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|
/*
* NOTE: this is part of libzzipfseeko (i.e. it is not libzzip).
* ==================
*
* These routines are fully independent from the traditional zzip
* implementation. They assume a readonly seekable stdio handle
* 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...
*
* btw, we can _not_ use fgetpos/fsetpos since an fpos_t has no asserted
* relation to a linear seek value as specified in zip info headers. In
* general it is not a problem if your system has no fseeko/ftello pair
* since we can fallback to fseek/ftell which limits the zip disk size
* to 2MiBs but the zip-storable seek values are 32bit limited anyway.
*
* Author:
* Guido Draheim <guidod@gmx.de>
*
* Copyright (c) Guido Draheim, use under copyleft (LGPL,MPL)
*/
#define _LARGEFILE_SOURCE 1
#define _ZZIP_ENTRY_STRUCT 1
#include <zzip/fseeko.h>
#include <zzip/fetch.h>
#include <zzip/__mmap.h>
#include <zzip/__fnmatch.h>
#include <stdlib.h>
#include <sys/stat.h>
#if defined ZZIP_HAVE_STRING_H
#include <string.h>
#elif defined ZZIP_HAVE_STRINGS_H
#include <strings.h>
#endif
#if defined ZZIP_HAVE_STDINT_H
#include <stdint.h>
#endif
#if __STDC_VERSION__+0 > 199900L
#define ___
#define ____
#else
#define ___ {
#define ____ }
#endif
#ifndef ZZIP_HAVE_FSEEKO
#define fseeko fseek
#define ftello ftell
#endif
/* note that the struct zzip_entry inherits the zzip_disk_entry values
* and usually carries a copy of its values (in disk format!). To make the
* following code more readable, we use a shorthand notation for the
* upcast needed in C (not needed in C++) as "disk_(entry)".
*/
#ifdef __zzip_entry_extends_zzip_disk_entry
#define disk_(_entry_) _entry_
#else
#define disk_(_entry_) (& (_entry_)->head)
#endif
/* we try to round all seeks to the pagesize - since we do not use
* the sys/mmap interface we have to guess a good value here: */
#define PAGESIZE 8192
#ifdef DEBUG
#define debug1(msg) do { fprintf(stderr, "%s : " msg "\n", __func__); } while(0)
#define debug2(msg, arg1) do { fprintf(stderr, "%s : " msg "\n", __func__, arg1); } while(0)
#define debug3(msg, arg1, arg2) do { fprintf(stderr, "%s : " msg "\n", __func__, arg1, arg2); } while(0)
#define debug4(msg, arg1, arg2, arg3) do { fprintf(stderr, "%s : " msg "\n", __func__, arg1, arg2, arg3); } while(0)
#else
#define debug1(msg)
#define debug2(msg, arg1)
#define debug3(msg, arg1, arg2)
#define debug4(msg, arg1, arg2, arg3)
#endif
/* ====================================================================== */
/* helper functions */
/** => zzip_entry_data_offset
* This functions read the correspoding struct zzip_file_header from
* the zip disk of the given "entry". The returned off_t points to the
* end of the file_header where the current fseek pointer has stopped.
* This is used to immediatly parse out any filename/extras block following
* the file_header.
