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|
/* $Id$ */
/*
* Copyright (c) 2008, 2009, 2010, 2011 Kristaps Dzonsons <kristaps@bsd.lv>
* Copyright (c) 2011, 2012 Ingo Schwarze <schwarze@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <sys/types.h>
#include <assert.h>
#include <ctype.h>
#include <errno.h>
#include <limits.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <time.h>
#include "mandoc.h"
#include "libmandoc.h"
#define DATESIZE 32
static int a2time(time_t *, const char *, const char *);
static char *time2a(time_t);
static int numescape(const char *);
/*
* Pass over recursive numerical expressions. This context of this
* function is important: it's only called within character-terminating
* escapes (e.g., \s[xxxyyy]), so all we need to do is handle initial
* recursion: we don't care about what's in these blocks.
* This returns the number of characters skipped or -1 if an error
* occurs (the caller should bail).
*/
static int
numescape(const char *start)
{
int i;
size_t sz;
const char *cp;
i = 0;
/* The expression consists of a subexpression. */
if ('\\' == start[i]) {
cp = &start[++i];
/*
* Read past the end of the subexpression.
* Bail immediately on errors.
*/
if (ESCAPE_ERROR == mandoc_escape(&cp, NULL, NULL))
return(-1);
return(i + cp - &start[i]);
}
if ('(' != start[i++])
return(0);
/*
* A parenthesised subexpression. Read until the closing
* parenthesis, making sure to handle any nested subexpressions
* that might ruin our parse.
*/
while (')' != start[i]) {
sz = strcspn(&start[i], ")\\");
i += (int)sz;
if ('\0' == start[i])
return(-1);
else if ('\\' != start[i])
continue;
cp = &start[++i];
if (ESCAPE_ERROR == mandoc_escape(&cp, NULL, NULL))
return(-1);
i += cp - &start[i];
}
/* Read past the terminating ')'. */
return(++i);
}
enum mandoc_esc
mandoc_escape(const char **end, const char **start, int *sz)
{
char c, term, numeric;
int i, lim, ssz, rlim;
const char *cp, *rstart;
enum mandoc_esc gly;
cp = *end;
rstart = cp;
if (start)
*start = rstart;
i = lim = 0;
gly = ESCAPE_ERROR;
term = numeric = '\0';
switch ((c = cp[i++])) {
/*
* First the glyphs. There are several different forms of
* these, but each eventually returns a substring of the glyph
* name.
*/
case ('('):
gly = ESCAPE_SPECIAL;
lim = 2;
break;
case ('['):
gly = ESCAPE_SPECIAL;
/*
* Unicode escapes are defined in groff as \[uXXXX] to
* \[u10FFFF], where the contained value must be a valid
* Unicode codepoint. Here, however, only check whether
* it's not a zero-width escape.
*/
if ('u' == cp[i] && ']' != cp[i + 1])
gly = ESCAPE_UNICODE;
term = ']';
break;
case ('C'):
if ('\'' != cp[i])
return(ESCAPE_ERROR);
gly = ESCAPE_SPECIAL;
term = '\'';
break;
/*
* The \z escape is supposed to output the following
* character without advancing the cursor position.
* Since we are mostly dealing with terminal mode,
* let us just skip the next character.
*/
case ('z'):
(*end)++;
return(ESCAPE_SKIPCHAR);
/*
* Handle all triggers matching \X(xy, \Xx, and \X[xxxx], where
* 'X' is the trigger. These have opaque sub-strings.
*/
case ('F'):
/* FALLTHROUGH */
case ('g'):
/* FALLTHROUGH */
case ('k'):
/* FALLTHROUGH */
case ('M'):
/* FALLTHROUGH */
case ('m'):
/* FALLTHROUGH */
case ('n'):
/* FALLTHROUGH */
case ('V'):
/* FALLTHROUGH */
case ('Y'):
gly = ESCAPE_IGNORE;
/* FALLTHROUGH */
case ('f'):
if (ESCAPE_ERROR == gly)
gly = ESCAPE_FONT;
rstart= &cp[i];
if (start)
*start = rstart;
switch (cp[i++]) {
case ('('):
lim = 2;
break;
case ('['):
term = ']';
break;
default:
lim = 1;
i--;
break;
}
break;
/*
* These escapes are of the form \X'Y', where 'X' is the trigger
* and 'Y' is any string. These have opaque sub-strings.
