#ifndef _HAD_ZIPINT_H
#define _HAD_ZIPINT_H
zipint.h -- internal declarations.
Copyright (C) 1999-2020 Dieter Baron and Thomas Klausner
This file is part of libzip, a library to manipulate ZIP archives.
The authors can be contacted at <libzip@nih.at>
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the
distribution.
3. The names of the authors may not be used to endorse or promote
products derived from this software without specific prior
written permission.
THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS
OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY
DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "compat.h"
#include "config.h"
#ifdef ZIP_ALLOCATE_BUFFER
#include <stdlib.h>
#endif
#ifndef _ZIP_COMPILING_DEPRECATED
#define ZIP_DISABLE_DEPRECATED
#endif
#include "zip.h"
#define CENTRAL_MAGIC "PK\1\2"
#define LOCAL_MAGIC "PK\3\4"
#define EOCD_MAGIC "PK\5\6"
#define DATADES_MAGIC "PK\7\10"
#define EOCD64LOC_MAGIC "PK\6\7"
#define EOCD64_MAGIC "PK\6\6"
#define CDENTRYSIZE 46u
#define LENTRYSIZE 30
#define MAXCOMLEN 65536
#define MAXEXTLEN 65536
#define EOCDLEN 22
#define EOCD64LOCLEN 20
#define EOCD64LEN 56
#define CDBUFSIZE (MAXCOMLEN + EOCDLEN + EOCD64LOCLEN)
#define BUFSIZE 8192
#define EFZIP64SIZE 28
#define EF_WINZIP_AES_SIZE 7
#define MAX_DATA_DESCRIPTOR_LENGTH 24
#define ZIP_CRYPTO_PKWARE_HEADERLEN 12
#define ZIP_CM_REPLACED_DEFAULT (-2)
#define ZIP_CM_WINZIP_AES 99
#define WINZIP_AES_PASSWORD_VERIFY_LENGTH 2
#define WINZIP_AES_MAX_HEADER_LENGTH (16 + WINZIP_AES_PASSWORD_VERIFY_LENGTH)
#define AES_BLOCK_SIZE 16
#define HMAC_LENGTH 10
#define SHA1_LENGTH 20
#define SALT_LENGTH(method) \
((method) == ZIP_EM_AES_128 ? 8 : ((method) == ZIP_EM_AES_192 ? 12 : 16))
#define ZIP_CM_IS_DEFAULT(x) \
((x) == ZIP_CM_DEFAULT || (x) == ZIP_CM_REPLACED_DEFAULT)
#define ZIP_CM_ACTUAL(x) \
((zip_uint16_t)(ZIP_CM_IS_DEFAULT(x) ? ZIP_CM_DEFLATE : (x)))
#define ZIP_EF_UTF_8_COMMENT 0x6375
#define ZIP_EF_UTF_8_NAME 0x7075
#define ZIP_EF_WINZIP_AES 0x9901
#define ZIP_EF_ZIP64 0x0001
#define ZIP_EF_IS_INTERNAL(id) \
((id) == ZIP_EF_UTF_8_COMMENT || (id) == ZIP_EF_UTF_8_NAME || \
(id) == ZIP_EF_WINZIP_AES || (id) == ZIP_EF_ZIP64)
* rw permissions for everyone */
#define ZIP_EXT_ATTRIB_DEFAULT (0100666u << 16)
* permissions for everyone */
#define ZIP_EXT_ATTRIB_DEFAULT_DIR (0040777u << 16)
#define ZIP_FILE_ATTRIBUTES_GENERAL_PURPOSE_BIT_FLAGS_ALLOWED_MASK 0x0836
#define ZIP_MAX(a, b) ((a) > (b) ? (a) : (b))
#define ZIP_MIN(a, b) ((a) < (b) ? (a) : (b))
placed in the internal section, pending cleanup. */
#define ZIP_CODEC_DECODE 0
#define ZIP_CODEC_ENCODE 1
typedef zip_source_t* (*zip_encryption_implementation)(zip_t*,
zip_source_t*,
zip_uint16_t,
int,
const char*);
zip_encryption_implementation _zip_get_encryption_implementation(
zip_uint16_t method,
int operation);
enum zip_compression_status {
