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DEFINITIONS
This source file includes following definitions.
- FILE_RCSID
- match
- check_fmt
- mprint
- moffset
- cvt_flip
- cvt_8
- cvt_16
- cvt_32
- cvt_64
- cvt_float
- cvt_double
- mconvert
- mdebug
- mcopy
- mget
- file_strncmp
- file_strncmp16
- convert_libmagic_pattern
- magiccheck
- handle_annotation
- print_sep
/*
* Copyright (c) Ian F. Darwin 1986-1995.
* Software written by Ian F. Darwin and others;
* maintained 1995-present by Christos Zoulas and others.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice immediately at the beginning of the file, without modification,
* this list of conditions, and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
/*
* softmagic - interpret variable magic from MAGIC
*/
#include "file.h"
#ifndef lint
FILE_RCSID("@(#)$File: softmagic.c,v 1.174 2014/02/12 23:20:53 christos Exp $")
#endif /* lint */
#include "magic.h"
#ifdef HAVE_FMTCHECK
#include <stdio.h>
#define F(a, b) fmtcheck((a), (b))
#else
#define F(a, b) (a)
#endif
#include <string.h>
#include <ctype.h>
#include <stdlib.h>
#include <time.h>
#if defined(HAVE_LOCALE_H)
#include <locale.h>
#endif
#ifndef PREG_OFFSET_CAPTURE
# define PREG_OFFSET_CAPTURE (1<<8)
#endif
private int match(struct magic_set *, struct magic *, uint32_t,
const unsigned char *, size_t, size_t, int, int, int, int, int *, int *,
int *);
private int mget(struct magic_set *, const unsigned char *,
struct magic *, size_t, size_t, unsigned int, int, int, int, int, int *,
int *, int *);
private int magiccheck(struct magic_set *, struct magic *);
private int32_t mprint(struct magic_set *, struct magic *);
private int32_t moffset(struct magic_set *, struct magic *);
private void mdebug(uint32_t, const char *, size_t);
private int mcopy(struct magic_set *, union VALUETYPE *, int, int,
const unsigned char *, uint32_t, size_t, struct magic *);
private int mconvert(struct magic_set *, struct magic *, int);
private int print_sep(struct magic_set *, int);
private int handle_annotation(struct magic_set *, struct magic *);
private void cvt_8(union VALUETYPE *, const struct magic *);
private void cvt_16(union VALUETYPE *, const struct magic *);
private void cvt_32(union VALUETYPE *, const struct magic *);
private void cvt_64(union VALUETYPE *, const struct magic *);
#define OFFSET_OOB(n, o, i) ((n) < (o) || (i) > ((n) - (o)))
/*
* softmagic - lookup one file in parsed, in-memory copy of database
* Passed the name and FILE * of one file to be typed.
*/
/*ARGSUSED1*/ /* nbytes passed for regularity, maybe need later */
protected int
file_softmagic(struct magic_set *ms, const unsigned char *buf, size_t nbytes,
size_t level, int mode, int text)
{
struct mlist *ml;
int rv, printed_something = 0, need_separator = 0;
for (ml = ms->mlist[0]->next; ml != ms->mlist[0]; ml = ml->next)
if ((rv = match(ms, ml->magic, ml->nmagic, buf, nbytes, 0, mode,
text, 0, level, &printed_something, &need_separator,
NULL)) != 0)
return rv;
return 0;
}
/*
* Go through the whole list, stopping if you find a match. Process all
* the continuations of that match before returning.
*
* We support multi-level continuations:
*
* At any time when processing a successful top-level match, there is a
* current continuation level; it represents the level of the last
* successfully matched continuation.
*
* Continuations above that level are skipped as, if we see one, it
* means that the continuation that controls them - i.e, the
* lower-level continuation preceding them - failed to match.
*
* Continuations below that level are processed as, if we see one,
* it means we've finished processing or skipping higher-level
* continuations under the control of a successful or unsuccessful
* lower-level continuation, and are now seeing the next lower-level
* continuation and should process it. The current continuation
* level reverts to the level of the one we're seeing.
*
* Continuations at the current level are processed as, if we see
* one, there's no lower-level continuation that may have failed.
*
* If a continuation matches, we bump the current continuation level
* so that higher-level continuations are processed.
*/
private int
match(struct magic_set *ms, struct magic *magic, uint32_t nmagic,
const unsigned char *s, size_t nbytes, size_t offset, int mode, int text,
int flip, int recursion_level, int *printed_something, int *need_separator,
int *returnval)
{
uint32_t magindex = 0;
unsigned int cont_level = 0;
int returnvalv = 0, e; /* if a match is found it is set to 1*/
int firstline = 1; /* a flag to print X\n X\n- X */
int print = (ms->flags & (MAGIC_MIME|MAGIC_APPLE)) == 0;
if (returnval == NULL)
returnval = &returnvalv;
if (file_check_mem(ms, cont_level) == -1)
return -1;
for (magindex = 0; magindex < nmagic; magindex++) {
int flush = 0;
struct magic *m = &magic[magindex];
if (m->type != FILE_NAME)
if ((IS_LIBMAGIC_STRING(m->type) &&
#define FLT (STRING_BINTEST | STRING_TEXTTEST)
((text && (m->str_flags & FLT) == STRING_BINTEST) ||
(!text && (m->str_flags & FLT) == STRING_TEXTTEST))) ||
(m->flag & mode) != mode) {
/* Skip sub-tests */
while (magindex + 1 < nmagic &&
magic[magindex + 1].cont_level != 0 &&
++magindex)
continue;
continue; /* Skip to next top-level test*/
}
ms->offset = m->offset;
ms->line = m->lineno;
/* if main entry matches, print it... */
switch (mget(ms, s, m, nbytes, offset, cont_level, mode, text,
flip, recursion_level + 1, printed_something,
need_separator, returnval)) {
case -1:
return -1;
case 0:
flush = m->reln != '!';
break;
default:
if (m->type == FILE_INDIRECT)
*returnval = 1;
switch (magiccheck(ms, m)) {
case -1:
return -1;
case 0:
flush++;
break;
default:
flush = 0;
break;
}
break;
}
if (flush) {
/*
* main entry didn't match,
* flush its continuations
*/
while (magindex < nmagic - 1 &&
magic[magindex + 1].cont_level != 0)
magindex++;
continue;
}
if ((e = handle_annotation(ms, m)) != 0) {
*need_separator = 1;
*printed_something = 1;
*returnval = 1;
return e;
}
/*
* If we are going to print something, we'll need to print
* a blank before we print something else.
*/
if (*m->desc) {
*need_separator = 1;
*printed_something = 1;
if (print_sep(ms, firstline) == -1)
return -1;
}
if (print && mprint(ms, m) == -1)
return -1;
ms->c.li[cont_level].off = moffset(ms, m);
/* and any continuations that match */
if (file_check_mem(ms, ++cont_level) == -1)
return -1;
while (magindex + 1 < nmagic && magic[magindex+1].cont_level != 0 &&
++magindex) {
m = &magic[magindex];
ms->line = m->lineno; /* for messages */
if (cont_level < m->cont_level)
continue;
if (cont_level > m->cont_level) {
/*
* We're at the end of the level
* "cont_level" continuations.
