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For whatever reason, MinGW's gcc can't seem to find the '#define' block for this variable. The full error is

.../mapped.c:396:28: error: '_zzip_strcasecmp' undeclared (first use in this function)

Contents of mapped.c :

/*
 * NOTE: this is part of libzzipmmapped (i.e. it is not libzzip).
 *                                            ==================
 *
 * These routines are fully independent from the traditional zzip
 * implementation. They assume a readonly mmapped sharedmem block
 * representing a complete zip file. The functions show how to 
 * parse the structure, find files and return a decoded bytestream.
 *
 * These routines are a bit simple and really here for documenting
 * the way to access a zip file. The complexity of zip access comes
 * from staggered reading of bytes and reposition of a filepointer in
 * a big archive with lots of files and long compressed datastreams.
 * Plus varaints of drop-in stdio replacements, obfuscation routines,
 * auto fileextensions, drop-in dirent replacements, and so on...
 *
 * Author: 
 *      Guido Draheim <guidod@gmx.de>
 *
 * Copyright (c) 2003,2004,2006 Guido Draheim
 *          All rights reserved,
 *          use under the restrictions of the 
 *          Lesser GNU General Public License
 *          or alternatively the restrictions 
 *          of the Mozilla Public License 1.1
 */

#define _ZZIP_DISK_FILE_STRUCT 1

#ifdef __linux__
#define _GNU_SOURCE _glibc_developers_are_idiots_to_call_strndup_gnu_specific_
#endif

#include <zzip/mmapped.h>
#include <zzip/format.h>
#include <zzip/fetch.h>
#include <zzip/__mmap.h>
#include <zzip/__fnmatch.h>

#include <stdlib.h>
#include <sys/stat.h>

#if   defined ZZIP_HAVE_UNISTD_H
#include <unistd.h>
#elif defined ZZIP_HAVE_IO_H
#include <io.h>
#endif

#if   defined ZZIP_HAVE_STRING_H
#include <string.h>
#elif defined ZZIP_HAVE_STRINGS_H
#include <strings.h>
#endif


#if __STDC_VERSION__+0 > 199900L
#define ___
#define ____
#else
#define ___ {
#define ____ }
#endif

/** => zzip_disk_mmap
 * This function does primary initialization of a disk-buffer struct.
 */
int
zzip_disk_init(ZZIP_DISK* disk, void* buffer, zzip_size_t buflen)
{
    disk->buffer = (zzip_byte_t*) buffer;
    disk->endbuf = (zzip_byte_t*) buffer + buflen;
    disk->reserved = 0;
    disk->flags = 0;
    disk->mapped = 0;
    /* do not touch disk->user */
    /* do not touch disk->code */
    return 0;
}

/** => zzip_disk_mmap
 * This function allocates a new disk-buffer with => malloc(3)
 */
zzip__new__ ZZIP_DISK*
zzip_disk_new(void)
{
    ZZIP_DISK* disk = malloc(sizeof(disk));
    if (! disk) return disk;
    zzip_disk_init (disk, 0, 0);
    return disk;
}

/** turn a filehandle into a mmapped zip disk archive handle
 *
 * This function uses the given file-descriptor to detect the length of the 
 * file and calls the system => mmap(2) to put it in main memory. If it is
 * successful then a newly allocated ZZIP_DISK* is returned with 
 * disk->buffer pointing to the mapview of the zipdisk content.
 */
zzip__new__ ZZIP_DISK*
zzip_disk_mmap(int fd)
{
    struct stat st;
    if (fstat (fd, &st) || ! st.st_size) return 0;
    ___ ZZIP_DISK* disk = zzip_disk_new (); if (! disk) return 0;
    disk->buffer = _zzip_mmap (& disk->mapped, fd, 0, st.st_size);
    if (disk->buffer == MAP_FAILED) { free (disk); return 0; }
    disk->endbuf = disk->buffer + st.st_size;
    return disk; ____;
}