ZIP_COMPRESSION_OK,
ZIP_COMPRESSION_END,
ZIP_COMPRESSION_ERROR,
ZIP_COMPRESSION_NEED_DATA
};
typedef enum zip_compression_status zip_compression_status_t;
struct zip_compression_algorithm {
void* (*allocate)(zip_uint16_t method,
int compression_flags,
zip_error_t* error);
void (*deallocate)(void* ctx);
zip_uint16_t (*general_purpose_bit_flags)(void* ctx);
zip_uint8_t version_needed;
bool (*start)(void* ctx);
bool (*end)(void* ctx);
bool (*input)(void* ctx, zip_uint8_t* data, zip_uint64_t length);
void (*end_of_input)(void* ctx);
* update length to number of bytes written */
zip_compression_status_t (*process)(void* ctx,
zip_uint8_t* data,
zip_uint64_t* length);
};
typedef struct zip_compression_algorithm zip_compression_algorithm_t;
extern zip_compression_algorithm_t zip_algorithm_bzip2_compress;
extern zip_compression_algorithm_t zip_algorithm_bzip2_decompress;
extern zip_compression_algorithm_t zip_algorithm_deflate_compress;
extern zip_compression_algorithm_t zip_algorithm_deflate_decompress;
extern zip_compression_algorithm_t zip_algorithm_xz_compress;
extern zip_compression_algorithm_t zip_algorithm_xz_decompress;
* now. */
const zip_uint8_t* zip_get_extra_field_by_id(zip_t*,
int,
int,
zip_uint16_t,
int,
zip_uint16_t*);
user-supplied compression/encryption implementation is finished.
Thus we will keep it private for now. */
typedef zip_int64_t (*zip_source_layered_callback)(zip_source_t*,
void*,
void*,
zip_uint64_t,
enum zip_source_cmd);
zip_source_t* zip_source_compress(zip_t* za,
zip_source_t* src,
zip_int32_t cm,
int compression_flags);
zip_source_t* zip_source_crc(zip_t*, zip_source_t*, int);
zip_source_t* zip_source_decompress(zip_t* za,
zip_source_t* src,
zip_int32_t cm);
zip_source_t* zip_source_layered(zip_t*,
zip_source_t*,
zip_source_layered_callback,
void*);
zip_source_t* zip_source_layered_create(zip_source_t* src,
zip_source_layered_callback cb,
void* ud,
zip_error_t* error);
zip_source_t* zip_source_pkware_decode(zip_t*,
zip_source_t*,
zip_uint16_t,
int,
const char*);
zip_source_t* zip_source_pkware_encode(zip_t*,
zip_source_t*,
zip_uint16_t,
int,
const char*);
int zip_source_remove(zip_source_t*);
zip_int64_t zip_source_supports(zip_source_t* src);
zip_source_t* zip_source_window(zip_t*,
zip_source_t*,
zip_uint64_t,
zip_uint64_t);
zip_source_t* zip_source_winzip_aes_decode(zip_t*,
zip_source_t*,
zip_uint16_t,
int,
const char*);
zip_source_t* zip_source_winzip_aes_encode(zip_t*,
zip_source_t*,
zip_uint16_t,
int,
const char*);
zip_source_t* zip_source_buffer_with_attributes(
zip_t* za,
const void* data,
zip_uint64_t len,
int freep,
zip_file_attributes_t* attributes);
enum zip_les { ZIP_LES_NONE, ZIP_LES_UPPER, ZIP_LES_LOWER, ZIP_LES_INVAL };
#define ZIP_GPBF_ENCRYPTED 0x0001u
#define ZIP_GPBF_DATA_DESCRIPTOR 0x0008u
#define ZIP_GPBF_STRONG_ENCRYPTION 0x0040u
#define ZIP_GPBF_ENCODING_UTF_8 0x0800u
