/*- * Copyright (c) 2009-2012 Michihiro NAKAJIMA * All rights reserved. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``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 AUTHOR(S) 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 "archive_platform.h" #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_UTSNAME_H #include #endif #ifdef HAVE_ERRNO_H #include #endif #ifdef HAVE_LIMITS_H #include #endif #include #include #ifdef HAVE_STDLIB_H #include #endif #include #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_ZLIB_H #include #endif #include "archive.h" #include "archive_endian.h" #include "archive_entry.h" #include "archive_entry_locale.h" #include "archive_private.h" #include "archive_rb.h" #include "archive_write_private.h" #if defined(_WIN32) && !defined(__CYGWIN__) #define getuid() 0 #define getgid() 0 #endif /*#define DEBUG 1*/ #ifdef DEBUG /* To compare to the ISO image file made by mkisofs. */ #define COMPAT_MKISOFS 1 #endif #define LOGICAL_BLOCK_BITS 11 #define LOGICAL_BLOCK_SIZE 2048 #define PATH_TABLE_BLOCK_SIZE 4096 #define SYSTEM_AREA_BLOCK 16 #define PRIMARY_VOLUME_DESCRIPTOR_BLOCK 1 #define SUPPLEMENTARY_VOLUME_DESCRIPTOR_BLOCK 1 #define BOOT_RECORD_DESCRIPTOR_BLOCK 1 #define VOLUME_DESCRIPTOR_SET_TERMINATOR_BLOCK 1 #define NON_ISO_FILE_SYSTEM_INFORMATION_BLOCK 1 #define RRIP_ER_BLOCK 1 #define PADDING_BLOCK 150 #define FD_1_2M_SIZE (1024 * 1200) #define FD_1_44M_SIZE (1024 * 1440) #define FD_2_88M_SIZE (1024 * 2880) #define MULTI_EXTENT_SIZE (ARCHIVE_LITERAL_LL(1) << 32) /* 4Gi bytes. */ #define MAX_DEPTH 8 #define RR_CE_SIZE 28 /* SUSP "CE" extension size */ #define FILE_FLAG_EXISTENCE 0x01 #define FILE_FLAG_DIRECTORY 0x02 #define FILE_FLAG_ASSOCIATED 0x04 #define FILE_FLAG_RECORD 0x08 #define FILE_FLAG_PROTECTION 0x10 #define FILE_FLAG_MULTI_EXTENT 0x80 static const char rrip_identifier[] = "RRIP_1991A"; static const char rrip_descriptor[] = "THE ROCK RIDGE INTERCHANGE PROTOCOL PROVIDES SUPPORT FOR " "POSIX FILE SYSTEM SEMANTICS"; static const char rrip_source[] = "PLEASE CONTACT DISC PUBLISHER FOR SPECIFICATION SOURCE. " "SEE PUBLISHER IDENTIFIER IN PRIMARY VOLUME DESCRIPTOR FOR " "CONTACT INFORMATION."; #define RRIP_ER_ID_SIZE (sizeof(rrip_identifier)-1) #define RRIP_ER_DSC_SIZE (sizeof(rrip_descriptor)-1) #define RRIP_ER_SRC_SIZE (sizeof(rrip_source)-1) #define RRIP_ER_SIZE (8 + RRIP_ER_ID_SIZE + \ RRIP_ER_DSC_SIZE + RRIP_ER_SRC_SIZE) static const unsigned char zisofs_magic[8] = { 0x37, 0xE4, 0x53, 0x96, 0xC9, 0xDB, 0xD6, 0x07 }; #define ZF_HEADER_SIZE 16 /* zisofs header size. */ #define ZF_LOG2_BS 15 /* log2 block size; 32K bytes. */ #define ZF_BLOCK_SIZE (1UL << ZF_LOG2_BS) /* * Manage extra records. */ struct extr_rec { int location; int offset; unsigned char buf[LOGICAL_BLOCK_SIZE]; struct extr_rec *next; }; struct ctl_extr_rec { int use_extr; unsigned char *bp; struct isoent *isoent; unsigned char *ce_ptr; int cur_len; int dr_len; int limit; int extr_off; int extr_loc; }; #define DR_SAFETY RR_CE_SIZE #define DR_LIMIT (254 - DR_SAFETY) /* * The relation of struct isofile and isoent and archive_entry. * * Primary volume tree --> struct isoent * | * v * struct isofile --> archive_entry * ^ * | * Joliet volume tree --> struct isoent * * struct isoent has specific information for volume. */ struct isofile { /* Used for managing struct isofile list. */ struct isofile *allnext; struct isofile *datanext; /* Used for managing a hardlined struct isofile list. */ struct isofile *hlnext; struct isofile *hardlink_target; struct archive_entry *entry; /* * Used for making a directory tree. */ struct archive_string parentdir; struct archive_string basename; struct archive_string basename_utf16; struct archive_string symlink; int dircnt; /* The number of elements of * its parent directory */ /* * Used for a Directory Record. */ struct content { int64_t offset_of_temp; int64_t size; int blocks; uint32_t location; /* * One extent equals one content. * If this entry has multi extent, `next' variable points * next content data. */ struct content *next; /* next content */ } content, *cur_content; int write_content; enum { NO = 0, BOOT_CATALOG, BOOT_IMAGE } boot; /* * Used for a zisofs. */ struct { unsigned char header_size; unsigned char log2_bs; uint32_t uncompressed_size; } zisofs; }; struct isoent { /* Keep `rbnode' at the first member of struct isoent. */ struct archive_rb_node rbnode; struct isofile *file; struct isoent *parent; /* A list of children.(use chnext) */ struct { struct isoent *first; struct isoent **last; int cnt; } children; struct archive_rb_tree rbtree; /* A list of sub directories.(use drnext) */ struct { struct isoent *first; struct isoent **last; int cnt; } subdirs; /* A sorted list of sub directories. */ struct isoent **children_sorted; /* Used for managing struct isoent list. */ struct isoent *chnext; struct isoent *drnext; struct isoent *ptnext; /* * Used for making a Directory Record. */ int dir_number; struct { int vd; int self; int parent; int normal; } dr_len; uint32_t dir_location; int dir_block; /* * Identifier: * on primary, ISO9660 file/directory name. * on joliet, UCS2 file/directory name. * ext_off : offset of identifier extension. * ext_len : length of identifier extension. * id_len : byte size of identifier. * on primary, this is ext_off + ext_len + version length. * on joliet, this is ext_off + ext_len. * mb_len : length of multibyte-character of identifier. * on primary, mb_len and id_len are always the same. * on joliet, mb_len and id_len are different. */ char *identifier; int ext_off; int ext_len; int id_len; int mb_len; /* * Used for making a Rockridge extension. * This is a part of Directory Records. */ struct isoent *rr_parent; struct isoent *rr_child; /* Extra Record.(which we call in this source file) * A maximum size of the Directory Record is 254. * so, if generated RRIP data of a file cannot into a Directory * Record because of its size, that surplus data relocate this * Extra Record. */ struct { struct extr_rec *first; struct extr_rec **last; struct extr_rec *current; } extr_rec_list; int virtual:1; /* If set to one, this file type is a directory. * A convenience flag to be used as * "archive_entry_filetype(isoent->file->entry) == AE_IFDIR". */ int dir:1; }; struct hardlink { struct archive_rb_node rbnode; int nlink; struct { struct isofile *first; struct isofile **last; } file_list; }; /* * ISO writer options */ struct iso_option { /* * Usage : abstract-file= * Type : string, max 37 bytes * Default: Not specified * COMPAT : mkisofs -abstract * * Specifies Abstract Filename. * This file shall be described in the Root Directory * and containing a abstract statement. */ unsigned int abstract_file:1; #define OPT_ABSTRACT_FILE_DEFAULT 0 /* Not specified */ #define ABSTRACT_FILE_SIZE 37 /* * Usage : application-id= * Type : string, max 128 bytes * Default: Not specified * COMPAT : mkisofs -A/-appid . * * Specifies Application Identifier. * If the first byte is set to '_'(5F), the remaining * bytes of this option shall specify an identifier * for a file containing the identification of the * application. * This file shall be described in the Root Directory. */ unsigned int application_id:1; #define OPT_APPLICATION_ID_DEFAULT 0 /* Use default identifier */ #define APPLICATION_IDENTIFIER_SIZE 128 /* * Usage : !allow-vernum * Type : boolean * Default: Enabled * : Violates the ISO9660 standard if disable. * COMPAT: mkisofs -N * * Allow filenames to use version numbers. */ unsigned int allow_vernum:1; #define OPT_ALLOW_VERNUM_DEFAULT 1 /* Enabled */ /* * Usage : biblio-file= * Type : string, max 37 bytes * Default: Not specified * COMPAT : mkisofs -biblio * * Specifies Bibliographic Filename. * This file shall be described in the Root Directory * and containing bibliographic records. */ unsigned int biblio_file:1; #define OPT_BIBLIO_FILE_DEFAULT 0 /* Not specified */ #define BIBLIO_FILE_SIZE 37 /* * Usage : boot= * Type : string * Default: Not specified * COMPAT : mkisofs -b/-eltorito-boot * * Specifies "El Torito" boot image file to make * a bootable CD. */ unsigned int boot:1; #define OPT_BOOT_DEFAULT 0 /* Not specified */ /* * Usage : boot-catalog= * Type : string * Default: "boot.catalog" * COMPAT : mkisofs -c/-eltorito-catalog * * Specifies a fullpath of El Torito boot catalog. */ unsigned int boot_catalog:1; #define OPT_BOOT_CATALOG_DEFAULT 0 /* Not specified */ /* * Usage : boot-info-table * Type : boolean * Default: Disabled * COMPAT : mkisofs -boot-info-table * * Modify the boot image file specified by `boot' * option; ISO writer stores boot file information * into the boot file in ISO image at offset 8 * through offset 64. */ unsigned int boot_info_table:1; #define OPT_BOOT_INFO_TABLE_DEFAULT 0 /* Disabled */ /* * Usage : boot-load-seg= * Type : hexadecimal * Default: Not specified * COMPAT : mkisofs -boot-load-seg * * Specifies a load segment for boot image. * This is used with no-emulation mode. */ unsigned int boot_load_seg:1; #define OPT_BOOT_LOAD_SEG_DEFAULT 0 /* Not specified */ /* * Usage : boot-load-size= * Type : decimal * Default: Not specified * COMPAT : mkisofs -boot-load-size * * Specifies a sector count for boot image. * This is used with no-emulation mode. */ unsigned int boot_load_size:1; #define OPT_BOOT_LOAD_SIZE_DEFAULT 0 /* Not specified */ /* * Usage : boot-type= * : 'no-emulation' : 'no emulation' image * : 'fd' : floppy disk image * : 'hard-disk' : hard disk image * Type : string * Default: Auto detect * : We check a size of boot image; * : If ths size is just 1.22M/1.44M/2.88M, * : we assume boot_type is 'fd'; * : otherwise boot_type is 'no-emulation'. * COMPAT : * boot=no-emulation * mkisofs -no-emul-boot * boot=fd * This is a default on the mkisofs. * boot=hard-disk * mkisofs -hard-disk-boot * * Specifies a type of "El Torito" boot image. */ unsigned int boot_type:2; #define OPT_BOOT_TYPE_AUTO 0 /* auto detect */ #define OPT_BOOT_TYPE_NO_EMU 1 /* ``no emulation'' image */ #define OPT_BOOT_TYPE_FD 2 /* floppy disk image */ #define OPT_BOOT_TYPE_HARD_DISK 3 /* hard disk image */ #define OPT_BOOT_TYPE_DEFAULT OPT_BOOT_TYPE_AUTO /* * Usage : compression-level= * Type : decimal * Default: Not specified * COMPAT : NONE * * Specifies compression level for option zisofs=direct. */ unsigned int compression_level:1; #define OPT_COMPRESSION_LEVEL_DEFAULT 0 /* Not specified */ /* * Usage : copyright-file= * Type : string, max 37 bytes * Default: Not specified * COMPAT : mkisofs -copyright * * Specifies Copyright Filename. * This file shall be described in the Root Directory * and containing a copyright statement. */ unsigned int copyright_file:1; #define OPT_COPYRIGHT_FILE_DEFAULT 0 /* Not specified */ #define COPYRIGHT_FILE_SIZE 37 /* * Usage : gid= * Type : decimal * Default: Not specified * COMPAT : mkisofs -gid * * Specifies a group id to rewrite the group id of all files. */ unsigned int gid:1; #define OPT_GID_DEFAULT 0 /* Not specified */ /* * Usage : iso-level=[1234] * Type : decimal * Default: 1 * COMPAT : mkisofs -iso-level * * Specifies ISO9600 Level. * Level 1: [DEFAULT] * - limits each file size less than 4Gi bytes; * - a File Name shall not contain more than eight * d-characters or eight d1-characters; * - a File Name Extension shall not contain more than * three d-characters or three d1-characters; * - a Directory Identifier shall not contain more * than eight d-characters or eight d1-characters. * Level 2: * - limits each file size less than 4Giga bytes; * - a File Name shall not contain more than thirty * d-characters or thirty d1-characters; * - a File Name Extension shall not contain more than * thirty d-characters or thirty d1-characters; * - a Directory Identifier shall not contain more * than thirty-one d-characters or thirty-one * d1-characters. * Level 3: * - no limit of file size; use multi extent. * Level 4: * - this level 4 simulates mkisofs option * '-iso-level 4'; * - crate a enhanced volume as mkisofs doing; * - allow a File Name to have leading dot; * - allow a File Name to have all ASCII letters; * - allow a File Name to have multiple dots; * - allow more then 8 depths of directory trees; * - disable a version number to a File Name; * - disable a forced period to the tail of a File Name; * - the maxinum length of files and directories is raised to 193. * if rockridge option is disabled, raised to 207. */ unsigned int iso_level:3; #define OPT_ISO_LEVEL_DEFAULT 1 /* ISO Level 1 */ /* * Usage : joliet[=long] * : !joliet * : Do not generate Joliet Volume and Records. * : joliet [DEFAULT] * : Generates Joliet Volume and Directory Records. * : [COMPAT: mkisofs -J/-joliet] * : joliet=long * : The joliet filenames are up to 103 Unicode * : characters. * : This option breaks the Joliet specification. * : [COMPAT: mkisofs -J -joliet-long] * Type : boolean/string * Default: Enabled * COMPAT : mkisofs -J / -joliet-long * * Generates Joliet Volume and Directory Records. */ unsigned int joliet:2; #define OPT_JOLIET_DISABLE 0 /* Not generate Joliet Records. */ #define OPT_JOLIET_ENABLE 1 /* Generate Joliet Records. */ #define OPT_JOLIET_LONGNAME 2 /* Use long joliet filenames.*/ #define OPT_JOLIET_DEFAULT OPT_JOLIET_ENABLE /* * Usage : !limit-depth * Type : boolean * Default: Enabled * : Violates the ISO9660 standard if disable. * COMPAT : mkisofs -D/-disable-deep-relocation * * The number of levels in hierarchy cannot exceed eight. */ unsigned int limit_depth:1; #define OPT_LIMIT_DEPTH_DEFAULT 1 /* Enabled */ /* * Usage : !limit-dirs * Type : boolean * Default: Enabled * : Violates the ISO9660 standard if disable. * COMPAT : mkisofs -no-limit-pathtables * * Limits the number of directories less than 65536 due * to the size of the Parent Directory Number of Path * Table. */ unsigned int limit_dirs:1; #define OPT_LIMIT_DIRS_DEFAULT 1 /* Enabled */ /* * Usage : !pad * Type : boolean * Default: Enabled * COMPAT : -pad/-no-pad * * Pads the end of the ISO image by null of 300Ki bytes. */ unsigned int pad:1; #define OPT_PAD_DEFAULT 1 /* Enabled */ /* * Usage : publisher= * Type : string, max 128 bytes * Default: Not specified * COMPAT : mkisofs -publisher * * Specifies Publisher Identifier. * If the first byte is set to '_'(5F), the remaining * bytes of this option shall specify an identifier * for a file containing the identification of the user. * This file shall be described in the Root Directory. */ unsigned int publisher:1; #define OPT_PUBLISHER_DEFAULT 0 /* Not specified */ #define PUBLISHER_IDENTIFIER_SIZE 128 /* * Usage : rockridge * : !rockridge * : disable to generate SUSP and RR records. * : rockridge * : the same as 'rockridge=useful'. * : rockridge=strict * : generate SUSP and RR records. * : [COMPAT: mkisofs -R] * : rockridge=useful [DEFAULT] * : generate SUSP and RR records. * : [COMPAT: mkisofs -r] * : NOTE Our rockridge=useful option does not set a zero * : to uid and gid, you should use application * : option such as --gid,--gname,--uid and --uname * : badtar options instead. * Type : boolean/string * Default: Enabled as rockridge=useful * COMPAT : mkisofs -r / -R * * Generates SUSP and RR records. */ unsigned int rr:2; #define OPT_RR_DISABLED 0 #define OPT_RR_STRICT 1 #define OPT_RR_USEFUL 2 #define OPT_RR_DEFAULT OPT_RR_USEFUL /* * Usage : volume-id= * Type : string, max 32 bytes * Default: Not specified * COMPAT : mkisofs -V * * Specifies Volume Identifier. */ unsigned int volume_id:1; #define OPT_VOLUME_ID_DEFAULT 0 /* Use default identifier */ #define VOLUME_IDENTIFIER_SIZE 32 /* * Usage : !zisofs [DEFAULT] * : Disable to generate RRIP 'ZF' extension. * : zisofs * : Make files zisofs file and generate RRIP 'ZF' * : extension. So you do not need mkzftree utility * : for making zisofs. * : When the file size is less than one Logical Block * : size, that file will not zisofs'ed since it does * : reduece an ISO-image size. * : * : When you specify option 'boot=', that * : 'boot-image' file won't be converted to zisofs file. * Type : boolean * Default: Disabled * * Generates RRIP 'ZF' System Use Entry. */ unsigned int zisofs:1; #define OPT_ZISOFS_DISABLED 0 #define OPT_ZISOFS_DIRECT 1 #define OPT_ZISOFS_DEFAULT OPT_ZISOFS_DISABLED }; struct iso9660 { /* The creation time of ISO image. */ time_t birth_time; /* A file stream of a temporary file, which file contents * save to until ISO iamge can be created. */ int temp_fd; struct isofile *cur_file; struct isoent *cur_dirent; struct archive_string cur_dirstr; uint64_t bytes_remaining; int need_multi_extent; /* Temporary string buffer for Joliet extension. */ struct archive_string utf16be; struct archive_string mbs; struct archive_string_conv *sconv_to_utf16be; struct archive_string_conv *sconv_from_utf16be; /* A list of all of struct isofile entries. */ struct { struct isofile *first; struct isofile **last; } all_file_list; /* A list of struct isofile entries which have its * contents and are not a directory, a hardlined file * and a symlink file. */ struct { struct isofile *first; struct isofile **last; } data_file_list; /* Used for managing to find hardlinking files. */ struct archive_rb_tree hardlink_rbtree; /* Used for making the Path Table Record. */ struct vdd { /* the root of entry tree. */ struct isoent *rootent; enum vdd_type { VDD_PRIMARY, VDD_JOLIET, VDD_ENHANCED } vdd_type; struct path_table { struct isoent *first; struct isoent **last; struct isoent **sorted; int cnt; } *pathtbl; int max_depth; int path_table_block; int path_table_size; int location_type_L_path_table; int location_type_M_path_table; int total_dir_block; } primary, joliet; /* Used for making a Volume Descriptor. */ int volume_space_size; int volume_sequence_number; int total_file_block; struct archive_string volume_identifier; struct archive_string publisher_identifier; struct archive_string data_preparer_identifier; struct archive_string application_identifier; struct archive_string copyright_file_identifier; struct archive_string abstract_file_identifier; struct archive_string bibliographic_file_identifier; /* Used for making rockridge extensions. */ int location_rrip_er; /* Used for making zisofs. */ struct { int detect_magic:1; int making:1; int allzero:1; unsigned char magic_buffer[64]; int magic_cnt; #ifdef HAVE_ZLIB_H /* * Copy a compressed file to iso9660.zisofs.temp_fd * and also copy a uncompressed file(original file) to * iso9660.temp_fd . If the number of logical block * of the compressed file is less than the number of * logical block of the uncompressed file, use it and * remove the copy of the uncompressed file. * but if not, we use uncompressed file and remove * the copy of the compressed file. */ uint32_t *block_pointers; size_t block_pointers_allocated; int block_pointers_cnt; int block_pointers_idx; int64_t total_size; int64_t block_offset; z_stream stream; int stream_valid; int64_t remaining; int compression_level; #endif } zisofs; struct isoent *directories_too_deep; int dircnt_max; /* Write buffer. */ #define wb_buffmax() (LOGICAL_BLOCK_SIZE * 32) #define wb_remaining(a) (((struct iso9660 *)(a)->format_data)->wbuff_remaining) #define wb_offset(a) (((struct iso9660 *)(a)->format_data)->wbuff_offset \ + wb_buffmax() - wb_remaining(a)) unsigned char