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denyhosts/clamav/libclamav/unzip.c

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/*
* Copyright (C) 2013-2022 Cisco Systems, Inc. and/or its affiliates. All rights reserved.
* Copyright (C) 2007-2013 Sourcefire, Inc.
*
* Authors: Alberto Wu
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301, USA.
*/
/* FIXME: get a clue about masked stuff */
#if HAVE_CONFIG_H
#include "clamav-config.h"
#endif
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#if HAVE_STRING_H
#include <string.h>
#endif
#include <stdlib.h>
#include <stdio.h>
#include <zlib.h>
#include "inflate64.h"
#if HAVE_BZLIB_H
#include <bzlib.h>
#endif
#include "explode.h"
#include "others.h"
#include "clamav.h"
#include "scanners.h"
#include "matcher.h"
#include "fmap.h"
#include "json_api.h"
#include "str.h"
#define UNZIP_PRIVATE
#include "unzip.h"
// clang-format off
#define ZIP_MAGIC_CENTRAL_DIRECTORY_RECORD_BEGIN (0x02014b50)
#define ZIP_MAGIC_CENTRAL_DIRECTORY_RECORD_END (0x06054b50)
#define ZIP_MAGIC_LOCAL_FILE_HEADER (0x04034b50)
#define ZIP_MAGIC_FILE_BEGIN_SPLIT_OR_SPANNED (0x08074b50)
// clang-format on
// Non-malicious zips in enterprise critical JAR-ZIPs have been observed with a 1-byte overlap.
// The goal with overlap detection is to alert on non-recursive zip bombs, so this tiny overlap isn't a concern.
// We'll allow a 2-byte overlap so we don't alert on such zips.
#define ZIP_RECORD_OVERLAP_FUDGE_FACTOR 2
#define ZIP_MAX_NUM_OVERLAPPING_FILES 5
#define ZIP_CRC32(r, c, b, l) \
do { \
r = crc32(~c, b, l); \
r = ~r; \
} while (0)
#define ZIP_RECORDS_CHECK_BLOCKSIZE 100
struct zip_record {
uint32_t local_header_offset;
uint32_t local_header_size;
uint32_t compressed_size;
uint32_t uncompressed_size;
uint16_t method;
uint16_t flags;
int encrypted;
char *original_filename;
};
static int wrap_inflateinit2(void *a, int b)
{
return inflateInit2(a, b);
}
/**
* @brief uncompress file from zip
*
* @param src pointer to compressed data
* @param csize size of compressed data
* @param usize expected size of uncompressed data
* @param method compression method
* @param flags local header flags
* @param[in,out] num_files_unzipped current number of files that have been unzipped
* @param[in,out] ctx scan context
* @param tmpd temp directory path name
* @param zcb callback function to invoke after extraction (default: scan)
* @return cl_error_t CL_EPARSE = could not apply a password
*/
static cl_error_t unz(
const uint8_t *src,
uint32_t csize,
uint32_t usize,
uint16_t method,
uint16_t flags,
unsigned int *num_files_unzipped,
cli_ctx *ctx,
char *tmpd,
zip_cb zcb,
const char *original_filename,
bool decrypted)
{
char obuf[BUFSIZ] = {0};
char *tempfile = NULL;
int out_file, ret = CL_CLEAN;
int res = 1;
size_t written = 0;
if (tmpd) {
if (ctx->engine->keeptmp && (NULL != original_filename)) {
if (!(tempfile = cli_gentemp_with_prefix(tmpd, original_filename))) return CL_EMEM;
} else {
if (!(tempfile = cli_gentemp(tmpd))) return CL_EMEM;
}
} else {
if (ctx->engine->keeptmp && (NULL != original_filename)) {
if (!(tempfile = cli_gentemp_with_prefix(ctx->sub_tmpdir, original_filename))) return CL_EMEM;
} else {
if (!(tempfile = cli_gentemp(ctx->sub_tmpdir))) return CL_EMEM;
}
}
if ((out_file = open(tempfile, O_RDWR | O_CREAT | O_TRUNC | O_BINARY, S_IRUSR | S_IWUSR)) == -1) {
cli_warnmsg("cli_unzip: failed to create temporary file %s\n", tempfile);
free(tempfile);
return CL_ETMPFILE;
}
switch (method) {
case ALG_STORED:
if (csize < usize) {
unsigned int fake = *num_files_unzipped + 1;
cli_dbgmsg("cli_unzip: attempting to inflate stored file with inconsistent size\n");
if (CL_CLEAN == (ret = unz(src, csize, usize, ALG_DEFLATE, 0, &fake, ctx,
tmpd, zcb, original_filename, decrypted))) {
(*num_files_unzipped)++;
res = fake - (*num_files_unzipped);
} else
break;
}
if (res == 1) {
if (ctx->engine->maxfilesize && csize > ctx->engine->maxfilesize) {
cli_dbgmsg("cli_unzip: trimming output size to maxfilesize (%lu)\n",
(long unsigned int)ctx->engine->maxfilesize);
csize = ctx->engine->maxfilesize;
}
if (cli_writen(out_file, src, csize) != csize)
ret = CL_EWRITE;
else
res = 0;
}
break;
case ALG_DEFLATE:
case ALG_DEFLATE64: {
union {
z_stream64 strm64;
z_stream strm;
} strm;
typedef int (*unz_init_)(void *, int);
typedef int (*unz_unz_)(void *, int);
typedef int (*unz_end_)(void *);
unz_init_ unz_init;
unz_unz_ unz_unz;
unz_end_ unz_end;
int wbits;
void **next_in;
void **next_out;
unsigned int *avail_in;
unsigned int *avail_out;
if (method == ALG_DEFLATE64) {
unz_init = (unz_init_)inflate64Init2;
unz_unz = (unz_unz_)inflate64;
unz_end = (unz_end_)inflate64End;
next_in = (void *)&strm.strm64.next_in;
next_out = (void *)&strm.strm64.next_out;
avail_in = &strm.strm64.avail_in;
avail_out = &strm.strm64.avail_out;
wbits = MAX_WBITS64;
} else {
unz_init = (unz_init_)wrap_inflateinit2;
unz_unz = (unz_unz_)inflate;
unz_end = (unz_end_)inflateEnd;
next_in = (void *)&strm.strm.next_in;
next_out = (void *)&strm.strm.next_out;
avail_in = &strm.strm.avail_in;
avail_out = &strm.strm.avail_out;
wbits = MAX_WBITS;
}
memset(&strm, 0, sizeof(strm));
*next_in = (void *)src;