#define ZIP_EF_LOCAL ZIP_FL_LOCAL
#define ZIP_EF_CENTRAL ZIP_FL_CENTRAL
#define ZIP_EF_BOTH (ZIP_EF_LOCAL | ZIP_EF_CENTRAL)
#define ZIP_FL_FORCE_ZIP64 \
1024
#define ZIP_FL_ENCODING_ALL \
(ZIP_FL_ENC_GUESS | ZIP_FL_ENC_CP437 | ZIP_FL_ENC_UTF_8)
enum zip_encoding_type {
ZIP_ENCODING_UNKNOWN,
ZIP_ENCODING_ASCII,
ZIP_ENCODING_UTF8_KNOWN,
ZIP_ENCODING_UTF8_GUESSED,
ZIP_ENCODING_CP437,
ZIP_ENCODING_ERROR
};
typedef enum zip_encoding_type zip_encoding_type_t;
struct zip_hash;
struct zip_progress;
typedef struct zip_cdir zip_cdir_t;
typedef struct zip_dirent zip_dirent_t;
typedef struct zip_entry zip_entry_t;
typedef struct zip_extra_field zip_extra_field_t;
typedef struct zip_string zip_string_t;
typedef struct zip_buffer zip_buffer_t;
typedef struct zip_hash zip_hash_t;
typedef struct zip_progress zip_progress_t;
struct zip {
zip_source_t* src;
unsigned int open_flags;
zip_error_t error;
unsigned int flags;
unsigned int ch_flags;
char* default_password;
zip_string_t* comment_orig;
zip_string_t* comment_changes;
bool comment_changed;
zip_uint64_t nentry;
zip_uint64_t nentry_alloc;
zip_entry_t* entry;
unsigned int nopen_source;
unsigned int nopen_source_alloc;
zip_source_t** open_source;
zip_hash_t* names;
zip_progress_t* progress;
};
struct zip_file {
zip_t* za;
zip_error_t error;
bool eof;
zip_source_t* src;
};
#define ZIP_DIRENT_COMP_METHOD 0x0001u
#define ZIP_DIRENT_FILENAME 0x0002u
#define ZIP_DIRENT_COMMENT 0x0004u
#define ZIP_DIRENT_EXTRA_FIELD 0x0008u
#define ZIP_DIRENT_ATTRIBUTES 0x0010u
#define ZIP_DIRENT_LAST_MOD 0x0020u
#define ZIP_DIRENT_ENCRYPTION_METHOD 0x0040u
#define ZIP_DIRENT_PASSWORD 0x0080u
#define ZIP_DIRENT_ALL ZIP_UINT32_MAX
struct zip_dirent {
zip_uint32_t changed;
bool local_extra_fields_read;
extra fields */
bool cloned;
non-changed strings */
bool crc_valid;
*/
zip_uint16_t version_madeby;
zip_uint16_t version_needed;
zip_uint16_t bitflags;
zip_int32_t comp_method;
ZIP_CM_DEFAULT (-1)) */
time_t last_mod;
zip_uint32_t crc;
zip_uint64_t comp_size;
zip_uint64_t uncomp_size;
zip_string_t* filename;
zip_extra_field_t* extra_fields;
zip_string_t* comment;
zip_uint32_t disk_number;
zip_uint16_t int_attrib;
zip_uint32_t ext_attrib;
zip_uint64_t offset;
zip_uint16_t compression_level;
valid in orig) */
zip_uint16_t encryption_method;
fields */
char* password;
};
struct zip_cdir {
zip_entry_t* entry;
zip_uint64_t nentry;
zip_uint64_t nentry_alloc;
zip_uint64_t size;
zip_uint64_t offset;
zip_string_t* comment;
bool is_zip64;
};
struct zip_extra_field {
zip_extra_field_t* next;
zip_flags_t flags;
zip_uint16_t id;
zip_uint16_t size;
zip_uint8_t* data;
};
enum zip_source_write_state {
ZIP_SOURCE_WRITE_CLOSED,
ZIP_SOURCE_WRITE_OPEN,
ZIP_SOURCE_WRITE_FAILED,
ZIP_SOURCE_WRITE_REMOVED
};
typedef enum zip_source_write_state zip_source_write_state_t;
struct zip_source {
zip_source_t* src;
union {