*/
case ('A'):
/* FALLTHROUGH */
case ('b'):
/* FALLTHROUGH */
case ('D'):
/* FALLTHROUGH */
case ('o'):
/* FALLTHROUGH */
case ('R'):
/* FALLTHROUGH */
case ('X'):
/* FALLTHROUGH */
case ('Z'):
if ('\'' != cp[i++])
return(ESCAPE_ERROR);
gly = ESCAPE_IGNORE;
term = '\'';
break;
/*
* These escapes are of the form \X'N', where 'X' is the trigger
* and 'N' resolves to a numerical expression.
*/
case ('B'):
/* FALLTHROUGH */
case ('h'):
/* FALLTHROUGH */
case ('H'):
/* FALLTHROUGH */
case ('L'):
/* FALLTHROUGH */
case ('l'):
gly = ESCAPE_NUMBERED;
/* FALLTHROUGH */
case ('S'):
/* FALLTHROUGH */
case ('v'):
/* FALLTHROUGH */
case ('w'):
/* FALLTHROUGH */
case ('x'):
if (ESCAPE_ERROR == gly)
gly = ESCAPE_IGNORE;
if ('\'' != cp[i++])
return(ESCAPE_ERROR);
term = numeric = '\'';
break;
/*
* Special handling for the numbered character escape.
* XXX Do any other escapes need similar handling?
*/
case ('N'):
if ('\0' == cp[i])
return(ESCAPE_ERROR);
*end = &cp[++i];
if (isdigit((unsigned char)cp[i-1]))
return(ESCAPE_IGNORE);
while (isdigit((unsigned char)**end))
(*end)++;
if (start)
*start = &cp[i];
if (sz)
*sz = *end - &cp[i];
if ('\0' != **end)
(*end)++;
return(ESCAPE_NUMBERED);
/*
* Sizes get a special category of their own.
*/
case ('s'):
gly = ESCAPE_IGNORE;
rstart = &cp[i];
if (start)
*start = rstart;
/* See +/- counts as a sign. */
c = cp[i];
if ('+' == c || '-' == c || ASCII_HYPH == c)
++i;
switch (cp[i++]) {
case ('('):
lim = 2;
break;
case ('['):
term = numeric = ']';
break;
case ('\''):
term = numeric = '\'';
break;
default:
lim = 1;
i--;
break;
}
/* See +/- counts as a sign. */
c = cp[i];
if ('+' == c || '-' == c || ASCII_HYPH == c)
++i;
break;
/*
* Anything else is assumed to be a glyph.
*/
default:
gly = ESCAPE_SPECIAL;
lim = 1;
i--;
break;
}
assert(ESCAPE_ERROR != gly);
rstart = &cp[i];
if (start)
*start = rstart;
/*
* If a terminating block has been specified, we need to
* handle the case of recursion, which could have their
* own terminating blocks that mess up our parse. This, by the
* way, means that the "start" and "size" values will be
* effectively meaningless.
*/
ssz = 0;
if (numeric && -1 == (ssz = numescape(&cp[i])))
return(ESCAPE_ERROR);
i += ssz;
rlim = -1;
/*
* We have a character terminator. Try to read up to that
* character. If we can't (i.e., we hit the nil), then return
* an error; if we can, calculate our length, read past the
* terminating character, and exit.
*/
if ('\0' != term) {
*end = strchr(&cp[i], term);
if ('\0' == *end)
return(ESCAPE_ERROR);
rlim = *end - &cp[i];
if (sz)
*sz = rlim;
(*end)++;
goto out;
}
assert(lim > 0);
/*
* We have a numeric limit. If the string is shorter than that,
* stop and return an error. Else adjust our endpoint, length,
* and return the current glyph.