*/
cont_level = m->cont_level;
}
ms->offset = m->offset;
if (m->flag & OFFADD) {
ms->offset +=
ms->c.li[cont_level - 1].off;
}
#ifdef ENABLE_CONDITIONALS
if (m->cond == COND_ELSE ||
m->cond == COND_ELIF) {
if (ms->c.li[cont_level].last_match == 1)
continue;
}
#endif
switch (mget(ms, s, m, nbytes, offset, cont_level, mode,
text, flip, recursion_level + 1, printed_something,
need_separator, returnval)) {
case -1:
return -1;
case 0:
if (m->reln != '!')
continue;
flush = 1;
break;
default:
if (m->type == FILE_INDIRECT)
*returnval = 1;
flush = 0;
break;
}
switch (flush ? 1 : magiccheck(ms, m)) {
case -1:
return -1;
case 0:
#ifdef ENABLE_CONDITIONALS
ms->c.li[cont_level].last_match = 0;
#endif
break;
default:
#ifdef ENABLE_CONDITIONALS
ms->c.li[cont_level].last_match = 1;
#endif
if (m->type == FILE_CLEAR)
ms->c.li[cont_level].got_match = 0;
else if (ms->c.li[cont_level].got_match) {
if (m->type == FILE_DEFAULT)
break;
} else
ms->c.li[cont_level].got_match = 1;
if ((e = handle_annotation(ms, m)) != 0) {
*need_separator = 1;
*printed_something = 1;
*returnval = 1;
return e;
}
/*
* If we are going to print something,
* make sure that we have a separator first.
*/
if (*m->desc) {
if (!*printed_something) {
*printed_something = 1;
if (print_sep(ms, firstline)
== -1)
return -1;
}
}
/*
* This continuation matched. Print
* its message, with a blank before it
* if the previous item printed and
* this item isn't empty.
*/
/* space if previous printed */
if (*need_separator
&& ((m->flag & NOSPACE) == 0)
&& *m->desc) {
if (print &&
file_printf(ms, " ") == -1)
return -1;
*need_separator = 0;
}
if (print && mprint(ms, m) == -1)
return -1;
ms->c.li[cont_level].off = moffset(ms, m);
if (*m->desc)
*need_separator = 1;
/*
* If we see any continuations
* at a higher level,
* process them.
*/
if (file_check_mem(ms, ++cont_level) == -1)
return -1;
break;
}
}
if (*printed_something) {
firstline = 0;
if (print)
*returnval = 1;
}
if ((ms->flags & MAGIC_CONTINUE) == 0 && *printed_something) {
return *returnval; /* don't keep searching */
}
}
return *returnval; /* This is hit if -k is set or there is no match */
}
private int
check_fmt(struct magic_set *ms, struct magic *m)
{
pcre *pce;
int re_options, rv = -1;
pcre_extra *re_extra;
TSRMLS_FETCH();
if (strchr(m->desc, '%') == NULL)
return 0;
(void)setlocale(LC_CTYPE, "C");
if ((pce = pcre_get_compiled_regex("~%[-0-9.]*s~", &re_extra, &re_options TSRMLS_CC)) == NULL) {
rv = -1;
} else {
rv = !pcre_exec(pce, re_extra, m->desc, strlen(m->desc), 0, re_options, NULL, 0);
}
(void)setlocale(LC_CTYPE, "");
return rv;
}
private int32_t
mprint(struct magic_set *ms, struct magic *m)
{
uint64_t v;
float vf;
double vd;
int64_t t = 0;
char buf[128], tbuf[26];
union VALUETYPE *p = &ms->ms_value;
switch (m->type) {
case FILE_BYTE:
v = file_signextend(ms, m, (uint64_t)p->b);
switch (check_fmt(ms, m)) {
case -1:
return -1;
case 1:
(void)snprintf(buf, sizeof(buf), "%c",
(unsigned char)v);
if (file_printf(ms, F(m->desc, "%s"), buf) == -1)
return -1;
break;
default:
if (file_printf(ms, F(m->desc, "%c"),
(unsigned char) v) == -1)
return -1;
break;
}
t = ms->offset + sizeof(char);
break;
case FILE_SHORT:
case FILE_BESHORT:
case FILE_LESHORT:
v = file_signextend(ms, m, (uint64_t)p->h);
switch (check_fmt(ms, m)) {
case -1:
return -1;
case 1:
(void)snprintf(buf, sizeof(buf), "%hu",
(unsigned short)v);
if (file_printf(ms, F(m->desc, "%s"), buf) == -1)
return -1;
break;
default:
if (file_printf(ms, F(m->desc, "%hu"),
(unsigned short) v) == -1)
return -1;
break;
}
t = ms->offset + sizeof(short);
break;
case FILE_LONG:
case FILE_BELONG:
case FILE_LELONG:
case FILE_MELONG:
v = file_signextend(ms, m, (uint64_t)p->l);
switch (check_fmt(ms, m)) {
case -1:
return -1;
case 1:
(void)snprintf(buf, sizeof(buf), "%u", (uint32_t)v);
if (file_printf(ms, F(m->desc, "%s"), buf) == -1)
return -1;
break;
default:
if (file_printf(ms, F(m->desc, "%u"),
(uint32_t) v) == -1)
return -1;
break;
}
t = ms->offset + sizeof(int32_t);
break;
case FILE_QUAD:
case FILE_BEQUAD:
case FILE_LEQUAD:
v = file_signextend(ms, m, p->q);
switch (check_fmt(ms, m)) {
case -1:
return -1;
case 1:
(void)snprintf(buf, sizeof(buf), "%llu",
(unsigned long long)v);
if (file_printf(ms, F(m->desc, "%s"), buf) == -1)
return -1;
break;
default:
if (file_printf(ms, F(m->desc, "%llu"),
(unsigned long long) v) == -1)
return -1;
break;
}
t = ms->offset + sizeof(int64_t);
break;
case FILE_STRING:
case FILE_PSTRING:
case FILE_BESTRING16:
case FILE_LESTRING16:
if (m->reln == '=' || m->reln == '!') {
if (file_printf(ms, F(m->desc, "%s"), m->value.s) == -1)
return -1;
t = ms->offset + m->vallen;
}
else {
char *str = p->s;
/* compute t before we mangle the string? */
t = ms->offset + strlen(str);
if (*m->value.s == '\0')
str[strcspn(str, "\n")] = '\0';
if (m->str_flags & STRING_TRIM) {
char *last;
while (isspace((unsigned char)*str))
str++;
last = str;
while (*last)
last++;
--last;
while (isspace((unsigned char)*last))
last--;
*++last = '\0';
}
if (file_printf(ms, F(m->desc, "%s"), str) == -1)
return -1;
if (m->type == FILE_PSTRING)
t += file_pstring_length_size(m);
}
break;
case FILE_DATE:
case FILE_BEDATE:
case FILE_LEDATE:
case FILE_MEDATE:
if (file_printf(ms, F(m->desc, "%s"),
file_fmttime(p->l, FILE_T_LOCAL,
tbuf)) == -1)
return -1;
t = ms->offset + sizeof(uint32_t);
break;
case FILE_LDATE:
case FILE_BELDATE:
case FILE_LELDATE:
case FILE_MELDATE:
if (file_printf(ms, F(m->desc, "%s"),
file_fmttime(p->l, 0, tbuf)) == -1)
return -1;
t = ms->offset + sizeof(uint32_t);
break;
case FILE_QDATE:
case FILE_BEQDATE:
case FILE_LEQDATE:
if (file_printf(ms, F(m->desc, "%s"),
file_fmttime(p->q, FILE_T_LOCAL, tbuf)) == -1)
return -1;
t = ms->offset + sizeof(uint64_t);
break;
case FILE_QLDATE:
case FILE_BEQLDATE:
case FILE_LEQLDATE:
if (file_printf(ms, F(m->desc, "%s"),
file_fmttime(p->q, 0, tbuf)) == -1)
return -1;