zip_source_callback f;
zip_source_layered_callback l;
} cb;
void* ud;
zip_error_t error;
zip_int64_t supports;
unsigned int open_count;
lower layer) */
zip_source_write_state_t write_state;
bool source_closed;
zip_t* source_archive;
archive */
unsigned int refcount;
bool eof;
bool had_read_error;
};
#define ZIP_SOURCE_IS_OPEN_READING(src) ((src)->open_count > 0)
#define ZIP_SOURCE_IS_OPEN_WRITING(src) \
((src)->write_state == ZIP_SOURCE_WRITE_OPEN)
#define ZIP_SOURCE_IS_LAYERED(src) ((src)->src != NULL)
struct zip_entry {
zip_dirent_t* orig;
zip_dirent_t* changes;
zip_source_t* source;
bool deleted;
};
struct zip_string {
zip_uint8_t* raw;
zip_uint16_t length;
enum zip_encoding_type encoding;
zip_uint8_t* converted;
zip_uint32_t converted_length;
};
However, there are (embedded) systems with a stack size of 12k;
for those, use malloc()/free() */
#ifdef ZIP_ALLOCATE_BUFFER
#define DEFINE_BYTE_ARRAY(buf, size) zip_uint8_t* buf
#define byte_array_init(buf, size) \
(((buf) = (zip_uint8_t*)malloc(size)) != NULL)
#define byte_array_fini(buf) (free(buf))
#else
#define DEFINE_BYTE_ARRAY(buf, size) zip_uint8_t buf[size]
#define byte_array_init(buf, size) (1)
#define byte_array_fini(buf) ((void)0)
#endif
struct zip_buffer {
bool ok;
bool free_data;
zip_uint8_t* data;
zip_uint64_t size;
zip_uint64_t offset;
};
struct zip_filelist {
zip_uint64_t idx;
};
typedef struct zip_filelist zip_filelist_t;
struct _zip_winzip_aes;
typedef struct _zip_winzip_aes zip_winzip_aes_t;
struct _zip_pkware_keys {
zip_uint32_t key[3];
};
typedef struct _zip_pkware_keys zip_pkware_keys_t;
extern const char* const _zip_err_str[];
extern const int _zip_nerr_str;
extern const int _zip_err_type[];
#define ZIP_MAX(a, b) ((a) > (b) ? (a) : (b))
#define ZIP_MIN(a, b) ((a) < (b) ? (a) : (b))
#define ZIP_ENTRY_CHANGED(e, f) ((e)->changes && ((e)->changes->changed & (f)))
#define ZIP_ENTRY_DATA_CHANGED(x) ((x)->source != NULL)
#define ZIP_ENTRY_HAS_CHANGES(e) \
(ZIP_ENTRY_DATA_CHANGED(e) || (e)->deleted || \
ZIP_ENTRY_CHANGED((e), ZIP_DIRENT_ALL))
#define ZIP_IS_RDONLY(za) ((za)->ch_flags & ZIP_AFL_RDONLY)
#ifdef HAVE_EXPLICIT_MEMSET
#define _zip_crypto_clear(b, l) explicit_memset((b), 0, (l))
#else
#ifdef HAVE_EXPLICIT_BZERO
#define _zip_crypto_clear(b, l) explicit_bzero((b), (l))
#else
#include <string.h>
#define _zip_crypto_clear(b, l) memset((b), 0, (l))
#endif
#endif
zip_int64_t _zip_add_entry(zip_t*);
zip_uint8_t* _zip_buffer_data(zip_buffer_t* buffer);
bool _zip_buffer_eof(zip_buffer_t* buffer);
void _zip_buffer_free(zip_buffer_t* buffer);
zip_uint8_t* _zip_buffer_get(zip_buffer_t* buffer, zip_uint64_t length);
zip_uint16_t _zip_buffer_get_16(zip_buffer_t* buffer);
zip_uint32_t _zip_buffer_get_32(zip_buffer_t* buffer);
zip_uint64_t _zip_buffer_get_64(zip_buffer_t* buffer);
zip_uint8_t _zip_buffer_get_8(zip_buffer_t* buffer);
