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tdelibs/kio/kio/kmimemagic.cpp

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/* This file is part of the KDE libraries
Copyright (C) 2000 Fritz Elfert <fritz@kde.org>
Copyright (C) 2004 Allan Sandfeld Jensen <kde@carewolf.com>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License version 2 as published by the Free Software Foundation.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "kmimemagic.h"
#include <kdebug.h>
#include <kapplication.h>
#include <tqfile.h>
#include <ksimpleconfig.h>
#include <kstandarddirs.h>
#include <kstaticdeleter.h>
#include <klargefile.h>
#include <assert.h>
static int fsmagic(struct config_rec* conf, const char *fn, KDE_struct_stat *sb);
static void process(struct config_rec* conf, const TQString &);
static int ascmagic(struct config_rec* conf, unsigned char *buf, int nbytes);
static int tagmagic(unsigned char *buf, int nbytes);
static int textmagic(struct config_rec* conf, unsigned char *, int);
static void tryit(struct config_rec* conf, unsigned char *buf, int nb);
static int match(struct config_rec* conf, unsigned char *, int);
KMimeMagic* KMimeMagic::s_pSelf;
static KStaticDeleter<KMimeMagic> kmimemagicsd;
KMimeMagic* KMimeMagic::self()
{
if( !s_pSelf )
initStatic();
return s_pSelf;
}
void KMimeMagic::initStatic()
{
s_pSelf = kmimemagicsd.setObject( s_pSelf, new KMimeMagic() );
s_pSelf->setFollowLinks( true );
}
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <sys/wait.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <errno.h>
#include <ctype.h>
#include <time.h>
#include <utime.h>
#include <stdarg.h>
#include <tqregexp.h>
#include <tqstring.h>
//#define MIME_MAGIC_DEBUG_TABLE // untested
// Uncomment to debug the config-file parsing phase
//#define DEBUG_APPRENTICE
// Uncomment to debug the matching phase
//#define DEBUG_MIMEMAGIC
#if (defined DEBUG_MIMEMAGIC || defined DEBUG_APPRENTICE)
#define DEBUG_LINENUMBERS
#endif
/*
* Buitltin Mime types
*/
#define MIME_BINARY_UNKNOWN "application/octet-stream"
#define MIME_BINARY_UNREADABLE "application/x-unreadable"
#define MIME_BINARY_ZEROSIZE "application/x-zerosize"
#define MIME_TEXT_UNKNOWN "text/plain"
#define MIME_TEXT_PLAIN "text/plain"
#define MIME_INODE_DIR "inode/directory"
#define MIME_INODE_CDEV "inode/chardevice"
#define MIME_INODE_BDEV "inode/blockdevice"
#define MIME_INODE_FIFO "inode/fifo"
#define MIME_INODE_LINK "inode/link"
#define MIME_INODE_SOCK "inode/socket"
// Following should go in magic-file - Fritz
#define MIME_APPL_TROFF "application/x-troff"
#define MIME_APPL_TAR "application/x-tar"
#define MIME_TEXT_FORTRAN "text/x-fortran"
#define MAXMIMESTRING 256
#define HOWMANY 4000 /* big enough to recognize most WWW files, and skip GPL-headers */
#define MAXDESC 50 /* max leng of text description */
#define MAXstring 64 /* max leng of "string" types */
typedef union VALUETYPE {
unsigned char b;
unsigned short h;
unsigned long l;
char s[MAXstring];
unsigned char hs[2]; /* 2 bytes of a fixed-endian "short" */
unsigned char hl[4]; /* 2 bytes of a fixed-endian "long" */
} VALUETYPE;
struct magic {
struct magic *next; /* link to next entry */
#ifdef DEBUG_LINENUMBERS
int lineno; /* line number from magic file - doesn't say from which one ;) */
#endif
short flag;
#define INDIR 1 /* if '>(...)' appears, */
#define UNSIGNED 2 /* comparison is unsigned */
short cont_level; /* level of ">" */
struct {
char type; /* byte short long */
long offset; /* offset from indirection */
} in;
long offset; /* offset to magic number */
unsigned char reln; /* relation (0=eq, '>'=gt, etc) */
char type; /* int, short, long or string. */
char vallen; /* length of string value, if any */
#define BYTE 1
#define SHORT 2
#define LONG 4
#define STRING 5
#define DATE 6
#define BESHORT 7
#define BELONG 8
#define BEDATE 9
#define LESHORT 10
#define LELONG 11
#define LEDATE 12
VALUETYPE value; /* either number or string */
unsigned long mask; /* mask before comparison with value */
char nospflag; /* suppress space character */
/* NOTE: this string is suspected of overrunning - find it! */
char desc[MAXDESC]; /* description */
};
/*
* data structures for tar file recognition
* --------------------------------------------------------------------------
* Header file for public domain tar (tape archive) program.
*
* @(#)tar.h 1.20 86/10/29 Public Domain. Created 25 August 1985 by John
* Gilmore, ihnp4!hoptoad!gnu.
*
* Header block on tape.
*
* I'm going to use traditional DP naming conventions here. A "block" is a big
* chunk of stuff that we do I/O on. A "record" is a piece of info that we
* care about. Typically many "record"s fit into a "block".
*/
#define RECORDSIZE 512
#define NAMSIZ 100
#define TUNMLEN 32
#define TGNMLEN 32
union record {
char charptr[RECORDSIZE];
struct header {
char name[NAMSIZ];
char mode[8];
char uid[8];
char gid[8];
char size[12];
char mtime[12];
char chksum[8];
char linkflag;
char linkname[NAMSIZ];
char magic[8];
char uname[TUNMLEN];
char gname[TGNMLEN];
char devmajor[8];
char devminor[8];
} header;
};
/* The magic field is filled with this if uname and gname are valid. */
#define TMAGIC "ustar " /* 7 chars and a null */
/*
* file-function prototypes
*/
static int is_tar(unsigned char *, int);
static unsigned long signextend(struct magic *, unsigned long);
static int getvalue(struct magic *, char **);
static int hextoint(int);
static char *getstr(char *, char *, int, int *);
static int mget(union VALUETYPE *, unsigned char *, struct magic *, int);
static int mcheck(union VALUETYPE *, struct magic *);
static int mconvert(union VALUETYPE *, struct magic *);
static long from_oct(int, char *);
/*
* includes for ASCII substring recognition formerly "names.h" in file
* command
*
* Original notes: names and types used by ascmagic in file(1).
* These tokens are
* here because they can appear anywhere in the first HOWMANY bytes, while
* tokens in /etc/magic must appear at fixed offsets into the file. Don't
* make HOWMANY too high unless you have a very fast CPU.