*
* Returns zero on error. (errno = EINVAL|EBADMSG|EBADF|EIO)
*/
static zzip_off_t
zzip_entry_fread_file_header(ZZIP_ENTRY * entry,
struct zzip_file_header *file_header)
{
if (! entry || ! file_header)
{
errno = EINVAL;
return 0;
}
___ zzip_off_t offset = zzip_disk_entry_fileoffset(disk_(entry));
if (0 > offset || offset >= entry->disksize)
{
errno = EBADMSG;
return 0;
}
if (fseeko(entry->diskfile, offset, SEEK_SET) == -1)
{
debug2("fseeko failed: %s", strerror(errno));
return 0; /* EBADF */
}
___ zzip_size_t n = fread(file_header, 1, sizeof(*file_header), entry->diskfile);
if (n < sizeof(*file_header))
{
debug4("fread failed: at offset %llu got %i instead of %i",
(long long) offset, n, sizeof(*file_header));
errno = ferror(entry->diskfile) ? EBADF : EIO;
return 0;
}
____;
return offset + sizeof(*file_header);
____;
}
/** helper functions for (fseeko) zip access api
*
* This functions returns the seekval offset of the data portion of the
* file referenced by the given zzip_entry. It requires an intermediate
* check of the file_header structure (i.e. it reads it from disk). After
* this call, the contained diskfile readposition is already set to the
* data_offset returned here.
*
* Returns -1 on error. (errno = EINVAL|EBADMSG)
*/
zzip_off_t
zzip_entry_data_offset(ZZIP_ENTRY * entry)
{
struct zzip_file_header file_header;
if (! entry)
{
errno = EINVAL;
return -1;
}
___ zzip_off_t offset = zzip_entry_fread_file_header(entry, &file_header);
if (! offset)
{
return -1; /* EBADMSG */
}
offset += zzip_file_header_sizeof_tails(&file_header);
if (fseeko(entry->diskfile, offset, SEEK_SET) == -1)
{
return -1; /* EBADF */
}
return offset;
____;
}
/** => zzip_entry_data_offset
* 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.
*
* returns: new string buffer, null on error (errno = EINVAL|ENOMEM|EBADMSG)
*/
zzip__new__ char *
zzip_entry_strdup_name(ZZIP_ENTRY * entry)
{
if (! entry)
{
errno = EINVAL;
return 0;
}
___ zzip_size_t len;
if ((len = zzip_disk_entry_namlen(disk_(entry))))
{
char *name = malloc(len + 1);
if (! name)
{
return 0; /* ENOMEM */
}
memcpy(name, entry->tail, len);
name[len] = '\0';
return name;
}
___ auto struct zzip_file_header header;
if (zzip_entry_fread_file_header(entry, &header)
&& (len = zzip_file_header_namlen(&header)))
{
char *name = malloc(len + 1);
if (! name) {
return 0; /* ENOMEM */
}
___ zzip_size_t n = fread(name, 1, len, entry->diskfile);
if (n < len)
{
errno = ferror(entry->diskfile) ? EBADF : EIO;
free (name);
return 0;
}
name[n] = '\0';
return name;
____;
}
errno = EBADMSG;
return 0;
____;
____;
}
static int
prescan_entry(ZZIP_ENTRY * entry)
{
if (! entry)
return EINVAL;
___ zzip_off_t tailsize = zzip_disk_entry_sizeof_tails(disk_(entry));
if (tailsize + 1 > entry->tailalloc)
{
char *newtail = realloc(entry->tail, tailsize + 1);
if (! newtail)
return ENOMEM;
entry->tail = newtail;
entry->tailalloc = tailsize + 1;
}
# ifdef SIZE_MAX /* from stdint.h */
if ((unsigned long long)(tailsize) > (unsigned long long)(SIZE_MAX))
{
debug3("tailsize %llu bigger than sizemax %llu", (long long)(tailsize), (long long)(SIZE_MAX));
return EFBIG;
}
# endif
___ zzip_size_t readsize = fread(entry->tail, 1, tailsize, entry->diskfile);
/* name + comment + extras */
if ((zzip_off_t)readsize != tailsize) {
debug1("read to data");
return errno;
} else {
return 0;
} ____; ____;
}
static void
prescan_clear(ZZIP_ENTRY * entry)
{
if (! entry)
return;
if (entry->tail)
free(entry->tail);
entry->tail = 0;
entry->tailalloc = 0;
}
/* ====================================================================== */
/** => zzip_entry_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 stdio handle 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 first entry in the zip central directory of that file.
*
* 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.