wbuff[LOGICAL_BLOCK_SIZE * 32]; size_t wbuff_remaining; enum { WB_TO_STREAM, WB_TO_TEMP } wbuff_type; int64_t wbuff_offset; int64_t wbuff_written; int64_t wbuff_tail; /* 'El Torito' boot data. */ struct { /* boot catalog file */ struct archive_string catalog_filename; struct isoent *catalog; /* boot image file */ struct archive_string boot_filename; struct isoent *boot; unsigned char platform_id; #define BOOT_PLATFORM_X86 0 #define BOOT_PLATFORM_PPC 1 #define BOOT_PLATFORM_MAC 2 struct archive_string id; unsigned char media_type; #define BOOT_MEDIA_NO_EMULATION 0 #define BOOT_MEDIA_1_2M_DISKETTE 1 #define BOOT_MEDIA_1_44M_DISKETTE 2 #define BOOT_MEDIA_2_88M_DISKETTE 3 #define BOOT_MEDIA_HARD_DISK 4 unsigned char system_type; uint16_t boot_load_seg; uint16_t boot_load_size; #define BOOT_LOAD_SIZE 4 } el_torito; struct iso_option opt; }; /* * Types of Volume Descriptor */ enum VD_type { VDT_BOOT_RECORD=0, /* Boot Record Volume Descriptor */ VDT_PRIMARY=1, /* Primary Volume Descriptor */ VDT_SUPPLEMENTARY=2, /* Supplementary Volume Descriptor */ VDT_TERMINATOR=255 /* Volume Descriptor Set Terminator */ }; /* * Types of Directory Record */ enum dir_rec_type { DIR_REC_VD, /* Stored in Volume Descriptor. */ DIR_REC_SELF, /* Stored as Current Directory. */ DIR_REC_PARENT, /* Stored as Parent Directory. */ DIR_REC_NORMAL /* Stored as Child. */ }; /* * Kinds of Volume Descriptor Character */ enum vdc { VDC_STD, VDC_LOWERCASE, VDC_UCS2, VDC_UCS2_DIRECT }; /* * IDentifier Resolver. * Used for resolving duplicated filenames. */ struct idr { struct idrent { struct archive_rb_node rbnode; /* Used in wait_list. */ struct idrent *wnext; struct idrent *avail; struct isoent *isoent; int weight; int noff; int rename_num; } *idrent_pool; struct archive_rb_tree rbtree; struct { struct idrent *first; struct idrent **last; } wait_list; int pool_size; int pool_idx; int num_size; int null_size; char char_map[0x80]; }; enum char_type { A_CHAR, D_CHAR }; static int iso9660_options(struct archive_write *, const char *, const char *); static int iso9660_write_header(struct archive_write *, struct archive_entry *); static ssize_t iso9660_write_data(struct archive_write *, const void *, size_t); static int iso9660_finish_entry(struct archive_write *); static int iso9660_close(struct archive_write *); static int iso9660_free(struct archive_write *); static void get_system_identitier(char *, size_t); static void set_str(unsigned char *, const char *, size_t, char, const char *); static inline int joliet_allowed_char(unsigned char, unsigned char); static int set_str_utf16be(struct archive_write *, unsigned char *, const char *, size_t, uint16_t, enum vdc); static int set_str_a_characters_bp(struct archive_write *, unsigned char *, int, int, const char *, enum vdc); static int set_str_d_characters_bp(struct archive_write *, unsigned char *, int, int, const char *, enum vdc); static void set_VD_bp(unsigned char *, enum VD_type, unsigned char); static inline void set_unused_field_bp(unsigned char *, int, int); static unsigned char *extra_open_record(unsigned char *, int, struct isoent *, struct ctl_extr_rec *); static void extra_close_record(struct ctl_extr_rec *, int); static unsigned char * extra_next_record(struct ctl_extr_rec *, int); static unsigned char *extra_get_record(struct isoent *, int *, int *, int *); static void extra_tell_used_size(struct ctl_extr_rec *, int); static int extra_setup_location(struct isoent *, int); static int set_directory_record_rr(unsigned char *, int, struct isoent *, struct iso9660 *, enum dir_rec_type); static int set_directory_record(unsigned char *, size_t, struct isoent *, struct iso9660 *, enum dir_rec_type, enum vdd_type); static inline int get_dir_rec_size(struct iso9660 *, struct isoent *, enum dir_rec_type, enum vdd_type); static inline unsigned char *wb_buffptr(struct archive_write *); static int wb_write_out(struct archive_write *); static int wb_consume(struct archive_write *, size_t); #ifdef HAVE_ZLIB_H static int wb_set_offset(struct archive_write *, int64_t); #endif static int write_null(struct archive_write *, size_t); static int write_VD_terminator(struct archive_write *); static int set_file_identifier(unsigned char *, int, int, enum vdc, struct archive_write *, struct vdd *, struct archive_string *, const char *, int, enum char_type); static int write_VD(struct archive_write *, struct vdd *); static int write_VD_boot_record(struct archive_write *); static int write_information_block(struct archive_write *); static int write_path_table(struct archive_write *, int, struct vdd *); static int write_directory_descriptors(struct archive_write *, struct vdd *); static int write_file_descriptors(struct archive_write *); static int write_rr_ER(struct archive_write *); static void calculate_path_table_size(struct vdd *); static void isofile_init_entry_list(struct iso9660 *); static void isofile_add_entry(struct iso9660 *, struct isofile *); static void isofile_free_all_entries(struct iso9660 *); static void isofile_init_entry_data_file_list(struct iso9660 *); static void isofile_add_data_file(struct iso9660 *, struct isofile *); static struct isofile * isofile_new(struct archive_write *, struct archive_entry *); static void isofile_free(struct isofile *); static int isofile_gen_utility_names(struct archive_write *, struct isofile *); static int isofile_register_hardlink(struct archive_write *, struct isofile *); static void isofile_connect_hardlink_files(struct iso9660 *); static void isofile_init_hardlinks(struct iso9660 *); static void isofile_free_hardlinks(struct iso9660 *); static struct isoent *isoent_new(struct isofile *); static int isoent_clone_tree(struct archive_write *, struct isoent **, struct isoent *); static void _isoent_free(struct isoent *isoent); static void isoent_free_all(struct isoent *); static struct isoent * isoent_create_virtual_dir(struct archive_write *, struct iso9660 *, const char *); static int isoent_cmp_node(const struct archive_rb_node *, const struct archive_rb_node *); static int isoent_cmp_key(const struct archive_rb_node *, const void *); static int isoent_add_child_head(struct isoent *, struct isoent *); static int isoent_add_child_tail(struct isoent *, struct isoent *); static void isoent_remove_child(struct isoent *, struct isoent *); static void isoent_setup_directory_location(struct iso9660 *, int, struct vdd *); static void isoent_setup_file_location(struct iso9660 *, int); static int get_path_component(char *, size_t, const char *); static int isoent_tree(struct archive_write *, struct isoent **); static struct isoent *isoent_find_child(struct isoent *, const char *); static struct isoent *isoent_find_entry(struct isoent *, const char *); static void idr_relaxed_filenames(char *); static void idr_init(struct iso9660 *, struct vdd *, struct idr *); static void idr_cleanup(struct idr *); static int idr_ensure_poolsize(struct archive_write *, struct idr *, int); static int idr_start(struct archive_write *, struct idr *, int, int, int, int, const struct archive_rb_tree_ops *); static void idr_register(struct idr *, struct isoent *, int, int); static void idr_extend_identifier(struct idrent *, int, int); static void idr_resolve(struct idr *, void (*)(unsigned char *, int)); static void idr_set_num(unsigned char *, int); static void idr_set_num_beutf16(unsigned char *, int); static int isoent_gen_iso9660_identifier(struct archive_write *, struct isoent *, struct idr *); static int isoent_gen_joliet_identifier(struct archive_write *, struct isoent *, struct idr *); static int isoent_cmp_iso9660_identifier(const struct isoent *, const struct isoent *); static int isoent_cmp_node_iso9660(const struct archive_rb_node *, const struct archive_rb_node *); static int isoent_cmp_key_iso9660(const struct archive_rb_node *, const void *); static int isoent_cmp_joliet_identifier(const struct isoent *, const struct isoent *); static int isoent_cmp_node_joliet(const struct archive_rb_node *, const struct archive_rb_node *); static int isoent_cmp_key_joliet(const struct archive_rb_node *, const void *); static inline void path_table_add_entry(struct path_table *, struct isoent *); static inline struct isoent * path_table_last_entry(struct path_table *); static int isoent_make_path_table(struct archive_write *); static int isoent_find_out_boot_file(struct archive_write *, struct isoent *); static int isoent_create_boot_catalog(struct archive_write *, struct isoent *); static size_t fd_boot_image_size(int); static int make_boot_catalog(struct archive_write *); static int setup_boot_information(struct archive_write *); static int zisofs_init(struct archive_write *, struct isofile *); static void zisofs_detect_magic(struct archive_write *, const void *, size_t); static int zisofs_write_to_temp(struct archive_write *, const void *, size_t); static int zisofs_finish_entry(struct archive_write *); static int zisofs_rewind_boot_file(struct archive_write *); static int zisofs_free(struct archive_write *); int archive_write_set_format_iso9660(struct archive *_a) { struct archive_write *a = (struct archive_write *)_a; struct iso9660 *iso9660; archive_check_magic(_a, ARCHIVE_WRITE_MAGIC, ARCHIVE_STATE_NEW, "archive_write_set_format_iso9660"); /* If another format was already registered, unregister it. */ if (a->format_free != NULL) (a->format_free)(a); iso9660 = calloc(1, sizeof(*iso9660)); if (iso9660 == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate iso9660 data"); return (ARCHIVE_FATAL); } iso9660->birth_time = 0; iso9660->temp_fd = -1; iso9660->cur_file = NULL; iso9660->primary.max_depth = 0; iso9660->primary.vdd_type = VDD_PRIMARY; iso9660->primary.pathtbl = NULL; iso9660->joliet.rootent = NULL; iso9660->joliet.max_depth = 0; iso9660->joliet.vdd_type = VDD_JOLIET; iso9660->joliet.pathtbl = NULL; isofile_init_entry_list(iso9660); isofile_init_entry_data_file_list(iso9660); isofile_init_hardlinks(iso9660); iso9660->directories_too_deep = NULL; iso9660->dircnt_max = 1; iso9660->wbuff_remaining = wb_buffmax(); iso9660->wbuff_type = WB_TO_TEMP; iso9660->wbuff_offset = 0; iso9660->wbuff_written = 0; iso9660->wbuff_tail = 0; archive_string_init(&(iso9660->utf16be)); archive_string_init(&(iso9660->mbs)); /* * Init Identifiers used for PVD and SVD. */ archive_string_init(&(iso9660->volume_identifier)); archive_strcpy(&(iso9660->volume_identifier), "CDROM"); archive_string_init(&(iso9660->publisher_identifier)); archive_string_init(&(iso9660->data_preparer_identifier)); archive_string_init(&(iso9660->application_identifier)); archive_strcpy(&(iso9660->application_identifier), archive_version_string()); archive_string_init(&(iso9660->copyright_file_identifier)); archive_string_init(&(iso9660->abstract_file_identifier)); archive_string_init(&(iso9660->bibliographic_file_identifier)); /* * Init El Torito bootable CD variables. */ archive_string_init(&(iso9660->el_torito.catalog_filename)); iso9660->el_torito.catalog = NULL; /* Set default file name of boot catalog */ archive_strcpy(&(iso9660->el_torito.catalog_filename), "boot.catalog"); archive_string_init(&(iso9660->el_torito.boot_filename)); iso9660->el_torito.boot = NULL; iso9660->el_torito.platform_id = BOOT_PLATFORM_X86; archive_string_init(&(iso9660->el_torito.id)); iso9660->el_torito.boot_load_seg = 0; iso9660->el_torito.boot_load_size = BOOT_LOAD_SIZE; /* * Init zisofs variables. */ #ifdef HAVE_ZLIB_H iso9660->zisofs.block_pointers = NULL; iso9660->zisofs.block_pointers_allocated = 0; iso9660->zisofs.stream_valid = 0; iso9660->zisofs.compression_level = 9; memset(&(iso9660->zisofs.stream), 0, sizeof(iso9660->zisofs.stream)); #endif /* * Set default value of iso9660 options. */ iso9660->opt.abstract_file = OPT_ABSTRACT_FILE_DEFAULT; iso9660->opt.application_id = OPT_APPLICATION_ID_DEFAULT; iso9660->opt.allow_vernum = OPT_ALLOW_VERNUM_DEFAULT; iso9660->opt.biblio_file = OPT_BIBLIO_FILE_DEFAULT; iso9660->opt.boot = OPT_BOOT_DEFAULT; iso9660->opt.boot_catalog = OPT_BOOT_CATALOG_DEFAULT; iso9660->opt.boot_info_table = OPT_BOOT_INFO_TABLE_DEFAULT; iso9660->opt.boot_load_seg = OPT_BOOT_LOAD_SEG_DEFAULT; iso9660->opt.boot_load_size = OPT_BOOT_LOAD_SIZE_DEFAULT; iso9660->opt.boot_type = OPT_BOOT_TYPE_DEFAULT; iso9660->opt.compression_level = OPT_COMPRESSION_LEVEL_DEFAULT; iso9660->opt.copyright_file = OPT_COPYRIGHT_FILE_DEFAULT; iso9660->opt.iso_level = OPT_ISO_LEVEL_DEFAULT; iso9660->opt.joliet = OPT_JOLIET_DEFAULT; iso9660->opt.limit_depth = OPT_LIMIT_DEPTH_DEFAULT; iso9660->opt.limit_dirs = OPT_LIMIT_DIRS_DEFAULT; iso9660->opt.pad = OPT_PAD_DEFAULT; iso9660->opt.publisher = OPT_PUBLISHER_DEFAULT; iso9660->opt.rr = OPT_RR_DEFAULT; iso9660->opt.volume_id = OPT_VOLUME_ID_DEFAULT; iso9660->opt.zisofs = OPT_ZISOFS_DEFAULT; /* Create the root directory. */ iso9660->primary.rootent = isoent_create_virtual_dir(a, iso9660, ""); if (iso9660->primary.rootent == NULL) { free(iso9660); archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } iso9660->primary.rootent->parent = iso9660->primary.rootent; iso9660->cur_dirent = iso9660->primary.rootent; archive_string_init(&(iso9660->cur_dirstr)); archive_string_ensure(&(iso9660->cur_dirstr), 1); iso9660->cur_dirstr.s[0] = 0; iso9660->sconv_to_utf16be = NULL; iso9660->sconv_from_utf16be = NULL; a->format_data = iso9660; a->format_name = "iso9660"; a->format_options = iso9660_options; a->format_write_header = iso9660_write_header; a->format_write_data = iso9660_write_data; a->format_finish_entry = iso9660_finish_entry; a->format_close = iso9660_close; a->format_free = iso9660_free; a->archive.archive_format = ARCHIVE_FORMAT_ISO9660; a->archive.archive_format_name = "ISO9660"; return (ARCHIVE_OK); } static int get_str_opt(struct archive_write *a, struct archive_string *s, size_t maxsize, const char *key, const char *value) { if (strlen(value) > maxsize) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Value is longer than %zu characters " "for option ``%s''", maxsize, key); return (ARCHIVE_FATAL); } archive_strcpy(s, value); return (ARCHIVE_OK); } static int get_num_opt(struct archive_write *a, int *num, int high, int low, const char *key, const char *value) { const char *p = value; int data = 0; int neg = 0; if (p == NULL) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Invalid value(empty) for option ``%s''", key); return (ARCHIVE_FATAL); } if (*p == '-') { neg = 1; p++; } while (*p) { if (*p >= '0' && *p <= '9') data = data * 10 + *p - '0'; else { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Invalid value for option ``%s''", key); return (ARCHIVE_FATAL); } if (data > high) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Invalid value(over %d) for " "option ``%s''", high, key); return (ARCHIVE_FATAL); } if (data < low) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Invalid value(under %d) for " "option ``%s''", low, key); return (ARCHIVE_FATAL); } p++; } if (neg) data *= -1; *num = data; return (ARCHIVE_OK); } static int iso9660_options(struct archive_write *a, const char *key, const char *value) { struct iso9660 *iso9660 = a->format_data; const char *p; int r; switch (key[0]) { case 'a': if (strcmp(key, "abstract-file") == 0) { r = get_str_opt(a, &(iso9660->abstract_file_identifier), ABSTRACT_FILE_SIZE, key, value); iso9660->opt.abstract_file = r == ARCHIVE_OK; return (r); } if (strcmp(key, "application-id") == 0) { r = get_str_opt(a, &(iso9660->application_identifier), APPLICATION_IDENTIFIER_SIZE, key, value); iso9660->opt.application_id = r == ARCHIVE_OK; return (r); } if (strcmp(key, "allow-vernum") == 0) { iso9660->opt.allow_vernum = value != NULL; return (ARCHIVE_OK); } break; case 'b': if (strcmp(key, "biblio-file") == 0) { r = get_str_opt(a, &(iso9660->bibliographic_file_identifier), BIBLIO_FILE_SIZE, key, value); iso9660->opt.biblio_file = r == ARCHIVE_OK; return (r); } if (strcmp(key, "boot") == 0) { if (value == NULL) iso9660->opt.boot = 0; else { iso9660->opt.boot = 1; archive_strcpy( &(iso9660->el_torito.boot_filename), value); } return (ARCHIVE_OK); } if (strcmp(key, "boot-catalog") == 0) { r = get_str_opt(a, &(iso9660->el_torito.catalog_filename), 1024, key, value); iso9660->opt.boot_catalog = r == ARCHIVE_OK; return (r); } if (strcmp(key, "boot-info-table") == 0) { iso9660->opt.boot_info_table = value != NULL; return (ARCHIVE_OK); } if (strcmp(key, "boot-load-seg") == 0) { uint32_t seg; iso9660->opt.boot_load_seg = 0; if (value == NULL) goto invalid_value; seg = 0; p = value; if (p[0] == '0' && (p[1] == 'x' || p[1] == 'X')) p += 2; while (*p) { if (seg) seg <<= 4; if (*p >= 'A' && *p <= 'F') seg += *p - 'A' + 0x0a; else if (*p >= 'a' && *p <= 'f') seg += *p - 'a' + 0x0a; else if (*p >= '0' && *p <= '9') seg += *p - '0'; else goto invalid_value; if (seg > 0xffff) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Invalid value(over 0xffff) for " "option ``%s''", key); return (ARCHIVE_FATAL); } p++; } iso9660->el_torito.boot_load_seg = (uint16_t)seg; iso9660->opt.boot_load_seg = 1; return (ARCHIVE_OK); } if (strcmp(key, "boot-load-size") == 0) { int num = 0; r = get_num_opt(a, &num, 0xffff, 1, key, value); iso9660->opt.boot_load_size = r == ARCHIVE_OK; if (r != ARCHIVE_OK) return (ARCHIVE_FATAL); iso9660->el_torito.boot_load_size = (uint16_t)num; return (ARCHIVE_OK); } if (strcmp(key, "boot-type") == 0) { if (value == NULL) goto invalid_value; if (strcmp(value, "no-emulation") == 0) iso9660->opt.boot_type = OPT_BOOT_TYPE_NO_EMU; else if (strcmp(value, "fd") == 0) iso9660->opt.boot_type = OPT_BOOT_TYPE_FD; else if (strcmp(value, "hard-disk") == 0) iso9660->opt.boot_type = OPT_BOOT_TYPE_HARD_DISK; else goto invalid_value; return (ARCHIVE_OK); } break; case 'c': if (strcmp(key, "compression-level") == 0) { #ifdef HAVE_ZLIB_H if (value == NULL || !