/** => zzip_disk_mmap
 * This function is the inverse of => zzip_disk_mmap and using the system
 * munmap(2) on the buffer area and => free(3) on the ZZIP_DISK structure.
 */
int
zzip_disk_munmap(ZZIP_DISK* disk)
{
    if (! disk) return 0;
    _zzip_munmap (disk->mapped, disk->buffer, disk->endbuf-disk->buffer);
    free (disk);
    return 0;
}

/** => zzip_disk_mmap
 *
 * This function opens the given archive by name and turn the filehandle 
 * to  => zzip_disk_mmap for bringing it to main memory. If it can not
 * be => mmap(2)'ed then we slurp the whole file into a newly => malloc(2)'ed
 * memory block. Only if that fails too then we return null. Since handling
 * of disk->buffer is ambigous it should not be snatched away please.
 */
ZZIP_DISK* zzip__new__
zzip_disk_open(char* filename)
{
#  ifndef O_BINARY
#  define O_BINARY 0
#  endif
    struct stat st;
    if (stat (filename, &st) || ! st.st_size) return 0;
    ___ int fd = open (filename, O_RDONLY|O_BINARY);
    if (fd <= 0) return 0;
    ___ ZZIP_DISK* disk = zzip_disk_mmap (fd);
    if (disk) return disk;
    ___ zzip_byte_t* buffer = malloc (st.st_size);
    if (! buffer) return 0;
    if ((st.st_size == read (fd, buffer, st.st_size)) &&
    (disk = zzip_disk_new ())) 
    {
    disk->buffer = buffer;
    disk->endbuf = buffer+st.st_size;
    disk->mapped = -1;
    }else free (buffer);
    return disk; ____;____;____;
}

/** => zzip_disk_mmap
 * 
 * This function will release all data needed to access a (mmapped)
 * zip archive, including any malloc()ed blocks, sharedmem mappings
 * and it dumps the handle struct as well.
 */
int
zzip_disk_close(ZZIP_DISK* disk)
{
    if (! disk) return 0;
    if (disk->mapped != -1) return zzip_disk_munmap (disk);
    free (disk->buffer);
    free (disk);
    return 0;
}

/* ====================================================================== */
/*                      helper functions                                  */

#ifdef ZZIP_HAVE_STRNDUP
#define _zzip_strndup strndup
#else
/* if your system does not have strndup: */
zzip__new__ static char* _zzip_strndup(char* p, size_t maxlen)
{
    if (! p) return 0;
    ___ zzip_byte_t* r = malloc (maxlen+1);
    if (! r) return r;
    strncpy (r, p, maxlen);
    r[maxlen] = '\0';
    return r; ____;
}
#endif

#if defined ZZIP_HAVE_STRCASECMP || defined strcasecmp
#define _zzip_strcasecmp strcasecmp
#else
/* if your system does not have strcasecmp: */
static int _zzip_strcasecmp(char* __zzip_restrict a, char* _zzip_restrict b)
{
    if (! a) return (b) ? 1 : 0;
    if (! b) return -1;
    while (1) 
    {
    int v = tolower(*a) - tolower(*b);
    if (v) return v;
    if (! *a) return 1;
    if (! *b) return -1;
    a++; b++;
    }
}
#endif

/** helper functions for (mmapped) zip access api
 *
 * This function augments the other zzip_disk_entry_* helpers: here we move 
 * a disk_entry pointer (as returned by _find* functions) into a pointer to
 * the data block right after the file_header. Only disk->buffer would be
 * needed to perform the seek but we check the mmapped range end as well.
 */
zzip_byte_t*
zzip_disk_entry_to_data(ZZIP_DISK* disk, struct zzip_disk_entry* entry)
{
    struct zzip_file_header* file = 
    zzip_disk_entry_to_file_header(disk, entry);
    if (file) return zzip_file_header_to_data (file);
    return 0;
}

/** => zzip_disk_entry_to_data
 * This function does half the job of => zzip_disk_entry_to_data where it
 * can augment with => zzip_file_header_to_data helper from format/fetch.h
 */
struct zzip_file_header*
zzip_disk_entry_to_file_header(ZZIP_DISK* disk, struct zzip_disk_entry* entry)
{
    zzip_byte_t* file_header = /* (struct zzip_file_header*) */
    (disk->buffer + zzip_disk_entry_fileoffset (entry));
    if (disk->buffer > file_header || file_header >= disk->endbuf) 
    return 0;
    return (struct zzip_file_header*) file_header;
}

