", *t))
return false;
}
return true;
}
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