(value[0] >= '0' && value[0] <= '9') || value[1] != '\0') goto invalid_value; iso9660->zisofs.compression_level = value[0] - '0'; iso9660->opt.compression_level = 1; return (ARCHIVE_OK); #else archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Option ``%s'' " "is not supported on this platform.", key); return (ARCHIVE_FATAL); #endif } if (strcmp(key, "copyright-file") == 0) { r = get_str_opt(a, &(iso9660->copyright_file_identifier), COPYRIGHT_FILE_SIZE, key, value); iso9660->opt.copyright_file = r == ARCHIVE_OK; return (r); } #ifdef DEBUG /* Specifies Volume creation date and time; * year(4),month(2),day(2),hour(2),minute(2),second(2). * e.g. "20090929033757" */ if (strcmp(key, "creation") == 0) { struct tm tm; char buf[5]; p = value; if (p == NULL || strlen(p) < 14) goto invalid_value; memset(&tm, 0, sizeof(tm)); memcpy(buf, p, 4); buf[4] = '\0'; p += 4; tm.tm_year = strtol(buf, NULL, 10) - 1900; memcpy(buf, p, 2); buf[2] = '\0'; p += 2; tm.tm_mon = strtol(buf, NULL, 10) - 1; memcpy(buf, p, 2); buf[2] = '\0'; p += 2; tm.tm_mday = strtol(buf, NULL, 10); memcpy(buf, p, 2); buf[2] = '\0'; p += 2; tm.tm_hour = strtol(buf, NULL, 10); memcpy(buf, p, 2); buf[2] = '\0'; p += 2; tm.tm_min = strtol(buf, NULL, 10); memcpy(buf, p, 2); buf[2] = '\0'; tm.tm_sec = strtol(buf, NULL, 10); iso9660->birth_time = mktime(&tm); return (ARCHIVE_OK); } #endif break; case 'i': if (strcmp(key, "iso-level") == 0) { if (value != NULL && value[1] == '\0' && (value[0] >= '1' && value[0] <= '4')) { iso9660->opt.iso_level = value[0]-'0'; return (ARCHIVE_OK); } goto invalid_value; } break; case 'j': if (strcmp(key, "joliet") == 0) { if (value == NULL) iso9660->opt.joliet = OPT_JOLIET_DISABLE; else if (strcmp(value, "1") == 0) iso9660->opt.joliet = OPT_JOLIET_ENABLE; else if (strcmp(value, "long") == 0) iso9660->opt.joliet = OPT_JOLIET_LONGNAME; else goto invalid_value; return (ARCHIVE_OK); } break; case 'l': if (strcmp(key, "limit-depth") == 0) { iso9660->opt.limit_depth = value != NULL; return (ARCHIVE_OK); } if (strcmp(key, "limit-dirs") == 0) { iso9660->opt.limit_dirs = value != NULL; return (ARCHIVE_OK); } break; case 'p': if (strcmp(key, "pad") == 0) { iso9660->opt.pad = value != NULL; return (ARCHIVE_OK); } if (strcmp(key, "publisher") == 0) { r = get_str_opt(a, &(iso9660->publisher_identifier), PUBLISHER_IDENTIFIER_SIZE, key, value); iso9660->opt.publisher = r == ARCHIVE_OK; return (r); } break; case 'r': if (strcmp(key, "rockridge") == 0 || strcmp(key, "Rockridge") == 0) { if (value == NULL) iso9660->opt.rr = OPT_RR_DISABLED; else if (strcmp(value, "1") == 0) iso9660->opt.rr = OPT_RR_USEFUL; else if (strcmp(value, "strict") == 0) iso9660->opt.rr = OPT_RR_STRICT; else if (strcmp(value, "useful") == 0) iso9660->opt.rr = OPT_RR_USEFUL; else goto invalid_value; return (ARCHIVE_OK); } break; case 'v': if (strcmp(key, "volume-id") == 0) { r = get_str_opt(a, &(iso9660->volume_identifier), VOLUME_IDENTIFIER_SIZE, key, value); iso9660->opt.volume_id = r == ARCHIVE_OK; return (r); } break; case 'z': if (strcmp(key, "zisofs") == 0) { if (value == NULL) iso9660->opt.zisofs = OPT_ZISOFS_DISABLED; else { #ifdef HAVE_ZLIB_H iso9660->opt.zisofs = OPT_ZISOFS_DIRECT; #else archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "``zisofs'' " "is not supported on this platform."); return (ARCHIVE_FATAL); #endif } return (ARCHIVE_OK); } break; } /* Note: The "warn" return is just to inform the options * supervisor that we didn't handle it. It will generate * a suitable error if no one used this option. */ return (ARCHIVE_WARN); invalid_value: archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Invalid value for option ``%s''", key); return (ARCHIVE_FAILED); } static int iso9660_write_header(struct archive_write *a, struct archive_entry *entry) { struct iso9660 *iso9660; struct isofile *file; struct isoent *isoent; int r, ret = ARCHIVE_OK; iso9660 = a->format_data; iso9660->cur_file = NULL; iso9660->bytes_remaining = 0; iso9660->need_multi_extent = 0; if (archive_entry_filetype(entry) == AE_IFLNK && iso9660->opt.rr == OPT_RR_DISABLED) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Ignore symlink file."); iso9660->cur_file = NULL; return (ARCHIVE_WARN); } if (archive_entry_filetype(entry) == AE_IFREG && archive_entry_size(entry) >= MULTI_EXTENT_SIZE) { if (iso9660->opt.iso_level < 3) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Ignore over %lld bytes file. " "This file too large.", MULTI_EXTENT_SIZE); iso9660->cur_file = NULL; return (ARCHIVE_WARN); } iso9660->need_multi_extent = 1; } file = isofile_new(a, entry); if (file == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate data"); return (ARCHIVE_FATAL); } r = isofile_gen_utility_names(a, file); if (r < ARCHIVE_WARN) { isofile_free(file); return (r); } else if (r < ret) ret = r; /* * Ignore a path which looks like the top of directory name * since we have already made the root directory of an ISO image. */ if (archive_strlen(&(file->parentdir)) == 0 && archive_strlen(&(file->basename)) == 0) { isofile_free(file); return (r); } isofile_add_entry(iso9660, file); isoent = isoent_new(file); if (isoent == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate data"); return (ARCHIVE_FATAL); } if (isoent->file->dircnt > iso9660->dircnt_max) iso9660->dircnt_max = isoent->file->dircnt; /* Add the current file into tree */ r = isoent_tree(a, &isoent); if (r != ARCHIVE_OK) return (r); /* If there is the same file in tree and * the current file is older than the file in tree. * So we don't need the current file data anymore. */ if (isoent->file != file) return (ARCHIVE_OK); /* Non regular files contents are unneeded to be saved to * temporary files. */ if (archive_entry_filetype(file->entry) != AE_IFREG) return (ret); /* * Set the current file to cur_file to read its contents. */ iso9660->cur_file = file; if (archive_entry_nlink(file->entry) > 1) { r = isofile_register_hardlink(a, file); if (r != ARCHIVE_OK) return (ARCHIVE_FATAL); } /* * Prepare to save the contents of the file. */ if (iso9660->temp_fd < 0) { iso9660->temp_fd = __archive_mktemp(NULL); if (iso9660->temp_fd < 0) { archive_set_error(&a->archive, errno, "Couldn't create temporary file"); return (ARCHIVE_FATAL); } } /* Save an offset of current file in temporary file. */ file->content.offset_of_temp = wb_offset(a); file->cur_content = &(file->content); r = zisofs_init(a, file); if (r < ret) ret = r; iso9660->bytes_remaining = archive_entry_size(file->entry); return (ret); } static int write_to_temp(struct archive_write *a, const void *buff, size_t s) { struct iso9660 *iso9660 = a->format_data; ssize_t written; const unsigned char *b; b = (const unsigned char *)buff; while (s) { written = write(iso9660->temp_fd, b, s); if (written < 0) { archive_set_error(&a->archive, errno, "Can't write to temporary file"); return (ARCHIVE_FATAL); } s -= written; b += written; } return (ARCHIVE_OK); } static int wb_write_to_temp(struct archive_write *a, const void *buff, size_t s) { const char *xp = buff; size_t xs = s; /* * If a written data size is big enough to use system-call * and there is no waiting data, this calls write_to_temp() in * order to reduce a extra memory copy. */ if (wb_remaining(a) == wb_buffmax() && s > (1024 * 16)) { struct iso9660 *iso9660 = (struct iso9660 *)a->format_data; xs = s % LOGICAL_BLOCK_SIZE; iso9660->wbuff_offset += s - xs; if (write_to_temp(a, buff, s - xs) != ARCHIVE_OK) return (ARCHIVE_FATAL); if (xs == 0) return (ARCHIVE_OK); xp += s - xs; } while (xs) { size_t size = xs; if (size > wb_remaining(a)) size = wb_remaining(a); memcpy(wb_buffptr(a), xp, size); if (wb_consume(a, size) != ARCHIVE_OK) return (ARCHIVE_FATAL); xs -= size; xp += size; } return (ARCHIVE_OK); } static int wb_write_padding_to_temp(struct archive_write *a, int64_t csize) { size_t ns; int ret; ns = (size_t)(csize % LOGICAL_BLOCK_SIZE); if (ns != 0) ret = write_null(a, LOGICAL_BLOCK_SIZE - ns); else ret = ARCHIVE_OK; return (ret); } static ssize_t write_iso9660_data(struct archive_write *a, const void *buff, size_t s) { struct iso9660 *iso9660 = a->format_data; size_t ws; if (iso9660->temp_fd < 0) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Couldn't create temporary file"); return (ARCHIVE_FATAL); } ws = s; if (iso9660->need_multi_extent && (iso9660->cur_file->cur_content->size + ws) >= (MULTI_EXTENT_SIZE - LOGICAL_BLOCK_SIZE)) { struct content *con; size_t ts; ts = (size_t)(MULTI_EXTENT_SIZE - LOGICAL_BLOCK_SIZE - iso9660->cur_file->cur_content->size); if (iso9660->zisofs.detect_magic) zisofs_detect_magic(a, buff, ts); if (iso9660->zisofs.making) { if (zisofs_write_to_temp(a, buff, ts) != ARCHIVE_OK) return (ARCHIVE_FATAL); } else { if (wb_write_to_temp(a, buff, ts) != ARCHIVE_OK) return (ARCHIVE_FATAL); iso9660->cur_file->cur_content->size += ts; } /* Write padding. */ if (wb_write_padding_to_temp(a, iso9660->cur_file->cur_content->size) != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Compute the logical block number. */ iso9660->cur_file->cur_content->blocks = (int) ((iso9660->cur_file->cur_content->size + LOGICAL_BLOCK_SIZE -1) >> LOGICAL_BLOCK_BITS); /* * Make next extent. */ ws -= ts; buff = (const void *)(((const unsigned char *)buff) + ts); /* Make a content for next extent. */ con = calloc(1, sizeof(*con)); if (con == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate content data"); return (ARCHIVE_FATAL); } con->offset_of_temp = wb_offset(a); iso9660->cur_file->cur_content->next = con; iso9660->cur_file->cur_content = con; #ifdef HAVE_ZLIB_H iso9660->zisofs.block_offset = 0; #endif } if (iso9660->zisofs.detect_magic) zisofs_detect_magic(a, buff, ws); if (iso9660->zisofs.making) { if (zisofs_write_to_temp(a, buff, ws) != ARCHIVE_OK) return (ARCHIVE_FATAL); } else { if (wb_write_to_temp(a, buff, ws) != ARCHIVE_OK) return (ARCHIVE_FATAL); iso9660->cur_file->cur_content->size += ws; } return (s); } static ssize_t iso9660_write_data(struct archive_write *a, const void *buff, size_t s) { struct iso9660 *iso9660 = a->format_data; ssize_t r; if (iso9660->cur_file == NULL) return (0); if (archive_entry_filetype(iso9660->cur_file->entry) != AE_IFREG) return (0); if (s > iso9660->bytes_remaining) s = (size_t)iso9660->bytes_remaining; if (s == 0) return (0); r = write_iso9660_data(a, buff, s); if (r > 0) iso9660->bytes_remaining -= r; return (r); } static int iso9660_finish_entry(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; if (iso9660->cur_file == NULL) return (ARCHIVE_OK); if (archive_entry_filetype(iso9660->cur_file->entry) != AE_IFREG) return (ARCHIVE_OK); if (iso9660->cur_file->content.size == 0) return (ARCHIVE_OK); /* If there are unwritten data, write null data instead. */ while (iso9660->bytes_remaining > 0) { size_t s; s = (iso9660->bytes_remaining > a->null_length)? a->null_length: (size_t)iso9660->bytes_remaining; if (write_iso9660_data(a, a->nulls, s) < 0) return (ARCHIVE_FATAL); iso9660->bytes_remaining -= s; } if (iso9660->zisofs.making && zisofs_finish_entry(a) != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Write padding. */ if (wb_write_padding_to_temp(a, iso9660->cur_file->cur_content->size) != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Compute the logical block number. */ iso9660->cur_file->cur_content->blocks = (int) ((iso9660->cur_file->cur_content->size + LOGICAL_BLOCK_SIZE -1) >> LOGICAL_BLOCK_BITS); /* Add the current file to data file list. */ isofile_add_data_file(iso9660, iso9660->cur_file); return (ARCHIVE_OK); } static int iso9660_close(struct archive_write *a) { struct iso9660 *iso9660; int ret, blocks; iso9660 = a->format_data; /* * Write remaining data out to the temporary file. */ if (wb_remaining(a) > 0) { ret = wb_write_out(a); if (ret < 0) return (ret); } /* * Preparations... */ #ifdef DEBUG if (iso9660->birth_time == 0) #endif time(&(iso9660->birth_time)); /* * Prepare a bootable ISO image. */ if (iso9660->opt.boot) { /* Find out the boot file entry. */ ret = isoent_find_out_boot_file(a, iso9660->primary.rootent); if (ret < 0) return (ret); /* Reconvert the boot file from zisofs'ed form to * plain form. */ ret = zisofs_rewind_boot_file(a); if (ret < 0) return (ret); /* Write remaining data out to the temporary file. */ if (wb_remaining(a) > 0) { ret = wb_write_out(a); if (ret < 0) return (ret); } /* Create the boot catalog. */ ret = isoent_create_boot_catalog(a, iso9660->primary.rootent); if (ret < 0) return (ret); } /* * Prepare joliet extensions. */ if (iso9660->opt.joliet) { /* Make a new tree for joliet. */ ret = isoent_clone_tree(a, &(iso9660->joliet.rootent), iso9660->primary.rootent); if (ret < 0) return (ret); /* Make sure we have UTF-16BE convertors. * if there is no file entry, convertors are still * uninitilized. */ if (iso9660->sconv_to_utf16be == NULL) { iso9660->sconv_to_utf16be = archive_string_conversion_to_charset( &(a->archive), "UTF-16BE", 1); if (iso9660->sconv_to_utf16be == NULL) /* Couldn't allocate memory */ return (ARCHIVE_FATAL); iso9660->sconv_from_utf16be = archive_string_conversion_from_charset( &(a->archive), "UTF-16BE", 1); if (iso9660->sconv_from_utf16be == NULL) /* Couldn't allocate memory */ return (ARCHIVE_FATAL); } } /* * Make Path Tables. */ ret = isoent_make_path_table(a); if (ret < 0) return (ret); /* * Calculate a total volume size and setup all locations of * contents of an iso9660 image. */ blocks = SYSTEM_AREA_BLOCK + PRIMARY_VOLUME_DESCRIPTOR_BLOCK + VOLUME_DESCRIPTOR_SET_TERMINATOR_BLOCK + NON_ISO_FILE_SYSTEM_INFORMATION_BLOCK; if (iso9660->opt.boot) blocks += BOOT_RECORD_DESCRIPTOR_BLOCK; if (iso9660->opt.joliet) blocks += SUPPLEMENTARY_VOLUME_DESCRIPTOR_BLOCK; if (iso9660->opt.iso_level == 4) blocks += SUPPLEMENTARY_VOLUME_DESCRIPTOR_BLOCK; /* Setup the locations of Path Table. */ iso9660->primary.location_type_L_path_table = blocks; blocks += iso9660->primary.path_table_block; iso9660->primary.location_type_M_path_table = blocks; blocks += iso9660->primary.path_table_block; if (iso9660->opt.joliet) { iso9660->joliet.location_type_L_path_table = blocks; blocks += iso9660->joliet.path_table_block; iso9660->joliet.location_type_M_path_table = blocks; blocks += iso9660->joliet.path_table_block; } /* Setup the locations of directories. */ isoent_setup_directory_location(iso9660, blocks, &(iso9660->primary)); blocks += iso9660->primary.total_dir_block; if (iso9660->opt.joliet) { isoent_setup_directory_location(iso9660, blocks, &(iso9660->joliet)); blocks += iso9660->joliet.total_dir_block; } if (iso9660->opt.rr) { iso9660->location_rrip_er = blocks; blocks += RRIP_ER_BLOCK; } /* Setup the locations of all file contents. */ isoent_setup_file_location(iso9660, blocks); blocks += iso9660->total_file_block; if (iso9660->opt.boot && iso9660->opt.boot_info_table) { ret = setup_boot_information(a); if (ret < 0) return (ret); } /* Now we have a total volume size. */ iso9660->volume_space_size = blocks; if (iso9660->opt.pad) iso9660->volume_space_size += PADDING_BLOCK; iso9660->volume_sequence_number = 1; /* * Write an ISO 9660 image. */ /* Switc to start using wbuff as file buffer. */ iso9660->wbuff_remaining = wb_buffmax(); iso9660->wbuff_type = WB_TO_STREAM; iso9660->wbuff_offset = 0; iso9660->wbuff_written = 0; iso9660->wbuff_tail = 0; /* Write The System Area */ ret = write_null(a, SYSTEM_AREA_BLOCK * LOGICAL_BLOCK_SIZE); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Write Primary Volume Descriptor */ ret = write_VD(a, &(iso9660->primary)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); if (iso9660->opt.boot) { /* Write Boot Record Volume Descriptor */ ret = write_VD_boot_record(a); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); } if (iso9660->opt.iso_level == 4) { /* Write Enhanced Volume Descriptor */ iso9660->primary.vdd_type = VDD_ENHANCED; ret = write_VD(a, &(iso9660->primary)); iso9660->primary.vdd_type = VDD_PRIMARY; if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); } if (iso9660->opt.joliet) { ret = write_VD(a, &(iso9660->joliet)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); } /* Write Volume Descriptor Set Terminator */ ret = write_VD_terminator(a); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Write Non-ISO File System Information */ ret = write_information_block(a); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Write Type L Path Table */ ret = write_path_table(a, 0, &(iso9660->primary)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Write Type M Path Table */ ret = write_path_table(a, 1, &(iso9660->primary)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); if (iso9660->opt.joliet) { /* Write Type L Path Table */ ret = write_path_table(a, 0, &(iso9660->joliet)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Write Type M Path Table */ ret = write_path_table(a, 1, &(iso9660->joliet)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); } /* Write Directory Descriptors */ ret = write_directory_descriptors(a, &(iso9660->primary)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); if (iso9660->opt.joliet) { ret = write_directory_descriptors(a, &(iso9660->joliet)); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); } if (iso9660->opt.rr) { /* Write Rockridge ER(Extensions Reference) */ ret = write_rr_ER(a); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); } /* Write File Descriptors */ ret = write_file_descriptors(a); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Write Padding */ if (iso9660->opt.pad) { ret = write_null(a, PADDING_BLOCK * LOGICAL_BLOCK_SIZE); if (ret != ARCHIVE_OK) return (ARCHIVE_FATAL); } if (iso9660->directories_too_deep != NULL) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "%s: Directories too deep.", archive_entry_pathname( iso9660->directories_too_deep->file->entry)); return (ARCHIVE_WARN); } /* Write remaining data out. */ ret = wb_write_out(a); return (ret); } static int iso9660_free(struct archive_write *a) { struct iso9660 *iso9660; int i, ret; iso9660 = a->format_data; /* Close the temporary file. */ if (iso9660->temp_fd >= 0) close(iso9660->temp_fd); /* Free some stuff for zisofs operations. */ ret = zisofs_free(a); /* Remove directory entries in tree which includes file entries. */ isoent_free_all(iso9660->primary.rootent); for (i = 0; i < iso9660->primary.max_depth; i++) free(iso9660->primary.pathtbl[i].sorted); free(iso9660->primary.pathtbl); if (iso9660->opt.joliet) { isoent_free_all(iso9660->joliet.rootent); for (i = 0; i < iso9660->joliet.max_depth; i++) free(iso9660->joliet.pathtbl[i].sorted); free(iso9660->joliet.pathtbl); } /* Remove isofile entries. */ isofile_free_all_entries(iso9660); isofile_free_hardlinks(iso9660); archive_string_free(&(iso9660->cur_dirstr)); archive_string_free(&(iso9660->volume_identifier)); archive_string_free(&(iso9660->publisher_identifier)); archive_string_free(&(iso9660->data_preparer_identifier)); archive_string_free(&(iso9660->application_identifier)); archive_string_free(&(iso9660->copyright_file_identifier)); archive_string_free(&(iso9660->abstract_file_identifier)); archive_string_free(&(iso9660->bibliographic_file_identifier)); archive_string_free(&(iso9660->el_torito.catalog_filename)); archive_string_free(&(iso9660->el_torito.boot_filename)); archive_string_free(&(iso9660->el_torito.id)); archive_string_free(&(iso9660->utf16be)); archive_string_free(&(iso9660->mbs)); free(iso9660); a->format_data = NULL; return (ret); } /* * Get the System Identifier */ static void get_system_identitier(char *system_id, size_t size) { #if defined(HAVE_SYS_UTSNAME_H) struct utsname u; uname(&u); strncpy(system_id, u.sysname, size-1); system_id[size-1] = '\0'; #elif defined(_WIN32) && !defined(__CYGWIN__) strncpy(system_id, "Windows", size-1); system_id[size-1] = '\0'; #else #error no way to get the system identifier on your platform. #endif } static void set_str(unsigned char *p, const char *s, size_t l, char f, const char *map) { unsigned char c; if (s == NULL) s = ""; while ((c = *s++) != 0 && l > 0) { if (c >= 0x80 || map[c] == 0) { /* illegal character */ if (c >= 'a' && c <= 'z') { /* convert c from a-z to A-Z */ c -= 0x20; } else c = 0x5f; } *p++ = c; l--; } /* If l isn't zero, fill p buffer by the character * which indicated by f. */ if (l > 0) memset(p , f, l); } static inline int joliet_allowed_char(unsigned char high, unsigned char low) { int utf16 = (high << 8) | low; if (utf16 <= 0x001F) return (0); switch (utf16) { case 0x002A: /* '*' */ case 0x002F: /* '/' */ case 0x003A: /* ':' */ case 0x003B: /* ';' */ case 0x003F: /* '?' */ case 0x005C: /* '\' */ return (0);/* Not allowed. */ } return (1); } static int set_str_utf16be(struct archive_write *a, unsigned char *p, const char *s, size_t l, uint16_t uf, enum vdc vdc) { size_t size, i; int onepad; if (s == NULL) s = ""; if (l & 0x01) { onepad = 1; l &= ~1; } else onepad = 0; if (vdc == VDC_UCS2) { struct iso9660 *iso9660 = a->format_data; if (archive_strncpy_l(&iso9660->utf16be, s, strlen(s), iso9660->sconv_to_utf16be) != 0 && errno == ENOMEM) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory for UTF-16BE"); return (ARCHIVE_FATAL); } size = iso9660->utf16be.length; if (size > l) size = l; memcpy(p, iso9660->utf16be.s, size); } else { const uint16_t *u16 = (const uint16_t *)s; size = 0; while (*u16++) size += 2; if (size > l) size = l; memcpy(p, s, size); } for (i = 0; i < size; i += 2, p += 2) { if (!joliet_allowed_char(p[0], p[1])) archive_be16enc(p, 0x005F);/* '_' */ } l -= size; while (l > 0) { archive_be16enc(p, uf); p += 2; l -= 2; } if (onepad) *p = 0; return (ARCHIVE_OK); } static const char a_characters_map[0x80] = { /* 0 1 2 3 4 5 6 7 8 9 A B C D E F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 00-0F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 10-1F */ 1, 1, 1, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 20-2F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 30-3F */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 40-4F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 1,/* 50-5F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 60-6F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 70-7F */ }; static const char a1_characters_map[0x80] = { /* 0 1 2 3 4 5 6 7 8 9 A B C D E F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 00-0F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 10-1F */ 1, 1, 1, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 20-2F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 30-3F */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 40-4F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 1,/* 50-5F */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 60-6F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0,/* 70-7F */ }; static const char d_characters_map[0x80] = { /* 0 1 2 3 4 5 6 7 8 9 A B C D E F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 00-0F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 10-1F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 20-2F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0,/* 30-3F */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 40-4F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 1,/* 50-5F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 60-6F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 70-7F */ }; static const char d1_characters_map[0x80] = { /* 0 1 2 3 4 5 6 7 8 9 A B C D E F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 00-0F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 10-1F */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,/* 20-2F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0,/* 30-3F */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 40-4F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 1,/* 50-5F */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,/* 60-6F */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0,/* 70-7F */ }; static int set_str_a_characters_bp(struct archive_write *a, unsigned char *bp, int from, int to, const char *s, enum vdc vdc) { int r; switch (vdc) { case VDC_STD: set_str(bp+from, s, to - from + 1, 0x20, a_characters_map); r = ARCHIVE_OK; break; case VDC_LOWERCASE: set_str(bp+from, s, to - from + 1, 0x20, a1_characters_map); r = ARCHIVE_OK; break; case VDC_UCS2: case VDC_UCS2_DIRECT: r = set_str_utf16be(a, bp+from, s, to - from + 1, 0x0020, vdc); break; default: r = ARCHIVE_FATAL; } return (r); } static int set_str_d_characters_bp(struct archive_write *a, unsigned char *bp, int from, int to, const char *s, enum vdc vdc) { int r; switch (vdc) { case VDC_STD: set_str(bp+from, s, to - from + 1, 0x20, d_characters_map); r = ARCHIVE_OK; break; case VDC_LOWERCASE: set_str(bp+from, s, to - from + 1, 0x20, d1_characters_map); r = ARCHIVE_OK; break; case VDC_UCS2: case VDC_UCS2_DIRECT: r = set_str_utf16be(a, bp+from, s, to - from + 1, 0x0020, vdc); break; default: r = ARCHIVE_FATAL; } return (r); } static void set_VD_bp(unsigned char *bp, enum VD_type type, unsigned char ver) { /* Volume Descriptor Type */ bp[1] = (unsigned char)type; /* Standard Identifier */ memcpy(bp + 2, "CD001", 5); /* Volume Descriptor Version */ bp[7] = ver; } static inline void set_unused_field_bp(unsigned char *bp, int from, int to) { memset(bp + from, 0, to - from + 1); } /* * 8-bit unsigned numerical values. * ISO9660 Standard 7.1.1 */ static inline void set_num_711(unsigned char *p, unsigned char value) { *p = value; } /* * 8-bit signed numerical values. * ISO9660 Standard 7.1.2 */ static inline void set_num_712(unsigned char *p, char value) { *((char *)p) = value; } /* * Least significant byte first. * ISO9660 Standard 7.2.1 */ static inline void set_num_721(unsigned char *p, uint16_t value) { archive_le16enc(p, value); } /* * Most significant byte first. * ISO9660 Standard 7.2.2 */ static inline void set_num_722(unsigned char *p, uint16_t value) { archive_be16enc(p, value); } /* * Both-byte orders. * ISO9660 Standard 7.2.3 */ static void set_num_723(unsigned char *p, uint16_t value) { archive_le16enc(p, value); archive_be16enc(p+2, value); } /* * Least significant byte first. * ISO9660 Standard 7.3.1 */ static inline void set_num_731(unsigned char *p, uint32_t value) { archive_le32enc(p, value); } /* * Most significant byte first. * ISO9660 Standard 7.3.2 */ static inline void set_num_732(unsigned char *p, uint32_t value) { archive_be32enc(p, value); } /* * Both-byte orders. * ISO9660 Standard 7.3.3 */ static inline void set_num_733(unsigned char *p, uint32_t value) { archive_le32enc(p, value); archive_be32enc(p+4, value); } static void set_digit(unsigned char *p, size_t s, int value) { while (s--) { p[s] = '0' + (value % 10); value /= 10; } } #if defined(HAVE_STRUCT_TM_TM_GMTOFF) #define get_gmoffset(tm) ((tm)->tm_gmtoff) #elif defined(HAVE_STRUCT_TM___TM_GMTOFF) #define get_gmoffset(tm) ((tm)->__tm_gmtoff) #else static long get_gmoffset(struct tm *tm) { long offset; #if defined(HAVE__GET_TIMEZONE) _get_timezone(&offset); #elif defined(__CYGWIN__) || defined(__MINGW32__) || defined(__BORLANDC__) offset = _timezone; #else offset = timezone; #endif offset *= -1; if (tm->tm_isdst) offset += 3600; return (offset); } #endif static void get_tmfromtime(struct tm *tm, time_t *t) { #if HAVE_LOCALTIME_R tzset(); localtime_r(t, tm); #elif HAVE__LOCALTIME64_S _localtime64_s(tm, t); #else memcpy(tm, localtime(t), sizeof(*tm)); #endif } /* * Date and Time Format. * ISO9660 Standard 8.4.26.1 */ static void set_date_time(unsigned char *p, time_t t) { struct tm tm; get_tmfromtime(&tm, &t); set_digit(p, 4, tm.tm_year + 1900); set_digit(p+4, 2, tm.tm_mon + 1); set_digit(p+6, 2, tm.tm_mday); set_digit(p+8, 2, tm.tm_hour); set_digit(p+10, 2, tm.tm_min); set_digit(p+12, 2, tm.tm_sec); set_digit(p+14, 2, 0); set_num_712(p+16, (char)(get_gmoffset(&tm)/(60*15))); } static void set_date_time_null(unsigned char *p) { memset(p, '0', 16); p[16] = 0; } static void set_time_915(unsigned char *p, time_t t) { struct tm tm; get_tmfromtime(&tm, &t); set_num_711(p+0, tm.tm_year); set_num_711(p+1, tm.tm_mon+1); set_num_711(p+2, tm.tm_mday); set_num_711(p+3, tm.tm_hour); set_num_711(p+4, tm.tm_min); set_num_711(p+5, tm.tm_sec); set_num_712(p+6, (char)(get_gmoffset(&tm)/(60*15))); } /* * Write SUSP "CE" System Use Entry. */ static int set_SUSP_CE(unsigned char *p, int location, int offset, int size) { unsigned char *bp = p -1; /* Extend the System Use Area * "CE" Format: * len ver * +----+----+----+----+-----------+-----------+ * | 'C'| 'E'| 1C | 01 | LOCATION1 | LOCATION2 | * +----+----+----+----+-----------+-----------+ * 0 1 2 3 4 12 20 * +-----------+ * | LOCATION3 | * +-----------+ * 20 28 * LOCATION1 : Location of Continuation of System Use Area. * LOCATION2 : Offset to Start of Continuation. * LOCATION3 : Length of the Continuation. */ bp[1] = 'C'; bp[2] = 'E'; bp[3] = RR_CE_SIZE; /* length */ bp[4] = 1; /* version */ set_num_733(bp+5, location); set_num_733(bp+13, offset); set_num_733(bp+21, size); return (RR_CE_SIZE); } /* * The functions, which names are beginning with extra_, are used to * control extra records. * The maximum size of a Directory Record is 254. When a filename is * very long, all of RRIP data of a file won't stored to the Directory * Record and so remaining RRIP data store to an extra record instead. */ static unsigned char * extra_open_record(unsigned char *bp, int dr_len, struct isoent *isoent, struct ctl_extr_rec *ctl) { ctl->bp = bp; if (bp != NULL) bp += dr_len; ctl->use_extr = 0; ctl->isoent = isoent; ctl->ce_ptr = NULL; ctl->cur_len = ctl->dr_len = dr_len; ctl->limit = DR_LIMIT; return (bp); } static void extra_close_record(struct ctl_extr_rec *ctl, int ce_size) { int padding = 0; if (ce_size > 0) extra_tell_used_size(ctl, ce_size); /* Padding. */ if (ctl->cur_len & 0x01) { ctl->cur_len++; if (ctl->bp != NULL) ctl->bp[ctl->cur_len] = 0; padding = 1; } if (ctl->use_extr) { if (ctl->ce_ptr != NULL) set_SUSP_CE(ctl->ce_ptr, ctl->extr_loc, ctl->extr_off, ctl->cur_len - padding); } else ctl->dr_len = ctl->cur_len; } #define extra_space(ctl) ((ctl)->limit - (ctl)->cur_len) static unsigned char * extra_next_record(struct ctl_extr_rec *ctl, int length) { int cur_len = ctl->cur_len;/* save cur_len */ /* Close the current extra record or Directory Record. */ extra_close_record(ctl, RR_CE_SIZE); /* Get a next extra record. */ ctl->use_extr = 1; if (ctl->bp != NULL) { /* Storing data into an extra record. */ unsigned char *p; /* Save the pointer where a CE extension will be * stored to. */ ctl->ce_ptr = &ctl->bp[cur_len+1]; p = extra_get_record(ctl->isoent, &ctl->limit, &ctl->extr_off, &ctl->extr_loc); ctl->bp = p - 1;/* the base of bp offset is 1. */ } else /* Calculating the size of an extra record. */ (void)extra_get_record(ctl->isoent, &ctl->limit, NULL, NULL); ctl->cur_len = 0; /* Check if an extra record is almost full. * If so, get a next one. */ if (extra_space(ctl) < length) (void)extra_next_record(ctl, length); return (ctl->bp); } static inline struct extr_rec * extra_last_record(struct isoent *isoent) { if (isoent->extr_rec_list.first == NULL) return (NULL); return ((struct extr_rec *)(void *) ((char *)(isoent->extr_rec_list.last) - offsetof(struct extr_rec, next))); } static unsigned char * extra_get_record(struct isoent *isoent, int *space, int *off, int *loc) { struct extr_rec *rec; isoent = isoent->parent; if (off != NULL) { /* Storing data into an extra record. */ rec = isoent->extr_rec_list.current; if (DR_SAFETY > LOGICAL_BLOCK_SIZE - rec->offset) rec = rec->next; } else { /* Calculating the size of an extra record. */ rec = extra_last_record(isoent); if (rec == NULL || DR_SAFETY > LOGICAL_BLOCK_SIZE - rec->offset) { rec = malloc(sizeof(*rec)); if (rec == NULL) return (NULL); rec->location = 0; rec->offset = 0; /* Insert `rec` into the tail of isoent->extr_rec_list */ rec->next = NULL; *isoent->extr_rec_list.last = rec; isoent->extr_rec_list.last = &(rec->next); } } *space = LOGICAL_BLOCK_SIZE - rec->offset - DR_SAFETY; if (*space & 0x01) *space -= 1;/* Keep padding space. */ if (off != NULL) *off = rec->offset; if (loc != NULL) *loc = rec->location; isoent->extr_rec_list.current = rec; return (&rec->buf[rec->offset]); } static void extra_tell_used_size(struct ctl_extr_rec *ctl, int size) { struct isoent *isoent; struct extr_rec *rec; if (ctl->use_extr) { isoent = ctl->isoent->parent; rec = isoent->extr_rec_list.current; if (rec != NULL) rec->offset += size; } ctl->cur_len += size; } static int extra_setup_location(struct isoent *isoent, int location) { struct extr_rec *rec; int cnt; cnt = 0; rec = isoent->extr_rec_list.first; isoent->extr_rec_list.current = rec; while (rec) { cnt++; rec->location = location++; rec->offset = 0; rec = rec->next; } return (cnt); } /* * Create the RRIP entries. */ static int set_directory_record_rr(unsigned char *bp, int dr_len, struct isoent *isoent, struct iso9660 *iso9660, enum dir_rec_type t) { /* Flags(BP 5) of the Rockridge "RR" System Use Field */ unsigned char rr_flag; #define RR_USE_PX 0x01 #define RR_USE_PN 0x02 #define RR_USE_SL 0x04 #define RR_USE_NM 0x08 #define RR_USE_CL 0x10 #define RR_USE_PL 0x20 #define RR_USE_RE 0x40 #define RR_USE_TF 0x80 int length; struct ctl_extr_rec ctl; struct isoent *rr_parent, *pxent; struct isofile *file; bp = extra_open_record(bp, dr_len, isoent, &ctl); if (t == DIR_REC_PARENT) { rr_parent = isoent->rr_parent; pxent = isoent->parent; if (rr_parent != NULL) isoent = rr_parent; else isoent = isoent->parent; } else { rr_parent = NULL; pxent = isoent; } file = isoent->file; if (t != DIR_REC_NORMAL) { rr_flag = RR_USE_PX | RR_USE_TF; if (rr_parent != NULL) rr_flag |= RR_USE_PL; } else { rr_flag = RR_USE_PX | RR_USE_NM | RR_USE_TF; if (archive_entry_filetype(file->entry) == AE_IFLNK) rr_flag |= RR_USE_SL; if (isoent->rr_parent != NULL) rr_flag |= RR_USE_RE; if (isoent->rr_child != NULL) rr_flag |= RR_USE_CL; if (archive_entry_filetype(file->entry) == AE_IFCHR || archive_entry_filetype(file->entry) == AE_IFBLK) rr_flag |= RR_USE_PN; #ifdef COMPAT_MKISOFS /* * mkisofs 2.01.01a63 records "RE" extension to * the entry of "rr_moved" directory. * I don't understand this behavior. */ if (isoent->virtual && isoent->parent == iso9660->primary.rootent && strcmp(isoent->file->basename.s, "rr_moved") == 0) rr_flag |= RR_USE_RE; #endif } /* Write "SP" System Use Entry. */ if (t == DIR_REC_SELF && isoent == isoent->parent) { length = 7; if (bp != NULL) { bp[1] = 'S'; bp[2] = 'P'; bp[3] = length; bp[4] = 1; /* version */ bp[5] = 0xBE; /* Check Byte */ bp[6] = 0xEF; /* Check Byte */ bp[7] = 0; bp += length; } extra_tell_used_size(&ctl, length); } /* Write "RR" System Use Entry. */ length = 5; if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { bp[1] = 'R'; bp[2] = 'R'; bp[3] = length; bp[4] = 1; /* version */ bp[5] = rr_flag; bp += length; } extra_tell_used_size(&ctl, length); /* Write "NM" System Use Entry. */ if (rr_flag & RR_USE_NM) { /* * "NM" Format: * e.g. a basename is 'foo' * len ver flg * +----+----+----+----+----+----+----+----+ * | 'N'| 'M'| 08 | 01 | 00 | 'f'| 'o'| 'o'| * +----+----+----+----+----+----+----+----+ * <----------------- len -----------------> */ size_t nmlen = file->basename.length; const char *nm = file->basename.s; size_t nmmax; if (extra_space(&ctl) < 6) bp = extra_next_record(&ctl, 6); if (bp != NULL) { bp[1] = 'N'; bp[2] = 'M'; bp[4] = 1; /* version */ } nmmax = extra_space(&ctl); if (nmmax > 0xff) nmmax = 0xff; while (nmlen + 5 > nmmax) { length = (int)nmmax; if (bp != NULL) { bp[3] = length; bp[5] = 0x01;/* Alternate Name continues * in next "NM" field */ memcpy(bp+6, nm, length - 5); bp += length; } nmlen -= length - 5; nm += length - 5; extra_tell_used_size(&ctl, length); if (extra_space(&ctl) < 6) { bp = extra_next_record(&ctl, 6); nmmax = extra_space(&ctl); if (nmmax > 0xff) nmmax = 0xff; } if (bp != NULL) { bp[1] = 'N'; bp[2] = 'M'; bp[4] = 1; /* version */ } } length = 5 + (int)nmlen; if (bp != NULL) { bp[3] = length; bp[5] = 0; memcpy(bp+6, nm, nmlen); bp += length; } extra_tell_used_size(&ctl, length); } /* Write "PX" System Use Entry. */ if (rr_flag & RR_USE_PX) { /* * "PX" Format: * len ver * +----+----+----+----+-----------+-----------+ * | 'P'| 'X'| 2C | 01 | FILE MODE | LINKS | * +----+----+----+----+-----------+-----------+ * 0 1 2 3 4 12 20 * +-----------+-----------+------------------+ * | USER ID | GROUP ID |FILE SERIAL NUMBER| * +-----------+-----------+------------------+ * 20 28 36 44 */ length = 44; if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { mode_t mode; int64_t uid; int64_t gid; mode = archive_entry_mode(file->entry); uid = archive_entry_uid(file->entry); gid = archive_entry_gid(file->entry); if (iso9660->opt.rr == OPT_RR_USEFUL) { /* * This action is simular mkisofs -r option * but our rockridge=useful option does not * set a zero to uid and gid. */ /* set all read bit ON */ mode |= 0444; #if !defined(_WIN32) && !defined(__CYGWIN__) if (mode & 0111) #endif /* set all exec bit ON */ mode |= 0111; /* clear all write bits. */ mode &= ~0222; /* clear setuid,setgid,sticky bits. */ mode &= ~07000; } bp[1] = 'P'; bp[2] = 'X'; bp[3] = length; bp[4] = 1; /* version */ /* file mode */ set_num_733(bp+5, mode); /* file links (stat.st_nlink) */ set_num_733(bp+13, archive_entry_nlink(file->entry)); set_num_733(bp+21, (uint32_t)uid); set_num_733(bp+29, (uint32_t)gid); /* File Serial Number */ if (pxent->dir) set_num_733(bp+37, pxent->dir_location); else if (file->hardlink_target != NULL) set_num_733(bp+37, file->hardlink_target->cur_content->location); else set_num_733(bp+37, file->cur_content->location); bp += length; } extra_tell_used_size(&ctl, length); } /* Write "SL" System Use Entry. */ if (rr_flag & RR_USE_SL) { /* * "SL" Format: * e.g. a symbolic name is 'foo/bar' * len ver flg * +----+----+----+----+----+------------+ * | 'S'| 'L'| 0F | 01 | 00 | components | * +----+----+----+----+----+-----+------+ * 0 1 2 3 4 5 ...|... 