t = ms->offset + sizeof(uint64_t);
break;
case FILE_QWDATE:
case FILE_BEQWDATE:
case FILE_LEQWDATE:
if (file_printf(ms, F(m->desc, "%s"),
file_fmttime(p->q, FILE_T_WINDOWS, tbuf)) == -1)
return -1;
t = ms->offset + sizeof(uint64_t);
break;
case FILE_FLOAT:
case FILE_BEFLOAT:
case FILE_LEFLOAT:
vf = p->f;
switch (check_fmt(ms, m)) {
case -1:
return -1;
case 1:
(void)snprintf(buf, sizeof(buf), "%g", vf);
if (file_printf(ms, F(m->desc, "%s"), buf) == -1)
return -1;
break;
default:
if (file_printf(ms, F(m->desc, "%g"), vf) == -1)
return -1;
break;
}
t = ms->offset + sizeof(float);
break;
case FILE_DOUBLE:
case FILE_BEDOUBLE:
case FILE_LEDOUBLE:
vd = p->d;
switch (check_fmt(ms, m)) {
case -1:
return -1;
case 1:
(void)snprintf(buf, sizeof(buf), "%g", vd);
if (file_printf(ms, F(m->desc, "%s"), buf) == -1)
return -1;
break;
default:
if (file_printf(ms, F(m->desc, "%g"), vd) == -1)
return -1;
break;
}
t = ms->offset + sizeof(double);
break;
case FILE_REGEX: {
char *cp;
int rval;
cp = estrndup((const char *)ms->search.s, ms->search.rm_len);
if (cp == NULL) {
file_oomem(ms, ms->search.rm_len);
return -1;
}
rval = file_printf(ms, F(m->desc, "%s"), cp);
efree(cp);
if (rval == -1)
return -1;
if ((m->str_flags & REGEX_OFFSET_START))
t = ms->search.offset;
else
t = ms->search.offset + ms->search.rm_len;
break;
}
case FILE_SEARCH:
if (file_printf(ms, F(m->desc, "%s"), m->value.s) == -1)
return -1;
if ((m->str_flags & REGEX_OFFSET_START))
t = ms->search.offset;
else
t = ms->search.offset + m->vallen;
break;
case FILE_DEFAULT:
case FILE_CLEAR:
if (file_printf(ms, "%s", m->desc) == -1)
return -1;
t = ms->offset;
break;
case FILE_INDIRECT:
case FILE_USE:
case FILE_NAME:
t = ms->offset;
break;
default:
file_magerror(ms, "invalid m->type (%d) in mprint()", m->type);
return -1;
}
return (int32_t)t;
}
private int32_t
moffset(struct magic_set *ms, struct magic *m)
{
switch (m->type) {
case FILE_BYTE:
return CAST(int32_t, (ms->offset + sizeof(char)));
case FILE_SHORT:
case FILE_BESHORT:
case FILE_LESHORT:
return CAST(int32_t, (ms->offset + sizeof(short)));
case FILE_LONG:
case FILE_BELONG:
case FILE_LELONG:
case FILE_MELONG:
return CAST(int32_t, (ms->offset + sizeof(int32_t)));
case FILE_QUAD:
case FILE_BEQUAD:
case FILE_LEQUAD:
return CAST(int32_t, (ms->offset + sizeof(int64_t)));
case FILE_STRING:
case FILE_PSTRING:
case FILE_BESTRING16:
case FILE_LESTRING16:
if (m->reln == '=' || m->reln == '!')
return ms->offset + m->vallen;
else {
union VALUETYPE *p = &ms->ms_value;
uint32_t t;
if (*m->value.s == '\0')
p->s[strcspn(p->s, "\n")] = '\0';
t = CAST(uint32_t, (ms->offset + strlen(p->s)));
if (m->type == FILE_PSTRING)
t += (uint32_t)file_pstring_length_size(m);
return t;
}
case FILE_DATE:
case FILE_BEDATE:
case FILE_LEDATE:
case FILE_MEDATE:
return CAST(int32_t, (ms->offset + sizeof(uint32_t)));
case FILE_LDATE:
case FILE_BELDATE:
case FILE_LELDATE:
case FILE_MELDATE:
return CAST(int32_t, (ms->offset + sizeof(uint32_t)));
case FILE_QDATE:
case FILE_BEQDATE:
case FILE_LEQDATE:
return CAST(int32_t, (ms->offset + sizeof(uint64_t)));
case FILE_QLDATE:
case FILE_BEQLDATE:
case FILE_LEQLDATE:
return CAST(int32_t, (ms->offset + sizeof(uint64_t)));
case FILE_FLOAT:
case FILE_BEFLOAT:
case FILE_LEFLOAT:
return CAST(int32_t, (ms->offset + sizeof(float)));
case FILE_DOUBLE:
case FILE_BEDOUBLE:
case FILE_LEDOUBLE:
return CAST(int32_t, (ms->offset + sizeof(double)));
case FILE_REGEX:
if ((m->str_flags & REGEX_OFFSET_START) != 0)
return CAST(int32_t, ms->search.offset);
else
return CAST(int32_t, (ms->search.offset +
ms->search.rm_len));
case FILE_SEARCH:
if ((m->str_flags & REGEX_OFFSET_START) != 0)
return CAST(int32_t, ms->search.offset);
else
return CAST(int32_t, (ms->search.offset + m->vallen));
case FILE_CLEAR:
case FILE_DEFAULT:
case FILE_INDIRECT:
return ms->offset;
default:
return 0;
}
}
private int
cvt_flip(int type, int flip)
{
if (flip == 0)
return type;
switch (type) {
case FILE_BESHORT:
return FILE_LESHORT;
case FILE_BELONG:
return FILE_LELONG;
case FILE_BEDATE:
return FILE_LEDATE;
case FILE_BELDATE:
return FILE_LELDATE;
case FILE_BEQUAD:
return FILE_LEQUAD;
case FILE_BEQDATE:
return FILE_LEQDATE;
case FILE_BEQLDATE:
return FILE_LEQLDATE;
case FILE_BEQWDATE:
return FILE_LEQWDATE;
case FILE_LESHORT:
return FILE_BESHORT;
case FILE_LELONG:
return FILE_BELONG;
case FILE_LEDATE:
return FILE_BEDATE;
case FILE_LELDATE:
return FILE_BELDATE;
case FILE_LEQUAD:
return FILE_BEQUAD;
case FILE_LEQDATE:
return FILE_BEQDATE;
case FILE_LEQLDATE:
return FILE_BEQLDATE;
case FILE_LEQWDATE:
return FILE_BEQWDATE;
case FILE_BEFLOAT:
return FILE_LEFLOAT;
case FILE_LEFLOAT:
return FILE_BEFLOAT;
case FILE_BEDOUBLE:
return FILE_LEDOUBLE;
case FILE_LEDOUBLE:
return FILE_BEDOUBLE;
default:
return type;
}
}
#define DO_CVT(fld, cast) \
if (m->num_mask) \
switch (m->mask_op & FILE_OPS_MASK) { \
case FILE_OPAND: \
p->fld &= cast m->num_mask; \
break; \
case FILE_OPOR: \
p->fld |= cast m->num_mask; \
break; \
case FILE_OPXOR: \
p->fld ^= cast m->num_mask; \
break; \
case FILE_OPADD: \
p->fld += cast m->num_mask; \
break; \
case FILE_OPMINUS: \
p->fld -= cast m->num_mask; \
break; \
case FILE_OPMULTIPLY: \
p->fld *= cast m->num_mask; \
break; \
case FILE_OPDIVIDE: \
p->fld /= cast m->num_mask; \
break; \
case FILE_OPMODULO: \
p->fld %= cast m->num_mask; \
break; \
} \
if (m->mask_op & FILE_OPINVERSE) \
p->fld = ~p->fld \
private void
cvt_8(union VALUETYPE *p, const struct magic *m)
{
DO_CVT(b, (uint8_t));
}
private void
cvt_16(union VALUETYPE *p, const struct magic *m)
{
DO_CVT(h, (uint16_t));
}
private void
cvt_32(union VALUETYPE *p, const struct magic *m)
{
DO_CVT(l, (uint32_t));
}
private void
cvt_64(union VALUETYPE *p, const struct magic *m)
{
DO_CVT(q, (uint64_t));
}
#define DO_CVT2(fld, cast) \
if (m->num_mask) \
switch (m->mask_op & FILE_OPS_MASK) { \
case FILE_OPADD: \
p->fld += cast (int64_t)m->num_mask; \
break; \