*next_out = obuf;
*avail_in = csize;
*avail_out = sizeof(obuf);
if (unz_init(&strm, -wbits) != Z_OK) {
cli_dbgmsg("cli_unzip: zinit failed\n");
break;
}
while (1) {
while ((res = unz_unz(&strm, Z_NO_FLUSH)) == Z_OK) {
};
if (*avail_out != sizeof(obuf)) {
written += sizeof(obuf) - (*avail_out);
if (ctx->engine->maxfilesize && written > ctx->engine->maxfilesize) {
cli_dbgmsg("cli_unzip: trimming output size to maxfilesize (%lu)\n", (long unsigned int)ctx->engine->maxfilesize);
res = Z_STREAM_END;
break;
}
if (cli_writen(out_file, obuf, sizeof(obuf) - (*avail_out)) != (size_t)(sizeof(obuf) - (*avail_out))) {
cli_warnmsg("cli_unzip: falied to write %lu inflated bytes\n", (unsigned long int)sizeof(obuf) - (*avail_out));
ret = CL_EWRITE;
res = 100;
break;
}
*next_out = obuf;
*avail_out = sizeof(obuf);
continue;
}
break;
}
unz_end(&strm);
if ((res == Z_STREAM_END) | (res == Z_BUF_ERROR)) res = 0;
break;
}
#if HAVE_BZLIB_H
#ifdef NOBZ2PREFIX
#define BZ2_bzDecompress bzDecompress
#define BZ2_bzDecompressEnd bzDecompressEnd
#define BZ2_bzDecompressInit bzDecompressInit
#endif
case ALG_BZIP2: {
bz_stream strm;
memset(&strm, 0, sizeof(strm));
strm.next_in = (char *)src;
strm.next_out = obuf;
strm.avail_in = csize;
strm.avail_out = sizeof(obuf);
if (BZ2_bzDecompressInit(&strm, 0, 0) != BZ_OK) {
cli_dbgmsg("cli_unzip: bzinit failed\n");
break;
}
while ((res = BZ2_bzDecompress(&strm)) == BZ_OK || res == BZ_STREAM_END) {
if (strm.avail_out != sizeof(obuf)) {
written += sizeof(obuf) - strm.avail_out;
if (ctx->engine->maxfilesize && written > ctx->engine->maxfilesize) {
cli_dbgmsg("cli_unzip: trimming output size to maxfilesize (%lu)\n", (unsigned long int)ctx->engine->maxfilesize);
res = BZ_STREAM_END;
break;
}
if (cli_writen(out_file, obuf, sizeof(obuf) - strm.avail_out) != (size_t)(sizeof(obuf) - strm.avail_out)) {
cli_warnmsg("cli_unzip: falied to write %lu bunzipped bytes\n", (long unsigned int)sizeof(obuf) - strm.avail_out);
ret = CL_EWRITE;
res = 100;
break;
}
strm.next_out = obuf;
strm.avail_out = sizeof(obuf);
if (res == BZ_OK) continue; /* after returning BZ_STREAM_END once, decompress returns an error */
}
break;
}
BZ2_bzDecompressEnd(&strm);
if (res == BZ_STREAM_END) res = 0;
break;
}
#endif /* HAVE_BZLIB_H */
case ALG_IMPLODE: {
struct xplstate strm;
strm.next_in = (void *)src;
strm.next_out = (uint8_t *)obuf;
strm.avail_in = csize;
strm.avail_out = sizeof(obuf);
if (explode_init(&strm, flags) != EXPLODE_OK) {
cli_dbgmsg("cli_unzip: explode_init() failed\n");
break;
}
while ((res = explode(&strm)) == EXPLODE_OK) {
if (strm.avail_out != sizeof(obuf)) {
written += sizeof(obuf) - strm.avail_out;
if (ctx->engine->maxfilesize && written > ctx->engine->maxfilesize) {
cli_dbgmsg("cli_unzip: trimming output size to maxfilesize (%lu)\n", (unsigned long int)ctx->engine->maxfilesize);
res = 0;
break;
}
if (cli_writen(out_file, obuf, sizeof(obuf) - strm.avail_out) != (size_t)(sizeof(obuf) - strm.avail_out)) {
cli_warnmsg("cli_unzip: falied to write %lu exploded bytes\n", (unsigned long int)sizeof(obuf) - strm.avail_out);
ret = CL_EWRITE;
res = 100;
break;
}
strm.next_out = (uint8_t *)obuf;
strm.avail_out = sizeof(obuf);
continue;
}
break;
}
break;
}
case ALG_LZMA:
/* easy but there's not a single sample in the zoo */
#if !HAVE_BZLIB_H
case ALG_BZIP2:
#endif
case ALG_SHRUNK:
case ALG_REDUCE1:
case ALG_REDUCE2:
case ALG_REDUCE3:
case ALG_REDUCE4:
case ALG_TOKENZD:
case ALG_OLDTERSE:
case ALG_RSVD1:
case ALG_RSVD2:
case ALG_RSVD3:
case ALG_RSVD4:
case ALG_RSVD5:
case ALG_NEWTERSE:
case ALG_LZ77:
case ALG_WAVPACK:
case ALG_PPMD:
cli_dbgmsg("cli_unzip: unsupported method (%d)\n", method);
break;
default:
cli_dbgmsg("cli_unzip: unknown method (%d)\n", method);
break;
}
if (!res) {
(*num_files_unzipped)++;
cli_dbgmsg("cli_unzip: extracted to %s\n", tempfile);
if (lseek(out_file, 0, SEEK_SET) == -1) {
cli_dbgmsg("cli_unzip: call to lseek() failed\n");
free(tempfile);
close(out_file);
return CL_ESEEK;
}
ret = zcb(out_file, tempfile, ctx, original_filename, decrypted);
close(out_file);
if (!ctx->engine->keeptmp)
if (cli_unlink(tempfile)) ret = CL_EUNLINK;
free(tempfile);
return ret;
}
close(out_file);
if (!ctx->engine->keeptmp)
if (cli_unlink(tempfile)) ret = CL_EUNLINK;
free(tempfile);
cli_dbgmsg("cli_unzip: extraction failed\n");
return ret;
}
/* zip update keys, taken from zip specification */
static inline void zupdatekey(uint32_t key[3], unsigned char input)
{
unsigned char tmp[1];
tmp[0] = input;
ZIP_CRC32(key[0], key[0], tmp, 1);
key[1] = key[1] + (key[0] & 0xff);
key[1] = key[1] * 134775813 + 1;
tmp[0] = key[1] >> 24;
ZIP_CRC32(key[2], key[2], tmp, 1);
}
/* zip init keys */
static inline void zinitkey(uint32_t key[3], struct cli_pwdb *password)
{
int i;
/* initialize keys, these are specified but the zip specification */
key[0] = 305419896L;
key[1] = 591751049L;
key[2] = 878082192L;
/* update keys with password */
for (i = 0; i < password->length; i++)
zupdatekey(key, password->passwd[i]);
}
/* zip decrypt byte */
static inline unsigned char zdecryptbyte(uint32_t key[3])
{
unsigned short temp;
temp = key[2] | 2;
return ((temp * (temp ^ 1)) >> 8);
}
/**
* @brief zip decrypt.