*/
/* these types are used calculate index to 'types': keep em in sync! */
/* HTML inserted in first because this is a web server module now */
/* ENG removed because stupid */
#define L_HTML 0x001 /* HTML */
#define L_C 0x002 /* first and foremost on UNIX */
#define L_MAKE 0x004 /* Makefiles */
#define L_PLI 0x008 /* PL/1 */
#define L_MACH 0x010 /* some kinda assembler */
#define L_PAS 0x020 /* Pascal */
#define L_JAVA 0x040 /* Java source */
#define L_CPP 0x080 /* C++ */
#define L_MAIL 0x100 /* Electronic mail */
#define L_NEWS 0x200 /* Usenet Netnews */
#define L_DIFF 0x400 /* Output of diff */
#define L_OBJC 0x800 /* Objective C */
// Note: this is not a type, it's just used to mark items that should count more
#define FLAG_STRONG 0x1000
#define P_HTML 0 /* HTML */
#define P_C 1 /* first and foremost on UNIX */
#define P_MAKE 2 /* Makefiles */
#define P_PLI 3 /* PL/1 */
#define P_MACH 4 /* some kinda assembler */
#define P_PAS 5 /* Pascal */
#define P_JAVA 6 /* Java source */
#define P_CPP 7 /* C++ */
#define P_MAIL 8 /* Electronic mail */
#define P_NEWS 9 /* Usenet Netnews */
#define P_DIFF 10 /* Output of diff */
#define P_OBJC 11 /* Objective C */
typedef struct asc_type {
const char *type;
int kwords;
double weight;
} asc_type;
static const asc_type types[] = {
{ "text/html", 19, 2 }, // 10 items but 10 different words only
{ "text/x-c", 13, 1 },
{ "text/x-makefile", 4, 1.9 },
{ "text/x-pli", 1, 3 },
{ "text/x-assembler", 6, 2.1 },
{ "text/x-pascal", 1, 1 },
{ "text/x-java", 12, 1 },
{ "text/x-c++", 19, 1 },
{ "message/rfc822", 4, 1.9 },
{ "message/news", 3, 2 },
{ "text/x-diff", 4, 2 },
{ "text/x-objc", 10, 1 }
};
#define NTYPES (sizeof(types)/sizeof(asc_type))
static struct names {
const char *name;
short type;
} const names[] = {
{
"<html", L_HTML | FLAG_STRONG
},
{
"<HTML", L_HTML | FLAG_STRONG
},
{
"<head", L_HTML
},
{
"<HEAD", L_HTML
},
{
"<body", L_HTML
},
{
"<BODY", L_HTML
},
{
"<title", L_HTML
},
{
"<TITLE", L_HTML
},
{
"<h1", L_HTML
},
{
"<H1", L_HTML
},
{
"<a", L_HTML
},
{
"<A", L_HTML
},
{
"<img", L_HTML
},
{
"<IMG", L_HTML
},
{
"<!--", L_HTML
},
{
"<!doctype", L_HTML
},
{
"<!DOCTYPE", L_HTML
},
{
"<div", L_HTML
},
{
"<DIV", L_HTML
},
{
"<frame", L_HTML
},
{
"<FRAME", L_HTML
},
{
"<frameset", L_HTML
},
{
"<FRAMESET", L_HTML
},
{
"<script", L_HTML | FLAG_STRONG
},
{
"<SCRIPT", L_HTML | FLAG_STRONG
},
{
"/*", L_C|L_CPP|L_JAVA|L_OBJC
},
{
"//", L_C|L_CPP|L_JAVA|L_OBJC
},
{
"#include", L_C|L_CPP
},
{
"#ifdef", L_C|L_CPP
},
{
"#ifndef", L_C|L_CPP
},
{
"bool", L_C|L_CPP
},
{
"char", L_C|L_CPP|L_JAVA|L_OBJC
},
{
"int", L_C|L_CPP|L_JAVA|L_OBJC
},
{
"float", L_C|L_CPP|L_JAVA|L_OBJC
},
{
"void", L_C|L_CPP|L_JAVA|L_OBJC
},
{
"extern", L_C|L_CPP
},
{
"struct", L_C|L_CPP
},
{
"union", L_C|L_CPP
},
{
"implements", L_JAVA
},
{
"super", L_JAVA
},
{
"import", L_JAVA
},
{
"class", L_CPP|L_JAVA
},
{
"public", L_CPP|L_JAVA
},
{
"private", L_CPP|L_JAVA
},
{
"explicit", L_CPP
},
{
"virtual", L_CPP
},
{
"namespace", L_CPP
},
{
"#import", L_OBJC
},
{
"@interface", L_OBJC
},
{
"@implementation", L_OBJC
},
{
"@protocol", L_OBJC
},
{
"CFLAGS", L_MAKE
},
{
"LDFLAGS", L_MAKE
},
{
"all:", L_MAKE
},
{
".PHONY:", L_MAKE
},
{
"srcdir", L_MAKE
},
{
"exec_prefix", L_MAKE
},
/*
* Too many files of text have these words in them. Find another way
* to recognize Fortrash.
*/
{
".ascii", L_MACH
},
{
".asciiz", L_MACH
},
{
".byte", L_MACH
},
{
".even", L_MACH
},
{
".globl", L_MACH
},
{
"clr", L_MACH
},
{
"(input", L_PAS
},
{
"dcl", L_PLI
},
{
"Received:", L_MAIL
},
/* we now stop at '>' for tokens, so this one won't work {
">From", L_MAIL
},*/
{
"Return-Path:", L_MAIL
},
{
"Cc:", L_MAIL
},
{
"Newsgroups:", L_NEWS
},
{
"Path:", L_NEWS
},
{
"Organization:", L_NEWS
},
{
"---", L_DIFF
},
{
"+++", L_DIFF
},
{
"***", L_DIFF
},
{
"@@", L_DIFF
},
{
NULL, 0
}
};
/**
* Configuration for the utime() problem.
* Here's the problem:
* By looking into a file to determine its mimetype, we change its "last access"
* time (atime) and this can have side effects, like files in /tmp never being
* cleaned up because of that. So in temp directories, we restore the atime.
* Since this changes the ctime (last change of attributes), we don't do that
* anywhere else, because that breaks archiving programs, that check the ctime.
* Hence this class, to configure the directories where the atime should be restored.
*/
class KMimeMagicUtimeConf
{
public:
KMimeMagicUtimeConf()
{
tmpDirs << TQString::fromLatin1("/tmp"); // default value
// The trick is that we also don't want the user to override globally set
// directories. So we have to misuse KStandardDirs :}
TQStringList confDirs = KGlobal::dirs()->resourceDirs( "config" );
if ( !confDirs.isEmpty() )
{
TQString globalConf = confDirs.last() + "kmimemagicrc";
if ( TQFile::exists( globalConf ) )
{
KSimpleConfig cfg( globalConf );
cfg.setGroup( "Settings" );
tmpDirs = cfg.readListEntry( "atimeDirs" );
}
if ( confDirs.count() > 1 )
{
TQString localConf = confDirs.first() + "kmimemagicrc";
if ( TQFile::exists( localConf ) )
{
KSimpleConfig cfg( localConf );
cfg.setGroup( "Settings" );
tmpDirs += cfg.readListEntry( "atimeDirs" );
}
}
for ( TQStringList::Iterator it = tmpDirs.begin() ; it != tmpDirs.end() ; ++it )
{
TQString dir = *it;
if ( !dir.isEmpty() && dir[ dir.length()-1 ] != '/' )
(*it) += '/';
}
}
#if 0
// debug code
for ( TQStringList::Iterator it = tmpDirs.begin() ; it != tmpDirs.end() ; ++it )
kdDebug(7018) << " atimeDir: " << *it << endl;
#endif
}
bool restoreAccessTime( const TQString & file ) const
{
TQString dir = file.left( file.findRev( '/' ) );
bool res = tmpDirs.contains( dir );
//kdDebug(7018) << "restoreAccessTime " << file << " dir=" << dir << " result=" << res << endl;
return res;
}
TQStringList tmpDirs;
};
/* current config */
struct config_rec {
bool followLinks;
TQString resultBuf;
int accuracy;
struct magic *magic, /* head of magic config list */
*last;
KMimeMagicUtimeConf * utimeConf;
};
#ifdef MIME_MAGIC_DEBUG_TABLE
static void
test_table()
{
struct magic *m;
struct magic *prevm = NULL;
kdDebug(7018) << "test_table : started" << endl;
for (m = conf->magic; m; m = m->next) {
if (isprint((((unsigned long) m) >> 24) & 255) &&
isprint((((unsigned long) m) >> 16) & 255) &&
isprint((((unsigned long) m) >> 8) & 255) &&
isprint(((unsigned long) m) & 255)) {
//debug("test_table: POINTER CLOBBERED! "
//"m=\"%c%c%c%c\" line=%d",
(((unsigned long) m) >> 24) & 255,
(((unsigned long) m) >> 16) & 255,
(((unsigned long) m) >> 8) & 255,
((unsigned long) m) & 255,
prevm ? prevm->lineno : -1);
break;
}
prevm = m;
}
}
#endif
#define EATAB {while (isascii((unsigned char) *l) && \
isspace((unsigned char) *l)) ++l;}
int KMimeMagic::parse_line(char *line, int *rule, int lineno)
{
int ws_offset;
/* delete newline */
if (line[0]) {
line[strlen(line) - 1] = '\0';
}
/* skip leading whitespace */
ws_offset = 0;
while (line[ws_offset] && isspace(line[ws_offset])) {
ws_offset++;
}
/* skip blank lines */
if (line[ws_offset] == 0) {
return 0;
}
/* comment, do not parse */
if (line[ws_offset] == '#')
return 0;
/* if we get here, we're going to use it so count it */
(*rule)++;
/* parse it */
return (parse(line + ws_offset, lineno) != 0);
}
/*
* apprentice - load configuration from the magic file.