case FILE_OPMINUS: \
p->fld -= cast (int64_t)m->num_mask; \
break; \
case FILE_OPMULTIPLY: \
p->fld *= cast (int64_t)m->num_mask; \
break; \
case FILE_OPDIVIDE: \
p->fld /= cast (int64_t)m->num_mask; \
break; \
} \
private void
cvt_float(union VALUETYPE *p, const struct magic *m)
{
DO_CVT2(f, (float));
}
private void
cvt_double(union VALUETYPE *p, const struct magic *m)
{
DO_CVT2(d, (double));
}
/*
* Convert the byte order of the data we are looking at
* While we're here, let's apply the mask operation
* (unless you have a better idea)
*/
private int
mconvert(struct magic_set *ms, struct magic *m, int flip)
{
union VALUETYPE *p = &ms->ms_value;
switch (cvt_flip(m->type, flip)) {
case FILE_BYTE:
cvt_8(p, m);
return 1;
case FILE_SHORT:
cvt_16(p, m);
return 1;
case FILE_LONG:
case FILE_DATE:
case FILE_LDATE:
cvt_32(p, m);
return 1;
case FILE_QUAD:
case FILE_QDATE:
case FILE_QLDATE:
case FILE_QWDATE:
cvt_64(p, m);
return 1;
case FILE_STRING:
case FILE_BESTRING16:
case FILE_LESTRING16: {
/* Null terminate and eat *trailing* return */
p->s[sizeof(p->s) - 1] = '\0';
return 1;
}
case FILE_PSTRING: {
size_t sz = file_pstring_length_size(m);
char *ptr1 = p->s, *ptr2 = ptr1 + sz;
size_t len = file_pstring_get_length(m, ptr1);
sz = sizeof(p->s) - sz; /* maximum length of string */
if (len >= sz) {
/*
* The size of the pascal string length (sz)
* is 1, 2, or 4. We need at least 1 byte for NUL
* termination, but we've already truncated the
* string by p->s, so we need to deduct sz.
* Because we can use one of the bytes of the length
* after we shifted as NUL termination.
*/
len = sz;
}
while (len--)
*ptr1++ = *ptr2++;
*ptr1 = '\0';
return 1;
}
case FILE_BESHORT:
p->h = (short)((p->hs[0]<<8)|(p->hs[1]));
cvt_16(p, m);
return 1;
case FILE_BELONG:
case FILE_BEDATE:
case FILE_BELDATE:
p->l = (int32_t)
((p->hl[0]<<24)|(p->hl[1]<<16)|(p->hl[2]<<8)|(p->hl[3]));
cvt_32(p, m);
return 1;
case FILE_BEQUAD:
case FILE_BEQDATE:
case FILE_BEQLDATE:
case FILE_BEQWDATE:
p->q = (uint64_t)
(((uint64_t)p->hq[0]<<56)|((uint64_t)p->hq[1]<<48)|
((uint64_t)p->hq[2]<<40)|((uint64_t)p->hq[3]<<32)|
((uint64_t)p->hq[4]<<24)|((uint64_t)p->hq[5]<<16)|
((uint64_t)p->hq[6]<<8)|((uint64_t)p->hq[7]));
cvt_64(p, m);
return 1;
case FILE_LESHORT:
p->h = (short)((p->hs[1]<<8)|(p->hs[0]));
cvt_16(p, m);
return 1;
case FILE_LELONG:
case FILE_LEDATE:
case FILE_LELDATE:
p->l = (int32_t)
((p->hl[3]<<24)|(p->hl[2]<<16)|(p->hl[1]<<8)|(p->hl[0]));
cvt_32(p, m);
return 1;
case FILE_LEQUAD:
case FILE_LEQDATE:
case FILE_LEQLDATE:
case FILE_LEQWDATE:
p->q = (uint64_t)
(((uint64_t)p->hq[7]<<56)|((uint64_t)p->hq[6]<<48)|
((uint64_t)p->hq[5]<<40)|((uint64_t)p->hq[4]<<32)|
((uint64_t)p->hq[3]<<24)|((uint64_t)p->hq[2]<<16)|
((uint64_t)p->hq[1]<<8)|((uint64_t)p->hq[0]));
cvt_64(p, m);
return 1;
case FILE_MELONG:
case FILE_MEDATE:
case FILE_MELDATE:
p->l = (int32_t)
((p->hl[1]<<24)|(p->hl[0]<<16)|(p->hl[3]<<8)|(p->hl[2]));
cvt_32(p, m);
return 1;
case FILE_FLOAT:
cvt_float(p, m);
return 1;
case FILE_BEFLOAT:
p->l = ((uint32_t)p->hl[0]<<24)|((uint32_t)p->hl[1]<<16)|
((uint32_t)p->hl[2]<<8) |((uint32_t)p->hl[3]);
cvt_float(p, m);
return 1;
case FILE_LEFLOAT:
p->l = ((uint32_t)p->hl[3]<<24)|((uint32_t)p->hl[2]<<16)|
((uint32_t)p->hl[1]<<8) |((uint32_t)p->hl[0]);
cvt_float(p, m);
return 1;
case FILE_DOUBLE:
cvt_double(p, m);
return 1;
case FILE_BEDOUBLE:
p->q = ((uint64_t)p->hq[0]<<56)|((uint64_t)p->hq[1]<<48)|
((uint64_t)p->hq[2]<<40)|((uint64_t)p->hq[3]<<32)|
((uint64_t)p->hq[4]<<24)|((uint64_t)p->hq[5]<<16)|
((uint64_t)p->hq[6]<<8) |((uint64_t)p->hq[7]);
cvt_double(p, m);
return 1;
case FILE_LEDOUBLE:
p->q = ((uint64_t)p->hq[7]<<56)|((uint64_t)p->hq[6]<<48)|
((uint64_t)p->hq[5]<<40)|((uint64_t)p->hq[4]<<32)|
((uint64_t)p->hq[3]<<24)|((uint64_t)p->hq[2]<<16)|
((uint64_t)p->hq[1]<<8) |((uint64_t)p->hq[0]);
cvt_double(p, m);
return 1;
case FILE_REGEX:
case FILE_SEARCH:
case FILE_DEFAULT:
case FILE_CLEAR:
case FILE_NAME:
case FILE_USE:
return 1;
default:
file_magerror(ms, "invalid type %d in mconvert()", m->type);
return 0;
}
}
private void
mdebug(uint32_t offset, const char *str, size_t len)
{
(void) fprintf(stderr, "mget/%zu @%d: ", len, offset);
file_showstr(stderr, str, len);
(void) fputc('\n', stderr);
(void) fputc('\n', stderr);
}
private int
mcopy(struct magic_set *ms, union VALUETYPE *p, int type, int indir,
const unsigned char *s, uint32_t offset, size_t nbytes, struct magic *m)
{
/*
* Note: FILE_SEARCH and FILE_REGEX do not actually copy
* anything, but setup pointers into the source
*/
if (indir == 0) {
switch (type) {
case FILE_SEARCH:
ms->search.s = RCAST(const char *, s) + offset;
ms->search.s_len = nbytes - offset;
ms->search.offset = offset;
return 0;
case FILE_REGEX: {
const char *b;
const char *c;
const char *last; /* end of search region */
const char *buf; /* start of search region */
const char *end;
size_t lines, linecnt, bytecnt;
linecnt = m->str_range;
bytecnt = linecnt * 80;
if (bytecnt == 0) {
bytecnt = 8192;
}
if (bytecnt > nbytes) {
bytecnt = nbytes;
}
if (offset > bytecnt) {
offset = bytecnt;
}
if (s == NULL) {
ms->search.s_len = 0;
ms->search.s = NULL;
return 0;
}
buf = RCAST(const char *, s) + offset;
end = last = RCAST(const char *, s) + bytecnt;
/* mget() guarantees buf <= last */
for (lines = linecnt, b = buf; lines && b < end &&
((b = CAST(const char *,
memchr(c = b, '\n', CAST(size_t, (end - b)))))
|| (b = CAST(const char *,
memchr(c, '\r', CAST(size_t, (end - c))))));
lines--, b++) {
last = b;
if (b[0] == '\r' && b[1] == '\n')
b++;
}
if (lines)
last = RCAST(const char *, s) + bytecnt;
ms->search.s = buf;
ms->search.s_len = last - buf;
ms->search.offset = offset;
ms->search.rm_len = 0;
return 0;
}
case FILE_BESTRING16:
case FILE_LESTRING16: {
const unsigned char *src = s + offset;
const unsigned char *esrc = s + nbytes;
char *dst = p->s;
char *edst = &p->s[sizeof(p->s) - 1];