/** => zzip_disk_entry_to_data
 * This function is a big helper despite its little name: in a zip file the
 * encoded filenames are usually NOT zero-terminated but for common usage
 * with libc we need it that way. Secondly, the filename SHOULD be present
 * in the zip central directory but if not then we fallback to the filename
 * given in the file_header of each compressed data portion.
 */
zzip__new__ char*
zzip_disk_entry_strdup_name(ZZIP_DISK* disk, struct zzip_disk_entry* entry)
{
    if (! disk || ! entry) return 0;

    ___ char* name; zzip_size_t len;
    struct zzip_file_header* file;
    if ((len = zzip_disk_entry_namlen (entry)))
    name = zzip_disk_entry_to_filename (entry);
    else if ((file = zzip_disk_entry_to_file_header (disk, entry)) &&
         (len = zzip_file_header_namlen (file)))
    name = zzip_file_header_to_filename (file);
    else
    return 0;

    if ((zzip_byte_t*) name < disk->buffer || 
    (zzip_byte_t*) name+len > disk->endbuf)
    return 0;

    return  _zzip_strndup (name, len); ____;
}

/** => zzip_disk_entry_to_data
 * This function is similar creating a reference to a zero terminated
 * string but it can only exist in the zip central directory entry.
 */
zzip__new__ char*
zzip_disk_entry_strdup_comment(ZZIP_DISK* disk, struct zzip_disk_entry* entry)
{
    if (! disk || ! entry) return 0;

    ___ char* text; zzip_size_t len;
    if ((len = zzip_disk_entry_comment (entry)))
    text = zzip_disk_entry_to_comment (entry);
    else
    return 0;

    if ((zzip_byte_t*) text < disk->buffer || 
    (zzip_byte_t*) text+len > disk->endbuf)
    return 0;

    return  _zzip_strndup (text, len); ____;
}

/* ====================================================================== */

/** => zzip_disk_findfile
 *
 * This function is the first call of all the zip access functions here.
 * It contains the code to find the first entry of the zip central directory. 
 * Here we require the mmapped block to represent a real zip file where the
 * disk_trailer is _last_ in the file area, so that its position would be at 
 * a fixed offset from the end of the file area if not for the comment field 
 * allowed to be of variable length (which needs us to do a little search
 * for the disk_tailer). However, in this simple implementation we disregard 
 * any disk_trailer info telling about multidisk archives, so we just return
 * a pointer to the zip central directory.
 * 
 * For an actual means, we are going to search backwards from the end 
 * of the mmaped block looking for the PK-magic signature of a 
 * disk_trailer. If we see one then we check the rootseek value to
 * find the first disk_entry of the root central directory. If we find
 * the correct PK-magic signature of a disk_entry over there then we 
 * assume we are done and we are going to return a pointer to that label.
 *
 * The return value is a pointer to the first zzip_disk_entry being checked
 * to be within the bounds of the file area specified by the arguments. If
 * no disk_trailer was found then null is returned, and likewise we only 
 * accept a disk_trailer with a seekvalue that points to a disk_entry and 
 * both parts have valid PK-magic parts. Beyond some sanity check we try to
 * catch a common brokeness with zip archives that still allows us to find
 * the start of the zip central directory.
 */
struct zzip_disk_entry*
zzip_disk_findfirst(ZZIP_DISK* disk)
{
    if (disk->buffer > disk->endbuf-sizeof(struct zzip_disk_trailer))
    return 0;
    ___ zzip_byte_t* p = disk->endbuf-sizeof(struct zzip_disk_trailer);
    for (; p >= disk->buffer ; p--)
    {
    zzip_byte_t* root; /* (struct zzip_disk_entry*) */
    if (zzip_disk_trailer_check_magic(p)) {
        root =  disk->buffer + zzip_disk_trailer_get_rootseek (
        (struct zzip_disk_trailer*)p);
        if (root > p) 
        {   /* the first disk_entry is after the disk_trailer? can't be! */
        zzip_size_t rootsize = zzip_disk_trailer_get_rootsize (
            (struct zzip_disk_trailer*)p);
        if (disk->buffer+rootsize > p) continue;
        /* a common brokeness that can be fixed: we just assume the
         * central directory was written directly before the trailer:*/
        root = p - rootsize;
        }
    } else if (zzip_disk64_trailer_check_magic(p)) {
        if (sizeof(void*) < 8) return 0; /* EOVERFLOW */
        root =  disk->buffer + zzip_disk64_trailer_get_rootseek (
        (struct zzip_disk64_trailer*)p);
        if (root > p) continue; 
    } else continue;