*
* TODO - search for strong encryption header (0x0017) and handle them
*
* @param src
* @param csize size of compressed data; includes the decryption header
* @param usize expected size of uncompressed data
* @param local_header
* @param[in,out] num_files_unzipped current number of files that have been unzipped
* @param[in,out] ctx scan context
* @param tmpd temp directory path name
* @param zcb callback function to invoke after extraction (default: scan)
* @return cl_error_t CL_EPARSE = could not apply a password
*/
static inline cl_error_t zdecrypt(
const uint8_t *src,
uint32_t csize,
uint32_t usize,
const uint8_t *local_header,
unsigned int *num_files_unzipped,
cli_ctx *ctx,
char *tmpd,
zip_cb zcb,
const char *original_filename)
{
cl_error_t ret;
int v = 0;
uint32_t i;
uint32_t key[3];
uint8_t encryption_header[12]; /* encryption header buffer */
struct cli_pwdb *password, *pass_any, *pass_zip;
if (!ctx || !ctx->engine)
return CL_ENULLARG;
/* dconf */
if (ctx->dconf && !(ctx->dconf->archive & ARCH_CONF_PASSWD)) {
cli_dbgmsg("cli_unzip: decrypt - skipping encrypted file\n");
return CL_SUCCESS;
}
pass_any = ctx->engine->pwdbs[CLI_PWDB_ANY];
pass_zip = ctx->engine->pwdbs[CLI_PWDB_ZIP];
while (pass_any || pass_zip) {
password = pass_zip ? pass_zip : pass_any;
zinitkey(key, password);
/* decrypting the encryption header */
memcpy(encryption_header, src, SIZEOF_ENCRYPTION_HEADER);
for (i = 0; i < SIZEOF_ENCRYPTION_HEADER; i++) {
encryption_header[i] ^= zdecryptbyte(key);
zupdatekey(key, encryption_header[i]);
}
/* verify that the password is correct */
if (LOCAL_HEADER_version > 20) { /* higher than 2.0 */
uint16_t a = encryption_header[SIZEOF_ENCRYPTION_HEADER - 1];
if (LOCAL_HEADER_flags & F_USEDD) {
cli_dbgmsg("cli_unzip: decrypt - (v%u) >> 0x%02x 0x%x (moddate)\n", LOCAL_HEADER_version, a, LOCAL_HEADER_mtime);
if (a == ((LOCAL_HEADER_mtime >> 8) & 0xff))
v = 1;
} else {
cli_dbgmsg("cli_unzip: decrypt - (v%u) >> 0x%02x 0x%x (crc32)\n", LOCAL_HEADER_version, a, LOCAL_HEADER_crc32);
if (a == ((LOCAL_HEADER_crc32 >> 24) & 0xff))
v = 1;
}
} else {
uint16_t a = encryption_header[SIZEOF_ENCRYPTION_HEADER - 1], b = encryption_header[SIZEOF_ENCRYPTION_HEADER - 2];
if (LOCAL_HEADER_flags & F_USEDD) {
cli_dbgmsg("cli_unzip: decrypt - (v%u) >> 0x0000%02x%02x 0x%x (moddate)\n", LOCAL_HEADER_version, a, b, LOCAL_HEADER_mtime);
if ((uint32_t)(b | (a << 8)) == (LOCAL_HEADER_mtime & 0xffff))
v = 1;
} else {
cli_dbgmsg("cli_unzip: decrypt - (v%u) >> 0x0000%02x%02x 0x%x (crc32)\n", LOCAL_HEADER_version, encryption_header[SIZEOF_ENCRYPTION_HEADER - 1], encryption_header[SIZEOF_ENCRYPTION_HEADER - 2], LOCAL_HEADER_crc32);
if ((uint32_t)(b | (a << 8)) == ((LOCAL_HEADER_crc32 >> 16) & 0xffff))
v = 1;
}
}
if (v) {
char name[1024], obuf[BUFSIZ];
char *tempfile = name;
size_t written = 0, total = 0;
fmap_t *dcypt_map;
const uint8_t *dcypt_zip;
int out_file;
cli_dbgmsg("cli_unzip: decrypt - password [%s] matches\n", password->name);
/* output decrypted data to tempfile */
if (tmpd) {
snprintf(name, sizeof(name), "%s" PATHSEP "zip.decrypt.%03u", tmpd, *num_files_unzipped);
name[sizeof(name) - 1] = '\0';
} else {
if (!(tempfile = cli_gentemp_with_prefix(ctx->sub_tmpdir, "zip-decrypt"))) return CL_EMEM;
}
if ((out_file = open(tempfile, O_RDWR | O_CREAT | O_TRUNC | O_BINARY, S_IRUSR | S_IWUSR)) == -1) {
cli_warnmsg("cli_unzip: decrypt - failed to create temporary file %s\n", tempfile);
if (!tmpd) free(tempfile);
return CL_ETMPFILE;
}
for (i = 12; i < csize; i++) {
obuf[written] = src[i] ^ zdecryptbyte(key);
zupdatekey(key, obuf[written]);
written++;
if (written >= BUFSIZ) {
if (cli_writen(out_file, obuf, written) != written) {
ret = CL_EWRITE;
goto zd_clean;
}
total += written;
written = 0;
}
}
if (written) {
if (cli_writen(out_file, obuf, written) != written) {
ret = CL_EWRITE;
goto zd_clean;
}
total += written;
written = 0;
}
cli_dbgmsg("cli_unzip: decrypt - decrypted %zu bytes to %s\n", total, tempfile);
/* decrypt data to new fmap -> buffer */
if (!(dcypt_map = fmap(out_file, 0, total, NULL))) {
cli_warnmsg("cli_unzip: decrypt - failed to create fmap on decrypted file %s\n", tempfile);
ret = CL_EMAP;
goto zd_clean;
}
if (!(dcypt_zip = fmap_need_off_once(dcypt_map, 0, total))) {
cli_warnmsg("cli_unzip: decrypt - failed to acquire buffer on decrypted file %s\n", tempfile);
funmap(dcypt_map);
ret = CL_EREAD;
goto zd_clean;
}
/* call unz on decrypted output */
ret = unz(dcypt_zip, csize - SIZEOF_ENCRYPTION_HEADER, usize, LOCAL_HEADER_method, LOCAL_HEADER_flags,
num_files_unzipped, ctx, tmpd, zcb, original_filename, true);
/* clean-up and return */
funmap(dcypt_map);
zd_clean:
close(out_file);
if (!ctx->engine->keeptmp)
if (cli_unlink(tempfile)) {
if (!tmpd) free(tempfile);
return CL_EUNLINK;
}
if (!tmpd) free(tempfile);
return ret;
}
if (pass_zip)
pass_zip = pass_zip->next;
else
pass_any = pass_any->next;
}
cli_dbgmsg("cli_unzip: decrypt - skipping encrypted file, no valid passwords\n");
return CL_SUCCESS;
}
/**
* @brief Parse, extract, and scan a file using the local file header.