if (type == FILE_BESTRING16)
src++;
/* check that offset is within range */
if (offset >= nbytes)
break;
for (/*EMPTY*/; src < esrc; src += 2, dst++) {
if (dst < edst)
*dst = *src;
else
break;
if (*dst == '\0') {
if (type == FILE_BESTRING16 ?
*(src - 1) != '\0' :
*(src + 1) != '\0')
*dst = ' ';
}
}
*edst = '\0';
return 0;
}
case FILE_STRING: /* XXX - these two should not need */
case FILE_PSTRING: /* to copy anything, but do anyway. */
default:
break;
}
}
if (offset >= nbytes) {
(void)memset(p, '\0', sizeof(*p));
return 0;
}
if (nbytes - offset < sizeof(*p))
nbytes = nbytes - offset;
else
nbytes = sizeof(*p);
(void)memcpy(p, s + offset, nbytes);
/*
* the usefulness of padding with zeroes eludes me, it
* might even cause problems
*/
if (nbytes < sizeof(*p))
(void)memset(((char *)(void *)p) + nbytes, '\0',
sizeof(*p) - nbytes);
return 0;
}
private int
mget(struct magic_set *ms, const unsigned char *s, struct magic *m,
size_t nbytes, size_t o, unsigned int cont_level, int mode, int text,
int flip, int recursion_level, int *printed_something,
int *need_separator, int *returnval)
{
uint32_t soffset, offset = ms->offset;
int rv, oneed_separator, in_type;
char *sbuf, *rbuf;
union VALUETYPE *p = &ms->ms_value;
struct mlist ml;
if (recursion_level >= 20) {
file_error(ms, 0, "recursion nesting exceeded");
return -1;
}
if (mcopy(ms, p, m->type, m->flag & INDIR, s, (uint32_t)(offset + o),
(uint32_t)nbytes, m) == -1)
return -1;
if ((ms->flags & MAGIC_DEBUG) != 0) {
fprintf(stderr, "mget(type=%d, flag=%x, offset=%u, o=%zu, "
"nbytes=%zu)\n", m->type, m->flag, offset, o, nbytes);
mdebug(offset, (char *)(void *)p, sizeof(union VALUETYPE));
}
if (m->flag & INDIR) {
int off = m->in_offset;
if (m->in_op & FILE_OPINDIRECT) {
const union VALUETYPE *q = CAST(const union VALUETYPE *,
((const void *)(s + offset + off)));
switch (cvt_flip(m->in_type, flip)) {
case FILE_BYTE:
off = q->b;
break;
case FILE_SHORT:
off = q->h;
break;
case FILE_BESHORT:
off = (short)((q->hs[0]<<8)|(q->hs[1]));
break;
case FILE_LESHORT:
off = (short)((q->hs[1]<<8)|(q->hs[0]));
break;
case FILE_LONG:
off = q->l;
break;
case FILE_BELONG:
case FILE_BEID3:
off = (int32_t)((q->hl[0]<<24)|(q->hl[1]<<16)|
(q->hl[2]<<8)|(q->hl[3]));
break;
case FILE_LEID3:
case FILE_LELONG:
off = (int32_t)((q->hl[3]<<24)|(q->hl[2]<<16)|
(q->hl[1]<<8)|(q->hl[0]));
break;
case FILE_MELONG:
off = (int32_t)((q->hl[1]<<24)|(q->hl[0]<<16)|
(q->hl[3]<<8)|(q->hl[2]));
break;
}
if ((ms->flags & MAGIC_DEBUG) != 0)
fprintf(stderr, "indirect offs=%u\n", off);
}
switch (in_type = cvt_flip(m->in_type, flip)) {
case FILE_BYTE:
if (OFFSET_OOB(nbytes, offset, 1))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = p->b & off;
break;
case FILE_OPOR:
offset = p->b | off;
break;
case FILE_OPXOR:
offset = p->b ^ off;
break;
case FILE_OPADD:
offset = p->b + off;
break;
case FILE_OPMINUS:
offset = p->b - off;
break;
case FILE_OPMULTIPLY:
offset = p->b * off;
break;
case FILE_OPDIVIDE:
offset = p->b / off;
break;
case FILE_OPMODULO:
offset = p->b % off;
break;
}
} else
offset = p->b;
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
case FILE_BESHORT:
if (OFFSET_OOB(nbytes, offset, 2))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) &
off;
break;
case FILE_OPOR:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) |
off;
break;
case FILE_OPXOR:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) ^
off;
break;
case FILE_OPADD:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) +
off;
break;
case FILE_OPMINUS:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) -
off;
break;
case FILE_OPMULTIPLY:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) *
off;
break;
case FILE_OPDIVIDE:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) /
off;
break;
case FILE_OPMODULO:
offset = (short)((p->hs[0]<<8)|
(p->hs[1])) %
off;
break;
}
} else
offset = (short)((p->hs[0]<<8)|
(p->hs[1]));
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
case FILE_LESHORT:
if (OFFSET_OOB(nbytes, offset, 2))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) &
off;
break;
case FILE_OPOR:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) |
off;
break;
case FILE_OPXOR:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) ^
off;
break;
case FILE_OPADD:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) +
off;
break;
case FILE_OPMINUS:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) -
off;
break;
case FILE_OPMULTIPLY:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) *
off;
break;
case FILE_OPDIVIDE:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) /
off;
break;
case FILE_OPMODULO:
offset = (short)((p->hs[1]<<8)|
(p->hs[0])) %
off;
break;
}
} else
offset = (short)((p->hs[1]<<8)|
(p->hs[0]));
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
case FILE_SHORT:
if (OFFSET_OOB(nbytes, offset, 2))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = p->h & off;
break;
case FILE_OPOR:
offset = p->h | off;
break;
case FILE_OPXOR:
offset = p->h ^ off;
break;
case FILE_OPADD:
offset = p->h + off;
break;
case FILE_OPMINUS:
offset = p->h - off;
break;
case FILE_OPMULTIPLY:
offset = p->h * off;
break;
case FILE_OPDIVIDE:
offset = p->h / off;
break;
case FILE_OPMODULO:
offset = p->h % off;
break;
}
}
else
offset = p->h;
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
case FILE_BELONG:
case FILE_BEID3:
if (OFFSET_OOB(nbytes, offset, 4))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) &
off;
break;
case FILE_OPOR:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) |
off;
break;
case FILE_OPXOR:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) ^
off;
break;
case FILE_OPADD:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) +
off;
break;
case FILE_OPMINUS:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) -
off;
break;
case FILE_OPMULTIPLY:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) *
off;
break;