*
* Returns null on error (errno = EINVAL|ENOMEM|EBADMSG|EBADF|ENOENT)
*/
zzip__new__ ZZIP_ENTRY *
zzip_entry_findfirst(FILE * disk)
{
if (! disk)
{
errno = EINVAL;
return 0;
}
if (fseeko(disk, 0, SEEK_END) == -1)
{
printf("fseeko failed: %s", strerror(errno));
return 0; /* EBADF */
}
___ zzip_off_t disksize = ftello(disk);
if (disksize < (zzip_off_t) sizeof(struct zzip_disk_trailer))
{
errno = EBADMSG;
return 0;
}
/* we read out chunks of 8 KiB in the hope to match disk granularity */
___ zzip_off_t pagesize = PAGESIZE; /* getpagesize() */
___ ZZIP_ENTRY *entry = malloc(sizeof(*entry));
if (! entry)
goto error0; /* ENOMEM */
___ unsigned char *buffer = malloc(pagesize);
if (! buffer)
goto error1; /* ENOMEM */
if (pagesize / 2 <= (zzip_off_t) sizeof(struct zzip_disk_trailer))
{
errno = EBADMSG;
goto error2;
}
/* at each step, we will fread a pagesize block which overlaps with the
* previous read by means of pagesize/2 step at the end of the while(1) */
___ zzip_off_t mapoffs = disksize & ~(pagesize - 1);
___ zzip_off_t mapsize = disksize - mapoffs;
if (mapoffs && mapsize < pagesize / 2)
{
mapoffs -= pagesize / 2;
mapsize += pagesize / 2;
}
if (mapsize >= 3*8192)
{
errno = EBADMSG;
goto error2;
}
while (1)
{
if (fseeko(disk, mapoffs, SEEK_SET) == -1)
goto error2; /* EBADF */
if (fread(buffer, 1, mapsize, disk) < (zzip_size_t)mapsize)
{
errno = ferror(disk) ? EBADF : EIO;
debug1("in fread");
goto error2;
}
___ unsigned char *p =
buffer + mapsize - sizeof(struct zzip_disk_trailer);
for (; p >= buffer; p--)
{
zzip_off_t root; /* (struct zzip_disk_entry*) */
if (zzip_disk_trailer_check_magic(p))
{
root = zzip_disk_trailer_rootseek((struct zzip_disk_trailer *)
p);
if (root > disksize - (long) sizeof(struct zzip_disk_trailer))
{
/* first disk_entry is after the disk_trailer? can't be! */
struct zzip_disk_trailer *trailer =
(struct zzip_disk_trailer *) p;
zzip_off_t rootsize = zzip_disk_trailer_rootsize(trailer);
if (rootsize > mapoffs)
continue;
/* a common brokeness that can be fixed: we just assume the
* central directory was written directly before : */
root = mapoffs - rootsize;
}
} else if (zzip_disk64_trailer_check_magic(p))
{
struct zzip_disk64_trailer *trailer =
(struct zzip_disk64_trailer *) p;
if (sizeof(zzip_off_t) < 8)
{
debug1("disk64 trailer on non-large compile");
errno = EFBIG;
goto error2;
}
if ((void*)(trailer + 1) > (buffer + mapsize))
{
debug1("disk64 trailer is not complete");
errno = EBADMSG;
goto error2;
}
root = zzip_disk64_trailer_rootseek(trailer);
} else
continue;
if (!(0 <= root && root < disksize))
{
debug3("bogus rootseek value %lli (disksize %lli)", (long long)root, (long long)disksize);
errno = EBADMSG;
goto error2;
}
if (fseeko(disk, root, SEEK_SET) == -1)
{
debug2("next seeko %s", strerror(errno));
goto error2; /* EBADF */
}
if (fread(disk_(entry), 1, sizeof(*disk_(entry)), disk)
!= sizeof(*disk_(entry)))
{
debug2("next freed %s", strerror(errno));
errno = ferror(disk) ? EBADF : EIO;
goto error2;
}
if (zzip_disk_entry_check_magic(entry))
{
free(buffer);
entry->headseek = root;
entry->diskfile = disk;
entry->disksize = disksize;
___ int err = prescan_entry(entry);
if (err)
{
debug2("prescan %s", strerror(err));
errno = err;
goto error2;
}
return entry;
____;
}
}
____;
if (! mapoffs)
break;
if (mapsize < pagesize / 2)
{
debug1("bad mapsize should not be possible");
errno = EBADMSG;
goto error2;
}
mapoffs -= pagesize / 2; /* mapsize += pagesize/2; */
mapsize = pagesize; /* if (mapsize > pagesize) ... */
if (disksize - mapoffs > 64 * 1024)
break;
}
errno = ENOENT; /* not found */
error2:
free(buffer);
error1:
free(entry);
____;
____;
____;
____;
____;
____;
error0:
debug1("error..");
return 0;
}
/** => zzip_entry_findfile
*
* This function takes an existing "entry" in the central root directory
* (e.g. from zzip_entry_findfirst) and moves it to point to the next entry.