zip_uint64_t _zip_buffer_left(zip_buffer_t* buffer);
zip_buffer_t* _zip_buffer_new(zip_uint8_t* data, zip_uint64_t size);
zip_buffer_t* _zip_buffer_new_from_source(zip_source_t* src,
zip_uint64_t size,
zip_uint8_t* buf,
zip_error_t* error);
zip_uint64_t _zip_buffer_offset(zip_buffer_t* buffer);
bool _zip_buffer_ok(zip_buffer_t* buffer);
zip_uint8_t* _zip_buffer_peek(zip_buffer_t* buffer, zip_uint64_t length);
int _zip_buffer_put(zip_buffer_t* buffer, const void* src, size_t length);
int _zip_buffer_put_16(zip_buffer_t* buffer, zip_uint16_t i);
int _zip_buffer_put_32(zip_buffer_t* buffer, zip_uint32_t i);
int _zip_buffer_put_64(zip_buffer_t* buffer, zip_uint64_t i);
int _zip_buffer_put_8(zip_buffer_t* buffer, zip_uint8_t i);
zip_uint64_t _zip_buffer_read(zip_buffer_t* buffer,
zip_uint8_t* data,
zip_uint64_t length);
int _zip_buffer_skip(zip_buffer_t* buffer, zip_uint64_t length);
int _zip_buffer_set_offset(zip_buffer_t* buffer, zip_uint64_t offset);
zip_uint64_t _zip_buffer_size(zip_buffer_t* buffer);
void _zip_cdir_free(zip_cdir_t*);
bool _zip_cdir_grow(zip_cdir_t* cd,
zip_uint64_t additional_entries,
zip_error_t* error);
zip_cdir_t* _zip_cdir_new(zip_uint64_t, zip_error_t*);
zip_int64_t _zip_cdir_write(zip_t* za,
const zip_filelist_t* filelist,
zip_uint64_t survivors);
time_t _zip_d2u_time(zip_uint16_t, zip_uint16_t);
void _zip_deregister_source(zip_t* za, zip_source_t* src);
void _zip_dirent_apply_attributes(zip_dirent_t*,
zip_file_attributes_t*,
bool,
zip_uint32_t);
zip_dirent_t* _zip_dirent_clone(const zip_dirent_t*);
void _zip_dirent_free(zip_dirent_t*);
void _zip_dirent_finalize(zip_dirent_t*);
void _zip_dirent_init(zip_dirent_t*);
bool _zip_dirent_needs_zip64(const zip_dirent_t*, zip_flags_t);
zip_dirent_t* _zip_dirent_new(void);
zip_int64_t _zip_dirent_read(zip_dirent_t* zde,
zip_source_t* src,
zip_buffer_t* buffer,
bool local,
zip_error_t* error);
void _zip_dirent_set_version_needed(zip_dirent_t* de, bool force_zip64);
zip_int32_t _zip_dirent_size(zip_source_t* src, zip_uint16_t, zip_error_t*);
int _zip_dirent_write(zip_t* za, zip_dirent_t* dirent, zip_flags_t flags);
zip_extra_field_t* _zip_ef_clone(const zip_extra_field_t*, zip_error_t*);
zip_extra_field_t* _zip_ef_delete_by_id(zip_extra_field_t*,
zip_uint16_t,
zip_uint16_t,
zip_flags_t);
void _zip_ef_free(zip_extra_field_t*);
const zip_uint8_t* _zip_ef_get_by_id(const zip_extra_field_t*,
zip_uint16_t*,
zip_uint16_t,
zip_uint16_t,
zip_flags_t,
zip_error_t*);
zip_extra_field_t* _zip_ef_merge(zip_extra_field_t*, zip_extra_field_t*);
zip_extra_field_t* _zip_ef_new(zip_uint16_t,
zip_uint16_t,
const zip_uint8_t*,
zip_flags_t);
bool _zip_ef_parse(const zip_uint8_t*,
zip_uint16_t,
zip_flags_t,
zip_extra_field_t**,
zip_error_t*);
zip_extra_field_t* _zip_ef_remove_internal(zip_extra_field_t*);
zip_uint16_t _zip_ef_size(const zip_extra_field_t*, zip_flags_t);