*/
int KMimeMagic::apprentice( const TQString& magicfile )
{
FILE *f;
char line[BUFSIZ + 1];
int errs = 0;
int lineno;
int rule = 0;
TQCString fname;
if (magicfile.isEmpty())
return -1;
fname = TQFile::encodeName(magicfile);
f = fopen(fname, "r");
if (f == NULL) {
kdError(7018) << "can't read magic file " << fname.data() << ": " << strerror(errno) << endl;
return -1;
}
/* parse it */
for (lineno = 1; fgets(line, BUFSIZ, f) != NULL; lineno++)
if (parse_line(line, &rule, lineno))
errs++;
fclose(f);
#ifdef DEBUG_APPRENTICE
kdDebug(7018) << "apprentice: conf=" << conf << " file=" << magicfile << " m=" << (conf->magic ? "set" : "NULL") << " m->next=" << ((conf->magic && conf->magic->next) ? "set" : "NULL") << " last=" << (conf->last ? "set" : "NULL") << endl;
kdDebug(7018) << "apprentice: read " << lineno << " lines, " << rule << " rules, " << errs << " errors" << endl;
#endif
#ifdef MIME_MAGIC_DEBUG_TABLE
test_table();
#endif
return (errs ? -1 : 0);
}
int KMimeMagic::buff_apprentice(char *buff)
{
char line[BUFSIZ + 2];
int errs = 0;
int lineno = 1;
char *start = buff;
char *end;
int count = 0;
int rule = 0;
int len = strlen(buff) + 1;
/* parse it */
do {
count = (len > BUFSIZ-1)?BUFSIZ-1:len;
strncpy(line, start, count);
line[count] = '\0';
if ((end = strchr(line, '\n'))) {
*(++end) = '\0';
count = strlen(line);
} else
strcat(line, "\n");
start += count;
len -= count;
if (parse_line(line, &rule, lineno))
errs++;
lineno++;
} while (len > 0);
#ifdef DEBUG_APPRENTICE
kdDebug(7018) << "buff_apprentice: conf=" << conf << " m=" << (conf->magic ? "set" : "NULL") << " m->next=" << ((conf->magic && conf->magic->next) ? "set" : "NULL") << " last=" << (conf->last ? "set" : "NULL") << endl;
kdDebug(7018) << "buff_apprentice: read " << lineno << " lines, " << rule << " rules, " << errs << " errors" << endl;
#endif
#ifdef MIME_MAGIC_DEBUG_TABLE
test_table();
#endif
return (errs ? -1 : 0);
}
/*
* extend the sign bit if the comparison is to be signed
*/
static unsigned long
signextend(struct magic *m, unsigned long v)
{
if (!(m->flag & UNSIGNED))
switch (m->type) {
/*
* Do not remove the casts below. They are vital.
* When later compared with the data, the sign
* extension must have happened.
*/
case BYTE:
v = (char) v;
break;
case SHORT:
case BESHORT:
case LESHORT:
v = (short) v;
break;
case DATE:
case BEDATE:
case LEDATE:
case LONG:
case BELONG:
case LELONG:
v = (long) v;
break;
case STRING:
break;
default:
kdError(7018) << "" << "signextend" << ": can't happen: m->type=" << m->type << endl;
return 998; //good value
}
return v;
}
/*
* parse one line from magic file, put into magic[index++] if valid
*/
int KMimeMagic::parse(char *l, int
#ifdef DEBUG_LINENUMBERS
lineno
#endif
)
{
int i = 0;
struct magic *m;
char *t,
*s;
/* allocate magic structure entry */
if ((m = (struct magic *) calloc(1, sizeof(struct magic))) == NULL) {
kdError(7018) << "parse: Out of memory." << endl;
return -1;
}
/* append to linked list */
m->next = NULL;
if (!conf->magic || !conf->last) {
conf->magic = conf->last = m;
} else {
conf->last->next = m;
conf->last = m;
}
/* set values in magic structure */
m->flag = 0;
m->cont_level = 0;
#ifdef DEBUG_LINENUMBERS
m->lineno = lineno;
#endif
while (*l == '>') {
++l; /* step over */
m->cont_level++;
}
if (m->cont_level != 0 && *l == '(') {
++l; /* step over */
m->flag |= INDIR;
}
/* get offset, then skip over it */
m->offset = (int) strtol(l, &t, 0);
if (l == t) {
kdError(7018) << "parse: offset " << l << " invalid" << endl;
}
l = t;
if (m->flag & INDIR) {
m->in.type = LONG;
m->in.offset = 0;
/*
* read [.lbs][+-]nnnnn)
*/
if (*l == '.') {
switch (*++l) {
case 'l':
m->in.type = LONG;
break;
case 's':
m->in.type = SHORT;
break;
case 'b':
m->in.type = BYTE;
break;
default:
kdError(7018) << "parse: indirect offset type " << *l << " invalid" << endl;
break;
}
l++;
}
s = l;
if (*l == '+' || *l == '-')
l++;
if (isdigit((unsigned char) *l)) {
m->in.offset = strtol(l, &t, 0);
if (*s == '-')
m->in.offset = -m->in.offset;
} else
t = l;
if (*t++ != ')') {
kdError(7018) << "parse: missing ')' in indirect offset" << endl;
}
l = t;
}
while (isascii((unsigned char) *l) && isdigit((unsigned char) *l))
++l;
EATAB;
#define NBYTE 4
#define NSHORT 5
#define NLONG 4
#define NSTRING 6
#define NDATE 4
#define NBESHORT 7
#define NBELONG 6
#define NBEDATE 6
#define NLESHORT 7
#define NLELONG 6
#define NLEDATE 6
if (*l == 'u') {
++l;
m->flag |= UNSIGNED;
}
/* get type, skip it */
if (strncmp(l, "byte", NBYTE) == 0) {
m->type = BYTE;
l += NBYTE;
} else if (strncmp(l, "short", NSHORT) == 0) {
m->type = SHORT;
l += NSHORT;
} else if (strncmp(l, "long", NLONG) == 0) {
m->type = LONG;
l += NLONG;
} else if (strncmp(l, "string", NSTRING) == 0) {
m->type = STRING;
l += NSTRING;
} else if (strncmp(l, "date", NDATE) == 0) {
m->type = DATE;
l += NDATE;
} else if (strncmp(l, "beshort", NBESHORT) == 0) {
m->type = BESHORT;
l += NBESHORT;
} else if (strncmp(l, "belong", NBELONG) == 0) {
m->type = BELONG;
l += NBELONG;
} else if (strncmp(l, "bedate", NBEDATE) == 0) {
m->type = BEDATE;
l += NBEDATE;
} else if (strncmp(l, "leshort", NLESHORT) == 0) {
m->type = LESHORT;