*/
if ((size_t)lim > strlen(&cp[i]))
return(ESCAPE_ERROR);
rlim = lim;
if (sz)
*sz = rlim;
*end = &cp[i] + lim;
out:
assert(rlim >= 0 && rstart);
/* Run post-processors. */
switch (gly) {
case (ESCAPE_FONT):
/*
* Pretend that the constant-width font modes are the
* same as the regular font modes.
*/
if (2 == rlim && 'C' == *rstart)
rstart++;
else if (1 != rlim)
break;
switch (*rstart) {
case ('3'):
/* FALLTHROUGH */
case ('B'):
gly = ESCAPE_FONTBOLD;
break;
case ('2'):
/* FALLTHROUGH */
case ('I'):
gly = ESCAPE_FONTITALIC;
break;
case ('P'):
gly = ESCAPE_FONTPREV;
break;
case ('1'):
/* FALLTHROUGH */
case ('R'):
gly = ESCAPE_FONTROMAN;
break;
}
break;
case (ESCAPE_SPECIAL):
if (1 != rlim)
break;
if ('c' == *rstart)
gly = ESCAPE_NOSPACE;
break;
default:
break;
}
return(gly);
}
void *
mandoc_calloc(size_t num, size_t size)
{
void *ptr;
ptr = calloc(num, size);
if (NULL == ptr) {
perror(NULL);
exit((int)MANDOCLEVEL_SYSERR);
}
return(ptr);
}
void *
mandoc_malloc(size_t size)
{
void *ptr;
ptr = malloc(size);
if (NULL == ptr) {
perror(NULL);
exit((int)MANDOCLEVEL_SYSERR);
}
return(ptr);
}
void *
mandoc_realloc(void *ptr, size_t size)
{
ptr = realloc(ptr, size);
if (NULL == ptr) {
perror(NULL);
exit((int)MANDOCLEVEL_SYSERR);
}
return(ptr);
}
char *
mandoc_strndup(const char *ptr, size_t sz)
{
char *p;
p = mandoc_malloc(sz + 1);
memcpy(p, ptr, sz);
p[(int)sz] = '\0';
return(p);
}
char *
mandoc_strdup(const char *ptr)
{
char *p;
p = strdup(ptr);
if (NULL == p) {
perror(NULL);
exit((int)MANDOCLEVEL_SYSERR);
}
return(p);
}
/*
* Parse a quoted or unquoted roff-style request or macro argument.
* Return a pointer to the parsed argument, which is either the original
* pointer or advanced by one byte in case the argument is quoted.
* Null-terminate the argument in place.
* Collapse pairs of quotes inside quoted arguments.
* Advance the argument pointer to the next argument,
* or to the null byte terminating the argument line.
*/
char *
mandoc_getarg(struct mparse *parse, char **cpp, int ln, int *pos)
{
char *start, *cp;
int quoted, pairs, white;
/* Quoting can only start with a new word. */
start = *cpp;
quoted = 0;
if ('"' == *start) {
quoted = 1;
start++;
}
pairs = 0;
white = 0;
for (cp = start; '\0' != *cp; cp++) {
/* Move left after quoted quotes and escaped backslashes. */
if (pairs)
cp[-pairs] = cp[0];
if ('\\' == cp[0]) {
if ('\\' == cp[1]) {
/* Poor man's copy mode. */
pairs++;
cp++;
} else if (0 == quoted && ' ' == cp[1])
/* Skip escaped blanks. */
cp++;
} else if (0 == quoted) {
if (' ' == cp[0]) {
/* Unescaped blanks end unquoted args. */
white = 1;
break;
}
} else if ('"' == cp[0]) {
if ('"' == cp[1]) {
/* Quoted quotes collapse. */
pairs++;
cp++;
} else {
/* Unquoted quotes end quoted args. */
quoted = 2;
break;
}
}
}
/* Quoted argument without a closing quote. */
if (1 == quoted)
mandoc_msg(MANDOCERR_BADQUOTE, parse, ln, *pos, NULL);
/* Null-terminate this argument and move to the next one. */
if (pairs)
cp[-pairs] = '\0';
if ('\0' != *cp) {
*cp++ = '\0';
while (' ' == *cp)
cp++;
}