int _zip_ef_write(zip_t* za, const zip_extra_field_t* ef, zip_flags_t flags);
void _zip_entry_finalize(zip_entry_t*);
void _zip_entry_init(zip_entry_t*);
void _zip_error_clear(zip_error_t*);
void _zip_error_get(const zip_error_t*, int*, int*);
void _zip_error_copy(zip_error_t* dst, const zip_error_t* src);
void _zip_error_set_from_source(zip_error_t*, zip_source_t*);
const zip_uint8_t* _zip_extract_extra_field_by_id(zip_error_t*,
zip_uint16_t,
int,
const zip_uint8_t*,
zip_uint16_t,
zip_uint16_t*);
int _zip_file_extra_field_prepare_for_change(zip_t*, zip_uint64_t);
int _zip_file_fillbuf(void*, size_t, zip_file_t*);
zip_uint64_t _zip_file_get_end(const zip_t* za,
zip_uint64_t index,
zip_error_t* error);
zip_uint64_t _zip_file_get_offset(const zip_t*, zip_uint64_t, zip_error_t*);
zip_dirent_t* _zip_get_dirent(zip_t*, zip_uint64_t, zip_flags_t, zip_error_t*);
enum zip_encoding_type _zip_guess_encoding(zip_string_t*,
enum zip_encoding_type);
zip_uint8_t* _zip_cp437_to_utf8(const zip_uint8_t* const,
zip_uint32_t,
zip_uint32_t*,
zip_error_t*);
bool _zip_hash_add(zip_hash_t* hash,
const zip_uint8_t* name,
zip_uint64_t index,
zip_flags_t flags,
zip_error_t* error);
bool _zip_hash_delete(zip_hash_t* hash,
const zip_uint8_t* key,
zip_error_t* error);
void _zip_hash_free(zip_hash_t* hash);
zip_int64_t _zip_hash_lookup(zip_hash_t* hash,
const zip_uint8_t* name,
zip_flags_t flags,
zip_error_t* error);
zip_hash_t* _zip_hash_new(zip_error_t* error);
bool _zip_hash_reserve_capacity(zip_hash_t* hash,
zip_uint64_t capacity,
zip_error_t* error);
bool _zip_hash_revert(zip_hash_t* hash, zip_error_t* error);
int _zip_mkstempm(char* path, int mode);
zip_t* _zip_open(zip_source_t*, unsigned int, zip_error_t*);
void _zip_progress_end(zip_progress_t* progress);
void _zip_progress_free(zip_progress_t* progress);
int _zip_progress_start(zip_progress_t* progress);
int _zip_progress_subrange(zip_progress_t* progress, double start, double end);
int _zip_progress_update(zip_progress_t* progress, double value);
ZIP_EXTERN bool zip_secure_random(zip_uint8_t* buffer, zip_uint16_t length);
zip_uint32_t zip_random_uint32(void);
int _zip_read(zip_source_t* src,
zip_uint8_t* data,
zip_uint64_t length,
zip_error_t* error);
int _zip_read_at_offset(zip_source_t* src,
zip_uint64_t offset,
unsigned char* b,
size_t length,
zip_error_t* error);
zip_uint8_t* _zip_read_data(zip_buffer_t* buffer,
zip_source_t* src,
size_t length,
bool nulp,
zip_error_t* error);
int _zip_read_local_ef(zip_t*, zip_uint64_t);
zip_string_t* _zip_read_string(zip_buffer_t* buffer,
zip_source_t* src,
zip_uint16_t length,
bool nulp,
zip_error_t* error);
int _zip_register_source(zip_t* za, zip_source_t* src);
void _zip_set_open_error(int* zep, const zip_error_t* err, int ze);
bool zip_source_accept_empty(zip_source_t* src);
zip_int64_t _zip_source_call(zip_source_t* src,
void* data,
zip_uint64_t length,