    if (root < disk->buffer) continue;
    if (zzip_disk_entry_check_magic(root)) 
        return (struct zzip_disk_entry*) root;
    }____;
    return 0;
}

/** => zzip_disk_findfile
 *
 * This function takes an existing disk_entry in the central root directory
 * (e.g. from zzip_disk_findfirst) and returns the next entry within in
 * the given bounds of the mmapped file area.
 */
struct zzip_disk_entry*
zzip_disk_findnext(ZZIP_DISK* disk, struct zzip_disk_entry* entry)
{
    if ((zzip_byte_t*)entry < disk->buffer || 
    (zzip_byte_t*)entry > disk->endbuf-sizeof(entry) ||
    ! zzip_disk_entry_check_magic (entry) ||
    zzip_disk_entry_sizeto_end (entry) > 64*1024)
    return 0;
    entry = zzip_disk_entry_to_next_entry (entry);
    if ((zzip_byte_t*)entry > disk->endbuf-sizeof(entry) ||
    ! zzip_disk_entry_check_magic (entry) ||
    zzip_disk_entry_sizeto_end (entry) > 64*1024 ||
    zzip_disk_entry_skipto_end (entry) + sizeof(entry) > disk->endbuf)
    return 0;
    else
    return entry;
}

/** search for files in the (mmapped) zip central directory
 *
 * This function is given a filename as an additional argument, to find the 
 * disk_entry matching a given filename. The compare-function is usually 
 * strcmp or strcasecmp or perhaps strcoll, if null then strcmp is used. 
 * - use null as argument for "after"-entry when searching the first 
 * matching entry, otherwise the last returned value if you look for other
 * entries with a special "compare" function (if null then a doubled search
 * is rather useless with this variant of _findfile).
 */
struct zzip_disk_entry*
zzip_disk_findfile(ZZIP_DISK* disk, char* filename, 
            struct zzip_disk_entry* after, zzip_strcmp_fn_t compare)
{
    struct zzip_disk_entry* entry = (! after ? zzip_disk_findfirst (disk) 
                     : zzip_disk_findnext (disk, after));
    if (! compare) 
    compare = (zzip_strcmp_fn_t)( (disk->flags&1) ? 
                      (_zzip_strcasecmp) : (strcmp));
    for (; entry ; entry = zzip_disk_findnext (disk, entry))
    {
    /* filenames within zip files are often not null-terminated! */
    char* realname = zzip_disk_entry_strdup_name (disk, entry);
    if (realname && ! compare(filename, realname))
    {
        free (realname);
        return entry;
    }
    free (realname);
    }
    return 0;
}