l += NLESHORT;
} else if (strncmp(l, "lelong", NLELONG) == 0) {
m->type = LELONG;
l += NLELONG;
} else if (strncmp(l, "ledate", NLEDATE) == 0) {
m->type = LEDATE;
l += NLEDATE;
} else {
kdError(7018) << "parse: type " << l << " invalid" << endl;
return -1;
}
/* New-style anding: "0 byte&0x80 =0x80 dynamically linked" */
if (*l == '&') {
++l;
m->mask = signextend(m, strtol(l, &l, 0));
} else
m->mask = (unsigned long) ~0L;
EATAB;
switch (*l) {
case '>':
case '<':
/* Old-style anding: "0 byte &0x80 dynamically linked" */
case '&':
case '^':
case '=':
m->reln = *l;
++l;
break;
case '!':
if (m->type != STRING) {
m->reln = *l;
++l;
break;
}
/* FALL THROUGH */
default:
if (*l == 'x' && isascii((unsigned char) l[1]) &&
isspace((unsigned char) l[1])) {
m->reln = *l;
++l;
goto GetDesc; /* Bill The Cat */
}
m->reln = '=';
break;
}
EATAB;
if (getvalue(m, &l))
return -1;
/*
* now get last part - the description
*/
GetDesc:
EATAB;
if (l[0] == '\b') {
++l;
m->nospflag = 1;
} else if ((l[0] == '\\') && (l[1] == 'b')) {
++l;
++l;
m->nospflag = 1;
} else
m->nospflag = 0;
// Copy description - until EOL or '#' (for comments)
while (*l != '\0' && *l != '#' && i < MAXDESC-1)
m->desc[i++] = *l++;
m->desc[i] = '\0';
// Remove trailing spaces
while (--i>0 && isspace( m->desc[i] ))
m->desc[i] = '\0';
// old code
//while ((m->desc[i++] = *l++) != '\0' && i < MAXDESC) /* NULLBODY */ ;
#ifdef DEBUG_APPRENTICE
kdDebug(7018) << "parse: line=" << lineno << " m=" << m << " next=" << m->next << " cont=" << m->cont_level << " desc=" << (m->desc ? m->desc : "NULL") << endl;
#endif
return 0;
}
/*
* Read a numeric value from a pointer, into the value union of a magic
* pointer, according to the magic type. Update the string pointer to point
* just after the number read. Return 0 for success, non-zero for failure.
*/
static int
getvalue(struct magic *m, char **p)
{
int slen;
if (m->type == STRING) {
*p = getstr(*p, m->value.s, sizeof(m->value.s), &slen);
m->vallen = slen;
} else if (m->reln != 'x')
m->value.l = signextend(m, strtol(*p, p, 0));
return 0;
}
/*
* Convert a string containing C character escapes. Stop at an unescaped
* space or tab. Copy the converted version to "p", returning its length in
* *slen. Return updated scan pointer as function result.
*/
static char *
getstr(register char *s, register char *p, int plen, int *slen)
{
char *origs = s,
*origp = p;
char *pmax = p + plen - 1;
register int c;
register int val;
while ((c = *s++) != '\0') {
if (isspace((unsigned char) c))
break;
if (p >= pmax) {
kdError(7018) << "String too long: " << origs << endl;
break;
}
if (c == '\\') {
switch (c = *s++) {
case '\0':
goto out;
default:
*p++ = (char) c;
break;
case 'n':
*p++ = '\n';
break;
case 'r':
*p++ = '\r';
break;
case 'b':
*p++ = '\b';
break;
case 't':
*p++ = '\t';
break;
case 'f':
*p++ = '\f';
break;
case 'v':
*p++ = '\v';
break;
/* \ and up to 3 octal digits */
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
val = c - '0';
c = *s++; /* try for 2 */
if (c >= '0' && c <= '7') {
val = (val << 3) | (c - '0');
c = *s++; /* try for 3 */
if (c >= '0' && c <= '7')
val = (val << 3) | (c - '0');
else
--s;
} else
--s;
*p++ = (char) val;
break;
/* \x and up to 3 hex digits */
case 'x':
val = 'x'; /* Default if no digits */
c = hextoint(*s++); /* Get next char */
if (c >= 0) {
val = c;
c = hextoint(*s++);
if (c >= 0) {
val = (val << 4) + c;
c = hextoint(*s++);
if (c >= 0) {
val = (val << 4) + c;
} else
--s;
} else
--s;
} else
--s;
*p++ = (char) val;
break;
}
} else
*p++ = (char) c;
}
out:
*p = '\0';
*slen = p - origp;
//for ( char* foo = origp; foo < p ; ++foo )
// kdDebug(7018) << " " << *foo << endl;
return s;
}
/* Single hex char to int; -1 if not a hex char. */
static int
hextoint(int c)
{
if (!isascii((unsigned char) c))
return -1;
if (isdigit((unsigned char) c))
return c - '0';
if ((c >= 'a') && (c <= 'f'))
return c + 10 - 'a';
if ((c >= 'A') && (c <= 'F'))
return c + 10 - 'A';
return -1;
}
/*
* Convert the byte order of the data we are looking at
*/
static int
mconvert(union VALUETYPE *p, struct magic *m)
{
switch (m->type) {
case BYTE:
return 1;
case STRING:
/* Null terminate */
p->s[sizeof(p->s) - 1] = '\0';
return 1;
#ifndef WORDS_BIGENDIAN
case SHORT:
#endif
case BESHORT:
p->h = (short) ((p->hs[0] << 8) | (p->hs[1]));
return 1;
#ifndef WORDS_BIGENDIAN
case LONG:
case DATE:
#endif
case BELONG:
case BEDATE:
p->l = (long)
((p->hl[0] << 24) | (p->hl[1] << 16) | (p->hl[2] << 8) | (p->hl[3]));
return 1;
#ifdef WORDS_BIGENDIAN
case SHORT:
#endif
case LESHORT:
p->h = (short) ((p->hs[1] << 8) | (p->hs[0]));
return 1;
#ifdef WORDS_BIGENDIAN
case LONG:
case DATE:
#endif
case LELONG:
case LEDATE:
p->l = (long)
((p->hl[3] << 24) | (p->hl[2] << 16) | (p->hl[1] << 8) | (p->hl[0]));
return 1;
default:
kdError(7018) << "mconvert: invalid type " << m->type << endl;
return 0;
}
}
static int
mget(union VALUETYPE *p, unsigned char *s, struct magic *m,
int nbytes)
{
long offset = m->offset;
switch ( m->type )
{
case BYTE:
if ( offset + 1 > nbytes-1 ) // nbytes = (size of file) + 1
return 0;
break;
case SHORT:
case BESHORT:
case LESHORT:
if ( offset + 2 > nbytes-1 )
return 0;