*
* Usage of the `record` parameter will alter behavior so it only collect file record metadata and does not extract or scan any files.
*
* @param map fmap for the file
* @param loff offset of the local file header
* @param zsize size of the zip file
* @param[in,out] num_files_unzipped current number of files that have been unzipped
* @param file_count current number of files that have been discovered
* @param central_header offset of central directory header
* @param[out] ret The status code
* @param[in,out] ctx scan context
* @param tmpd temp directory path name
* @param detect_encrypted bool: if encrypted files should raise heuristic alert
* @param zcb callback function to invoke after extraction (default: scan)
* @param record (optional) a pointer to a struct to store file record information.
* @return unsigned int returns the size of the file header + file data, so zip file can be indexed without the central directory
*/
static unsigned int parse_local_file_header(
fmap_t *map,
uint32_t loff,
uint32_t zsize,
unsigned int *num_files_unzipped,
unsigned int file_count,
const uint8_t *central_header, /* pointer to central header. */
cl_error_t *ret,
cli_ctx *ctx,
char *tmpd,
int detect_encrypted,
zip_cb zcb,
struct zip_record *record)
{
const uint8_t *local_header, *zip;
char name[256];
char *original_filename = NULL;
uint32_t csize, usize;
unsigned int size_of_fileheader_and_data = 0;
if (!(local_header = fmap_need_off(map, loff, SIZEOF_LOCAL_HEADER))) {
cli_dbgmsg("cli_unzip: local header - out of file\n");
goto done;
}
if (LOCAL_HEADER_magic != ZIP_MAGIC_LOCAL_FILE_HEADER) {
if (!central_header)
cli_dbgmsg("cli_unzip: local header - wrkcomplete\n");
else
cli_dbgmsg("cli_unzip: local header - bad magic\n");
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER);
goto done;
}
zip = local_header + SIZEOF_LOCAL_HEADER;
zsize -= SIZEOF_LOCAL_HEADER;
memset(name, '\0', 256);
if (zsize <= LOCAL_HEADER_flen) {
cli_dbgmsg("cli_unzip: local header - fname out of file\n");
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER);
goto done;
}
if (ctx->engine->cdb || cli_debug_flag || ctx->engine->keeptmp || ctx->options->general & CL_SCAN_GENERAL_COLLECT_METADATA) {
uint32_t nsize = (LOCAL_HEADER_flen >= sizeof(name)) ? sizeof(name) - 1 : LOCAL_HEADER_flen;
const char *src;
if (nsize && (src = fmap_need_ptr_once(map, zip, nsize))) {
memcpy(name, zip, nsize);
name[nsize] = '\0';
if (CL_SUCCESS != cli_basename(name, nsize, &original_filename)) {
original_filename = NULL;
}
} else
name[0] = '\0';
}
zip += LOCAL_HEADER_flen;
zsize -= LOCAL_HEADER_flen;
cli_dbgmsg("cli_unzip: local header - ZMDNAME:%d:%s:%u:%u:%x:%u:%u:%u\n",
((LOCAL_HEADER_flags & F_ENCR) != 0), name, LOCAL_HEADER_usize, LOCAL_HEADER_csize, LOCAL_HEADER_crc32, LOCAL_HEADER_method, file_count, ctx->recursion_level);
/* ZMDfmt virname:encrypted(0-1):filename(exact|*):usize(exact|*):csize(exact|*):crc32(exact|*):method(exact|*):fileno(exact|*):maxdepth(exact|*) */
/* Scan file header metadata. */
if (cli_matchmeta(ctx, name, LOCAL_HEADER_csize, LOCAL_HEADER_usize, (LOCAL_HEADER_flags & F_ENCR) != 0, file_count, LOCAL_HEADER_crc32, NULL) == CL_VIRUS) {
*ret = CL_VIRUS;
goto done;
}
if (LOCAL_HEADER_flags & F_MSKED) {
cli_dbgmsg("cli_unzip: local header - header has got unusable masked data\n");
/* FIXME: need to find/craft a sample */
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER);
goto done;
}
if (detect_encrypted && (LOCAL_HEADER_flags & F_ENCR) && SCAN_HEURISTIC_ENCRYPTED_ARCHIVE) {
cl_error_t fp_check;
cli_dbgmsg("cli_unzip: Encrypted files found in archive.\n");
fp_check = cli_append_potentially_unwanted(ctx, "Heuristics.Encrypted.Zip");
if (fp_check != CL_SUCCESS) {
*ret = fp_check;
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER);
goto done;
}
}
if (LOCAL_HEADER_flags & F_USEDD) {
cli_dbgmsg("cli_unzip: local header - has data desc\n");
if (!central_header) {
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER);
goto done;
} else {
usize = CENTRAL_HEADER_usize;
csize = CENTRAL_HEADER_csize;
}
} else {
usize = LOCAL_HEADER_usize;
csize = LOCAL_HEADER_csize;
}
if (zsize <= LOCAL_HEADER_elen) {
cli_dbgmsg("cli_unzip: local header - extra out of file\n");
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER);
goto done;
}
zip += LOCAL_HEADER_elen;
zsize -= LOCAL_HEADER_elen;
if (!csize) { /* FIXME: what's used for method0 files? csize or usize? Nothing in the specs, needs testing */
cli_dbgmsg("cli_unzip: local header - skipping empty file\n");
} else {
if (zsize < csize) {
cli_dbgmsg("cli_unzip: local header - stream out of file\n");
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER);
goto done;
}
/* Don't actually unzip if we're just collecting the file record information (offset, sizes) */
if (NULL == record) {
if (LOCAL_HEADER_flags & F_ENCR) {
if (fmap_need_ptr_once(map, zip, csize))
*ret = zdecrypt(zip, csize, usize, local_header, num_files_unzipped, ctx, tmpd, zcb, original_filename);
} else {
if (fmap_need_ptr_once(map, zip, csize))
*ret = unz(zip, csize, usize, LOCAL_HEADER_method, LOCAL_HEADER_flags, num_files_unzipped,
ctx, tmpd, zcb, original_filename, false);
}
} else {
if ((NULL == original_filename) ||
(CL_SUCCESS != cli_basename(original_filename, strlen(original_filename), &record->original_filename))) {
record->original_filename = NULL;
}
record->local_header_offset = loff;
record->local_header_size = zip - local_header;
record->compressed_size = csize;
record->uncompressed_size = usize;
record->method = LOCAL_HEADER_method;
record->flags = LOCAL_HEADER_flags;
record->encrypted = (LOCAL_HEADER_flags & F_ENCR) ? 1 : 0;
*ret = CL_SUCCESS;
}
zip += csize;
zsize -= csize;
}
fmap_unneed_off(map, loff, SIZEOF_LOCAL_HEADER); /* unneed now. block is guaranteed to exists till the next need */
if (LOCAL_HEADER_flags & F_USEDD) {
if (zsize < 12) {
cli_dbgmsg("cli_unzip: local header - data desc out of file\n");
goto done;
}
zsize -= 12;
if (fmap_need_ptr_once(map, zip, 4)) {
if (cli_readint32(zip) == ZIP_MAGIC_FILE_BEGIN_SPLIT_OR_SPANNED) {
if (zsize < 4) {
cli_dbgmsg("cli_unzip: local header - data desc out of file\n");
goto done;
}
zip += 4;
}
}
zip += 12;
}
/* Success */
size_of_fileheader_and_data = zip - local_header;
done:
if (NULL != original_filename) {
free(original_filename);
}
return size_of_fileheader_and_data;
}
/**
* @brief Parse, extract, and scan a file by iterating the central directory.