* On error it returns 0, otherwise the old entry. If no further match is
* found then null is returned and the entry already free()d. If you want
* to stop searching for matches before that case then please call
* => zzip_entry_free on the cursor struct ZZIP_ENTRY.
*/
zzip__new__ ZZIP_ENTRY *
zzip_entry_findnext(ZZIP_ENTRY * _zzip_restrict entry)
{
if (! entry)
{
errno = EINVAL;
return entry;
}
if (! zzip_disk_entry_check_magic(entry))
goto error_EBADMSG;
___ zzip_off_t seek =
entry->headseek + zzip_disk_entry_sizeto_end(disk_(entry));
if (seek + (zzip_off_t) sizeof(*disk_(entry)) > entry->disksize)
goto error_EBADMSG;
if (fseeko(entry->diskfile, seek, SEEK_SET) == -1)
goto error; /* EBADF */
if (fread(disk_(entry), 1, sizeof(*disk_(entry)), entry->diskfile)
< sizeof(*disk_(entry)))
{
errno = ferror(entry->diskfile) ? EBADF : EIO;
goto error;
}
entry->headseek = seek;
if (! zzip_disk_entry_check_magic(entry))
goto error_EBADMSG;
___ int err = prescan_entry(entry);
if (err)
{
errno = err;
goto error;
}
return entry;
____;
error_EBADMSG:
errno = EBADMSG;
error:
zzip_entry_free(entry);
return 0;
____;
}
/** => zzip_entry_findfile
* this function releases the malloc()ed areas needed for zzip_entry, the
* pointer is invalid afterwards. This function has #define synonyms of
* zzip_entry_findlast(), zzip_entry_findlastfile(), zzip_entry_findlastmatch()
*/
int
zzip_entry_free(ZZIP_ENTRY * entry)
{
if (! entry)
{
errno = EINVAL;
return 0;
}
prescan_clear(entry);
free(entry);
return 1;
}
/** search for files in the (fseeko) 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 "old"-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). If no further entry is
* found then null is returned and any "old"-entry gets already free()d.
*/
zzip__new__ ZZIP_ENTRY *
zzip_entry_findfile(FILE * disk, char *filename,
ZZIP_ENTRY * _zzip_restrict entry, zzip_strcmp_fn_t compare)
{
if (! filename || ! disk)
{
errno = EINVAL;
return 0;
}
if (! entry)
entry = zzip_entry_findfirst(disk);
else
entry = zzip_entry_findnext(entry);
if (! compare)
compare = (zzip_strcmp_fn_t) (strcmp);
for (; entry; entry = zzip_entry_findnext(entry))
{
/* filenames within zip files are often not null-terminated! */
char *realname = zzip_entry_strdup_name(entry);
if (! realname)
{
return 0; /* ENOMEM|EBADMSG */
}
if (! compare(filename, realname))
{
free(realname);
return entry;
} else
{
free(realname);
continue;
}
}
errno = ENOENT;
return 0;
}
/** => zzip_entry_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. If no further entry is
* found then null is returned and any "old"-entry gets already free()d.