break;
case LONG:
case BELONG:
case LELONG:
case DATE:
case BEDATE:
case LEDATE:
if ( offset + 4 > nbytes-1 )
return 0;
break;
case STRING:
break;
}
// The file length might be < sizeof(union VALUETYPE) (David)
// -> pad with zeros (the 'file' command does it this way)
// Thanks to Stan Covington <stan@calderasystems.com> for detailed report
if (offset + (int)sizeof(union VALUETYPE) > nbytes)
{
int have = nbytes - offset;
memset(p, 0, sizeof(union VALUETYPE));
if (have > 0)
memcpy(p, s + offset, have);
} else
memcpy(p, s + offset, sizeof(union VALUETYPE));
if (!mconvert(p, m))
return 0;
if (m->flag & INDIR) {
switch (m->in.type) {
case BYTE:
offset = p->b + m->in.offset;
break;
case SHORT:
offset = p->h + m->in.offset;
break;
case LONG:
offset = p->l + m->in.offset;
break;
}
if (offset + (int)sizeof(union VALUETYPE) > nbytes)
return 0;
memcpy(p, s + offset, sizeof(union VALUETYPE));
if (!mconvert(p, m))
return 0;
}
return 1;
}
static int
mcheck(union VALUETYPE *p, struct magic *m)
{
register unsigned long l = m->value.l;
register unsigned long v;
int matched;
if ((m->value.s[0] == 'x') && (m->value.s[1] == '\0')) {
kdError(7018) << "BOINK" << endl;
return 1;
}
switch (m->type) {
case BYTE:
v = p->b;
break;
case SHORT:
case BESHORT:
case LESHORT:
v = p->h;
break;
case LONG:
case BELONG:
case LELONG:
case DATE:
case BEDATE:
case LEDATE:
v = p->l;
break;
case STRING:
l = 0;
/*
* What we want here is: v = strncmp(m->value.s, p->s,
* m->vallen); but ignoring any nulls. bcmp doesn't give
* -/+/0 and isn't universally available anyway.
*/
v = 0;
{
register unsigned char *a = (unsigned char *) m->value.s;
register unsigned char *b = (unsigned char *) p->s;
register int len = m->vallen;
Q_ASSERT(len);
while (--len >= 0)
if ((v = *b++ - *a++) != 0)
break;
}
break;
default:
kdError(7018) << "mcheck: invalid type " << m->type << endl;
return 0; /* NOTREACHED */
}
#if 0
tqDebug("Before signextend %08x", v);
#endif
v = signextend(m, v) & m->mask;
#if 0
tqDebug("After signextend %08x", v);
#endif
switch (m->reln) {
case 'x':
matched = 1;
break;
case '!':
matched = v != l;
break;
case '=':
matched = v == l;
break;
case '>':
if (m->flag & UNSIGNED)
matched = v > l;
else
matched = (long) v > (long) l;
break;
case '<':
if (m->flag & UNSIGNED)
matched = v < l;
else
matched = (long) v < (long) l;
break;
case '&':
matched = (v & l) == l;
break;
case '^':
matched = (v & l) != l;
break;
default:
matched = 0;
kdError(7018) << "mcheck: can't happen: invalid relation " << m->reln << "." << endl;
break; /* NOTREACHED */
}
return matched;
}
/*
* magic_process - process input file fn. Opens the file and reads a
* fixed-size buffer to begin processing the contents.
*/
void process(struct config_rec* conf, const TQString & fn)
{
int fd = 0;
unsigned char buf[HOWMANY + 1]; /* one extra for terminating '\0' */
KDE_struct_stat sb;
int nbytes = 0; /* number of bytes read from a datafile */
int tagbytes = 0; /* size of prefixed tag */
TQCString fileName = TQFile::encodeName( fn );
/*
* first try judging the file based on its filesystem status
*/
if (fsmagic(conf, fileName, &sb) != 0) {
//resultBuf += "\n";
return;
}
if ((fd = KDE_open(fileName, O_RDONLY)) < 0) {
/* We can't open it, but we were able to stat it. */
/*
* if (sb.st_mode & 0002) addResult("writable, ");
* if (sb.st_mode & 0111) addResult("executable, ");
*/
//kdDebug(7018) << "can't read `" << fn << "' (" << strerror(errno) << ")." << endl;
conf->resultBuf = MIME_BINARY_UNREADABLE;
return;
}
/*
* try looking at the first HOWMANY bytes
*/
if ((nbytes = read(fd, (char *) buf, HOWMANY)) == -1) {
kdError(7018) << "" << fn << " read failed (" << strerror(errno) << ")." << endl;
conf->resultBuf = MIME_BINARY_UNREADABLE;
(void)close(fd);
return;
}
if ((tagbytes = tagmagic(buf, nbytes))) {
// Read buffer at new position
lseek(fd, tagbytes, SEEK_SET);
nbytes = read(fd, (char*)buf, HOWMANY);
if (nbytes < 0) {
conf->resultBuf = MIME_BINARY_UNREADABLE;
(void)close(fd);
return;
}
}
if (nbytes == 0) {
conf->resultBuf = MIME_BINARY_ZEROSIZE;
} else {
buf[nbytes++] = '\0'; /* null-terminate it */
tryit(conf, buf, nbytes);
}
if ( conf->utimeConf && conf->utimeConf->restoreAccessTime( fn ) )
{
/*
* Try to restore access, modification times if read it.
* This changes the "change" time (ctime), but we can't do anything
* about that.
*/
struct utimbuf utbuf;
utbuf.actime = sb.st_atime;
utbuf.modtime = sb.st_mtime;
(void) utime(fileName, &utbuf);
}
(void) close(fd);
}
static void tryit(struct config_rec* conf, unsigned char *buf, int nb)
{
/* try tests in /etc/magic (or surrogate magic file) */
if (match(conf, buf, nb))
return;
/* try known keywords, check for ascii-ness too. */
if (ascmagic(conf, buf, nb) == 1)
return;
/* see if it's plain text */
if (textmagic(conf, buf, nb))
return;
/* abandon hope, all ye who remain here */
conf->resultBuf = MIME_BINARY_UNKNOWN;
conf->accuracy = 0;
}
static int
fsmagic(struct config_rec* conf, const char *fn, KDE_struct_stat *sb)
{
int ret = 0;
/*
* Fstat is cheaper but fails for files you don't have read perms on.
* On 4.2BSD and similar systems, use lstat() to identify symlinks.