*
* Usage of the `record` parameter will alter behavior so it only collect file record metadata and does not extract or scan any files.
*
* @param map fmap for the file
* @param coff offset of the file header in the central directory
* @param zsize size of the zip file
* @param[in,out] num_files_unzipped current number of files that have been unzipped
* @param file_count current number of files that have been discovered
* @param[out] ret The status code
* @param[in,out] ctx scan context
* @param tmpd temp directory path name
* @param requests (optional) structure use to search the zip for files by name
* @param record (optional) a pointer to a struct to store file record information.
* @return unsigned int returns the size of the file header in the central directory, or 0 if no more files
*/
static unsigned int
parse_central_directory_file_header(
fmap_t *map,
uint32_t coff,
uint32_t zsize,
unsigned int *num_files_unzipped,
unsigned int file_count,
cl_error_t *ret,
cli_ctx *ctx,
char *tmpd,
struct zip_requests *requests,
struct zip_record *record)
{
char name[256];
int last = 0;
const uint8_t *central_header = NULL;
*ret = CL_EPARSE;
if (cli_checktimelimit(ctx) != CL_SUCCESS) {
cli_dbgmsg("cli_unzip: central header - Time limit reached (max: %u)\n", ctx->engine->maxscantime);
last = 1;
*ret = CL_ETIMEOUT;
goto done;
}
if (!(central_header = fmap_need_off(map, coff, SIZEOF_CENTRAL_HEADER)) || CENTRAL_HEADER_magic != ZIP_MAGIC_CENTRAL_DIRECTORY_RECORD_BEGIN) {
if (central_header) {
fmap_unneed_ptr(map, central_header, SIZEOF_CENTRAL_HEADER);
central_header = NULL;
}
cli_dbgmsg("cli_unzip: central header - wrkcomplete\n");
last = 1;
goto done;
}
coff += SIZEOF_CENTRAL_HEADER;
cli_dbgmsg("cli_unzip: central header - flags %x - method %x - csize %x - usize %x - flen %x - elen %x - clen %x - disk %x - off %x\n",
CENTRAL_HEADER_flags, CENTRAL_HEADER_method, CENTRAL_HEADER_csize, CENTRAL_HEADER_usize, CENTRAL_HEADER_flen, CENTRAL_HEADER_extra_len, CENTRAL_HEADER_comment_len, CENTRAL_HEADER_disk_num, CENTRAL_HEADER_off);
if (zsize - coff <= CENTRAL_HEADER_flen) {
cli_dbgmsg("cli_unzip: central header - fname out of file\n");
last = 1;
goto done;
}
name[0] = '\0';
if (!last) {
unsigned int size = (CENTRAL_HEADER_flen >= sizeof(name)) ? sizeof(name) - 1 : CENTRAL_HEADER_flen;
const char *src = fmap_need_off_once(map, coff, size);
if (src) {
memcpy(name, src, size);
name[size] = '\0';
cli_dbgmsg("cli_unzip: central header - fname: %s\n", name);
}
}
coff += CENTRAL_HEADER_flen;
/* requests do not supply a ctx; also prevent multiple scans */
if (ctx && (CL_VIRUS == cli_matchmeta(ctx, name, CENTRAL_HEADER_csize, CENTRAL_HEADER_usize, (CENTRAL_HEADER_flags & F_ENCR) != 0, file_count, CENTRAL_HEADER_crc32, NULL))) {
last = 1;
*ret = CL_VIRUS;
goto done;
}
if (zsize - coff <= CENTRAL_HEADER_extra_len && !last) {
cli_dbgmsg("cli_unzip: central header - extra out of file\n");
last = 1;
}
coff += CENTRAL_HEADER_extra_len;
if (zsize - coff < CENTRAL_HEADER_comment_len && !last) {
cli_dbgmsg("cli_unzip: central header - comment out of file\n");
last = 1;
}
coff += CENTRAL_HEADER_comment_len;
if (!requests) {
if (CENTRAL_HEADER_off < zsize - SIZEOF_LOCAL_HEADER) {
parse_local_file_header(map,
CENTRAL_HEADER_off,
zsize - CENTRAL_HEADER_off,
num_files_unzipped,
file_count,
central_header,
ret,
ctx,
tmpd,
1,
zip_scan_cb,
record);
} else {
cli_dbgmsg("cli_unzip: central header - local hdr out of file\n");
}
} else {
int i;
size_t len;
if (!last) {
for (i = 0; i < requests->namecnt; ++i) {
cli_dbgmsg("cli_unzip: central header - checking for %i: %s\n", i, requests->names[i]);
len = MIN(sizeof(name) - 1, requests->namelens[i]);
if (!strncmp(requests->names[i], name, len)) {
requests->match = 1;
requests->found = i;
requests->loff = CENTRAL_HEADER_off;
}
}
}
*ret = CL_SUCCESS;
}
done:
if (NULL != central_header) {
fmap_unneed_ptr(map, central_header, SIZEOF_CENTRAL_HEADER);
}
return (last ? 0 : coff);
}
/**
* @brief Sort zip_record structures based on local file offset.
*
* @param first
* @param second
* @return int 1 if first record's offset is higher than second's.
* @return int 0 if first and second record offsets are equal.
* @return int -1 if first record's offset is less than second's.
*/
static int sort_by_file_offset(const void *first, const void *second)
{
const struct zip_record *a = (const struct zip_record *)first;
const struct zip_record *b = (const struct zip_record *)second;
/* Avoid return x - y, which can cause undefined behaviour
because of signed integer overflow. */
if (a->local_header_offset < b->local_header_offset)
return -1;
else if (a->local_header_offset > b->local_header_offset)
return 1;
return 0;
}
/**
* @brief Create a catalogue of the central directory.