/** => zzip_disk_findfile
 *
 * This function uses a compare-function with an additional argument
 * and it is called just like fnmatch(3) from POSIX.2 AD:1993), i.e.
 * the argument filespec first and the ziplocal filename second with
 * the integer-flags put in as third to the indirect call. If the
 * platform has fnmatch available then null-compare will use that one
 * and otherwise we fall back to mere strcmp, so if you need fnmatch
 * searching then please provide an implementation somewhere else.
 * - use null as argument for "after"-entry when searching the first 
 * matching entry, or the last disk_entry return-value to find the
 * next entry matching the given filespec.
 */
struct zzip_disk_entry*
zzip_disk_findmatch(ZZIP_DISK* disk, char* filespec, 
            struct zzip_disk_entry* after,
            zzip_fnmatch_fn_t compare, int flags)
{
    struct zzip_disk_entry* entry = (! after ? zzip_disk_findfirst (disk) 
                     : zzip_disk_findnext (disk, after));
    if (! compare) { 
    compare = (zzip_fnmatch_fn_t) _zzip_fnmatch; 
    if (disk->flags&1) disk->flags |= _zzip_fnmatch_CASEFOLD;
    }
    for (; entry ; entry = zzip_disk_findnext (disk, entry))
    {
    /* filenames within zip files are often not null-terminated! */
    char* realname = zzip_disk_entry_strdup_name(disk, entry);
    if (realname && ! compare(filespec, realname, flags))
    {
        free (realname);
        return entry;
    }
    free (realname);
    }
    return 0;
}

/* ====================================================================== */

/** => zzip_disk_fopen
 *
 * the ZZIP_DISK_FILE* is rather simple in just encapsulating the
 * arguments given to this function plus a zlib deflate buffer.
 * Note that the ZZIP_DISK pointer does already contain the full
 * mmapped file area of a zip disk, so open()ing a file part within
 * that area happens to be a lookup of its bounds and encoding. That
 * information is memorized on the ZZIP_DISK_FILE so that subsequent
 * _read() operations will be able to get the next data portion or
 * return an eof condition for that file part wrapped in the zip archive.
 */
zzip__new__ ZZIP_DISK_FILE*
zzip_disk_entry_fopen (ZZIP_DISK* disk, ZZIP_DISK_ENTRY* entry)
{
    /* keep this in sync with zzip_mem_entry_fopen */
    struct zzip_file_header* header = 
    zzip_disk_entry_to_file_header (disk, entry);
    if (! header) return 0;
    ___ ZZIP_DISK_FILE* file = malloc(sizeof(ZZIP_DISK_FILE));
    if (! file) return file;
    file->buffer = disk->buffer;
    file->endbuf = disk->endbuf;
    file->avail = zzip_file_header_usize (header);

    if (! file->avail || zzip_file_header_data_stored (header))
    { file->stored = zzip_file_header_to_data (header); return file; }

    file->stored = 0;
    file->zlib.opaque = 0;
    file->zlib.zalloc = Z_NULL;
    file->zlib.zfree = Z_NULL;
    file->zlib.avail_in = zzip_file_header_csize (header);
    file->zlib.next_in = zzip_file_header_to_data (header);

    if (! zzip_file_header_data_deflated(header) ||
        inflateInit2(&file->zlib, -MAX_WBITS) != Z_OK)
        { free (file); return 0; }

    return file;
    ____;
}

/** openening a file part wrapped within a (mmapped) zip archive
 *
 * This function opens a file found by name, so it does a search into
 * the zip central directory with => zzip_disk_findfile and whatever
 * is found first is given to => zzip_disk_entry_fopen
 */
zzip__new__ ZZIP_DISK_FILE*
zzip_disk_fopen (ZZIP_DISK* disk, char* filename)
{
    ZZIP_DISK_ENTRY* entry = zzip_disk_findfile (disk, filename, 0, 0);
    if (! entry) return 0; else return zzip_disk_entry_fopen (disk, entry);
}


/** => zzip_disk_fopen
 *
 * This function reads more bytes into the output buffer specified as
 * arguments. The return value is null on eof or error, the stdio-like
 * interface can not distinguish between these so you need to check
 * with => zzip_disk_feof for the difference.
 */
zzip_size_t
zzip_disk_fread (void* ptr, zzip_size_t sized, zzip_size_t nmemb,
         ZZIP_DISK_FILE* file)
{
    zzip_size_t size = sized*nmemb;
    if (size > file->avail) size = file->avail;
    if (file->stored)
    {
    memcpy (ptr, file->stored, size);
    file->stored += size;
    file->avail -= size;
    return size;
    }

    file->zlib.avail_out = sized*nmemb;
    file->zlib.next_out = ptr;
    ___ zzip_size_t total_old = file->zlib.total_out;
    ___ int err = inflate (& file->zlib, Z_NO_FLUSH);
    if (err == Z_STREAM_END)
    file->avail = 0;
    else if (err == Z_OK)
    file->avail -= file->zlib.total_out - total_old;
    else
    return 0;
    return file->zlib.total_out - total_old;
    ____;____;
}