*/
ret = KDE_lstat(fn, sb); /* don't merge into if; see "ret =" above */
if (ret) {
return 1;
}
/*
* if (sb->st_mode & S_ISUID) resultBuf += "setuid ";
* if (sb->st_mode & S_ISGID) resultBuf += "setgid ";
* if (sb->st_mode & S_ISVTX) resultBuf += "sticky ";
*/
switch (sb->st_mode & S_IFMT) {
case S_IFDIR:
conf->resultBuf = MIME_INODE_DIR;
return 1;
case S_IFCHR:
conf->resultBuf = MIME_INODE_CDEV;
return 1;
case S_IFBLK:
conf->resultBuf = MIME_INODE_BDEV;
return 1;
/* TODO add code to handle V7 MUX and Blit MUX files */
#ifdef S_IFIFO
case S_IFIFO:
conf->resultBuf = MIME_INODE_FIFO;
return 1;
#endif
#ifdef S_IFLNK
case S_IFLNK:
{
char buf[BUFSIZ + BUFSIZ + 4];
register int nch;
KDE_struct_stat tstatbuf;
if ((nch = readlink(fn, buf, BUFSIZ - 1)) <= 0) {
conf->resultBuf = MIME_INODE_LINK;
//conf->resultBuf += "\nunreadable";
return 1;
}
buf[nch] = '\0'; /* readlink(2) forgets this */
/* If broken symlink, say so and quit early. */
if (*buf == '/') {
if (KDE_stat(buf, &tstatbuf) < 0) {
conf->resultBuf = MIME_INODE_LINK;
//conf->resultBuf += "\nbroken";
return 1;
}
} else {
char *tmp;
char buf2[BUFSIZ + BUFSIZ + 4];
strncpy(buf2, fn, BUFSIZ);
buf2[BUFSIZ] = 0;
if ((tmp = strrchr(buf2, '/')) == NULL) {
tmp = buf; /* in current dir */
} else {
/* dir part plus (rel.) link */
*++tmp = '\0';
strcat(buf2, buf);
tmp = buf2;
}
if (KDE_stat(tmp, &tstatbuf) < 0) {
conf->resultBuf = MIME_INODE_LINK;
//conf->resultBuf += "\nbroken";
return 1;
} else
strcpy(buf, tmp);
}
if (conf->followLinks)
process( conf, TQFile::decodeName( buf ) );
else
conf->resultBuf = MIME_INODE_LINK;
return 1;
}
return 1;
#endif
#ifdef S_IFSOCK
#ifndef __COHERENT__
case S_IFSOCK:
conf->resultBuf = MIME_INODE_SOCK;
return 1;
#endif
#endif
case S_IFREG:
break;
default:
kdError(7018) << "KMimeMagic::fsmagic: invalid mode 0" << sb->st_mode << "." << endl;
/* NOTREACHED */
}
/*
* regular file, check next possibility
*/
if (sb->st_size == 0) {
conf->resultBuf = MIME_BINARY_ZEROSIZE;
return 1;
}
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.
*/
static int
match(struct config_rec* conf, unsigned char *s, int nbytes)
{
int cont_level = 0;
union VALUETYPE p;
struct magic *m;
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "match: conf=" << conf << " m=" << (conf->magic ? "set" : "NULL") << " m->next=" << ((conf->magic && conf->magic->next) ? "set" : "NULL") << " last=" << (conf->last ? "set" : "NULL") << endl;
for (m = conf->magic; m; m = m->next) {
if (isprint((((unsigned long) m) >> 24) & 255) &&
isprint((((unsigned long) m) >> 16) & 255) &&
isprint((((unsigned long) m) >> 8) & 255) &&
isprint(((unsigned long) m) & 255)) {
kdDebug(7018) << "match: POINTER CLOBBERED! " << endl;
break;
}
}
#endif
for (m = conf->magic; m; m = m->next) {
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "match: line=" << m->lineno << " desc=" << m->desc << endl;
#endif
memset(&p, 0, sizeof(union VALUETYPE));
/* check if main entry matches */
if (!mget(&p, s, m, nbytes) ||
!mcheck(&p, m)) {
struct magic *m_cont;
/*
* main entry didn't match, flush its continuations
*/
if (!m->next || (m->next->cont_level == 0)) {
continue;
}
m_cont = m->next;
while (m_cont && (m_cont->cont_level != 0)) {
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "match: line=" << m->lineno << " cont=" << m_cont->cont_level << " mc=" << m_cont->lineno << " mc->next=" << m_cont << " " << endl;
#endif
/*
* this trick allows us to keep *m in sync
* when the continue advances the pointer
*/
m = m_cont;
m_cont = m_cont->next;
}
continue;
}
/* if we get here, the main entry rule was a match */
/* this will be the last run through the loop */
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "match: rule matched, line=" << m->lineno << " type=" << m->type << " " << ((m->type == STRING) ? m->value.s : "") << endl;
#endif
/* remember the match */
conf->resultBuf = m->desc;
cont_level++;
/*
* while (m && m->next && m->next->cont_level != 0 && ( m =
* m->next ))
*/
m = m->next;
while (m && (m->cont_level != 0)) {
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "match: line=" << m->lineno << " cont=" << m->cont_level << " type=" << m->type << " " << ((m->type == STRING) ? m->value.s : "") << endl;
#endif
if (cont_level >= m->cont_level) {
if (cont_level > m->cont_level) {
/*
* We're at the end of the level
* "cont_level" continuations.
*/
cont_level = m->cont_level;
}
if (mget(&p, s, m, nbytes) &&
mcheck(&p, m)) {
/*
* This continuation matched. Print
* its message, with a blank before
* it if the previous item printed
* and this item isn't empty.
*/
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "continuation matched" << endl;
#endif
conf->resultBuf = m->desc;
cont_level++;
}
}
/* move to next continuation record */
m = m->next;
}
// KDE-specific: need an actual mimetype for a real match
// If we only matched a rule with continuations but no mimetype, it's not a match
if ( !conf->resultBuf.isEmpty() )
{
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "match: matched" << endl;
#endif
return 1; /* all through */
}
}
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "match: failed" << endl;
#endif
return 0; /* no match at all */
}
// Try to parse prefixed tags before matching on content
// Sofar only ID3v2 tags (<=.4) are handled
static int tagmagic(unsigned char *buf, int nbytes)
{
if(nbytes<40) return 0;
if(buf[0] == 'I' && buf[1] == 'D' && buf[2] == '3') {
int size = 10;
// Sanity (known version, no unknown flags)
if(buf[3] > 4) return 0;
if(buf[5] & 0x0F) return 0;
// Tag has v4 footer
if(buf[5] & 0x10) size += 10;
// Calculated syncsafe size
size += buf[9];
size += buf[8] << 7;
size += buf[7] << 14;
size += buf[6] << 21;
return size;
}
return 0;
}
struct Token {
char *data;
int length;
};
struct Tokenizer
{
Tokenizer(char* buf, int nbytes) {
data = buf;
length = nbytes;
pos = 0;
}
bool isNewLine() {
return newline;
}
Token* nextToken() {
if (pos == 0)
newline = true;
else
newline = false;
token.data = data+pos;
token.length = 0;
while(pos<length) {
switch (data[pos]) {
case '\n':
newline = true;
case '\0':
case '\t':
case ' ':
case '\r':
case '\f':
case ',':
case ';':
case '>':
if (token.length == 0) token.data++;
else
return &token;
break;
default:
token.length++;
}
pos++;
}
return &token;
}
private:
Token token;
char* data;
int length;
int pos;
bool newline;
};
/* an optimization over plain strcmp() */
//#define STREQ(a, b) (*(a) == *(b) && strcmp((a), (b)) == 0)
static inline bool STREQ(const Token *token, const char *b) {
const char *a = token->data;
int len = token->length;
if (a == b) return true;
while(*a && *b && len > 0) {
if (*a != *b) return false;
a++; b++; len--;
}
return (len == 0 && *b == 0);
}
static int ascmagic(struct config_rec* conf, unsigned char *buf, int nbytes)
{
int i;
double pct, maxpct, pctsum;
double pcts[NTYPES];
int mostaccurate, tokencount;
int typeset, jonly, conly, jconly, objconly, cpponly;
int has_escapes = 0;
//unsigned char *s;
//char nbuf[HOWMANY + 1]; /* one extra for terminating '\0' */
/* these are easy, do them first */
conf->accuracy = 70;
/*
* for troff, look for . + letter + letter or .\"; this must be done
* to disambiguate tar archives' ./file and other trash from real
* troff input.