*
* This function indexes every file in the central directory.
* It creates a zip record catalogue and sorts them by file entry offset.
* Then it iterates the sorted file records looking for overlapping files.
*
* The caller is responsible for freeing the catalogue.
* The catalogue may contain duplicate items, which should be skipped.
*
* @param ctx The scanning context
* @param map The file map
* @param fsize The file size
* @param coff The central directory offset
* @param[out] catalogue A catalogue of zip_records found in the central directory.
* @param[out] num_records The number of records in the catalogue.
* @return cl_error_t CL_CLEAN if no overlapping files
* @return cl_error_t CL_VIRUS if overlapping files and heuristic alerts are enabled
* @return cl_error_t CL_EFORMAT if overlapping files and heuristic alerts are disabled
* @return cl_error_t CL_ETIMEOUT if the scan time limit is exceeded.
* @return cl_error_t CL_EMEM for memory allocation errors.
*/
cl_error_t index_the_central_directory(
cli_ctx *ctx,
fmap_t *map,
uint32_t fsize,
uint32_t coff,
struct zip_record **catalogue,
size_t *num_records)
{
cl_error_t status = CL_CLEAN;
cl_error_t ret = CL_CLEAN;
size_t num_record_blocks = 0;
size_t index = 0;
struct zip_record *zip_catalogue = NULL;
size_t records_count = 0;
struct zip_record *curr_record = NULL;
struct zip_record *prev_record = NULL;
uint32_t num_overlapping_files = 0;
bool exceeded_max_files = false;
if (NULL == catalogue || NULL == num_records) {
cli_errmsg("index_the_central_directory: Invalid NULL arguments\n");
goto done;
}
*catalogue = NULL;
*num_records = 0;
zip_catalogue = (struct zip_record *)cli_malloc(sizeof(struct zip_record) * ZIP_RECORDS_CHECK_BLOCKSIZE);
if (NULL == zip_catalogue) {
status = CL_EMEM;
goto done;
}
num_record_blocks = 1;
memset(zip_catalogue, 0, sizeof(struct zip_record) * ZIP_RECORDS_CHECK_BLOCKSIZE);
cli_dbgmsg("cli_unzip: checking for non-recursive zip bombs...\n");
do {
coff = parse_central_directory_file_header(map,
coff,
fsize,
NULL, // num_files_unziped not required
index + 1,
&ret,
ctx,
NULL, // tmpd not required
NULL,
&(zip_catalogue[records_count]));
if (CL_EPARSE != ret) {
// Found a record.
records_count++;
}
if (0 == coff) {
// No more files (previous was last).
break;
}
if (ret == CL_VIRUS) {
status = CL_VIRUS;
goto done;
}
index++;
if (cli_checktimelimit(ctx) != CL_SUCCESS) {
cli_dbgmsg("cli_unzip: Time limit reached (max: %u)\n", ctx->engine->maxscantime);
status = CL_ETIMEOUT;
goto done;
}
/* stop checking file entries if we'll exceed maxfiles */
if (ctx->engine->maxfiles && records_count >= ctx->engine->maxfiles) {
cli_dbgmsg("cli_unzip: Files limit reached (max: %u)\n", ctx->engine->maxfiles);
cli_append_potentially_unwanted_if_heur_exceedsmax(ctx, "Heuristics.Limits.Exceeded.MaxFiles");
exceeded_max_files = true; // Set a bool so we can return the correct status code later.
// We still need to scan the files we found while reviewing the file records up to this limit.
break;
}
if (records_count % ZIP_RECORDS_CHECK_BLOCKSIZE == 0) {
struct zip_record *zip_catalogue_new = NULL;
cli_dbgmsg(" cli_unzip: Exceeded zip record block size, allocating more space...\n");
/* allocate more space for zip records */
if (sizeof(struct zip_record) * ZIP_RECORDS_CHECK_BLOCKSIZE * (num_record_blocks + 1) <
sizeof(struct zip_record) * ZIP_RECORDS_CHECK_BLOCKSIZE * (num_record_blocks)) {
cli_errmsg("cli_unzip: Number of file records in zip will exceed the max for current architecture (integer overflow)\n");
status = CL_EFORMAT;
goto done;
}
zip_catalogue_new = cli_realloc2(zip_catalogue, sizeof(struct zip_record) * ZIP_RECORDS_CHECK_BLOCKSIZE * (num_record_blocks + 1));
if (NULL == zip_catalogue_new) {
status = CL_EMEM;
goto done;
}
zip_catalogue = zip_catalogue_new;
zip_catalogue_new = NULL;
num_record_blocks++;
/* zero out the memory for the new records */
memset(&(zip_catalogue[records_count]), 0, sizeof(struct zip_record) * (ZIP_RECORDS_CHECK_BLOCKSIZE * num_record_blocks - records_count));
}
} while (1);
if (ret == CL_VIRUS) {
status = CL_VIRUS;
goto done;
}
if (records_count > 1) {
/*
* Sort the records by local file offset
*/
cli_qsort(zip_catalogue, records_count, sizeof(struct zip_record), sort_by_file_offset);
/*
* Detect overlapping files.