case FILE_OPDIVIDE:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) /
off;
break;
case FILE_OPMODULO:
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3])) %
off;
break;
}
} else
offset = (int32_t)((p->hl[0]<<24)|
(p->hl[1]<<16)|
(p->hl[2]<<8)|
(p->hl[3]));
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
case FILE_LELONG:
case FILE_LEID3:
if (OFFSET_OOB(nbytes, offset, 4))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) &
off;
break;
case FILE_OPOR:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) |
off;
break;
case FILE_OPXOR:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) ^
off;
break;
case FILE_OPADD:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) +
off;
break;
case FILE_OPMINUS:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) -
off;
break;
case FILE_OPMULTIPLY:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) *
off;
break;
case FILE_OPDIVIDE:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) /
off;
break;
case FILE_OPMODULO:
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0])) %
off;
break;
}
} else
offset = (int32_t)((p->hl[3]<<24)|
(p->hl[2]<<16)|
(p->hl[1]<<8)|
(p->hl[0]));
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
case FILE_MELONG:
if (OFFSET_OOB(nbytes, offset, 4))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) &
off;
break;
case FILE_OPOR:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) |
off;
break;
case FILE_OPXOR:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) ^
off;
break;
case FILE_OPADD:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) +
off;
break;
case FILE_OPMINUS:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) -
off;
break;
case FILE_OPMULTIPLY:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) *
off;
break;
case FILE_OPDIVIDE:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) /
off;
break;
case FILE_OPMODULO:
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2])) %
off;
break;
}
} else
offset = (int32_t)((p->hl[1]<<24)|
(p->hl[0]<<16)|
(p->hl[3]<<8)|
(p->hl[2]));
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
case FILE_LONG:
if (OFFSET_OOB(nbytes, offset, 4))
return 0;
if (off) {
switch (m->in_op & FILE_OPS_MASK) {
case FILE_OPAND:
offset = p->l & off;
break;
case FILE_OPOR:
offset = p->l | off;
break;
case FILE_OPXOR:
offset = p->l ^ off;
break;
case FILE_OPADD:
offset = p->l + off;
break;
case FILE_OPMINUS:
offset = p->l - off;
break;
case FILE_OPMULTIPLY:
offset = p->l * off;
break;
case FILE_OPDIVIDE:
offset = p->l / off;
break;
case FILE_OPMODULO:
offset = p->l % off;
break;
}
} else
offset = p->l;
if (m->in_op & FILE_OPINVERSE)
offset = ~offset;
break;
default:
break;
}
switch (in_type) {
case FILE_LEID3:
case FILE_BEID3:
offset = ((((offset >> 0) & 0x7f) << 0) |
(((offset >> 8) & 0x7f) << 7) |
(((offset >> 16) & 0x7f) << 14) |
(((offset >> 24) & 0x7f) << 21)) + 10;
break;
default:
break;
}
if (m->flag & INDIROFFADD) {
offset += ms->c.li[cont_level-1].off;
if (offset == 0) {
if ((ms->flags & MAGIC_DEBUG) != 0)
fprintf(stderr,
"indirect *zero* offset\n");
return 0;
}
if ((ms->flags & MAGIC_DEBUG) != 0)
fprintf(stderr, "indirect +offs=%u\n", offset);
}
if (mcopy(ms, p, m->type, 0, s, offset, nbytes, m) == -1)
return -1;
ms->offset = offset;
if ((ms->flags & MAGIC_DEBUG) != 0) {
mdebug(offset, (char *)(void *)p,
sizeof(union VALUETYPE));
}
}
/* Verify we have enough data to match magic type */
switch (m->type) {
case FILE_BYTE:
if (OFFSET_OOB(nbytes, offset, 1))
return 0;
break;
case FILE_SHORT:
case FILE_BESHORT:
case FILE_LESHORT:
if (OFFSET_OOB(nbytes, offset, 2))
return 0;
break;
case FILE_LONG:
case FILE_BELONG:
case FILE_LELONG:
case FILE_MELONG:
case FILE_DATE:
case FILE_BEDATE:
case FILE_LEDATE:
case FILE_MEDATE:
case FILE_LDATE:
case FILE_BELDATE:
case FILE_LELDATE:
case FILE_MELDATE:
case FILE_FLOAT:
case FILE_BEFLOAT:
case FILE_LEFLOAT:
if (OFFSET_OOB(nbytes, offset, 4))
return 0;
break;
case FILE_DOUBLE:
case FILE_BEDOUBLE:
case FILE_LEDOUBLE:
if (OFFSET_OOB(nbytes, offset, 8))
return 0;
break;
case FILE_STRING:
case FILE_PSTRING:
case FILE_SEARCH:
if (OFFSET_OOB(nbytes, offset, m->vallen))
return 0;
break;
case FILE_REGEX:
if (OFFSET_OOB(nbytes, offset, 0))
return 0;
break;
case FILE_INDIRECT:
if (offset == 0)
return 0;
if (OFFSET_OOB(nbytes, offset, 0))
return 0;
sbuf = ms->o.buf;
soffset = ms->offset;
ms->o.buf = NULL;
ms->offset = 0;
rv = file_softmagic(ms, s + offset, nbytes - offset,
recursion_level, BINTEST, text);
if ((ms->flags & MAGIC_DEBUG) != 0)
fprintf(stderr, "indirect @offs=%u[%d]\n", offset, rv);
rbuf = ms->o.buf;
ms->o.buf = sbuf;
ms->offset = soffset;
if (rv == 1) {
if ((ms->flags & (MAGIC_MIME|MAGIC_APPLE)) == 0 &&
file_printf(ms, m->desc, offset) == -1) {
if (rbuf) {
efree(rbuf);
}
return -1;
}
if (file_printf(ms, "%s", rbuf) == -1) {
if (rbuf) {
efree(rbuf);
}
return -1;
}
}
if (rbuf) {
efree(rbuf);
}
return rv;
case FILE_USE:
if (OFFSET_OOB(nbytes, offset, 0))
return 0;
sbuf = m->value.s;
if (*sbuf == '^') {
sbuf++;
flip = !flip;
}
if (file_magicfind(ms, sbuf, &ml) == -1) {
file_error(ms, 0, "cannot find entry `%s'", sbuf);
return -1;
}
oneed_separator = *need_separator;
if (m->flag & NOSPACE)
*need_separator = 0;
rv = match(ms, ml.magic, ml.nmagic, s, nbytes, offset + o,
mode, text, flip, recursion_level, printed_something,
need_separator, returnval);
if (rv != 1)
*need_separator = oneed_separator;
return rv;
case FILE_NAME:
if (file_printf(ms, "%s", m->desc) == -1)
return -1;
return 1;
case FILE_DEFAULT: /* nothing to check */
case FILE_CLEAR:
default:
break;
}
if (!mconvert(ms, m, flip))
return 0;
return 1;
}
private uint64_t
file_strncmp(const char *s1, const char *s2, size_t len, uint32_t flags)
{
/*
* Convert the source args to unsigned here so that (1) the
* compare will be unsigned as it is in strncmp() and (2) so
* the ctype functions will work correctly without extra
* casting.