zip_source_cmd_t command);
bool _zip_source_eof(zip_source_t*);
zip_source_t* _zip_source_file_or_p(const char*,
FILE*,
zip_uint64_t,
zip_int64_t,
const zip_stat_t*,
zip_error_t* error);
bool _zip_source_had_error(zip_source_t*);
void _zip_source_invalidate(zip_source_t* src);
zip_source_t* _zip_source_new(zip_error_t* error);
int _zip_source_set_source_archive(zip_source_t*, zip_t*);
zip_source_t* _zip_source_window_new(zip_source_t* src,
zip_uint64_t start,
zip_uint64_t length,
zip_stat_t* st,
zip_file_attributes_t* attributes,
zip_t* source_archive,
zip_uint64_t source_index,
zip_error_t* error);
zip_source_t* _zip_source_zip_new(zip_t*,
zip_t*,
zip_uint64_t,
zip_flags_t,
zip_uint64_t,
zip_uint64_t,
const char*);
int _zip_stat_merge(zip_stat_t* dst, const zip_stat_t* src, zip_error_t* error);
int _zip_string_equal(const zip_string_t*, const zip_string_t*);
void _zip_string_free(zip_string_t*);
zip_uint32_t _zip_string_crc32(const zip_string_t*);
const zip_uint8_t* _zip_string_get(zip_string_t*,
zip_uint32_t*,
zip_flags_t,
zip_error_t*);
zip_uint16_t _zip_string_length(const zip_string_t*);
zip_string_t* _zip_string_new(const zip_uint8_t*,
zip_uint16_t,
zip_flags_t,
zip_error_t*);
int _zip_string_write(zip_t* za, const zip_string_t* string);
bool _zip_winzip_aes_decrypt(zip_winzip_aes_t* ctx,
zip_uint8_t* data,
zip_uint64_t length);
bool _zip_winzip_aes_encrypt(zip_winzip_aes_t* ctx,
zip_uint8_t* data,
zip_uint64_t length);
bool _zip_winzip_aes_finish(zip_winzip_aes_t* ctx, zip_uint8_t* hmac);
void _zip_winzip_aes_free(zip_winzip_aes_t* ctx);
zip_winzip_aes_t* _zip_winzip_aes_new(const zip_uint8_t* password,
zip_uint64_t password_length,
const zip_uint8_t* salt,
zip_uint16_t key_size,
zip_uint8_t* password_verify,
zip_error_t* error);
void _zip_pkware_encrypt(zip_pkware_keys_t* keys,
zip_uint8_t* out,
const zip_uint8_t* in,
zip_uint64_t len);
void _zip_pkware_decrypt(zip_pkware_keys_t* keys,
zip_uint8_t* out,
const zip_uint8_t* in,
zip_uint64_t len);
zip_pkware_keys_t* _zip_pkware_keys_new(zip_error_t* error);
void _zip_pkware_keys_free(zip_pkware_keys_t* keys);
void _zip_pkware_keys_reset(zip_pkware_keys_t* keys);
int _zip_changed(const zip_t*, zip_uint64_t*);
const char* _zip_get_name(zip_t*, zip_uint64_t, zip_flags_t, zip_error_t*);
int _zip_local_header_read(zip_t*, int);
void* _zip_memdup(const void*, size_t, zip_error_t*);
zip_int64_t _zip_name_locate(zip_t*, const char*, zip_flags_t, zip_error_t*);
zip_t* _zip_new(zip_error_t*);
zip_int64_t _zip_file_replace(zip_t*,
zip_uint64_t,
const char*,
zip_source_t*,
zip_flags_t);
int _zip_set_name(zip_t*, zip_uint64_t, const char*, zip_flags_t);
void _zip_u2d_time(time_t, zip_uint16_t*, zip_uint16_t*);
int _zip_unchange(zip_t*, zip_uint64_t, int);
void _zip_unchange_data(zip_entry_t*);
int _zip_write(zip_t* za, const void* data, zip_uint64_t length);
#endif