*/
zzip__new__ ZZIP_ENTRY *
zzip_entry_findmatch(FILE * disk, char *filespec,
ZZIP_ENTRY * _zzip_restrict entry,
zzip_fnmatch_fn_t compare, int flags)
{
if (! filespec || ! disk)
{
errno = EINVAL;
return 0;
}
if (! entry)
entry = zzip_entry_findfirst(disk);
else
entry = zzip_entry_findnext(entry);
if (! compare)
compare = (zzip_fnmatch_fn_t) _zzip_fnmatch;
for (; entry; entry = zzip_entry_findnext(entry))
{
/* filenames within zip files are often not null-terminated! */
char *realname = zzip_entry_strdup_name(entry);
if (! realname)
{
return 0; /* ENOMEM|EBADMSG */
}
if (! compare(filespec, realname, flags))
{
debug3("compare '%s' equal with zip '%s'", filespec, realname);
free(realname);
return entry;
} else
{
debug3("compare '%s' not like zip '%s'", filespec, realname);
free(realname);
continue;
}
}
errno = ENOENT;
return 0;
}
/* ====================================================================== */
/**
* typedef struct zzip_disk_file ZZIP_ENTRY_FILE;
*/
struct zzip_entry_file /* : zzip_file_header */
{
struct zzip_file_header header; /* fopen detected header */
ZZIP_ENTRY *entry; /* fopen entry */
zzip_off_t data; /* for stored blocks */
zzip_size_t avail; /* memorized for checks on EOF */
zzip_size_t compressed; /* compressed flag and datasize */
zzip_size_t dataoff; /* offset from data start */
z_stream zlib; /* for inflated blocks */
unsigned char buffer[PAGESIZE]; /* work buffer for inflate algorithm */
};
/** open a file within a zip disk for reading
*
* This function does take an "entry" argument and copies it (or just takes
* it over as owner) to a new ZZIP_ENTRY_FILE handle structure. That
* structure contains also a zlib buffer for decoding. This function does
* seek to the file_header of the given "entry" and validates it for the
* data buffer following it. We do also prefetch some data from the data
* buffer thereby trying to match the disk pagesize for faster access later.
* The => zzip_entry_fread will then read in chunks of pagesizes which is
* the size of the internal readahead buffer. If an error occurs then null
* is returned.
*/
zzip__new__ ZZIP_ENTRY_FILE *
zzip_entry_fopen(ZZIP_ENTRY * entry, int takeover)
{
if (! entry)
{
errno = EINVAL;
return 0;
}
if (! takeover)
{
ZZIP_ENTRY *found = malloc(sizeof(*entry));
if (! found)
{
return 0; /* ENOMEM */
}
memcpy(found, entry, sizeof(*entry)); /* prescan_copy */
found->tail = malloc(found->tailalloc);
if (! found->tail)
{
free (found);
return 0; /* ENOMEM */
}
memcpy(found->tail, entry->tail, entry->tailalloc);
entry = found;
}
___ ZZIP_ENTRY_FILE *file = malloc(sizeof(*file));
if (! file)
goto error1; /* ENOMEM */
file->entry = entry;
if (! zzip_entry_fread_file_header(entry, &file->header))
{
debug2("file header: %s", strerror(errno));
goto error2; /* EIO|EBADMSG */
}
file->avail = zzip_file_header_usize(&file->header);
file->data = zzip_entry_data_offset(entry);
file->dataoff = 0;
if (! file->avail || zzip_file_header_data_stored(&file->header))
{ file->compressed = 0; return file; }
file->compressed = zzip_file_header_csize(&file->header);
file->zlib.opaque = 0;
file->zlib.zalloc = Z_NULL;
file->zlib.zfree = Z_NULL;