*/
for (index = 1; index < records_count; index++) {
prev_record = &(zip_catalogue[index - 1]);
curr_record = &(zip_catalogue[index]);
uint32_t prev_record_size = prev_record->local_header_size + prev_record->compressed_size;
uint32_t curr_record_size = curr_record->local_header_size + curr_record->compressed_size;
uint32_t prev_record_end;
uint32_t curr_record_end;
/* Check for integer overflow in 32bit size & offset values */
if ((UINT32_MAX - prev_record_size < prev_record->local_header_offset) ||
(UINT32_MAX - curr_record_size < curr_record->local_header_offset)) {
cli_dbgmsg("cli_unzip: Integer overflow detected; invalid data sizes in zip file headers.\n");
status = CL_EFORMAT;
goto done;
}
prev_record_end = prev_record->local_header_offset + prev_record_size;
curr_record_end = curr_record->local_header_offset + curr_record_size;
if (((curr_record->local_header_offset >= prev_record->local_header_offset) && (curr_record->local_header_offset + ZIP_RECORD_OVERLAP_FUDGE_FACTOR < prev_record_end)) ||
((prev_record->local_header_offset >= curr_record->local_header_offset) && (prev_record->local_header_offset + ZIP_RECORD_OVERLAP_FUDGE_FACTOR < curr_record_end))) {
/* Overlapping file detected */
num_overlapping_files++;
if ((curr_record->local_header_offset == prev_record->local_header_offset) &&
(curr_record->local_header_size == prev_record->local_header_size) &&
(curr_record->compressed_size == prev_record->compressed_size)) {
cli_dbgmsg("cli_unzip: Ignoring duplicate file entry @ 0x%x.\n", curr_record->local_header_offset);
} else {
cli_dbgmsg("cli_unzip: Overlapping files detected.\n");
cli_dbgmsg(" previous file end: %u\n", prev_record_end);
cli_dbgmsg(" current file start: %u\n", curr_record->local_header_offset);
if (ZIP_MAX_NUM_OVERLAPPING_FILES < num_overlapping_files) {
if (SCAN_HEURISTICS) {
status = cli_append_potentially_unwanted(ctx, "Heuristics.Zip.OverlappingFiles");
} else {
status = CL_EFORMAT;
}
goto done;
}
}
}
if (cli_checktimelimit(ctx) != CL_SUCCESS) {
cli_dbgmsg("cli_unzip: Time limit reached (max: %u)\n", ctx->engine->maxscantime);
status = CL_ETIMEOUT;
goto done;
}
}
}
*catalogue = zip_catalogue;
*num_records = records_count;
status = CL_SUCCESS;
done:
if (CL_SUCCESS != status) {
if (NULL != zip_catalogue) {
size_t i;
for (i = 0; i < records_count; i++) {
if (NULL != zip_catalogue[i].original_filename) {
free(zip_catalogue[i].original_filename);
zip_catalogue[i].original_filename = NULL;
}
}
free(zip_catalogue);
zip_catalogue = NULL;
}
if (exceeded_max_files) {
status = CL_EMAXFILES;
}
}
return status;
}
cl_error_t cli_unzip(cli_ctx *ctx)
{
unsigned int file_count = 0, num_files_unzipped = 0;
cl_error_t ret = CL_CLEAN;
uint32_t fsize, lhoff = 0, coff = 0;
fmap_t *map = ctx->fmap;
char *tmpd = NULL;
const char *ptr;
#if HAVE_JSON
int toval = 0;
#endif
struct zip_record *zip_catalogue = NULL;
size_t records_count = 0;
size_t i;
cli_dbgmsg("in cli_unzip\n");
fsize = (uint32_t)map->len;
if (sizeof(off_t) != sizeof(uint32_t) && (size_t)fsize != map->len) {
cli_dbgmsg("cli_unzip: file too big\n");
ret = CL_CLEAN;
goto done;
}
if (fsize < SIZEOF_CENTRAL_HEADER) {
cli_dbgmsg("cli_unzip: file too short\n");
ret = CL_CLEAN;
goto done;
}
for (coff = fsize - 22; coff > 0; coff--) { /* sizeof(EOC)==22 */
if (!(ptr = fmap_need_off_once(map, coff, 20)))
continue;
if (cli_readint32(ptr) == ZIP_MAGIC_CENTRAL_DIRECTORY_RECORD_END) {
uint32_t chptr = cli_readint32(&ptr[16]);
if (!CLI_ISCONTAINED_0_TO(fsize, chptr, SIZEOF_CENTRAL_HEADER)) continue;
coff = chptr;
break;
}
}
if (coff) {
cli_dbgmsg("cli_unzip: central directory header offset: @%x\n", coff);
/*
* Index the central directory first.
*/
ret = index_the_central_directory(
ctx,
map,
fsize,
coff,
&zip_catalogue,
&records_count);
if (CL_SUCCESS != ret) {
goto done;
}
/*
* Then decrypt/unzip & scan each unique file entry.
*/
for (i = 0; i < records_count; i++) {
const uint8_t *compressed_data = NULL;
if ((i > 0) &&
(zip_catalogue[i].local_header_offset == zip_catalogue[i - 1].local_header_offset) &&
(zip_catalogue[i].local_header_size == zip_catalogue[i - 1].local_header_size) &&
(zip_catalogue[i].compressed_size == zip_catalogue[i - 1].compressed_size)) {
/* Duplicate file entry, skip. */
cli_dbgmsg("cli_unzip: Skipping unzipping of duplicate file entry: @ 0x%x\n", zip_catalogue[i].local_header_offset);
continue;
}
compressed_data = fmap_need_off(map, zip_catalogue[i].local_header_offset + zip_catalogue[i].local_header_size, SIZEOF_LOCAL_HEADER);
if (zip_catalogue[i].encrypted) {
if (fmap_need_ptr_once(map, compressed_data, zip_catalogue[i].compressed_size))
ret = zdecrypt(
compressed_data,
zip_catalogue[i].compressed_size,
zip_catalogue[i].uncompressed_size,
fmap_need_off(map, zip_catalogue[i].local_header_offset, SIZEOF_LOCAL_HEADER),
&num_files_unzipped,
ctx,
tmpd,
zip_scan_cb,
zip_catalogue[i].original_filename);
} else {
if (fmap_need_ptr_once(map, compressed_data, zip_catalogue[i].compressed_size))
ret = unz(
compressed_data,
zip_catalogue[i].compressed_size,
zip_catalogue[i].uncompressed_size,
zip_catalogue[i].method,
zip_catalogue[i].flags,
&num_files_unzipped,
ctx,
tmpd,
zip_scan_cb,
zip_catalogue[i].original_filename,
false);
}
file_count++;
if (ctx->engine->maxfiles && num_files_unzipped >= ctx->engine->maxfiles) {
// Note: this check piggybacks on the MaxFiles setting, but is not actually
// scanning these files or incrementing the ctx->scannedfiles count
// This check is also redundant. zip_scan_cb == cli_magic_scan_desc,
// so we will also check and update the limits for the actual number of scanned
// files inside cli_magic_scan()
cli_dbgmsg("cli_unzip: Files limit reached (max: %u)\n", ctx->engine->maxfiles);
cli_append_potentially_unwanted_if_heur_exceedsmax(ctx, "Heuristics.Limits.Exceeded.MaxFiles");
ret = CL_EMAXFILES;
}
if (cli_checktimelimit(ctx) != CL_SUCCESS) {
cli_dbgmsg("cli_unzip: Time limit reached (max: %u)\n", ctx->engine->maxscantime);
ret = CL_ETIMEOUT;
goto done;
}
#if HAVE_JSON
if (cli_json_timeout_cycle_check(ctx, &toval) != CL_SUCCESS) {
ret = CL_ETIMEOUT;
}
#endif
if (ret != CL_SUCCESS) {
break;
}
}
} else {
cli_dbgmsg("cli_unzip: central not found, using localhdrs\n");
}
if (CL_SUCCESS != ret) {
// goto done right away if there was a timeout, an alert, etc.