15 * <----------------- len --------+------> * components : | * cflg clen | * +----+----+----+----+----+ | * | 00 | 03 | 'f'| 'o'| 'o'| <---+ * +----+----+----+----+----+ | * 5 6 7 8 9 10 | * cflg clen | * +----+----+----+----+----+ | * | 00 | 03 | 'b'| 'a'| 'r'| <---+ * +----+----+----+----+----+ * 10 11 12 13 14 15 * * - cflg : flag of componet * - clen : length of componet */ const char *sl; char sl_last; if (extra_space(&ctl) < 7) bp = extra_next_record(&ctl, 7); sl = file->symlink.s; sl_last = '\0'; if (bp != NULL) { bp[1] = 'S'; bp[2] = 'L'; bp[4] = 1; /* version */ } for (;;) { unsigned char *nc, *cf, *cl, cldmy = 0; int sllen, slmax; slmax = extra_space(&ctl); if (slmax > 0xff) slmax = 0xff; if (bp != NULL) nc = &bp[6]; else nc = NULL; cf = cl = NULL; sllen = 0; while (*sl && sllen + 11 < slmax) { if (sl_last == '\0' && sl[0] == '/') { /* * flg len * +----+----+ * | 08 | 00 | ROOT component. * +----+----+ ("/") * * Root component has to appear * at the first component only. */ if (nc != NULL) { cf = nc++; *cf = 0x08; /* ROOT */ *nc++ = 0; } sllen += 2; sl++; sl_last = '/'; cl = NULL; continue; } if (((sl_last == '\0' || sl_last == '/') && sl[0] == '.' && sl[1] == '.' && (sl[2] == '/' || sl[2] == '\0')) || (sl[0] == '/' && sl[1] == '.' && sl[2] == '.' && (sl[3] == '/' || sl[3] == '\0'))) { /* * flg len * +----+----+ * | 04 | 00 | PARENT component. * +----+----+ ("..") */ if (nc != NULL) { cf = nc++; *cf = 0x04; /* PARENT */ *nc++ = 0; } sllen += 2; if (sl[0] == '/') sl += 3;/* skip "/.." */ else sl += 2;/* skip ".." */ sl_last = '.'; cl = NULL; continue; } if (((sl_last == '\0' || sl_last == '/') && sl[0] == '.' && (sl[1] == '/' || sl[1] == '\0')) || (sl[0] == '/' && sl[1] == '.' && (sl[2] == '/' || sl[2] == '\0'))) { /* * flg len * +----+----+ * | 02 | 00 | CURREENT component. * +----+----+ (".") */ if (nc != NULL) { cf = nc++; *cf = 0x02; /* CURRENT */ *nc++ = 0; } sllen += 2; if (sl[0] == '/') sl += 2;/* skip "/." */ else sl ++; /* skip "." */ sl_last = '.'; cl = NULL; continue; } if (sl[0] == '/' || cl == NULL) { if (nc != NULL) { cf = nc++; *cf = 0; cl = nc++; *cl = 0; } else cl = &cldmy; sllen += 2; if (sl[0] == '/') { sl_last = *sl++; continue; } } sl_last = *sl++; if (nc != NULL) { *nc++ = sl_last; (*cl) ++; } sllen++; } if (*sl) { length = 5 + sllen; if (bp != NULL) { /* * Mark flg as CONTINUE component. */ *cf |= 0x01; /* * len ver flg * +----+----+----+----+----+- * | 'S'| 'L'| XX | 01 | 01 | * +----+----+----+----+----+- * ^ * continues in next "SL" */ bp[3] = length; bp[5] = 0x01;/* This Symbolic Link * continues in next * "SL" field */ bp += length; } extra_tell_used_size(&ctl, length); if (extra_space(&ctl) < 11) bp = extra_next_record(&ctl, 11); if (bp != NULL) { /* Next 'SL' */ bp[1] = 'S'; bp[2] = 'L'; bp[4] = 1; /* version */ } } else { length = 5 + sllen; if (bp != NULL) { bp[3] = length; bp[5] = 0; bp += length; } extra_tell_used_size(&ctl, length); break; } } } /* Write "TF" System Use Entry. */ if (rr_flag & RR_USE_TF) { /* * "TF" Format: * len ver * +----+----+----+----+-----+-------------+ * | 'T'| 'F'| XX | 01 |FLAGS| TIME STAMPS | * +----+----+----+----+-----+-------------+ * 0 1 2 3 4 5 XX * TIME STAMPS : ISO 9660 Standard 9.1.5. * If TF_LONG_FORM FLAGS is set, * use ISO9660 Standard 8.4.26.1. */ #define TF_CREATION 0x01 /* Creation time recorded */ #define TF_MODIFY 0x02 /* Modification time recorded */ #define TF_ACCESS 0x04 /* Last Access time recorded */ #define TF_ATTRIBUTES 0x08 /* Last Attribute Change time recorded */ #define TF_BACKUP 0x10 /* Last Backup time recorded */ #define TF_EXPIRATION 0x20 /* Expiration time recorded */ #define TF_EFFECTIVE 0x40 /* Effective time recorded */ #define TF_LONG_FORM 0x80 /* ISO 9660 17-byte time format used */ unsigned char tf_flags; length = 5; tf_flags = 0; #ifndef COMPAT_MKISOFS if (archive_entry_birthtime_is_set(file->entry) && archive_entry_birthtime(file->entry) <= archive_entry_mtime(file->entry)) { length += 7; tf_flags |= TF_CREATION; } #endif if (archive_entry_mtime_is_set(file->entry)) { length += 7; tf_flags |= TF_MODIFY; } if (archive_entry_atime_is_set(file->entry)) { length += 7; tf_flags |= TF_ACCESS; } if (archive_entry_ctime_is_set(file->entry)) { length += 7; tf_flags |= TF_ATTRIBUTES; } if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { bp[1] = 'T'; bp[2] = 'F'; bp[3] = length; bp[4] = 1; /* version */ bp[5] = tf_flags; bp += 5; /* Creation time */ if (tf_flags & TF_CREATION) { set_time_915(bp+1, archive_entry_birthtime(file->entry)); bp += 7; } /* Modification time */ if (tf_flags & TF_MODIFY) { set_time_915(bp+1, archive_entry_mtime(file->entry)); bp += 7; } /* Last Access time */ if (tf_flags & TF_ACCESS) { set_time_915(bp+1, archive_entry_atime(file->entry)); bp += 7; } /* Last Attribute Change time */ if (tf_flags & TF_ATTRIBUTES) { set_time_915(bp+1, archive_entry_ctime(file->entry)); bp += 7; } } extra_tell_used_size(&ctl, length); } /* Write "RE" System Use Entry. */ if (rr_flag & RR_USE_RE) { /* * "RE" Format: * len ver * +----+----+----+----+ * | 'R'| 'E'| 04 | 01 | * +----+----+----+----+ * 0 1 2 3 4 */ length = 4; if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { bp[1] = 'R'; bp[2] = 'E'; bp[3] = length; bp[4] = 1; /* version */ bp += length; } extra_tell_used_size(&ctl, length); } /* Write "PL" System Use Entry. */ if (rr_flag & RR_USE_PL) { /* * "PL" Format: * len ver * +----+----+----+----+------------+ * | 'P'| 'L'| 0C | 01 | *LOCATION | * +----+----+----+----+------------+ * 0 1 2 3 4 12 * *LOCATION: location of parent directory */ length = 12; if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { bp[1] = 'P'; bp[2] = 'L'; bp[3] = length; bp[4] = 1; /* version */ set_num_733(bp + 5, rr_parent->dir_location); bp += length; } extra_tell_used_size(&ctl, length); } /* Write "CL" System Use Entry. */ if (rr_flag & RR_USE_CL) { /* * "CL" Format: * len ver * +----+----+----+----+------------+ * | 'C'| 'L'| 0C | 01 | *LOCATION | * +----+----+----+----+------------+ * 0 1 2 3 4 12 * *LOCATION: location of child directory */ length = 12; if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { bp[1] = 'C'; bp[2] = 'L'; bp[3] = length; bp[4] = 1; /* version */ set_num_733(bp + 5, isoent->rr_child->dir_location); bp += length; } extra_tell_used_size(&ctl, length); } /* Write "PN" System Use Entry. */ if (rr_flag & RR_USE_PN) { /* * "PN" Format: * len ver * +----+----+----+----+------------+------------+ * | 'P'| 'N'| 14 | 01 | dev_t high | dev_t low | * +----+----+----+----+------------+------------+ * 0 1 2 3 4 12 20 */ length = 20; if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { uint64_t dev; bp[1] = 'P'; bp[2] = 'N'; bp[3] = length; bp[4] = 1; /* version */ dev = (uint64_t)archive_entry_rdev(file->entry); set_num_733(bp + 5, (uint32_t)(dev >> 32)); set_num_733(bp + 13, (uint32_t)(dev & 0xFFFFFFFF)); bp += length; } extra_tell_used_size(&ctl, length); } /* Write "ZF" System Use Entry. */ if (file->zisofs.header_size) { /* * "ZF" Format: * len ver * +----+----+----+----+----+----+-------------+ * | 'Z'| 'F'| 10 | 01 | 'p'| 'z'| Header Size | * +----+----+----+----+----+----+-------------+ * 0 1 2 3 4 5 6 7 * +--------------------+-------------------+ * | Log2 of block Size | Uncompressed Size | * +--------------------+-------------------+ * 7 8 16 */ length = 16; if (extra_space(&ctl) < length) bp = extra_next_record(&ctl, length); if (bp != NULL) { bp[1] = 'Z'; bp[2] = 'F'; bp[3] = length; bp[4] = 1; /* version */ bp[5] = 'p'; bp[6] = 'z'; bp[7] = file->zisofs.header_size; bp[8] = file->zisofs.log2_bs; set_num_733(bp + 9, file->zisofs.uncompressed_size); bp += length; } extra_tell_used_size(&ctl, length); } /* Write "CE" System Use Entry. */ if (t == DIR_REC_SELF && isoent == isoent->parent) { length = RR_CE_SIZE; if (bp != NULL) set_SUSP_CE(bp+1, iso9660->location_rrip_er, 0, RRIP_ER_SIZE); extra_tell_used_size(&ctl, length); } extra_close_record(&ctl, 0); return (ctl.dr_len); } /* * Write data of a Directory Record or calculate writing bytes itself. * If parameter `p' is NULL, calculates the size of writing data, which * a Directory Record needs to write, then it saved and return * the calculated size. * Parameter `n' is a remaining size of buffer. when parameter `p' is * not NULL, check whether that `n' is not less than the saved size. * if that `n' is small, return zero. * * This format of the Directory Record is according to * ISO9660 Standard 9.1 */ static int set_directory_record(unsigned char *p, size_t n, struct isoent *isoent, struct iso9660 *iso9660, enum dir_rec_type t, enum vdd_type vdd_type) { unsigned char *bp; size_t dr_len; size_t fi_len; if (p != NULL) { /* * Check whether a write buffer size is less than the * saved size which is needed to write this Directory * Record. */ switch (t) { case DIR_REC_VD: dr_len = isoent->dr_len.vd; break; case DIR_REC_SELF: dr_len = isoent->dr_len.self; break; case DIR_REC_PARENT: dr_len = isoent->dr_len.parent; break; case DIR_REC_NORMAL: default: dr_len = isoent->dr_len.normal; break; } if (dr_len > n) return (0);/* Needs more buffer size. */ } if (t == DIR_REC_NORMAL && isoent->identifier != NULL) fi_len = isoent->id_len; else fi_len = 1; if (p != NULL) { struct isoent *xisoent; struct isofile *file; unsigned char flag; if (t == DIR_REC_PARENT) xisoent = isoent->parent; else xisoent = isoent; file = isoent->file; if (file->hardlink_target != NULL) file = file->hardlink_target; /* Make a file flag. */ if (xisoent->dir) flag = FILE_FLAG_DIRECTORY; else { if (file->cur_content->next != NULL) flag = FILE_FLAG_MULTI_EXTENT; else flag = 0; } bp = p -1; /* Extended Attribute Record Length */ set_num_711(bp+2, 0); /* Location of Extent */ if (xisoent->dir) set_num_733(bp+3, xisoent->dir_location); else set_num_733(bp+3, file->cur_content->location); /* Data Length */ if (xisoent->dir) set_num_733(bp+11, xisoent->dir_block * LOGICAL_BLOCK_SIZE); else set_num_733(bp+11, (uint32_t)file->cur_content->size); /* Recording Date and Time */ /* NOTE: * If a file type is symbolic link, you are seeing this * field value is different from a value mkisofs makes. * libarchive uses lstat to get this one, but it * seems mkisofs uses stat to get. */ set_time_915(bp+19, archive_entry_mtime(xisoent->file->entry)); /* File Flags */ bp[26] = flag; /* File Unit Size */ set_num_711(bp+27, 0); /* Interleave Gap Size */ set_num_711(bp+28, 0); /* Volume Sequence Number */ set_num_723(bp+29, iso9660->volume_sequence_number); /* Length of File Identifier */ set_num_711(bp+33, (unsigned char)fi_len); /* File Identifier */ switch (t) { case DIR_REC_VD: case DIR_REC_SELF: set_num_711(bp+34, 0); break; case DIR_REC_PARENT: set_num_711(bp+34, 1); break; case DIR_REC_NORMAL: if (isoent->identifier != NULL) memcpy(bp+34, isoent->identifier, fi_len); else set_num_711(bp+34, 0); break; } } else bp = NULL; dr_len = 33 + fi_len; /* Padding Field */ if (dr_len & 0x01) { dr_len ++; if (p != NULL) bp[dr_len] = 0; } /* Volume Descriptor does not record extension. */ if (t == DIR_REC_VD) { if (p != NULL) /* Length of Directory Record */ set_num_711(p, (unsigned char)dr_len); else isoent->dr_len.vd = (int)dr_len; return ((int)dr_len); } /* Rockridge */ if (iso9660->opt.rr && vdd_type != VDD_JOLIET) dr_len = set_directory_record_rr(bp, (int)dr_len, isoent, iso9660, t); if (p != NULL) /* Length of Directory Record */ set_num_711(p, (unsigned char)dr_len); else { /* * Save the size which is needed to write this * Directory Record. */ switch (t) { case DIR_REC_VD: /* This case does not come, but compiler * complains that DIR_REC_VD not handled * in switch .... */ break; case DIR_REC_SELF: isoent->dr_len.self = (int)dr_len; break; case DIR_REC_PARENT: isoent->dr_len.parent = (int)dr_len; break; case DIR_REC_NORMAL: isoent->dr_len.normal = (int)dr_len; break; } } return ((int)dr_len); } /* * Calculate the size of a directory record. */ static inline int get_dir_rec_size(struct iso9660 *iso9660, struct isoent *isoent, enum dir_rec_type t, enum vdd_type vdd_type) { return (set_directory_record(NULL, SIZE_MAX, isoent, iso9660, t, vdd_type)); } /* * Manage to write ISO-image data with wbuff to reduce calling * __archive_write_output() for performance. */ static inline unsigned char * wb_buffptr(struct archive_write *a) { struct iso9660 *iso9660 = (struct iso9660 *)a->format_data; return (&(iso9660->wbuff[sizeof(iso9660->wbuff) - iso9660->wbuff_remaining])); } static int wb_write_out(struct archive_write *a) { struct iso9660 *iso9660 = (struct iso9660 *)a->format_data; size_t wsize, nw; int r; wsize = sizeof(iso9660->wbuff) - iso9660->wbuff_remaining; nw = wsize % LOGICAL_BLOCK_SIZE; if (iso9660->wbuff_type == WB_TO_STREAM) r = __archive_write_output(a, iso9660->wbuff, wsize - nw); else r = write_to_temp(a, iso9660->wbuff, wsize - nw); /* Increase the offset. */ iso9660->wbuff_offset += wsize - nw; if (iso9660->wbuff_offset > iso9660->wbuff_written) iso9660->wbuff_written = iso9660->wbuff_offset; iso9660->wbuff_remaining = sizeof(iso9660->wbuff); if (nw) { iso9660->wbuff_remaining -= nw; memmove(iso9660->wbuff, iso9660->wbuff + wsize - nw, nw); } return (r); } static int wb_consume(struct archive_write *a, size_t size) { struct iso9660 *iso9660 = (struct iso9660 *)a->format_data; if (size > iso9660->wbuff_remaining || iso9660->wbuff_remaining == 0) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Internal Programing error: iso9660:wb_consume()" " size=%jd, wbuff_remaining=%jd", (intmax_t)size, (intmax_t)iso9660->wbuff_remaining); return (ARCHIVE_FATAL); } iso9660->wbuff_remaining -= size; if (iso9660->wbuff_remaining < LOGICAL_BLOCK_SIZE) return (wb_write_out(a)); return (ARCHIVE_OK); } #ifdef HAVE_ZLIB_H static int wb_set_offset(struct archive_write *a, int64_t off) { struct iso9660 *iso9660 = (struct iso9660 *)a->format_data; int64_t used, ext_bytes; if (iso9660->wbuff_type != WB_TO_TEMP) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Internal Programing error: iso9660:wb_set_offset()"); return (ARCHIVE_FATAL); } used = sizeof(iso9660->wbuff) - iso9660->wbuff_remaining; if (iso9660->wbuff_offset + used > iso9660->wbuff_tail) iso9660->wbuff_tail = iso9660->wbuff_offset + used; if (iso9660->wbuff_offset < iso9660->wbuff_written) { if (used > 0 && write_to_temp(a, iso9660->wbuff, (size_t)used) != ARCHIVE_OK) return (ARCHIVE_FATAL); iso9660->wbuff_offset = iso9660->wbuff_written; lseek(iso9660->temp_fd, iso9660->wbuff_offset, SEEK_SET); iso9660->wbuff_remaining = sizeof(iso9660->wbuff); used = 0; } if (off < iso9660->wbuff_offset) { /* * Write out waiting data. */ if (used > 0) { if (wb_write_out(a) != ARCHIVE_OK) return (ARCHIVE_FATAL); } lseek(iso9660->temp_fd, off, SEEK_SET); iso9660->wbuff_offset = off; iso9660->wbuff_remaining = sizeof(iso9660->wbuff); } else if (off <= iso9660->wbuff_tail) { iso9660->wbuff_remaining = (size_t) (sizeof(iso9660->wbuff) - (off - iso9660->wbuff_offset)); } else { ext_bytes = off - iso9660->wbuff_tail; iso9660->wbuff_remaining = (size_t)(sizeof(iso9660->wbuff) - (iso9660->wbuff_tail - iso9660->wbuff_offset)); while (ext_bytes >= (int64_t)iso9660->wbuff_remaining) { if (write_null(a, (size_t)iso9660->wbuff_remaining) != ARCHIVE_OK) return (ARCHIVE_FATAL); ext_bytes -= iso9660->wbuff_remaining; } if (ext_bytes > 0) { if (write_null(a, (size_t)ext_bytes) != ARCHIVE_OK) return (ARCHIVE_FATAL); } } return (ARCHIVE_OK); } #endif /* HAVE_ZLIB_H */ static int write_null(struct archive_write *a, size_t size) { size_t remaining; unsigned char *p, *old; int r; remaining = wb_remaining(a); p = wb_buffptr(a); if (size <= remaining) { memset(p, 0, size); return (wb_consume(a, size)); } memset(p, 0, remaining); r = wb_consume(a, remaining); if (r != ARCHIVE_OK) return (r); size -= remaining; old = p; p = wb_buffptr(a); memset(p, 0, old - p); remaining = wb_remaining(a); while (size) { size_t wsize = size; if (wsize > remaining) wsize = remaining; r = wb_consume(a, wsize); if (r != ARCHIVE_OK) return (r); size -= wsize; } return (ARCHIVE_OK); } /* * Write Volume Descriptor Set Terminator */ static int write_VD_terminator(struct archive_write *a) { unsigned char *bp; bp = wb_buffptr(a) -1; set_VD_bp(bp, VDT_TERMINATOR, 1); set_unused_field_bp(bp, 8, LOGICAL_BLOCK_SIZE); return (wb_consume(a, LOGICAL_BLOCK_SIZE)); } static int set_file_identifier(unsigned char *bp, int from, int to, enum vdc vdc, struct archive_write *a, struct vdd *vdd, struct archive_string *id, const char *label, int leading_under, enum char_type char_type) { char identifier[256]; struct isoent *isoent; const char *ids; size_t len; int r; if (id->length > 0 && leading_under && id->s[0] != '_') { if (char_type == A_CHAR) r = set_str_a_characters_bp(a, bp, from, to, id->s, vdc); else r = set_str_d_characters_bp(a, bp, from, to, id->s, vdc); } else if (id->length > 0) { ids = id->s; if (leading_under) ids++; isoent = isoent_find_entry(vdd->rootent, ids); if (isoent == NULL) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Not Found %s `%s'.", label, ids); return (ARCHIVE_FATAL); } len = isoent->ext_off + isoent->ext_len; if (vdd->vdd_type == VDD_JOLIET) { if (len > sizeof(identifier)-2) len = sizeof(identifier)-2; } else { if (len > sizeof(identifier)-1) len = sizeof(identifier)-1; } memcpy(identifier, isoent->identifier, len); identifier[len] = '\0'; if (vdd->vdd_type == VDD_JOLIET) { identifier[len+1] = 0; vdc = VDC_UCS2_DIRECT; } if (char_type == A_CHAR) r = set_str_a_characters_bp(a, bp, from, to, identifier, vdc); else r = set_str_d_characters_bp(a, bp, from, to, identifier, vdc); } else { if (char_type == A_CHAR) r = set_str_a_characters_bp(a, bp, from, to, NULL, vdc); else r = set_str_d_characters_bp(a, bp, from, to, NULL, vdc); } return (r); } /* * Write Primary/Supplementary Volume Descriptor */ static int write_VD(struct archive_write *a, struct vdd *vdd) { struct iso9660 *iso9660; unsigned char *bp; uint16_t volume_set_size = 1; char identifier[256]; enum VD_type vdt; enum vdc vdc; unsigned char vd_ver, fst_ver; int r; iso9660 = a->format_data; switch (vdd->vdd_type) { case VDD_JOLIET: vdt = VDT_SUPPLEMENTARY; vd_ver = fst_ver = 1; vdc = VDC_UCS2; break; case VDD_ENHANCED: vdt = VDT_SUPPLEMENTARY; vd_ver = fst_ver = 2; vdc = VDC_LOWERCASE; break; case VDD_PRIMARY: default: vdt = VDT_PRIMARY; vd_ver = fst_ver = 1; #ifdef COMPAT_MKISOFS vdc = VDC_LOWERCASE; #else vdc = VDC_STD; #endif break; } bp = wb_buffptr(a) -1; /* Volume Descriptor Type */ set_VD_bp(bp, vdt, vd_ver); /* Unused Field */ set_unused_field_bp(bp, 8, 8); /* System Identifier */ get_system_identitier(identifier, sizeof(identifier)); r = set_str_a_characters_bp(a, bp, 9, 40, identifier, vdc); if (r != ARCHIVE_OK) return (r); /* Volume Identifier */ r = set_str_d_characters_bp(a, bp, 41, 72, iso9660->volume_identifier.s, vdc); if (r != ARCHIVE_OK) return (r); /* Unused Field */ set_unused_field_bp(bp, 73, 80); /* Volume Space Size */ set_num_733(bp+81, iso9660->volume_space_size); if (vdd->vdd_type == VDD_JOLIET) { /* Escape Sequences */ bp[89] = 0x25;/* UCS-2 Level 3 */ bp[90] = 0x2F; bp[91] = 0x45; memset(bp + 92, 0, 120 - 92 + 1); } else { /* Unused Field */ set_unused_field_bp(bp, 89, 120); } /* Volume Set Size */ set_num_723(bp+121, volume_set_size); /* Volume Sequence Number */ set_num_723(bp+125, iso9660->volume_sequence_number); /* Logical Block Size */ set_num_723(bp+129, LOGICAL_BLOCK_SIZE); /* Path Table Size */ set_num_733(bp+133, vdd->path_table_size); /* Location of Occurrence of Type L Path Table */ set_num_731(bp+141, vdd->location_type_L_path_table); /* Location of Optional Occurrence of Type L Path Table */ set_num_731(bp+145, 0); /* Location of Occurrence of Type M Path Table */ set_num_732(bp+149, vdd->location_type_M_path_table); /* Location of Optional Occurrence of Type M Path Table */ set_num_732(bp+153, 0); /* Directory Record for Root Directory(BP 157 to 190) */ set_directory_record(bp+157, 190-157+1, vdd->rootent, iso9660, DIR_REC_VD, vdd->vdd_type); /* Volume Set Identifier */ r = set_str_d_characters_bp(a, bp, 191, 318, "", vdc); if (r != ARCHIVE_OK) return (r); /* Publisher Identifier */ r = set_file_identifier(bp, 319, 446, vdc, a, vdd, &(iso9660->publisher_identifier), "Publisher File", 1, A_CHAR); if (r != ARCHIVE_OK) return (r); /* Data Preparer Identifier */ r = set_file_identifier(bp, 447, 574, vdc, a, vdd, &(iso9660->data_preparer_identifier), "Data Preparer File", 1, A_CHAR); if (r != ARCHIVE_OK) return (r); /* Application Identifier */ r = set_file_identifier(bp, 575, 702, vdc, a, vdd, &(iso9660->application_identifier), "Application File", 1, A_CHAR); if (r != ARCHIVE_OK) return (r); /* Copyright File Identifier */ r = set_file_identifier(bp, 703, 739, vdc, a, vdd, &(iso9660->copyright_file_identifier), "Copyright File", 0, D_CHAR); if (r != ARCHIVE_OK) return (r); /* Abstract File Identifier */ r = set_file_identifier(bp, 740, 776, vdc, a, vdd, &(iso9660->abstract_file_identifier), "Abstract File", 0, D_CHAR); if (r != ARCHIVE_OK) return (r); /* Bibliongraphic File Identifier */ r = set_file_identifier(bp, 777, 813, vdc, a, vdd, &(iso9660->bibliographic_file_identifier), "Bibliongraphic File", 0, D_CHAR); if (r != ARCHIVE_OK) return (r); /* Volume Creation Date and Time */ set_date_time(bp+814, iso9660->birth_time); /* Volume Modification Date and Time */ set_date_time(bp+831, iso9660->birth_time); /* Volume Expiration Date and Time(obsolete) */ set_date_time_null(bp+848); /* Volume Effective Date and Time */ set_date_time(bp+865, iso9660->birth_time); /* File Structure Version */ bp[882] = fst_ver; /* Reserved */ bp[883] = 0; /* Application Use */ memset(bp + 884, 0x20, 1395 - 884 + 1); /* Reserved */ set_unused_field_bp(bp, 1396, LOGICAL_BLOCK_SIZE); return (wb_consume(a, LOGICAL_BLOCK_SIZE)); } /* * Write Boot Record Volume Descriptor */ static int write_VD_boot_record(struct archive_write *a) { struct iso9660 *iso9660; unsigned char *bp; iso9660 = a->format_data; bp = wb_buffptr(a) -1; /* Volume Descriptor Type */ set_VD_bp(bp, VDT_BOOT_RECORD, 1); /* Boot System Identifier */ memcpy(bp+8, "EL TORITO SPECIFICATION", 23); set_unused_field_bp(bp, 8+23, 39); /* Unused */ set_unused_field_bp(bp, 40, 71); /* Absolute pointer to first sector of Boot Catalog */ set_num_731(bp+72, iso9660->el_torito.catalog->file->content.location); /* Unused */ set_unused_field_bp(bp, 76, LOGICAL_BLOCK_SIZE); return (wb_consume(a, LOGICAL_BLOCK_SIZE)); } enum keytype { KEY_FLG, KEY_STR, KEY_INT, KEY_HEX }; static void set_option_info(struct archive_string *info, int *opt, const char *key, enum keytype type, ...) { va_list ap; char prefix; const char *s; int d; prefix = (*opt==0)? ' ':','; va_start(ap, type); switch (type) { case KEY_FLG: d = va_arg(ap, int); archive_string_sprintf(info, "%c%s%s", prefix, (d == 0)?"