*pos += (int)(cp - start) + (quoted ? 1 : 0);
*cpp = cp;
if ('\0' == *cp && (white || ' ' == cp[-1]))
mandoc_msg(MANDOCERR_EOLNSPACE, parse, ln, *pos, NULL);
return(start);
}
static int
a2time(time_t *t, const char *fmt, const char *p)
{
struct tm tm;
char *pp;
memset(&tm, 0, sizeof(struct tm));
pp = NULL;
#ifdef HAVE_STRPTIME
pp = strptime(p, fmt, &tm);
#endif
if (NULL != pp && '\0' == *pp) {
*t = mktime(&tm);
return(1);
}
return(0);
}
static char *
time2a(time_t t)
{
struct tm *tm;
char *buf, *p;
size_t ssz;
int isz;
tm = localtime(&t);
/*
* Reserve space:
* up to 9 characters for the month (September) + blank
* up to 2 characters for the day + comma + blank
* 4 characters for the year and a terminating '\0'
*/
p = buf = mandoc_malloc(10 + 4 + 4 + 1);
if (0 == (ssz = strftime(p, 10 + 1, "%B ", tm)))
goto fail;
p += (int)ssz;
if (-1 == (isz = snprintf(p, 4 + 1, "%d, ", tm->tm_mday)))
goto fail;
p += isz;
if (0 == strftime(p, 4 + 1, "%Y", tm))
goto fail;
return(buf);
fail:
free(buf);
return(NULL);
}
char *
mandoc_normdate(struct mparse *parse, char *in, int ln, int pos)
{
char *out;
time_t t;
if (NULL == in || '\0' == *in ||
0 == strcmp(in, "$" "Mdocdate$")) {
mandoc_msg(MANDOCERR_NODATE, parse, ln, pos, NULL);
time(&t);
}
else if (a2time(&t, "%Y-%m-%d", in))
t = 0;
else if (!a2time(&t, "$" "Mdocdate: %b %d %Y $", in) &&
!a2time(&t, "%b %d, %Y", in)) {
mandoc_msg(MANDOCERR_BADDATE, parse, ln, pos, NULL);
t = 0;
}
out = t ? time2a(t) : NULL;
return(out ? out : mandoc_strdup(in));
}
int
mandoc_eos(const char *p, size_t sz, int enclosed)
{
const char *q;
int found;
if (0 == sz)
return(0);
/*
* End-of-sentence recognition must include situations where
* some symbols, such as `)', allow prior EOS punctuation to
* propagate outward.
*/
found = 0;
for (q = p + (int)sz - 1; q >= p; q--) {
switch (*q) {
case ('\"'):
/* FALLTHROUGH */
case ('\''):
/* FALLTHROUGH */
case (']'):
/* FALLTHROUGH */
case (')'):
if (0 == found)
enclosed = 1;
break;
case ('.'):
/* FALLTHROUGH */
case ('!'):
/* FALLTHROUGH */
case ('?'):
found = 1;
break;
default:
return(found && (!enclosed || isalnum((unsigned char)*q)));
}
}
return(found && !enclosed);
}
/*
* Find out whether a line is a macro line or not. If it is, adjust the
* current position and return one; if it isn't, return zero and don't
* change the current position.
*/
int
mandoc_getcontrol(const char *cp, int *ppos)
{
int pos;
pos = *ppos;
if ('\\' == cp[pos] && '.' == cp[pos + 1])
pos += 2;
else if ('.' == cp[pos] || '\'' == cp[pos])
pos++;
else
return(0);
while (' ' == cp[pos] || '\t' == cp[pos])
pos++;
*ppos = pos;
return(1);
}
/*
* Convert a string to a long that may not be <0.
* If the string is invalid, or is less than 0, return -1.
*/
int
mandoc_strntoi(const char *p, size_t sz, int base)
{
char buf[32];
char *ep;
long v;
if (sz > 31)
return(-1);
memcpy(buf, p, sz);
buf[(int)sz] = '\0';
errno = 0;
v = strtol(buf, &ep, base);
if (buf[0] == '\0' || *ep != '\0')
return(-1);
if (v > INT_MAX)
v = INT_MAX;
if (v < INT_MIN)
v = INT_MIN;
return((int)v);
}
|