*/
if (*buf == '.') {
unsigned char *tp = buf + 1;
while (isascii(*tp) && isspace(*tp))
++tp; /* skip leading whitespace */
if ((isascii(*tp) && (isalnum(*tp) || *tp == '\\') &&
isascii(*(tp + 1)) && (isalnum(*(tp + 1)) || *tp == '"'))) {
conf->resultBuf = MIME_APPL_TROFF;
return 1;
}
}
if ((*buf == 'c' || *buf == 'C') &&
isascii(*(buf + 1)) && isspace(*(buf + 1))) {
/* Fortran */
conf->resultBuf = MIME_TEXT_FORTRAN;
return 1;
}
assert(nbytes-1 < HOWMANY + 1);
/* look for tokens - this is expensive! */
has_escapes = (memchr(buf, '\033', nbytes) != NULL);
Tokenizer tokenizer((char*)buf, nbytes);
const Token* token;
bool linecomment = false, blockcomment = false;
const struct names *p;
int typecount[NTYPES];
/*
* Fritz:
* Try a little harder on C/C++/Java.
*/
memset(&typecount, 0, sizeof(typecount));
typeset = 0;
jonly = 0;
conly = 0;
jconly = 0;
objconly = 0;
cpponly = 0;
tokencount = 0;
bool foundClass = false; // mandatory for java
// first collect all possible types and count matches
// we stop at '>' too, because of "<title>blah</title>" on HTML pages
while ((token = tokenizer.nextToken())->length > 0) {
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "KMimeMagic::ascmagic token=" << token << endl;
#endif
if (linecomment && tokenizer.isNewLine())
linecomment = false;
if (blockcomment && STREQ(token, "*/")) {
blockcomment = false;
continue;
}
for (p = names; p->name ; p++) {
if (STREQ(token, p->name)) {
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "KMimeMagic::ascmagic token matches ! name=" << p->name << " type=" << p->type << endl;
#endif
tokencount++;
typeset |= p->type;
if(p->type & (L_C|L_CPP|L_JAVA|L_OBJC)) {
if (linecomment || blockcomment) {
continue;
}
else {
switch(p->type & (L_C|L_CPP|L_JAVA|L_OBJC))
{
case L_JAVA:
jonly++;
break;
case L_OBJC:
objconly++;
break;
case L_CPP:
cpponly++;
break;
case (L_CPP|L_JAVA):
jconly++;
if ( !foundClass && STREQ(token, "class") )
foundClass = true;
break;
case (L_C|L_CPP):
conly++;
break;
default:
if (STREQ(token, "//")) linecomment = true;
if (STREQ(token, "/*")) blockcomment = true;
}
}
}
for (i = 0; i < (int)NTYPES; i++) {
if ((1 << i) & p->type) typecount[i]+= p->type & FLAG_STRONG ? 2 : 1;
}
}
}
}
if (typeset & (L_C|L_CPP|L_JAVA|L_OBJC)) {
conf->accuracy = 60;
if (!(typeset & ~(L_C|L_CPP|L_JAVA|L_OBJC))) {
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "C/C++/Java/ObjC: jonly=" << jonly << " conly=" << conly << " jconly=" << jconly << " objconly=" << objconly << endl;
#endif
if (jonly > 1 && foundClass) {
// At least two java-only tokens have matched, including "class"
conf->resultBuf = TQString(types[P_JAVA].type);
return 1;
}
if (jconly > 1) {
// At least two non-C (only C++ or Java) token have matched.
if (typecount[P_JAVA] < typecount[P_CPP])
conf->resultBuf = TQString(types[P_CPP].type);
else
conf->resultBuf = TQString(types[P_JAVA].type);
return 1;
}
if (conly + cpponly > 1) {
// Either C or C++.
if (cpponly > 0)
conf->resultBuf = TQString(types[P_CPP].type);
else
conf->resultBuf = TQString(types[P_C].type);
return 1;
}
if (objconly > 0) {
conf->resultBuf = TQString(types[P_OBJC].type);
return 1;
}
}
}
/* Neither C, C++ or Java (or all of them without able to distinguish):
* Simply take the token-class with the highest
* matchcount > 0
*/
mostaccurate = -1;
maxpct = pctsum = 0.0;
for (i = 0; i < (int)NTYPES; i++) {
if (typecount[i] > 1) { // one word is not enough, we need at least two
pct = (double)typecount[i] / (double)types[i].kwords *
(double)types[i].weight;
pcts[i] = pct;
pctsum += pct;
if (pct > maxpct) {
maxpct = pct;
mostaccurate = i;
}
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "" << types[i].type << " has " << typecount[i] << " hits, " << types[i].kwords << " kw, weight " << types[i].weight << ", " << pct << " -> max = " << maxpct << "\n" << endl;
#endif
}
}
if (mostaccurate >= 0) {
if ( mostaccurate != P_JAVA || foundClass ) // 'class' mandatory for java
{
conf->accuracy = (int)(pcts[mostaccurate] / pctsum * 60);
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "mostaccurate=" << mostaccurate << " pcts=" << pcts[mostaccurate] << " pctsum=" << pctsum << " accuracy=" << conf->accuracy << endl;
#endif
conf->resultBuf = TQString(types[mostaccurate].type);
return 1;
}
}
switch (is_tar(buf, nbytes)) {
case 1:
/* V7 tar archive */
conf->resultBuf = MIME_APPL_TAR;
conf->accuracy = 90;
return 1;
case 2:
/* POSIX tar archive */
conf->resultBuf = MIME_APPL_TAR;
conf->accuracy = 90;
return 1;
}
for (i = 0; i < nbytes; i++) {
if (!isascii(*(buf + i)))
return 0; /* not all ascii */
}
/* all else fails, but it is ascii... */
conf->accuracy = 90;
if (has_escapes) {
/* text with escape sequences */
/* we leave this open for further differentiation later */
conf->resultBuf = MIME_TEXT_UNKNOWN;
} else {
/* plain text */
conf->resultBuf = MIME_TEXT_PLAIN;
}
return 1;
}
/* Maximal length of a line we consider "reasonable". */
#define TEXT_MAXLINELEN 300
// This code is taken from the "file" command, where it is licensed
// in the "beer-ware license" :-)
// Original author: <joerg@FreeBSD.ORG>
// Simplified by David Faure to avoid the static array char[256].
static int textmagic(struct config_rec* conf, unsigned char * buf, int nbytes)
{
int i;
unsigned char *cp;
nbytes--;
/* First, look whether there are "unreasonable" characters. */
for (i = 0, cp = buf; i < nbytes; i++, cp++)
if ((*cp < 8) || (*cp>13 && *cp<32 && *cp!=27 ) || (*cp==0x7F))
return 0;
/* Now, look whether the file consists of lines of
* "reasonable" length. */
for (i = 0; i < nbytes;) {
cp = (unsigned char *) memchr(buf, '\n', nbytes - i);
if (cp == NULL) {
/* Don't fail if we hit the end of buffer. */
if (i + TEXT_MAXLINELEN >= nbytes)
break;
else
return 0;
}
if (cp - buf > TEXT_MAXLINELEN)
return 0;
i += (cp - buf + 1);
buf = cp + 1;
}
conf->resultBuf = MIME_TEXT_PLAIN;
return 1;
}
/*
* is_tar() -- figure out whether file is a tar archive.