___ zzip_off_t size = file->avail;
if (size > sizeof(file->buffer))
size = sizeof(file->buffer);
if (fseeko(file->entry->diskfile, file->data + file->dataoff, SEEK_SET) == -1)
{
debug2("file seek failed: %s", strerror(errno));
goto error2; /* EBADF */
}
file->zlib.next_in = file->buffer;
file->zlib.avail_in = fread(file->buffer, 1, size,
file->entry->diskfile);
file->dataoff += file->zlib.avail_in;
____;
if (! zzip_file_header_data_deflated(&file->header)
|| inflateInit2(&file->zlib, -MAX_WBITS) != Z_OK)
{
debug1("decompress failed");
errno = EBADMSG;
goto error2;
}
return file;
error2:
free(file);
error1:
zzip_entry_free(entry);
return 0;
____;
}
/** => zzip_entry_fopen
*
* This function opens a file found by name, so it does a search into
* the zip central directory with => zzip_entry_findfile and whatever
* is found first is given to => zzip_entry_fopen
*/
zzip__new__ ZZIP_ENTRY_FILE *
zzip_entry_ffile(FILE * disk, char *filename)
{
ZZIP_ENTRY *entry = zzip_entry_findfile(disk, filename, 0, 0);
if (! entry)
{
return 0; /* EBADMSG */
}
return zzip_entry_fopen(entry, 1);
}
/** => zzip_entry_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_entry_feof for the difference.
*/
zzip_size_t
zzip_entry_fread(void *ptr, zzip_size_t sized, zzip_size_t nmemb,
ZZIP_ENTRY_FILE * file)
{
if (! file)
{
errno = EINVAL;
return 0;
}
___ zzip_size_t size = sized * nmemb;
if (! file->compressed)
{
if (size > file->avail)
size = file->avail;
if (fread(ptr, 1, size, file->entry->diskfile) != size)
{
errno = ferror(file->entry->diskfile) ? EBADF : EIO;
debug2("uncompressed fread incomplete: %s", strerror(errno));
return 0;
}
file->dataoff += size;
file->avail -= size;
return size;
}
file->zlib.avail_out = size;
file->zlib.next_out = ptr;
___ zzip_size_t total_old = file->zlib.total_out;
while (1)
{
if (! file->zlib.avail_in)
{
size = file->compressed - file->dataoff;
debug2("remaining compressed bytes: %lli", (long long)size);
if (size > sizeof(file->buffer))
size = sizeof(file->buffer);
/* fseek (file->data + file->dataoff, file->entry->diskfile); */
file->zlib.avail_in = fread(file->buffer, 1, size,
file->entry->diskfile);
file->zlib.next_in = file->buffer;
file->dataoff += file->zlib.avail_in;
debug2("remaing compressed fread %lli", (long long) file->zlib.avail_in);
}
if (! file->zlib.avail_in)
{
errno = EIO;
return 0;
}
___ 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
{
debug1("zlib decode incomplete");
errno = EBADMSG;
return 0;
}
____;
if (file->zlib.avail_out && ! file->zlib.avail_in)
continue;
return file->zlib.total_out - total_old;
}
____;
____;
}
/** => zzip_entry_fopen
* This function releases any zlib decoder info needed for decompression
* and dumps the ZZIP_ENTRY_FILE struct then.
*/
int
zzip_entry_fclose(ZZIP_ENTRY_FILE * file)
{
if (! file)
{
errno = EINVAL;
return EOF;
}
if (file->compressed)
inflateEnd(&file->zlib);
zzip_entry_free(file->entry);
free(file);
return 0;
}
/** => zzip_entry_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_entry_feof(ZZIP_ENTRY_FILE * file)
{
return ! file || ! file->avail;
}
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