// This is slightly redundant since the while loop will only happen
// if ret == CL_SUCCESS but it's more explicit.
goto done;
}
if (0 < num_files_unzipped && num_files_unzipped <= (file_count / 4)) { /* FIXME: make up a sane ratio or remove the whole logic */
file_count = 0;
while ((ret == CL_CLEAN) &&
(lhoff < fsize) &&
(0 != (coff = parse_local_file_header(map,
lhoff,
fsize - lhoff,
&num_files_unzipped,
file_count + 1,
NULL,
&ret,
ctx,
tmpd,
1,
zip_scan_cb,
NULL)))) {
file_count++;
lhoff += coff;
if (ctx->engine->maxfiles && num_files_unzipped >= ctx->engine->maxfiles) {
// Note: this check piggybacks on the MaxFiles setting, but is not actually
// scanning these files or incrementing the ctx->scannedfiles count
// This check is also redundant. zip_scan_cb == cli_magic_scan_desc,
// so we will also check and update the limits for the actual number of scanned
// files inside cli_magic_scan()
cli_dbgmsg("cli_unzip: Files limit reached (max: %u)\n", ctx->engine->maxfiles);
cli_append_potentially_unwanted_if_heur_exceedsmax(ctx, "Heuristics.Limits.Exceeded.MaxFiles");
ret = CL_EMAXFILES;
}
#if HAVE_JSON
if (cli_json_timeout_cycle_check(ctx, &toval) != CL_SUCCESS) {
ret = CL_ETIMEOUT;
}
#endif
}
}
done:
if (NULL != zip_catalogue) {
/* Clean up zip record resources */
for (i = 0; i < records_count; i++) {
if (NULL != zip_catalogue[i].original_filename) {
free(zip_catalogue[i].original_filename);
zip_catalogue[i].original_filename = NULL;
}
}
free(zip_catalogue);
zip_catalogue = NULL;
}
if (NULL != tmpd) {
if (!ctx->engine->keeptmp) {
cli_rmdirs(tmpd);
}
free(tmpd);
}
return ret;
}
cl_error_t unzip_single_internal(cli_ctx *ctx, off_t local_header_offset, zip_cb zcb)
{
cl_error_t ret = CL_CLEAN;
unsigned int num_files_unzipped = 0;
uint32_t fsize;
fmap_t *map = ctx->fmap;
cli_dbgmsg("in cli_unzip_single\n");
fsize = (uint32_t)(map->len - local_header_offset);
if ((local_header_offset < 0) ||
((size_t)local_header_offset > map->len) ||
((sizeof(off_t) != sizeof(uint32_t)) && ((size_t)fsize != map->len - local_header_offset))) {
cli_dbgmsg("cli_unzip: bad offset\n");
return CL_CLEAN;
}
if (fsize < SIZEOF_LOCAL_HEADER) {
cli_dbgmsg("cli_unzip: file too short\n");
return CL_CLEAN;
}
parse_local_file_header(map,
local_header_offset,
fsize,
&num_files_unzipped,
0,
NULL,
&ret,
ctx,
NULL,
0,
zcb,
NULL);
return ret;
}
cl_error_t cli_unzip_single(cli_ctx *ctx, off_t local_header_offset)
{
return unzip_single_internal(ctx, local_header_offset, zip_scan_cb);
}
cl_error_t unzip_search_add(struct zip_requests *requests, const char *name, size_t nlen)
{
cli_dbgmsg("in unzip_search_add\n");
if (requests->namecnt >= MAX_ZIP_REQUESTS) {
cli_dbgmsg("DEBUGGING MESSAGE GOES HERE!\n");
return CL_BREAK;
}
cli_dbgmsg("unzip_search_add: adding %s (len %llu)\n", name, (long long unsigned)nlen);
requests->names[requests->namecnt] = name;
requests->namelens[requests->namecnt] = nlen;
requests->namecnt++;
return CL_SUCCESS;
}
cl_error_t unzip_search(cli_ctx *ctx, fmap_t *map, struct zip_requests *requests)
{
unsigned int file_count = 0;
fmap_t *zmap = map;
size_t fsize;
uint32_t coff = 0;
const char *ptr;
cl_error_t ret = CL_CLEAN;
#if HAVE_JSON
uint32_t toval = 0;
#endif
cli_dbgmsg("in unzip_search\n");
if ((!ctx && !map) || !requests) {
return CL_ENULLARG;
}
/* get priority to given map over ctx->fmap */
if (ctx && !map)
zmap = ctx->fmap;
fsize = zmap->len;
if (sizeof(off_t) != sizeof(uint32_t) && fsize != zmap->len) {
cli_dbgmsg("unzip_search: file too big\n");
return CL_CLEAN;
}
if (fsize < SIZEOF_CENTRAL_HEADER) {
cli_dbgmsg("unzip_search: file too short\n");
return CL_CLEAN;
}
for (coff = fsize - 22; coff > 0; coff--) { /* sizeof(EOC)==22 */
if (!(ptr = fmap_need_off_once(zmap, coff, 20)))
continue;
if (cli_readint32(ptr) == ZIP_MAGIC_CENTRAL_DIRECTORY_RECORD_END) {
uint32_t chptr = cli_readint32(&ptr[16]);
if (!CLI_ISCONTAINED_0_TO(fsize, chptr, SIZEOF_CENTRAL_HEADER)) continue;
coff = chptr;
break;
}
}
if (coff) {
cli_dbgmsg("unzip_search: central directory header offset: @%x\n", coff);
while (ret == CL_CLEAN && (coff = parse_central_directory_file_header(zmap,
coff,
fsize,
NULL,
file_count + 1,
&ret,
ctx,
NULL,
requests,
NULL))) {
if (requests->match) {
ret = CL_VIRUS;
}
file_count++;
if (ctx && ctx->engine->maxfiles && file_count >= ctx->engine->maxfiles) {
// Note: this check piggybacks on the MaxFiles setting, but is not actually
// scanning these files or incrementing the ctx->scannedfiles count
cli_dbgmsg("cli_unzip: Files limit reached (max: %u)\n", ctx->engine->maxfiles);
cli_append_potentially_unwanted_if_heur_exceedsmax(ctx, "Heuristics.Limits.Exceeded.MaxFiles");
ret = CL_EMAXFILES;
}
#if HAVE_JSON
if (ctx && cli_json_timeout_cycle_check(ctx, (int *)(&toval)) != CL_SUCCESS) {
ret = CL_ETIMEOUT;
}
#endif
}
} else {
cli_dbgmsg("unzip_search: cannot locate central directory\n");
}
return ret;
}
cl_error_t unzip_search_single(cli_ctx *ctx, const char *name, size_t nlen, uint32_t *loff)
{
struct zip_requests requests;
cl_error_t ret;
cli_dbgmsg("in unzip_search_single\n");
if (!ctx) {
return CL_ENULLARG;
}
memset(&requests, 0, sizeof(struct zip_requests));
if ((ret = unzip_search_add(&requests, name, nlen)) != CL_SUCCESS) {
return ret;
}
if ((ret = unzip_search(ctx, NULL, &requests)) == CL_VIRUS) {
*loff = requests.loff;
}
return ret;
}
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