*/
const unsigned char *a = (const unsigned char *)s1;
const unsigned char *b = (const unsigned char *)s2;
uint64_t v;
/*
* What we want here is v = strncmp(s1, s2, len),
* but ignoring any nulls.
*/
v = 0;
if (0L == flags) { /* normal string: do it fast */
while (len-- > 0)
if ((v = *b++ - *a++) != '\0')
break;
}
else { /* combine the others */
while (len-- > 0) {
if ((flags & STRING_IGNORE_LOWERCASE) &&
islower(*a)) {
if ((v = tolower(*b++) - *a++) != '\0')
break;
}
else if ((flags & STRING_IGNORE_UPPERCASE) &&
isupper(*a)) {
if ((v = toupper(*b++) - *a++) != '\0')
break;
}
else if ((flags & STRING_COMPACT_WHITESPACE) &&
isspace(*a)) {
a++;
if (isspace(*b++)) {
if (!isspace(*a))
while (isspace(*b))
b++;
}
else {
v = 1;
break;
}
}
else if ((flags & STRING_COMPACT_OPTIONAL_WHITESPACE) &&
isspace(*a)) {
a++;
while (isspace(*b))
b++;
}
else {
if ((v = *b++ - *a++) != '\0')
break;
}
}
}
return v;
}
private uint64_t
file_strncmp16(const char *a, const char *b, size_t len, uint32_t flags)
{
/*
* XXX - The 16-bit string compare probably needs to be done
* differently, especially if the flags are to be supported.
* At the moment, I am unsure.
*/
flags = 0;
return file_strncmp(a, b, len, flags);
}
public void
convert_libmagic_pattern(zval *pattern, int options)
{
int i, j=0;
char *t;
t = (char *) safe_emalloc(Z_STRLEN_P(pattern), 2, 5);
t[j++] = '~';
for (i=0; i<Z_STRLEN_P(pattern); i++, j++) {
switch (Z_STRVAL_P(pattern)[i]) {
case '~':
t[j++] = '\\';
t[j] = '~';
break;
default:
t[j] = Z_STRVAL_P(pattern)[i];
break;
}
}
t[j++] = '~';
if (options & PCRE_CASELESS)
t[j++] = 'i';
if (options & PCRE_MULTILINE)
t[j++] = 'm';
t[j]='\0';
Z_STRVAL_P(pattern) = t;
Z_STRLEN_P(pattern) = j;
}
private int
magiccheck(struct magic_set *ms, struct magic *m)
{
uint64_t l = m->value.q;
uint64_t v;
float fl, fv;
double dl, dv;
int matched;
union VALUETYPE *p = &ms->ms_value;
switch (m->type) {
case FILE_BYTE:
v = p->b;
break;
case FILE_SHORT:
case FILE_BESHORT:
case FILE_LESHORT:
v = p->h;
break;
case FILE_LONG:
case FILE_BELONG:
case FILE_LELONG:
case FILE_MELONG:
case FILE_DATE:
case FILE_BEDATE:
case FILE_LEDATE:
case FILE_MEDATE:
case FILE_LDATE:
case FILE_BELDATE:
case FILE_LELDATE:
case FILE_MELDATE:
v = p->l;
break;
case FILE_QUAD:
case FILE_LEQUAD:
case FILE_BEQUAD:
case FILE_QDATE:
case FILE_BEQDATE:
case FILE_LEQDATE:
case FILE_QLDATE:
case FILE_BEQLDATE:
case FILE_LEQLDATE:
case FILE_QWDATE:
case FILE_BEQWDATE:
case FILE_LEQWDATE:
v = p->q;
break;
case FILE_FLOAT:
case FILE_BEFLOAT:
case FILE_LEFLOAT:
fl = m->value.f;
fv = p->f;
switch (m->reln) {
case 'x':
matched = 1;
break;
case '!':
matched = fv != fl;
break;
case '=':
matched = fv == fl;
break;
case '>':
matched = fv > fl;
break;
case '<':
matched = fv < fl;
break;
default:
matched = 0;
file_magerror(ms, "cannot happen with float: invalid relation `%c'",
m->reln);
return -1;
}
return matched;
case FILE_DOUBLE:
case FILE_BEDOUBLE:
case FILE_LEDOUBLE:
dl = m->value.d;
dv = p->d;
switch (m->reln) {
case 'x':
matched = 1;
break;
case '!':
matched = dv != dl;
break;
case '=':
matched = dv == dl;
break;
case '>':
matched = dv > dl;
break;
case '<':
matched = dv < dl;
break;
default:
matched = 0;
file_magerror(ms, "cannot happen with double: invalid relation `%c'", m->reln);
return -1;
}
return matched;
case FILE_DEFAULT:
case FILE_CLEAR:
l = 0;
v = 0;
break;
case FILE_STRING:
case FILE_PSTRING:
l = 0;
v = file_strncmp(m->value.s, p->s, (size_t)m->vallen, m->str_flags);
break;
case FILE_BESTRING16:
case FILE_LESTRING16:
l = 0;
v = file_strncmp16(m->value.s, p->s, (size_t)m->vallen, m->str_flags);
break;
case FILE_SEARCH: { /* search ms->search.s for the string m->value.s */
size_t slen;
size_t idx;
if (ms->search.s == NULL)
return 0;
slen = MIN(m->vallen, sizeof(m->value.s));
l = 0;
v = 0;
for (idx = 0; m->str_range == 0 || idx < m->str_range; idx++) {
if (slen + idx > ms->search.s_len)
break;
v = file_strncmp(m->value.s, ms->search.s + idx, slen, m->str_flags);
if (v == 0) { /* found match */
ms->search.offset += idx;
break;
}
}
break;
}
case FILE_REGEX: {
zval *pattern;
int options = 0;
pcre_cache_entry *pce;
TSRMLS_FETCH();
MAKE_STD_ZVAL(pattern);
ZVAL_STRINGL(pattern, (char *)m->value.s, m->vallen, 0);
options |= PCRE_MULTILINE;
if (m->str_flags & STRING_IGNORE_CASE) {
options |= PCRE_CASELESS;
}
convert_libmagic_pattern(pattern, options);
l = v = 0;
if ((pce = pcre_get_compiled_regex_cache(Z_STRVAL_P(pattern), Z_STRLEN_P(pattern) TSRMLS_CC)) == NULL) {
zval_dtor(pattern);
FREE_ZVAL(pattern);
return -1;
} else {
/* pce now contains the compiled regex */
zval *retval;
zval *subpats;
char *haystack;
MAKE_STD_ZVAL(retval);
ALLOC_INIT_ZVAL(subpats);
/* Cut the search len from haystack, equals to REG_STARTEND */
haystack = estrndup(ms->search.s, ms->search.s_len);
/* match v = 0, no match v = 1 */
php_pcre_match_impl(pce, haystack, ms->search.s_len, retval, subpats, 1, 1, PREG_OFFSET_CAPTURE, 0 TSRMLS_CC);
/* Free haystack */
efree(haystack);
if (Z_LVAL_P(retval) < 0) {
zval_ptr_dtor(&subpats);
FREE_ZVAL(retval);
zval_dtor(pattern);
FREE_ZVAL(pattern);
return -1;
} else if ((Z_LVAL_P(retval) > 0) && (Z_TYPE_P(subpats) == IS_ARRAY)) {
/* Need to fetch global match which equals pmatch[0] */