/** => zzip_disk_fopen
 * This function releases any zlib decoder info needed for decompression
 * and dumps the ZZIP_DISK_FILE* then.
 */
int
zzip_disk_fclose (ZZIP_DISK_FILE* file)
{
    if (! file->stored)
    inflateEnd (& file->zlib);
    free (file);
    return 0;
}

/** => zzip_disk_fopen
 *
 * This function allows to distinguish an error from an eof condition. 
 * Actually, if we found an error but we did already reach eof then we
 * just keep on saying that it was an eof, so the app can just continue.
 */ 
int
zzip_disk_feof (ZZIP_DISK_FILE* file)
{
    return ! file || ! file->avail;
}

Does anyone have any idea what's going on? Sorry if it may look obvious to some of you, I'm a newbie with this stuff.

Thanks!

Edit: Since I couldn't figure what's wrong, I decided to use the visual studio solution that came with the source code and I finally managed to build it successfully. Thanks to everyone who tried to help me with this.

share|improve this question
1  
The fact that you said "'#define' block for this variable" could be a clue. Variables are not defined via #define. #define is for preprocessor macros. Unfortunately, I (and probably most others) don't want to read that much code without knowing where the error is. –  Kendall Frey Sep 15 '13 at 0:30
1  
You could try removing the #if defined stuff and just use the static int _zzip_strcasecmp function in the code. If you still see a compile error, something strange is going on. –  Fred Sep 15 '13 at 0:56
    
@Fred: Thanks for the suggestion but I tried that already and it still can't find it, I really don't know what can be wrong here it's very strange ... –  user2779657 Sep 15 '13 at 1:25
1  
use gcc -E to see what the preprocessor is producing. –  Jim Balter Sep 15 '13 at 2:30
    
To analyse this issue a cotext is needed. Typically the way the invloved transaltion units are compiled. –  alk Sep 15 '13 at 9:53

1 Answer 1

up vote 4 down vote accepted

The reason for your error is that in C language names enclosed in () are not treated as macros. That's actually a feature of the language that exists specifically for that purpose: to give you an opportunity to "ignore" macro definitions when you want to.

When you attempt to compile the code with GCC, it appears that strcasecmp is available. The true branch of the #if is taken by the compiler, which means that _zzip_strcasecmp gets defined as a macro

#define _zzip_strcasecmp strcasecmp

This will work fine as long as you call it as

_zzip_strcasecmp( /* whatever */ )

But this will not work when you refer to it as (_zzip_strcasecmp) here

compare = (zzip_strcmp_fn_t)( (disk->flags&1) ? 
                  (_zzip_strcasecmp) : (strcmp));

The compiler sees (_zzip_strcasecmp) as a request to ignore macros when looking for _zzip_strcasecmp. The compiler will look for non-macro definition of _zzip_strcasecmp and fail with the error message, since such definition does not exist.

When you compile in Visual Siudio, strcasecmp is not available. The false branch of the #if is taken and _zzip_strcasecmp gets defined internally as an ordinary function. So, everything works fine.

One way to fix it for macro version is to remove these excessive () around function names in the problematic erroneous statement

compare = (zzip_strcmp_fn_t)( (disk->flags&1) ? 
                _zzip_strcasecmp : strcmp);

This should compile in GCC assuming strcasecmp is really available there.

I don't know why they put these superfluous () in the original version. Might be an instance of "rampant parenthesizing" and misguided "better safe than sorry" sentiment. Might actually be done intentionally to prevent use of macros in this context (in which case the bad guy is whoever wrote that #if).

share|improve this answer
    
Thanks a lot for such a great explanation and even though I already compiled it with VC I might try this again with gcc in a few days to confirm this. –  user2779657 Sep 15 '13 at 18:54

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