*
* Stolen (by author of file utility) from the public domain tar program: Public
* Domain version written 26 Aug 1985 John Gilmore (ihnp4!hoptoad!gnu).
*
* @(#)list.c 1.18 9/23/86 Public Domain - gnu $Id: mod_mime_magic.c,v 1.7
* 1997/06/24 00:41:02 ikluft Exp ikluft $
*
* Comments changed and some code/comments reformatted for file command by Ian
* Darwin.
*/
#define isodigit(c) ( ((c) >= '0') && ((c) <= '7') )
/*
* Return 0 if the checksum is bad (i.e., probably not a tar archive), 1 for
* old UNIX tar file, 2 for Unix Std (POSIX) tar file.
*/
static int
is_tar(unsigned char *buf, int nbytes)
{
register union record *header = (union record *) buf;
register int i;
register long sum,
recsum;
register char *p;
if (nbytes < (int)sizeof(union record))
return 0;
recsum = from_oct(8, header->header.chksum);
sum = 0;
p = header->charptr;
for (i = sizeof(union record); --i >= 0;) {
/*
* We can't use unsigned char here because of old compilers,
* e.g. V7.
*/
sum += 0xFF & *p++;
}
/* Adjust checksum to count the "chksum" field as blanks. */
for (i = sizeof(header->header.chksum); --i >= 0;)
sum -= 0xFF & header->header.chksum[i];
sum += ' ' * sizeof header->header.chksum;
if (sum != recsum)
return 0; /* Not a tar archive */
if (0 == strcmp(header->header.magic, TMAGIC))
return 2; /* Unix Standard tar archive */
return 1; /* Old fashioned tar archive */
}
/*
* Quick and dirty octal conversion.
*
* Result is -1 if the field is invalid (all blank, or nonoctal).
*/
static long
from_oct(int digs, char *where)
{
register long value;
while (isspace(*where)) { /* Skip spaces */
where++;
if (--digs <= 0)
return -1; /* All blank field */
}
value = 0;
while (digs > 0 && isodigit(*where)) { /* Scan til nonoctal */
value = (value << 3) | (*where++ - '0');
--digs;
}
if (digs > 0 && *where && !isspace(*where))
return -1; /* Ended on non-space/nul */
return value;
}
KMimeMagic::KMimeMagic()
{
// Magic file detection init
TQString mimefile = locate( "mime", "magic" );
init( mimefile );
// Add snippets from share/config/magic/*
TQStringList snippets = KGlobal::dirs()->findAllResources( "config", "magic/*.magic", true );
for ( TQStringList::Iterator it = snippets.begin() ; it != snippets.end() ; ++it )
if ( !mergeConfig( *it ) )
kdWarning() << k_funcinfo << "Failed to parse " << *it << endl;
}
KMimeMagic::KMimeMagic(const TQString & _configfile)
{
init( _configfile );
}
void KMimeMagic::init( const TQString& _configfile )
{
int result;
conf = new config_rec;
/* set up the magic list (empty) */
conf->magic = conf->last = NULL;
magicResult = NULL;
conf->followLinks = false;
conf->utimeConf = 0L; // created on demand
/* on the first time through we read the magic file */
result = apprentice(_configfile);
if (result == -1)
return;
#ifdef MIME_MAGIC_DEBUG_TABLE
test_table();
#endif
}
/*
* The destructor.
* Free the magic-table and other resources.
*/
KMimeMagic::~KMimeMagic()
{
if (conf) {
struct magic *p = conf->magic;
struct magic *q;
while (p) {
q = p;
p = p->next;
free(q);
}
delete conf->utimeConf;
delete conf;
}
delete magicResult;
}
bool
KMimeMagic::mergeConfig(const TQString & _configfile)
{
kdDebug(7018) << k_funcinfo << _configfile << endl;
int result;
if (_configfile.isEmpty())
return false;
result = apprentice(_configfile);
if (result == -1) {
return false;
}
#ifdef MIME_MAGIC_DEBUG_TABLE
test_table();
#endif
return true;
}
bool
KMimeMagic::mergeBufConfig(char * _configbuf)
{
int result;
if (conf) {
result = buff_apprentice(_configbuf);
if (result == -1)
return false;
#ifdef MIME_MAGIC_DEBUG_TABLE
test_table();
#endif
return true;
}
return false;
}
void
KMimeMagic::setFollowLinks( bool _enable )
{
conf->followLinks = _enable;
}
KMimeMagicResult *
KMimeMagic::findBufferType(const TQByteArray &array)
{
unsigned char buf[HOWMANY + 1]; /* one extra for terminating '\0' */
conf->resultBuf = TQString::null;
if ( !magicResult )
magicResult = new KMimeMagicResult();
magicResult->setInvalid();
conf->accuracy = 100;
int nbytes = array.size();
if (nbytes > HOWMANY)
nbytes = HOWMANY;
memcpy(buf, array.data(), nbytes);
if (nbytes == 0) {
conf->resultBuf = MIME_BINARY_ZEROSIZE;
} else {
buf[nbytes++] = '\0'; /* null-terminate it */
tryit(conf, buf, nbytes);
}
/* if we have any results, put them in the request structure */
magicResult->setMimeType(conf->resultBuf.stripWhiteSpace());
magicResult->setAccuracy(conf->accuracy);
return magicResult;
}
static void
refineResult(KMimeMagicResult *r, const TQString & _filename)
{
TQString tmp = r->mimeType();
if (tmp.isEmpty())
return;
if ( tmp == "text/x-c" || tmp == "text/x-objc" )
{
if ( _filename.right(2) == ".h" )
tmp += "hdr";
else
tmp += "src";
r->setMimeType(tmp);
}
else
if ( tmp == "text/x-c++" )
{
if ( _filename.endsWith(".h")
|| _filename.endsWith(".hh")
|| _filename.endsWith(".H")
|| !_filename.right(4).contains('.'))
tmp += "hdr";
else
tmp += "src";
r->setMimeType(tmp);
}
else
if ( tmp == "application/x-sharedlib" )
{
if ( _filename.find( ".so" ) == -1 )
{
tmp = "application/x-executable";
r->setMimeType( tmp );
}
}
}
KMimeMagicResult *
KMimeMagic::findBufferFileType( const TQByteArray &data,
const TQString &fn)
{
KMimeMagicResult * r = findBufferType( data );
refineResult(r, fn);
return r;
}
/*
* Find the content-type of the given file.
*/
KMimeMagicResult* KMimeMagic::findFileType(const TQString & fn)
{
#ifdef DEBUG_MIMEMAGIC
kdDebug(7018) << "KMimeMagic::findFileType " << fn << endl;
#endif
conf->resultBuf = TQString::null;
if ( !magicResult )
magicResult = new KMimeMagicResult();
magicResult->setInvalid();
conf->accuracy = 100;
if ( !conf->utimeConf )
conf->utimeConf = new KMimeMagicUtimeConf();
/* process it based on the file contents */
process(conf, fn );
/* if we have any results, put them in the request structure */
//finishResult();
magicResult->setMimeType(conf->resultBuf.stripWhiteSpace());
magicResult->setAccuracy(conf->accuracy);
refineResult(magicResult, fn);
return magicResult;
}