HashTable *ht = Z_ARRVAL_P(subpats);
HashPosition outer_pos;
zval *pattern_match = NULL, *pattern_offset = NULL;
zend_hash_internal_pointer_reset_ex(ht, &outer_pos);
if (zend_hash_has_more_elements_ex(ht, &outer_pos) == SUCCESS &&
zend_hash_move_forward_ex(ht, &outer_pos)) {
zval **ppzval;
/* The first element (should be) is the global match
Need to move to the inner array to get the global match */
if (zend_hash_get_current_data_ex(ht, (void**)&ppzval, &outer_pos) != FAILURE) {
HashTable *inner_ht;
HashPosition inner_pos;
zval **match, **offset;
zval tmpcopy = **ppzval, matchcopy, offsetcopy;
zval_copy_ctor(&tmpcopy);
INIT_PZVAL(&tmpcopy);
inner_ht = Z_ARRVAL(tmpcopy);
/* If everything goes according to the master plan
tmpcopy now contains two elements:
0 = the match
1 = starting position of the match */
zend_hash_internal_pointer_reset_ex(inner_ht, &inner_pos);
if (zend_hash_has_more_elements_ex(inner_ht, &inner_pos) == SUCCESS &&
zend_hash_move_forward_ex(inner_ht, &inner_pos)) {
if (zend_hash_get_current_data_ex(inner_ht, (void**)&match, &inner_pos) != FAILURE) {
matchcopy = **match;
zval_copy_ctor(&matchcopy);
INIT_PZVAL(&matchcopy);
convert_to_string(&matchcopy);
MAKE_STD_ZVAL(pattern_match);
Z_STRVAL_P(pattern_match) = (char *)Z_STRVAL(matchcopy);
Z_STRLEN_P(pattern_match) = Z_STRLEN(matchcopy);
Z_TYPE_P(pattern_match) = IS_STRING;
zval_dtor(&matchcopy);
}
}
if (zend_hash_has_more_elements_ex(inner_ht, &inner_pos) == SUCCESS &&
zend_hash_move_forward_ex(inner_ht, &inner_pos)) {
if (zend_hash_get_current_data_ex(inner_ht, (void**)&offset, &inner_pos) != FAILURE) {
offsetcopy = **offset;
zval_copy_ctor(&offsetcopy);
INIT_PZVAL(&offsetcopy);
convert_to_long(&offsetcopy);
MAKE_STD_ZVAL(pattern_offset);
Z_LVAL_P(pattern_offset) = Z_LVAL(offsetcopy);
Z_TYPE_P(pattern_offset) = IS_LONG;
zval_dtor(&offsetcopy);
}
}
zval_dtor(&tmpcopy);
}
if ((pattern_match != NULL) && (pattern_offset != NULL)) {
ms->search.s += (int)Z_LVAL_P(pattern_offset); /* this is where the match starts */
ms->search.offset += (size_t)Z_LVAL_P(pattern_offset); /* this is where the match starts as size_t */
ms->search.rm_len = Z_STRLEN_P(pattern_match) /* This is the length of the matched pattern */;
v = 0;
efree(pattern_match);
efree(pattern_offset);
} else {
zval_ptr_dtor(&subpats);
FREE_ZVAL(retval);
zval_dtor(pattern);
FREE_ZVAL(pattern);
return -1;
}
}
} else {
v = 1;
}
zval_ptr_dtor(&subpats);
FREE_ZVAL(retval);
}
zval_dtor(pattern);
FREE_ZVAL(pattern);
break;
}
case FILE_INDIRECT:
case FILE_USE:
case FILE_NAME:
return 1;
default:
file_magerror(ms, "invalid type %d in magiccheck()", m->type);
return -1;
}
v = file_signextend(ms, m, v);
switch (m->reln) {
case 'x':
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "%" INT64_T_FORMAT
"u == *any* = 1\n", (unsigned long long)v);
matched = 1;
break;
case '!':
matched = v != l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "%" INT64_T_FORMAT "u != %"
INT64_T_FORMAT "u = %d\n", (unsigned long long)v,
(unsigned long long)l, matched);
break;
case '=':
matched = v == l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "%" INT64_T_FORMAT "u == %"
INT64_T_FORMAT "u = %d\n", (unsigned long long)v,
(unsigned long long)l, matched);
break;
case '>':
if (m->flag & UNSIGNED) {
matched = v > l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "%" INT64_T_FORMAT
"u > %" INT64_T_FORMAT "u = %d\n",
(unsigned long long)v,
(unsigned long long)l, matched);
}
else {
matched = (int64_t) v > (int64_t) l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "%" INT64_T_FORMAT
"d > %" INT64_T_FORMAT "d = %d\n",
(long long)v, (long long)l, matched);
}
break;
case '<':
if (m->flag & UNSIGNED) {
matched = v < l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "%" INT64_T_FORMAT
"u < %" INT64_T_FORMAT "u = %d\n",
(unsigned long long)v,
(unsigned long long)l, matched);
}
else {
matched = (int64_t) v < (int64_t) l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "%" INT64_T_FORMAT
"d < %" INT64_T_FORMAT "d = %d\n",
(long long)v, (long long)l, matched);
}
break;
case '&':
matched = (v & l) == l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "((%" INT64_T_FORMAT "x & %"
INT64_T_FORMAT "x) == %" INT64_T_FORMAT
"x) = %d\n", (unsigned long long)v,
(unsigned long long)l, (unsigned long long)l,
matched);
break;
case '^':
matched = (v & l) != l;
if ((ms->flags & MAGIC_DEBUG) != 0)
(void) fprintf(stderr, "((%" INT64_T_FORMAT "x & %"
INT64_T_FORMAT "x) != %" INT64_T_FORMAT
"x) = %d\n", (unsigned long long)v,
(unsigned long long)l, (unsigned long long)l,
matched);
break;
default:
matched = 0;
file_magerror(ms, "cannot happen: invalid relation `%c'",
m->reln);
return -1;
}
return matched;
}
private int
handle_annotation(struct magic_set *ms, struct magic *m)
{
if (ms->flags & MAGIC_APPLE) {
if (file_printf(ms, "%.8s", m->apple) == -1)
return -1;
return 1;
}
if ((ms->flags & MAGIC_MIME_TYPE) && m->mimetype[0]) {
if (file_printf(ms, "%s", m->mimetype) == -1)
return -1;
return 1;
}
return 0;
}
private int
print_sep(struct magic_set *ms, int firstline)
{
if (ms->flags & MAGIC_MIME)
return 0;
if (firstline)
return 0;
/*
* we found another match
* put a newline and '-' to do some simple formatting
*/
return file_printf(ms, "\n- ");
}