!":"", key); break; case KEY_STR: s = va_arg(ap, const char *); archive_string_sprintf(info, "%c%s=%s", prefix, key, s); break; case KEY_INT: d = va_arg(ap, int); archive_string_sprintf(info, "%c%s=%d", prefix, key, d); break; case KEY_HEX: d = va_arg(ap, int); archive_string_sprintf(info, "%c%s=%x", prefix, key, d); break; } va_end(ap); *opt = 1; } /* * Make Non-ISO File System Information */ static int write_information_block(struct archive_write *a) { struct iso9660 *iso9660; char buf[128]; const char *v; int opt, r; struct archive_string info; size_t info_size = LOGICAL_BLOCK_SIZE * NON_ISO_FILE_SYSTEM_INFORMATION_BLOCK; iso9660 = (struct iso9660 *)a->format_data; if (info_size > wb_remaining(a)) { r = wb_write_out(a); if (r != ARCHIVE_OK) return (r); } archive_string_init(&info); if (archive_string_ensure(&info, info_size) == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } memset(info.s, 0, info_size); opt = 0; #if defined(HAVE__CTIME64_S) _ctime64_s(buf, sizeof(buf), &(iso9660->birth_time)); #elif defined(HAVE_CTIME_R) ctime_r(&(iso9660->birth_time), buf); #else strncpy(buf, ctime(&(iso9660->birth_time)), sizeof(buf)-1); buf[sizeof(buf)-1] = '\0'; #endif archive_string_sprintf(&info, "INFO %s%s", buf, archive_version_string()); if (iso9660->opt.abstract_file != OPT_ABSTRACT_FILE_DEFAULT) set_option_info(&info, &opt, "abstract-file", KEY_STR, iso9660->abstract_file_identifier.s); if (iso9660->opt.application_id != OPT_APPLICATION_ID_DEFAULT) set_option_info(&info, &opt, "application-id", KEY_STR, iso9660->application_identifier.s); if (iso9660->opt.allow_vernum != OPT_ALLOW_VERNUM_DEFAULT) set_option_info(&info, &opt, "allow-vernum", KEY_FLG, iso9660->opt.allow_vernum); if (iso9660->opt.biblio_file != OPT_BIBLIO_FILE_DEFAULT) set_option_info(&info, &opt, "biblio-file", KEY_STR, iso9660->bibliographic_file_identifier.s); if (iso9660->opt.boot != OPT_BOOT_DEFAULT) set_option_info(&info, &opt, "boot", KEY_STR, iso9660->el_torito.boot_filename.s); if (iso9660->opt.boot_catalog != OPT_BOOT_CATALOG_DEFAULT) set_option_info(&info, &opt, "boot-catalog", KEY_STR, iso9660->el_torito.catalog_filename.s); if (iso9660->opt.boot_info_table != OPT_BOOT_INFO_TABLE_DEFAULT) set_option_info(&info, &opt, "boot-info-table", KEY_FLG, iso9660->opt.boot_info_table); if (iso9660->opt.boot_load_seg != OPT_BOOT_LOAD_SEG_DEFAULT) set_option_info(&info, &opt, "boot-load-seg", KEY_HEX, iso9660->el_torito.boot_load_seg); if (iso9660->opt.boot_load_size != OPT_BOOT_LOAD_SIZE_DEFAULT) set_option_info(&info, &opt, "boot-load-size", KEY_INT, iso9660->el_torito.boot_load_size); if (iso9660->opt.boot_type != OPT_BOOT_TYPE_DEFAULT) { v = "no-emulation"; if (iso9660->opt.boot_type == OPT_BOOT_TYPE_FD) v = "fd"; if (iso9660->opt.boot_type == OPT_BOOT_TYPE_HARD_DISK) v = "hard-disk"; set_option_info(&info, &opt, "boot-type", KEY_STR, v); } #ifdef HAVE_ZLIB_H if (iso9660->opt.compression_level != OPT_COMPRESSION_LEVEL_DEFAULT) set_option_info(&info, &opt, "compression-level", KEY_INT, iso9660->zisofs.compression_level); #endif if (iso9660->opt.copyright_file != OPT_COPYRIGHT_FILE_DEFAULT) set_option_info(&info, &opt, "copyright-file", KEY_STR, iso9660->copyright_file_identifier.s); if (iso9660->opt.iso_level != OPT_ISO_LEVEL_DEFAULT) set_option_info(&info, &opt, "iso-level", KEY_INT, iso9660->opt.iso_level); if (iso9660->opt.joliet != OPT_JOLIET_DEFAULT) { if (iso9660->opt.joliet == OPT_JOLIET_LONGNAME) set_option_info(&info, &opt, "joliet", KEY_STR, "long"); else set_option_info(&info, &opt, "joliet", KEY_FLG, iso9660->opt.joliet); } if (iso9660->opt.limit_depth != OPT_LIMIT_DEPTH_DEFAULT) set_option_info(&info, &opt, "limit-depth", KEY_FLG, iso9660->opt.limit_depth); if (iso9660->opt.limit_dirs != OPT_LIMIT_DIRS_DEFAULT) set_option_info(&info, &opt, "limit-dirs", KEY_FLG, iso9660->opt.limit_dirs); if (iso9660->opt.pad != OPT_PAD_DEFAULT) set_option_info(&info, &opt, "pad", KEY_FLG, iso9660->opt.pad); if (iso9660->opt.publisher != OPT_PUBLISHER_DEFAULT) set_option_info(&info, &opt, "publisher", KEY_STR, iso9660->publisher_identifier.s); if (iso9660->opt.rr != OPT_RR_DEFAULT) { if (iso9660->opt.rr == OPT_RR_DISABLED) set_option_info(&info, &opt, "rockridge", KEY_FLG, iso9660->opt.rr); else if (iso9660->opt.rr == OPT_RR_STRICT) set_option_info(&info, &opt, "rockridge", KEY_STR, "strict"); else if (iso9660->opt.rr == OPT_RR_USEFUL) set_option_info(&info, &opt, "rockridge", KEY_STR, "useful"); } if (iso9660->opt.volume_id != OPT_VOLUME_ID_DEFAULT) set_option_info(&info, &opt, "volume-id", KEY_STR, iso9660->volume_identifier.s); if (iso9660->opt.zisofs != OPT_ZISOFS_DEFAULT) set_option_info(&info, &opt, "zisofs", KEY_FLG, iso9660->opt.zisofs); memcpy(wb_buffptr(a), info.s, info_size); archive_string_free(&info); return (wb_consume(a, info_size)); } static int write_rr_ER(struct archive_write *a) { unsigned char *p; p = wb_buffptr(a); memset(p, 0, LOGICAL_BLOCK_SIZE); p[0] = 'E'; p[1] = 'R'; p[3] = 0x01; p[2] = RRIP_ER_SIZE; p[4] = RRIP_ER_ID_SIZE; p[5] = RRIP_ER_DSC_SIZE; p[6] = RRIP_ER_SRC_SIZE; p[7] = 0x01; memcpy(&p[8], rrip_identifier, p[4]); memcpy(&p[8+p[4]], rrip_descriptor, p[5]); memcpy(&p[8+p[4]+p[5]], rrip_source, p[6]); return (wb_consume(a, LOGICAL_BLOCK_SIZE)); } static void calculate_path_table_size(struct vdd *vdd) { int depth, size; struct path_table *pt; pt = vdd->pathtbl; size = 0; for (depth = 0; depth < vdd->max_depth; depth++) { struct isoent **ptbl; int i, cnt; if ((cnt = pt[depth].cnt) == 0) break; ptbl = pt[depth].sorted; for (i = 0; i < cnt; i++) { int len; if (ptbl[i]->identifier == NULL) len = 1; /* root directory */ else len = ptbl[i]->id_len; if (len & 0x01) len++; /* Padding Field */ size += 8 + len; } } vdd->path_table_size = size; vdd->path_table_block = ((size + PATH_TABLE_BLOCK_SIZE -1) / PATH_TABLE_BLOCK_SIZE) * (PATH_TABLE_BLOCK_SIZE / LOGICAL_BLOCK_SIZE); } static int _write_path_table(struct archive_write *a, int type_m, int depth, struct vdd *vdd) { unsigned char *bp, *wb; struct isoent **ptbl; size_t wbremaining; int i, r, wsize; if (vdd->pathtbl[depth].cnt == 0) return (0); wsize = 0; wb = wb_buffptr(a); wbremaining = wb_remaining(a); bp = wb - 1; ptbl = vdd->pathtbl[depth].sorted; for (i = 0; i < vdd->pathtbl[depth].cnt; i++) { struct isoent *np; size_t len; np = ptbl[i]; if (np->identifier == NULL) len = 1; /* root directory */ else len = np->id_len; if (wbremaining - ((bp+1) - wb) < (len + 1 + 8)) { r = wb_consume(a, (bp+1) - wb); if (r < 0) return (r); wb = wb_buffptr(a); wbremaining = wb_remaining(a); bp = wb -1; } /* Length of Directory Identifier */ set_num_711(bp+1, (unsigned char)len); /* Extended Attribute Record Length */ set_num_711(bp+2, 0); /* Location of Extent */ if (type_m) set_num_732(bp+3, np->dir_location); else set_num_731(bp+3, np->dir_location); /* Parent Directory Number */ if (type_m) set_num_722(bp+7, np->parent->dir_number); else set_num_721(bp+7, np->parent->dir_number); /* Directory Identifier */ if (np->identifier == NULL) bp[9] = 0; else memcpy(&bp[9], np->identifier, len); if (len & 0x01) { /* Padding Field */ bp[9+len] = 0; len++; } wsize += 8 + (int)len; bp += 8 + len; } if ((bp + 1) > wb) { r = wb_consume(a, (bp+1)-wb); if (r < 0) return (r); } return (wsize); } static int write_path_table(struct archive_write *a, int type_m, struct vdd *vdd) { int depth, r; size_t path_table_size; r = ARCHIVE_OK; path_table_size = 0; for (depth = 0; depth < vdd->max_depth; depth++) { r = _write_path_table(a, type_m, depth, vdd); if (r < 0) return (r); path_table_size += r; } /* Write padding data. */ path_table_size = path_table_size % PATH_TABLE_BLOCK_SIZE; if (path_table_size > 0) r = write_null(a, PATH_TABLE_BLOCK_SIZE - path_table_size); return (r); } static int calculate_directory_descriptors(struct iso9660 *iso9660, struct vdd *vdd, struct isoent *isoent, int depth) { struct isoent **enttbl; int bs, block, i; block = 1; bs = get_dir_rec_size(iso9660, isoent, DIR_REC_SELF, vdd->vdd_type); bs += get_dir_rec_size(iso9660, isoent, DIR_REC_PARENT, vdd->vdd_type); if (isoent->children.cnt <= 0 || (vdd->vdd_type != VDD_JOLIET && !iso9660->opt.rr && depth + 1 >= vdd->max_depth)) return (block); enttbl = isoent->children_sorted; for (i = 0; i < isoent->children.cnt; i++) { struct isoent *np = enttbl[i]; struct isofile *file; file = np->file; if (file->hardlink_target != NULL) file = file->hardlink_target; file->cur_content = &(file->content); do { int dr_l; dr_l = get_dir_rec_size(iso9660, np, DIR_REC_NORMAL, vdd->vdd_type); if ((bs + dr_l) > LOGICAL_BLOCK_SIZE) { block ++; bs = dr_l; } else bs += dr_l; file->cur_content = file->cur_content->next; } while (file->cur_content != NULL); } return (block); } static int _write_directory_descriptors(struct archive_write *a, struct vdd *vdd, struct isoent *isoent, int depth) { struct iso9660 *iso9660 = a->format_data; struct isoent **enttbl; unsigned char *p, *wb; int i, r; int dr_l; p = wb = wb_buffptr(a); #define WD_REMAINING (LOGICAL_BLOCK_SIZE - (p - wb)) p += set_directory_record(p, WD_REMAINING, isoent, iso9660, DIR_REC_SELF, vdd->vdd_type); p += set_directory_record(p, WD_REMAINING, isoent, iso9660, DIR_REC_PARENT, vdd->vdd_type); if (isoent->children.cnt <= 0 || (vdd->vdd_type != VDD_JOLIET && !iso9660->opt.rr && depth + 1 >= vdd->max_depth)) { memset(p, 0, WD_REMAINING); return (wb_consume(a, LOGICAL_BLOCK_SIZE)); } enttbl = isoent->children_sorted; for (i = 0; i < isoent->children.cnt; i++) { struct isoent *np = enttbl[i]; struct isofile *file = np->file; if (file->hardlink_target != NULL) file = file->hardlink_target; file->cur_content = &(file->content); do { dr_l = set_directory_record(p, WD_REMAINING, np, iso9660, DIR_REC_NORMAL, vdd->vdd_type); if (dr_l == 0) { memset(p, 0, WD_REMAINING); r = wb_consume(a, LOGICAL_BLOCK_SIZE); if (r < 0) return (r); p = wb = wb_buffptr(a); dr_l = set_directory_record(p, WD_REMAINING, np, iso9660, DIR_REC_NORMAL, vdd->vdd_type); } p += dr_l; file->cur_content = file->cur_content->next; } while (file->cur_content != NULL); } memset(p, 0, WD_REMAINING); return (wb_consume(a, LOGICAL_BLOCK_SIZE)); } static int write_directory_descriptors(struct archive_write *a, struct vdd *vdd) { struct isoent *np; int depth, r; depth = 0; np = vdd->rootent; do { struct extr_rec *extr; r = _write_directory_descriptors(a, vdd, np, depth); if (r < 0) return (r); if (vdd->vdd_type != VDD_JOLIET) { /* * This extract record is used by SUSP,RRIP. * Not for joliet. */ for (extr = np->extr_rec_list.first; extr != NULL; extr = extr->next) { unsigned char *wb; wb = wb_buffptr(a); memcpy(wb, extr->buf, extr->offset); memset(wb + extr->offset, 0, LOGICAL_BLOCK_SIZE - extr->offset); r = wb_consume(a, LOGICAL_BLOCK_SIZE); if (r < 0) return (r); } } if (np->subdirs.first != NULL && depth + 1 < vdd->max_depth) { /* Enter to sub directories. */ np = np->subdirs.first; depth++; continue; } while (np != np->parent) { if (np->drnext == NULL) { /* Return to the parent directory. */ np = np->parent; depth--; } else { np = np->drnext; break; } } } while (np != np->parent); return (ARCHIVE_OK); } /* * Read file contents from the temporary file, and write it. */ static int write_file_contents(struct archive_write *a, int64_t offset, int64_t size) { struct iso9660 *iso9660 = a->format_data; int r; lseek(iso9660->temp_fd, offset, SEEK_SET); while (size) { size_t rsize; ssize_t rs; unsigned char *wb; wb = wb_buffptr(a); rsize = wb_remaining(a); if (rsize > (size_t)size) rsize = (size_t)size; rs = read(iso9660->temp_fd, wb, rsize); if (rs <= 0) { archive_set_error(&a->archive, errno, "Can't read temporary file(%jd)", (intmax_t)rs); return (ARCHIVE_FATAL); } size -= rs; r = wb_consume(a, rs); if (r < 0) return (r); } return (ARCHIVE_OK); } static int write_file_descriptors(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; struct isofile *file; int64_t blocks, offset; int r; blocks = 0; offset = 0; /* Make the boot catalog contents, and write it. */ if (iso9660->el_torito.catalog != NULL) { r = make_boot_catalog(a); if (r < 0) return (r); } /* Write the boot file contents. */ if (iso9660->el_torito.boot != NULL) { file = iso9660->el_torito.boot->file; blocks = file->content.blocks; offset = file->content.offset_of_temp; if (offset != 0) { r = write_file_contents(a, offset, blocks << LOGICAL_BLOCK_BITS); if (r < 0) return (r); blocks = 0; offset = 0; } } /* Write out all file contents. */ for (file = iso9660->data_file_list.first; file != NULL; file = file->datanext) { if (!file->write_content) continue; if ((offset + (blocks << LOGICAL_BLOCK_BITS)) < file->content.offset_of_temp) { if (blocks > 0) { r = write_file_contents(a, offset, blocks << LOGICAL_BLOCK_BITS); if (r < 0) return (r); } blocks = 0; offset = file->content.offset_of_temp; } file->cur_content = &(file->content); do { blocks += file->cur_content->blocks; /* Next fragument */ file->cur_content = file->cur_content->next; } while (file->cur_content != NULL); } /* Flush out remaining blocks. */ if (blocks > 0) { r = write_file_contents(a, offset, blocks << LOGICAL_BLOCK_BITS); if (r < 0) return (r); } return (ARCHIVE_OK); } static void isofile_init_entry_list(struct iso9660 *iso9660) { iso9660->all_file_list.first = NULL; iso9660->all_file_list.last = &(iso9660->all_file_list.first); } static void isofile_add_entry(struct iso9660 *iso9660, struct isofile *file) { file->allnext = NULL; *iso9660->all_file_list.last = file; iso9660->all_file_list.last = &(file->allnext); } static void isofile_free_all_entries(struct iso9660 *iso9660) { struct isofile *file, *file_next; file = iso9660->all_file_list.first; while (file != NULL) { file_next = file->allnext; isofile_free(file); file = file_next; } } static void isofile_init_entry_data_file_list(struct iso9660 *iso9660) { iso9660->data_file_list.first = NULL; iso9660->data_file_list.last = &(iso9660->data_file_list.first); } static void isofile_add_data_file(struct iso9660 *iso9660, struct isofile *file) { file->datanext = NULL; *iso9660->data_file_list.last = file; iso9660->data_file_list.last = &(file->datanext); } static struct isofile * isofile_new(struct archive_write *a, struct archive_entry *entry) { struct isofile *file; file = calloc(1, sizeof(*file)); if (file == NULL) return (NULL); if (entry != NULL) file->entry = archive_entry_clone(entry); else file->entry = archive_entry_new2(&a->archive); if (file->entry == NULL) { free(file); return (NULL); } archive_string_init(&(file->parentdir)); archive_string_init(&(file->basename)); archive_string_init(&(file->basename_utf16)); archive_string_init(&(file->symlink)); file->cur_content = &(file->content); return (file); } static void isofile_free(struct isofile *file) { struct content *con, *tmp; con = file->content.next; while (con != NULL) { tmp = con; con = con->next; free(tmp); } archive_entry_free(file->entry); archive_string_free(&(file->parentdir)); archive_string_free(&(file->basename)); archive_string_free(&(file->basename_utf16)); archive_string_free(&(file->symlink)); free(file); } #if defined(_WIN32) || defined(__CYGWIN__) static int cleanup_backslash_1(char *p) { int mb, dos; mb = dos = 0; while (*p) { if (*(unsigned char *)p > 127) mb = 1; if (*p == '\\') { /* If we have not met any multi-byte characters, * we can replace '\' with '/'. */ if (!mb) *p = '/'; dos = 1; } p++; } if (!mb || !dos) return (0); return (-1); } static void cleanup_backslash_2(wchar_t *p) { /* Convert a path-separator from '\' to '/' */ while (*p != L'\0') { if (*p == L'\\') *p = L'/'; p++; } } #endif /* * Generate a parent directory name and a base name from a pathname. */ static int isofile_gen_utility_names(struct archive_write *a, struct isofile *file) { struct iso9660 *iso9660; const char *pathname; char *p, *dirname, *slash; size_t len; int ret = ARCHIVE_OK; iso9660 = a->format_data; archive_string_empty(&(file->parentdir)); archive_string_empty(&(file->basename)); archive_string_empty(&(file->basename_utf16)); archive_string_empty(&(file->symlink)); pathname = archive_entry_pathname(file->entry); if (pathname == NULL || pathname[0] == '\0') {/* virtual root */ file->dircnt = 0; return (ret); } /* * Make a UTF-16BE basename if Joliet extension enabled. */ if (iso9660->opt.joliet) { const char *u16, *ulast; size_t u16len, ulen_last; if (iso9660->sconv_to_utf16be == NULL) { iso9660->sconv_to_utf16be = archive_string_conversion_to_charset( &(a->archive), "UTF-16BE", 1); if (iso9660->sconv_to_utf16be == NULL) /* Couldn't allocate memory */ return (ARCHIVE_FATAL); iso9660->sconv_from_utf16be = archive_string_conversion_from_charset( &(a->archive), "UTF-16BE", 1); if (iso9660->sconv_from_utf16be == NULL) /* Couldn't allocate memory */ return (ARCHIVE_FATAL); } /* * Converte a filename to UTF-16BE. */ if (0 > archive_entry_pathname_l(file->entry, &u16, &u16len, iso9660->sconv_to_utf16be)) { if (errno == ENOMEM) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory for UTF-16BE"); return (ARCHIVE_FATAL); } archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "A filename cannot be converted to UTF-16BE;" "You should disable making Joliet extension"); ret = ARCHIVE_WARN; } /* * Make sure a path separator is not in the last; * Remove trailing '/'. */ while (u16len >= 2) { #if defined(_WIN32) || defined(__CYGWIN__) if (u16[u16len-2] == 0 && (u16[u16len-1] == '/' || u16[u16len-1] == '\\')) #else if (u16[u16len-2] == 0 && u16[u16len-1] == '/') #endif { u16len -= 2; } else break; } /* * Find a basename in UTF-16BE. */ ulast = u16; u16len >>= 1; ulen_last = u16len; while (u16len > 0) { #if defined(_WIN32) || defined(__CYGWIN__) if (u16[0] == 0 && (u16[1] == '/' || u16[1] == '\\')) #else if (u16[0] == 0 && u16[1] == '/') #endif { ulast = u16 + 2; ulen_last = u16len -1; } u16 += 2; u16len --; } ulen_last <<= 1; if (archive_string_ensure(&(file->basename_utf16), ulen_last) == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory for UTF-16BE"); return (ARCHIVE_FATAL); } /* * Set UTF-16BE basename. */ memcpy(file->basename_utf16.s, ulast, ulen_last); file->basename_utf16.length = ulen_last; } archive_strcpy(&(file->parentdir), pathname); #if defined(_WIN32) || defined(__CYGWIN__) /* * Convert a path-separator from '\' to '/' */ if (cleanup_backslash_1(file->parentdir.s) != 0) { const wchar_t *wp = archive_entry_pathname_w(file->entry); struct archive_wstring ws; if (wp != NULL) { int r; archive_string_init(&ws); archive_wstrcpy(&ws, wp); cleanup_backslash_2(ws.s); archive_string_empty(&(file->parentdir)); r = archive_string_append_from_wcs(&(file->parentdir), ws.s, ws.length); archive_wstring_free(&ws); if (r < 0 && errno == ENOMEM) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } } } #endif len = file->parentdir.length; p = dirname = file->parentdir.s; /* * Remove leading '/', '../' and './' elements */ while (*p) { if (p[0] == '/') { p++; len--; } else if (p[0] != '.') break; else if (p[1] == '.' && p[2] == '/') { p += 3; len -= 3; } else if (p[1] == '/' || (p[1] == '.' && p[2] == '\0')) { p += 2; len -= 2; } else if (p[1] == '\0') { p++; len--; } else break; } if (p != dirname) { memmove(dirname, p, len+1); p = dirname; } /* * Remove "/","/." and "/.." elements from tail. */ while (len > 0) { size_t ll = len; if (len > 0 && p[len-1] == '/') { p[len-1] = '\0'; len--; } if (len > 1 && p[len-2] == '/' && p[len-1] == '.') { p[len-2] = '\0'; len -= 2; } if (len > 2 && p[len-3] == '/' && p[len-2] == '.' && p[len-1] == '.') { p[len-3] = '\0'; len -= 3; } if (ll == len) break; } while (*p) { if (p[0] == '/') { if (p[1] == '/') /* Convert '//' --> '/' */ strcpy(p, p+1); else if (p[1] == '.' && p[2] == '/') /* Convert '/./' --> '/' */ strcpy(p, p+2); else if (p[1] == '.' && p[2] == '.' && p[3] == '/') { /* Convert 'dir/dir1/../dir2/' * --> 'dir/dir2/' */ char *rp = p -1; while (rp >= dirname) { if (*rp == '/') break; --rp; } if (rp > dirname) { strcpy(rp, p+3); p = rp; } else { strcpy(dirname, p+4); p = dirname; } } else p++; } else p++; } p = dirname; len = strlen(p); if (archive_entry_filetype(file->entry) == AE_IFLNK) { /* Convert symlink name too. */ pathname = archive_entry_symlink(file->entry); archive_strcpy(&(file->symlink), pathname); #if defined(_WIN32) || defined(__CYGWIN__) /* * Convert a path-separator from '\' to '/' */ if (archive_strlen(&(file->symlink)) > 0 && cleanup_backslash_1(file->symlink.s) != 0) { const wchar_t *wp = archive_entry_symlink_w(file->entry); struct archive_wstring ws; if (wp != NULL) { int r; archive_string_init(&ws); archive_wstrcpy(&ws, wp); cleanup_backslash_2(ws.s); archive_string_empty(&(file->symlink)); r = archive_string_append_from_wcs( &(file->symlink), ws.s, ws.length); archive_wstring_free(&ws); if (r < 0 && errno == ENOMEM) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } } } #endif } /* * - Count up directory elements. * - Find out the position which points the last position of * path separator('/'). */ slash = NULL; file->dircnt = 0; for (; *p != '\0'; p++) if (*p == '/') { slash = p; file->dircnt++; } if (slash == NULL) { /* The pathname doesn't have a parent directory. */ file->parentdir.length = len; archive_string_copy(&(file->basename), &(file->parentdir)); archive_string_empty(&(file->parentdir)); *file->parentdir.s = '\0'; return (ret); } /* Make a basename from dirname and slash */ *slash = '\0'; file->parentdir.length = slash - dirname; archive_strcpy(&(file->basename), slash + 1); if (archive_entry_filetype(file->entry) == AE_IFDIR) file->dircnt ++; return (ret); } /* * Register a entry to get a hardlink target. */ static int isofile_register_hardlink(struct archive_write *a, struct isofile *file) { struct iso9660 *iso9660 = a->format_data; struct hardlink *hl; const char *pathname; archive_entry_set_nlink(file->entry, 1); pathname = archive_entry_hardlink(file->entry); if (pathname == NULL) { /* This `file` is a hardlink target. */ hl = malloc(sizeof(*hl)); if (hl == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } hl->nlink = 1; /* A hardlink target must be the first position. */ file->hlnext = NULL; hl->file_list.first = file; hl->file_list.last = &(file->hlnext); __archive_rb_tree_insert_node(&(iso9660->hardlink_rbtree), (struct archive_rb_node *)hl); } else { hl = (struct hardlink *)__archive_rb_tree_find_node( &(iso9660->hardlink_rbtree), pathname); if (hl != NULL) { /* Insert `file` entry into the tail. */ file->hlnext = NULL; *hl->file_list.last = file; hl->file_list.last = &(file->hlnext); hl->nlink++; } archive_entry_unset_size(file->entry); } return (ARCHIVE_OK); } /* * Hardlinked files have to have the same location of extent. * We have to find out hardlink target entries for the entries * which have a hardlink target name. */ static void isofile_connect_hardlink_files(struct iso9660 *iso9660) { struct archive_rb_node *n; struct hardlink *hl; struct isofile *target, *nf; ARCHIVE_RB_TREE_FOREACH(n, &(iso9660->hardlink_rbtree)) { hl = (struct hardlink *)n; /* The first entry must be a hardlink target. */ target = hl->file_list.first; archive_entry_set_nlink(target->entry, hl->nlink); /* Set a hardlink target to reference entries. */ for (nf = target->hlnext; nf != NULL; nf = nf->hlnext) { nf->hardlink_target = target; archive_entry_set_nlink(nf->entry, hl->nlink); } } } static int isofile_hd_cmp_node(const struct archive_rb_node *n1, const struct archive_rb_node *n2) { const struct hardlink *h1 = (const struct hardlink *)n1; const struct hardlink *h2 = (const struct hardlink *)n2; return (strcmp(archive_entry_pathname(h1->file_list.first->entry), archive_entry_pathname(h2->file_list.first->entry))); } static int isofile_hd_cmp_key(const struct archive_rb_node *n, const void *key) { const struct hardlink *h = (const struct hardlink *)n; return (strcmp(archive_entry_pathname(h->file_list.first->entry), (const char *)key)); } static void isofile_init_hardlinks(struct iso9660 *iso9660) { static const struct archive_rb_tree_ops rb_ops = { isofile_hd_cmp_node, isofile_hd_cmp_key, }; __archive_rb_tree_init(&(iso9660->hardlink_rbtree), &rb_ops); } static void isofile_free_hardlinks(struct iso9660 *iso9660) { struct archive_rb_node *n, *next; for (n = ARCHIVE_RB_TREE_MIN(&(iso9660->hardlink_rbtree)); n;) { next = __archive_rb_tree_iterate(&(iso9660->hardlink_rbtree), n, ARCHIVE_RB_DIR_RIGHT); free(n); n = next; } } static struct isoent * isoent_new(struct isofile *file) { struct isoent *isoent; static const struct archive_rb_tree_ops rb_ops = { isoent_cmp_node, isoent_cmp_key, }; isoent = calloc(1, sizeof(*isoent)); if (isoent == NULL) return (NULL); isoent->file = file; isoent->children.first = NULL; isoent->children.last = &(isoent->children.first); __archive_rb_tree_init(&(isoent->rbtree), &rb_ops); isoent->subdirs.first = NULL; isoent->subdirs.last = &(isoent->subdirs.first); isoent->extr_rec_list.first = NULL; isoent->extr_rec_list.last = &(isoent->extr_rec_list.first); isoent->extr_rec_list.current = NULL; if (archive_entry_filetype(file->entry) == AE_IFDIR) isoent->dir = 1; return (isoent); } static inline struct isoent * isoent_clone(struct isoent *src) { return (isoent_new(src->file)); } static void _isoent_free(struct isoent *isoent) { struct extr_rec *er, *er_next; free(isoent->children_sorted); free(isoent->identifier); er = isoent->extr_rec_list.first; while (er != NULL) { er_next = er->next; free(er); er = er_next; } free(isoent); } static void isoent_free_all(struct isoent *isoent) { struct isoent *np, *np_temp; if (isoent == NULL) return; np = isoent; for (;;) { if (np->dir) { if (np->children.first != NULL) { /* Enter to sub directories. */ np = np->children.first; continue; } } for (;;) { np_temp = np; if (np->chnext == NULL) { /* Return to the parent directory. */ np = np->parent; _isoent_free(np_temp); if (np == np_temp) return; } else { np = np->chnext; _isoent_free(np_temp); break; } } } } static struct isoent * isoent_create_virtual_dir(struct archive_write *a, struct iso9660 *iso9660, const char *pathname) { struct isofile *file; struct isoent *isoent; file = isofile_new(a, NULL); if (file == NULL) return (NULL); archive_entry_set_pathname(file->entry, pathname); archive_entry_unset_mtime(file->entry); archive_entry_unset_atime(file->entry); archive_entry_unset_ctime(file->entry); archive_entry_set_uid(file->entry, getuid()); archive_entry_set_gid(file->entry, getgid()); archive_entry_set_mode(file->entry, 0555 | AE_IFDIR); archive_entry_set_nlink(file->entry, 2); if (isofile_gen_utility_names(a, file) < ARCHIVE_WARN) { isofile_free(file); return (NULL); } isofile_add_entry(iso9660, file); isoent = isoent_new(file); if (isoent == NULL) return (NULL); isoent->dir = 1; isoent->virtual = 1; return (isoent); } static int isoent_cmp_node(const struct archive_rb_node *n1, const struct archive_rb_node *n2) { const struct isoent *e1 = (const struct isoent *)n1; const struct isoent *e2 = (const struct isoent *)n2; return (strcmp(e1->file->basename.s, e2->file->basename.s)); } static int isoent_cmp_key(const struct archive_rb_node *n, const void *key) { const struct isoent *e = (const struct isoent *)n; return (strcmp(e->file->basename.s, (const char *)key)); } static int isoent_add_child_head(struct isoent *parent, struct isoent *child) { if (!__archive_rb_tree_insert_node( &(parent->rbtree), (struct archive_rb_node *)child)) return (0); if ((child->chnext = parent->children.first) == NULL) parent->children.last = &(child->chnext); parent->children.first = child; parent->children.cnt++; child->parent = parent; /* Add a child to a sub-directory chain */ if (child->dir) { if ((child->drnext = parent->subdirs.first) == NULL) parent->subdirs.last = &(child->drnext); parent->subdirs.first = child; parent->subdirs.cnt++; child->parent = parent; } else child->drnext = NULL; return (1); } static int isoent_add_child_tail(struct isoent *parent, struct isoent *child) { if (!__archive_rb_tree_insert_node( &(parent->rbtree), (struct archive_rb_node *)child)) return (0); child->chnext = NULL; *parent->children.last = child; parent->children.last = &(child->chnext); parent->children.cnt++; child->parent = parent; /* Add a child to a sub-directory chain */ child->drnext = NULL; if (child->dir) { *parent->subdirs.last = child; parent->subdirs.last = &(child->drnext); parent->subdirs.cnt++; child->parent = parent; } return (1); } static void isoent_remove_child(struct isoent *parent, struct isoent *child) { struct isoent *ent; /* Remove a child entry from children chain. */ ent = parent->children.first; while (ent->chnext != child) ent = ent->chnext; if ((ent->chnext = ent->chnext->chnext) == NULL) parent->children.last = &(ent->chnext); parent->children.cnt--; if (child->dir) { /* Remove a child entry from sub-directory chain. */ ent = parent->subdirs.first; while (ent->drnext != child) ent = ent->drnext; if ((ent->drnext = ent->drnext->drnext) == NULL) parent->subdirs.last = &(ent->drnext); parent->subdirs.cnt--; } __archive_rb_tree_remove_node(&(parent->rbtree), (struct archive_rb_node *)child); } static int isoent_clone_tree(struct archive_write *a, struct isoent **nroot, struct isoent *root) { struct isoent *np, *xroot, *newent; np = root; xroot = NULL; do { newent = isoent_clone(np); if (newent == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } if (xroot == NULL) { *nroot = xroot = newent; newent->parent = xroot; } else isoent_add_child_tail(xroot, newent); if (np->dir && np->children.first != NULL) { /* Enter to sub directories. */ np = np->children.first; xroot = newent; continue; } while (np != np->parent) { if (np->chnext == NULL) { /* Return to the parent directory. */ np = np->parent; xroot = xroot->parent; } else { np = np->chnext; break; } } } while (np != np->parent); return (ARCHIVE_OK); } /* * Setup directory locations. */ static void isoent_setup_directory_location(struct iso9660 *iso9660, int location, struct vdd *vdd) { struct isoent *np; int depth; vdd->total_dir_block = 0; depth = 0; np = vdd->rootent; do { int block; np->dir_block = calculate_directory_descriptors( iso9660, vdd, np, depth); vdd->total_dir_block += np->dir_block; np->dir_location = location; location += np->dir_block; block = extra_setup_location(np, location); vdd->total_dir_block += block; location += block; if (np->subdirs.first != NULL && depth + 1 < vdd->max_depth) { /* Enter to sub directories. */ np = np->subdirs.first; depth++; continue; } while (np != np->parent) { if (np->drnext == NULL) { /* Return to the parent directory. */ np = np->parent; depth--; } else { np = np->drnext; break; } } } while (np != np->parent); } static void _isoent_file_location(struct iso9660 *iso9660, struct isoent *isoent, int *symlocation) { struct isoent **children; int n; if (isoent->children.cnt == 0) return; children = isoent->children_sorted; for (n = 0; n < isoent->children.cnt; n++) { struct isoent *np; struct isofile *file; np = children[n]; if (np->dir) continue; if (np == iso9660->el_torito.boot) continue; file = np->file; if (file->boot || file->hardlink_target != NULL) continue; if (archive_entry_filetype(file->entry) == AE_IFLNK || file->content.size == 0) { /* * Do not point a valid location. * Make sure entry is not hardlink file. */ file->content.location = (*symlocation)--; continue; } file->write_content = 1; } } /* * Setup file locations. */ static void isoent_setup_file_location(struct iso9660 *iso9660, int location) { struct isoent *isoent; struct isoent *np; struct isofile *file; size_t size; int block; int depth; int joliet; int symlocation; int total_block; iso9660->total_file_block = 0; if ((isoent = iso9660->el_torito.catalog) != NULL) { isoent->file->content.location = location; block = (int)((archive_entry_size(isoent->file->entry) + LOGICAL_BLOCK_SIZE -1) >> LOGICAL_BLOCK_BITS); location += block; iso9660->total_file_block += block; } if ((isoent = iso9660->el_torito.boot) != NULL) { isoent->file->content.location = location; size = fd_boot_image_size(iso9660->el_torito.media_type); if (size == 0) size = (size_t)archive_entry_size(isoent->file->entry); block = ((int)size + LOGICAL_BLOCK_SIZE -1) >> LOGICAL_BLOCK_BITS; location += block; iso9660->total_file_block += block; isoent->file->content.blocks = block; } depth = 0; symlocation = -16; if (!iso9660->opt.rr && iso9660->opt.joliet) { joliet = 1; np = iso9660->joliet.rootent; } else { joliet = 0; np = iso9660->primary.rootent; } do { _isoent_file_location(iso9660, np, &symlocation); if (np->subdirs.first != NULL && (joliet || ((iso9660->opt.rr == OPT_RR_DISABLED && depth + 2 < iso9660->primary.max_depth) || (iso9660->opt.rr && depth + 1 < iso9660->primary.max_depth)))) { /* Enter to sub directories. */ np = np->subdirs.first; depth++; continue; } while (np != np->parent) { if (np->drnext == NULL) { /* Return to the parent directory. */ np = np->parent; depth--; } else { np = np->drnext; break; } } } while (np != np->parent); total_block = 0; for (file = iso9660->data_file_list.first; file != NULL; file = file->datanext) { if (!file->write_content) continue; file->cur_content = &(file->content); do { file->cur_content->location = location; location += file->cur_content->blocks; total_block += file->cur_content->blocks; /* Next fragument */ file->cur_content = file->cur_content->next; } while (file->cur_content != NULL); } iso9660->total_file_block += total_block; } static int get_path_component(char *name, size_t n, const char *fn) { char *p; size_t l; p = strchr(fn, '/'); if (p == NULL) { if ((l = strlen(fn)) == 0) return (0); } else l = p - fn; if (l > n -1) return (-1); memcpy(name, fn, l); name[l] = '\0'; return ((int)l); } /* * Add a new entry into the tree. */ static int isoent_tree(struct archive_write *a, struct isoent **isoentpp) { #if defined(_WIN32) && !defined(__CYGWIN__) char name[_MAX_FNAME];/* Included null terminator size. */ #elif defined(NAME_MAX) && NAME_MAX >= 255 char name[NAME_MAX+1]; #else char name[256]; #endif struct iso9660 *iso9660 = a->format_data; struct isoent *dent, *isoent, *np; struct isofile *f1, *f2; const char *fn, *p; int l; isoent = *isoentpp; dent = iso9660->primary.rootent; if (isoent->file->parentdir.length > 0) fn = p = isoent->file->parentdir.s; else fn = p = ""; /* * If the path of the parent directory of `isoent' entry is * the same as the path of `cur_dirent', add isoent to * `cur_dirent'. */ if (archive_strlen(&(iso9660->cur_dirstr)) == archive_strlen(&(isoent->file->parentdir)) && strcmp(iso9660->cur_dirstr.s, fn) == 0) { if (!isoent_add_child_tail(iso9660->cur_dirent, isoent)) { np = (struct isoent *)__archive_rb_tree_find_node( &(iso9660->cur_dirent->rbtree), isoent->file->basename.s); goto same_entry; } return (ARCHIVE_OK); } for (;;) { l = get_path_component(name, sizeof(name), fn); if (l == 0) { np = NULL; break; } if (l < 0) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "A name buffer is too small"); _isoent_free(isoent); return (ARCHIVE_FATAL); } np = isoent_find_child(dent, name); if (np == NULL || fn[0] == '\0') break; /* Find next subdirectory. */ if (!np->dir) { /* NOT Directory! */ archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "`%s' is not directory, we cannot insert `%s' ", archive_entry_pathname(np->file->entry), archive_entry_pathname(isoent->file->entry)); _isoent_free(isoent); *isoentpp = NULL; return (ARCHIVE_FAILED); } fn += l; if (fn[0] == '/') fn++; dent = np; } if (np == NULL) { /* * Create virtual parent directories. */ while (fn[0] != '\0') { struct isoent *vp; struct archive_string as; archive_string_init(&as); archive_strncat(&as, p, fn - p + l); if (as.s[as.length-1] == '/') { as.s[as.length-1] = '\0'; as.length--; } vp = isoent_create_virtual_dir(a, iso9660, as.s); if (vp == NULL) { archive_string_free(&as); archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); _isoent_free(isoent); *isoentpp = NULL; return (ARCHIVE_FATAL); } archive_string_free(&as); if (vp->file->dircnt > iso9660->dircnt_max) iso9660->dircnt_max = vp->file->dircnt; isoent_add_child_tail(dent, vp); np = vp; fn += l; if (fn[0] == '/') fn++; l = get_path_component(name, sizeof(name), fn); if (l < 0) { archive_string_free(&as); archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "A name buffer is too small"); _isoent_free(isoent); *isoentpp = NULL; return (ARCHIVE_FATAL); } dent = np; } /* Found out the parent directory where isoent can be * inserted. */ iso9660->cur_dirent = dent; archive_string_empty(&(iso9660->cur_dirstr)); archive_string_ensure(&(iso9660->cur_dirstr), archive_strlen(&(dent->file->parentdir)) + archive_strlen(&(dent->file->basename)) + 2); if (archive_strlen(&(dent->file->parentdir)) + archive_strlen(&(dent->file->basename)) == 0) iso9660->cur_dirstr.s[0] = 0; else { if (archive_strlen(&(dent->file->parentdir)) > 0) { archive_string_copy(&(iso9660->cur_dirstr), &(dent->file->parentdir)); archive_strappend_char(&(iso9660->cur_dirstr), '/'); } archive_string_concat(&(iso9660->cur_dirstr), &(dent->file->basename)); } if (!isoent_add_child_tail(dent, isoent)) { np = (struct isoent *)__archive_rb_tree_find_node( &(dent->rbtree), isoent->file->basename.s); goto same_entry; } return (ARCHIVE_OK); } same_entry: /* * We have already has the entry the filename of which is * the same. */ f1 = np->file; f2 = isoent->file; /* If the file type of entries is different, * we cannot handle it. */ if (archive_entry_filetype(f1->entry) != archive_entry_filetype(f2->entry)) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Found duplicate entries `%s' and its file type is " "different", archive_entry_pathname(f1->entry)); _isoent_free(isoent); *isoentpp = NULL; return (ARCHIVE_FAILED); } /* Swap file entries. */ np->file = f2; isoent->file = f1; np->virtual = 0; _isoent_free(isoent); *isoentpp = np; return (ARCHIVE_OK); } /* * Find a entry from `isoent' */ static struct isoent * isoent_find_child(struct isoent *isoent, const char *child_name) { struct isoent *np; np = (struct isoent *)__archive_rb_tree_find_node( &(isoent->rbtree), child_name); return (np); } /* * Find a entry full-path of which is specified by `fn' parameter, * in the tree. */ static struct isoent * isoent_find_entry(struct isoent *rootent, const char *fn) { #if defined(_WIN32) && !defined(__CYGWIN__) char name[_MAX_FNAME];/* Included null terminator size. */ #elif defined(NAME_MAX) && NAME_MAX >= 255 char name[NAME_MAX+1]; #else char name[256]; #endif struct isoent *isoent, *np; int l; isoent = rootent; np = NULL; for (;;) { l = get_path_component(name, sizeof(name), fn); if (l == 0) break; fn += l; if (fn[0] == '/') fn++; np = isoent_find_child(isoent, name); if (np == NULL) break; if (fn[0] == '\0') break;/* We found out the entry */ /* Try sub directory. */ isoent = np; np = NULL; if (!isoent->dir) break;/* Not directory */ } return (np); } /* * Following idr_* functions are used for resolving duplicated filenames * and unreceivable filenames to generate ISO9660/Joliet Identifiers. */ static void idr_relaxed_filenames(char *map) { int i; for (i = 0x21; i <= 0x2F; i++) map[i] = 1; for (i = 0x3A; i <= 0x41; i++) map[i] = 1; for (i = 0x5B; i <= 0x5E; i++) map[i] = 1; map[0x60] = 1; for (i = 0x7B; i <= 0x7E; i++) map[i] = 1; } static void idr_init(struct iso9660 *iso9660, struct vdd *vdd, struct idr *idr) { idr->idrent_pool = NULL; idr->pool_size = 0; if (vdd->vdd_type != VDD_JOLIET) { if (iso9660->opt.iso_level <= 3) { memcpy(idr->char_map, d_characters_map, sizeof(idr->char_map)); } else { memcpy(idr->char_map, d1_characters_map, sizeof(idr->char_map)); idr_relaxed_filenames(idr->char_map); } } } static void idr_cleanup(struct idr *idr) { free(idr->idrent_pool); } static int idr_ensure_poolsize(struct archive_write *a, struct idr *idr, int cnt) { if (idr->pool_size < cnt) { void *p; const int bk = (1 << 7) - 1; int psize; psize = (cnt + bk) & ~bk; p = realloc(idr->idrent_pool, sizeof(struct idrent) * psize); if (p == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } idr->idrent_pool = (struct idrent *)p; idr->pool_size = psize; } return (ARCHIVE_OK); } static int idr_start(struct archive_write *a, struct idr *idr, int cnt, int ffmax, int num_size, int null_size, const struct archive_rb_tree_ops *rbt_ops) { int r; (void)ffmax; /* UNUSED */ r = idr_ensure_poolsize(a, idr, cnt); if (r != ARCHIVE_OK) return (r); __archive_rb_tree_init(&(idr->rbtree), rbt_ops); idr->wait_list.first = NULL; idr->wait_list.last = &(idr->wait_list.first); idr->pool_idx = 0; idr->num_size = num_size; idr->null_size = null_size; return (ARCHIVE_OK); } static void idr_register(struct idr *idr, struct isoent *isoent, int weight, int noff) { struct idrent *idrent, *n; idrent = &(idr->idrent_pool[idr->pool_idx++]); idrent->wnext = idrent->avail = NULL; idrent->isoent = isoent; idrent->weight = weight; idrent->noff = noff; idrent->rename_num = 0; if (!__archive_rb_tree_insert_node(&(idr->rbtree), &(idrent->rbnode))) { n = (struct idrent *)__archive_rb_tree_find_node( &(idr->rbtree), idrent->isoent); if (n != NULL) { /* this `idrent' needs to rename. */ idrent->avail = n; *idr->wait_list.last = idrent; idr->wait_list.last = &(idrent->wnext); } } } static void idr_extend_identifier(struct idrent *wnp, int numsize, int nullsize) { unsigned char *p; int wnp_ext_off; wnp_ext_off = wnp->isoent->ext_off; if (wnp->noff + numsize != wnp_ext_off) { p = (unsigned char *)wnp->isoent->identifier; /* Extend the filename; foo.c --> foo___.c */ memmove(p + wnp->noff + numsize, p + wnp_ext_off, wnp->isoent->ext_len + nullsize); wnp->isoent->ext_off = wnp_ext_off = wnp->noff + numsize; wnp->isoent->id_len = wnp_ext_off + wnp->isoent->ext_len; } } static void idr_resolve(struct idr *idr, void (*fsetnum)(unsigned char *p, int num)) { struct idrent *n; unsigned char *p; for (n = idr->wait_list.first; n != NULL; n = n->wnext) { idr_extend_identifier(n, idr->num_size, idr->null_size); p = (unsigned char *)n->isoent->identifier + n->noff; do { fsetnum(p, n->avail->rename_num++); } while (!__archive_rb_tree_insert_node( &(idr->rbtree), &(n->rbnode))); } } static void idr_set_num(unsigned char *p, int num) { static const char xdig[] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z' }; num %= sizeof(xdig) * sizeof(xdig) * sizeof(xdig); p[0] = xdig[(num / (sizeof(xdig) * sizeof(xdig)))]; num %= sizeof(xdig) * sizeof(xdig); p[1] = xdig[ (num / sizeof(xdig))]; num %= sizeof(xdig); p[2] = xdig[num]; } static void idr_set_num_beutf16(unsigned char *p, int num) { static const uint16_t xdig[] = { 0x0030, 0x0031, 0x0032, 0x0033, 0x0034, 0x0035, 0x0036, 0x0037, 0x0038, 0x0039, 0x0041, 0x0042, 0x0043, 0x0044, 0x0045, 0x0046, 0x0047, 0x0048, 0x0049, 0x004A, 0x004B, 0x004C, 0x004D, 0x004E, 0x004F, 0x0050, 0x0051, 0x0052, 0x0053, 0x0054, 0x0055, 0x0056, 0x0057, 0x0058, 0x0059, 0x005A }; #define XDIG_CNT (sizeof(xdig)/sizeof(xdig[0])) num %= XDIG_CNT * XDIG_CNT * XDIG_CNT; archive_be16enc(p, xdig[(num / (XDIG_CNT * XDIG_CNT))]); num %= XDIG_CNT * XDIG_CNT; archive_be16enc(p+2, xdig[ (num / XDIG_CNT)]); num %= XDIG_CNT; archive_be16enc(p+4, xdig[num]); } /* * Generate ISO9660 Identifier. */ static int isoent_gen_iso9660_identifier(struct archive_write *a, struct isoent *isoent, struct idr *idr) { struct iso9660 *iso9660; struct isoent *np; char *p; int l, r; const char *char_map; char allow_ldots, allow_multidot, allow_period, allow_vernum; int fnmax, ffmax, dnmax; static const struct archive_rb_tree_ops rb_ops = { isoent_cmp_node_iso9660, isoent_cmp_key_iso9660 }; if (isoent->children.cnt == 0) return (0); iso9660 = a->format_data; char_map = idr->char_map; if (iso9660->opt.iso_level <= 3) { allow_ldots = 0; allow_multidot = 0; allow_period = 1; allow_vernum = iso9660->opt.allow_vernum; if (iso9660->opt.iso_level == 1) { fnmax = 8; ffmax = 12;/* fnmax + '.' + 3 */ dnmax = 8; } else { fnmax = 30; ffmax = 31; dnmax = 31; } } else { allow_ldots = allow_multidot = 1; allow_period = allow_vernum = 0; if (iso9660->opt.rr) /* * MDR : The maximum size of Directory Record(254). * DRL : A Directory Record Length(33). * CE : A size of SUSP CE System Use Entry(28). * MDR - DRL - CE = 254 - 33 - 28 = 193. */ fnmax = ffmax = dnmax = 193; else /* * XA : CD-ROM XA System Use Extension * Information(14). * MDR - DRL - XA = 254 - 33 -14 = 207. */ fnmax = ffmax = dnmax = 207; } r = idr_start(a, idr, isoent->children.cnt, ffmax, 3, 1, &rb_ops); if (r < 0) return (r); for (np = isoent->children.first; np != NULL; np = np->chnext) { char *dot, *xdot; int ext_off, noff, weight; l = (int)np->file->basename.length; p = malloc(l+31+2+1); if (p == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } memcpy(p, np->file->basename.s, l); p[l] = '\0'; np->identifier = p; dot = xdot = NULL; if (!allow_ldots) { /* * If there is a '.' character at the first byte, * it has to be replaced by '_' character. */ if (*p == '.') *p++ = '_'; } for (;*p; p++) { if (*p & 0x80) { *p = '_'; continue; } if (char_map[(unsigned char)*p]) { /* if iso-level is '4', a character '.' is * allowed by char_map. */ if (*p == '.') { xdot = dot; dot = p; } continue; } if (*p >= 'a' && *p <= 'z') { *p -= 'a' - 'A'; continue; } if (*p == '.') { xdot = dot; dot = p; if (allow_multidot) continue; } *p = '_'; } p = np->identifier; weight = -1; if (dot == NULL) { int nammax; if (np->dir) nammax = dnmax; else nammax = fnmax; if (l > nammax) { p[nammax] = '\0'; weight = nammax; ext_off = nammax; } else ext_off = l; } else { *dot = '.'; ext_off = (int)(dot - p); if (iso9660->opt.iso_level == 1) { if (dot - p <= 8) { if (strlen(dot) > 4) { /* A length of a file extension * must be less than 4 */ dot[4] = '\0'; weight = 0; } } else { p[8] = dot[0]; p[9] = dot[1]; p[10] = dot[2]; p[11] = dot[3]; p[12] = '\0'; weight = 8; ext_off = 8; } } else if (np->dir) { if (l > dnmax) { p[dnmax] = '\0'; weight = dnmax; if (ext_off > dnmax) ext_off = dnmax; } } else if (l > ffmax) { int extlen = (int)strlen(dot); int xdoff; if (xdot != NULL) xdoff = (int)(xdot - p); else xdoff = 0; if (extlen > 1 && xdoff < fnmax-1) { int off; if (extlen > ffmax) extlen = ffmax; off = ffmax - extlen; if (off == 0) { /* A dot('.') character * does't place to the first * byte of identifier. */ off ++; extlen --; } memmove(p+off, dot, extlen); p[ffmax] = '\0'; ext_off = off; weight = off; #ifdef COMPAT_MKISOFS } else if (xdoff >= fnmax-1) { /* Simulate a bug(?) of mkisofs. */ p[fnmax-1] = '\0'; ext_off = fnmax-1; weight = fnmax-1; #endif } else { p[fnmax] = '\0'; ext_off = fnmax; weight = fnmax; } } } /* Save an offset of a file name extension to sort files. */ np->ext_off = ext_off; np->ext_len = (int)strlen(&p[ext_off]); np->id_len = l = ext_off + np->ext_len; /* Make an offset of the number which is used to be set * hexadecimal number to avoid duplicate identififier. */ if (iso9660->opt.iso_level == 1) { if (ext_off >= 5) noff = 5; else noff = ext_off; } else { if (l == ffmax) noff = ext_off - 3; else if (l == ffmax-1) noff = ext_off - 2; else if (l == ffmax-2) noff = ext_off - 1; else noff = ext_off; } /* Register entry to the identifier resolver. */ idr_register(idr, np, weight, noff); } /* Resolve duplicate identifier. */ idr_resolve(idr, idr_set_num); /* Add a period and a version number to identifiers. */ for (np = isoent->children.first; np != NULL; np = np->chnext) { if (!np->dir && np->rr_child == NULL) { p = np->identifier + np->ext_off + np->ext_len; if (np->ext_len == 0 && allow_period) { *p++ = '.'; np->ext_len = 1; } if (np->ext_len == 1 && !allow_period) { *--p = '\0'; np->ext_len = 0; } np->id_len = np->ext_off + np->ext_len; if (allow_vernum) { *p++ = ';'; *p++ = '1'; np->id_len += 2; } *p = '\0'; } else np->id_len = np->ext_off + np->ext_len; np->mb_len = np->id_len; } return (ARCHIVE_OK); } /* * Generate Joliet Identifier. */ static int isoent_gen_joliet_identifier(struct archive_write *a, struct isoent *isoent, struct idr *idr) { struct iso9660 *iso9660; struct isoent *np; unsigned char *p; size_t l; int r; int ffmax, parent_len; static const struct archive_rb_tree_ops rb_ops = { isoent_cmp_node_joliet, isoent_cmp_key_joliet }; if (isoent->children.cnt == 0) return (0); iso9660 = a->format_data; if (iso9660->opt.joliet == OPT_JOLIET_LONGNAME) ffmax = 206; else ffmax = 128; r = idr_start(a, idr, isoent->children.cnt, ffmax, 6, 2, &rb_ops); if (r < 0) return (r); parent_len = 1; for (np = isoent; np->parent != np; np = np->parent) parent_len += np->mb_len + 1; for (np = isoent->children.first; np != NULL; np = np->chnext) { unsigned char *dot; int ext_off, noff, weight; size_t lt; if ((int)(l = np->file->basename_utf16.length) > ffmax) l = ffmax; p = malloc((l+1)*2); if (p == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } memcpy(p, np->file->basename_utf16.s, l); p[l] = 0; p[l+1] = 0; np->identifier = (char *)p; lt = l; dot = p + l; weight = 0; while (lt > 0) { if (!joliet_allowed_char(p[0], p[1])) archive_be16enc(p, 0x005F); /* '_' */ else if (p[0] == 0 && p[1] == 0x2E) /* '.' */ dot = p; p += 2; lt -= 2; } ext_off = (int)(dot - (unsigned char *)np->identifier); np->ext_off = ext_off; np->ext_len = (int)l - ext_off; np->id_len = (int)l; /* * Get a length of MBS of a full-pathname. */ if ((int)np->file->basename_utf16.length > ffmax) { if (archive_strncpy_l(&iso9660->mbs, (const char *)np->identifier, l, iso9660->sconv_from_utf16be) != 0 && errno == ENOMEM) { archive_set_error(&a->archive, errno, "No memory"); return (ARCHIVE_FATAL); } np->mb_len = (int)iso9660->mbs.length; if (np->mb_len != (int)np->file->basename.length) weight = np->mb_len; } else np->mb_len = (int)np->file->basename.length; /* If a length of full-pathname is longer than 240 bytes, * it violates Joliet extensions regulation. */ if (parent_len + np->mb_len > 240) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "The regulation of Joliet extensions;" " A length of a full-pathname of `%s' is " "longer than 240 bytes, (p=%d, b=%d)", archive_entry_pathname(np->file->entry), (int)parent_len, (int)np->mb_len); return (ARCHIVE_FATAL); } /* Make an offset of the number which is used to be set * hexadecimal number to avoid duplicate identifier. */ if ((int)l == ffmax) noff = ext_off - 6; else if ((int)l == ffmax-2) noff = ext_off - 4; else if ((int)l == ffmax-4) noff = ext_off - 2; else noff = ext_off; /* Register entry to the identifier resolver. */ idr_register(idr, np, weight, noff); } /* Resolve duplicate identifier with Joliet Volume. */ idr_resolve(idr, idr_set_num_beutf16); return (ARCHIVE_OK); } /* * This comparing rule is according to ISO9660 Standard 9.3 */ static int isoent_cmp_iso9660_identifier(const struct isoent *p1, const struct isoent *p2) { const char *s1, *s2; int cmp; int l; s1 = p1->identifier; s2 = p2->identifier; /* Compare File Name */ l = p1->ext_off; if (l > p2->ext_off) l = p2->ext_off; cmp = memcmp(s1, s2, l); if (cmp != 0) return (cmp); if (p1->ext_off < p2->ext_off) { s2 += l; l = p2->ext_off - p1->ext_off; while (l--) if (0x20 != *s2++) return (0x20 - *(const unsigned char *)(s2 - 1)); } else if (p1->ext_off > p2->ext_off) { s1 += l; l = p1->ext_off - p2->ext_off; while (l--) if (0x20 != *s1++) return (*(const unsigned char *)(s1 - 1) - 0x20); } /* Compare File Name Extension */ if (p1->ext_len == 0 && p2->ext_len == 0) return (0); if (p1->ext_len == 1 && p2->ext_len == 1) return (0); if (p1->ext_len <= 1) return (-1); if (p2->ext_len <= 1) return (1); l = p1->ext_len; if (l > p2->ext_len) l = p2->ext_len; s1 = p1->identifier + p1->ext_off; s2 = p2->identifier + p2->ext_off; if (l > 1) { cmp = memcmp(s1, s2, l); if (cmp != 0) return (cmp); } if (p1->ext_len < p2->ext_len) { s2 += l; l = p2->ext_len - p1->ext_len; while (l--) if (0x20 != *s2++) return (0x20 - *(const unsigned char *)(s2 - 1)); } else if (p1->ext_len > p2->ext_len) { s1 += l; l = p1->ext_len - p2->ext_len; while (l--) if (0x20 != *s1++) return (*(const unsigned char *)(s1 - 1) - 0x20); } /* Compare File Version Number */ /* No operation. The File Version Number is always one. */ return (cmp); } static int isoent_cmp_node_iso9660(const struct archive_rb_node *n1, const struct archive_rb_node *n2) { const struct idrent *e1 = (const struct idrent *)n1; const struct idrent *e2 = (const struct idrent *)n2; return (isoent_cmp_iso9660_identifier(e2->isoent, e1->isoent)); } static int isoent_cmp_key_iso9660(const struct archive_rb_node *node, const void *key) { const struct isoent *isoent = (const struct isoent *)key; const struct idrent *idrent = (const struct idrent *)node; return (isoent_cmp_iso9660_identifier(isoent, idrent->isoent)); } static int isoent_cmp_joliet_identifier(const struct isoent *p1, const struct isoent *p2) { const unsigned char *s1, *s2; int cmp; int l; s1 = (const unsigned char *)p1->identifier; s2 = (const unsigned char *)p2->identifier; /* Compare File Name */ l = p1->ext_off; if (l > p2->ext_off) l = p2->ext_off; cmp = memcmp(s1, s2, l); if (cmp != 0) return (cmp); if (p1->ext_off < p2->ext_off) { s2 += l; l = p2->ext_off - p1->ext_off; while (l--) if (0 != *s2++) return (- *(const unsigned char *)(s2 - 1)); } else if (p1->ext_off > p2->ext_off) { s1 += l; l = p1->ext_off - p2->ext_off; while (l--) if (0 != *s1++) return (*(const unsigned char *)(s1 - 1)); } /* Compare File Name Extension */ if (p1->ext_len == 0 && p2->ext_len == 0) return (0); if (p1->ext_len == 2 && p2->ext_len == 2) return (0); if (p1->ext_len <= 2) return (-1); if (p2->ext_len <= 2) return (1); l = p1->ext_len; if (l > p2->ext_len) l = p2->ext_len; s1 = (unsigned char *)(p1->identifier + p1->ext_off); s2 = (unsigned char *)(p2->identifier + p2->ext_off); if (l > 1) { cmp = memcmp(s1, s2, l); if (cmp != 0) return (cmp); } if (p1->ext_len < p2->ext_len) { s2 += l; l = p2->ext_len - p1->ext_len; while (l--) if (0 != *s2++) return (- *(const unsigned char *)(s2 - 1)); } else if (p1->ext_len > p2->ext_len) { s1 += l; l = p1->ext_len - p2->ext_len; while (l--) if (0 != *s1++) return (*(const unsigned char *)(s1 - 1)); } /* Compare File Version Number */ /* No operation. The File Version Number is always one. */ return (cmp); } static int isoent_cmp_node_joliet(const struct archive_rb_node *n1, const struct archive_rb_node *n2) { const struct idrent *e1 = (const struct idrent *)n1; const struct idrent *e2 = (const struct idrent *)n2; return (isoent_cmp_joliet_identifier(e2->isoent, e1->isoent)); } static int isoent_cmp_key_joliet(const struct archive_rb_node *node, const void *key) { const struct isoent *isoent = (const struct isoent *)key; const struct idrent *idrent = (const struct idrent *)node; return (isoent_cmp_joliet_identifier(isoent, idrent->isoent)); } static int isoent_make_sorted_files(struct archive_write *a, struct isoent *isoent, struct idr *idr) { struct archive_rb_node *rn; struct isoent **children; children = malloc(isoent->children.cnt * sizeof(struct isoent *)); if (children == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } isoent->children_sorted = children; ARCHIVE_RB_TREE_FOREACH(rn, &(idr->rbtree)) { struct idrent *idrent = (struct idrent *)rn; *children ++ = idrent->isoent; } return (ARCHIVE_OK); } /* * - Generate ISO9660 and Joliet identifiers from basenames. * - Sort files by each directory. */ static int isoent_traverse_tree(struct archive_write *a, struct vdd* vdd) { struct iso9660 *iso9660 = a->format_data; struct isoent *np; struct idr idr; int depth; int r; int (*genid)(struct archive_write *, struct isoent *, struct idr *); idr_init(iso9660, vdd, &idr); np = vdd->rootent; depth = 0; if (vdd->vdd_type == VDD_JOLIET) genid = isoent_gen_joliet_identifier; else genid = isoent_gen_iso9660_identifier; do { if (np->virtual && !archive_entry_mtime_is_set(np->file->entry)) { /* Set properly times to virtual directory */ archive_entry_set_mtime(np->file->entry, iso9660->birth_time, 0); archive_entry_set_atime(np->file->entry, iso9660->birth_time, 0); archive_entry_set_ctime(np->file->entry, iso9660->birth_time, 0); } if (np->children.first != NULL) { if (vdd->vdd_type != VDD_JOLIET && !iso9660->opt.rr && depth + 1 >= vdd->max_depth) { if (np->children.cnt > 0) iso9660->directories_too_deep = np; } else { /* Generate Identifier */ r = genid(a, np, &idr); if (r < 0) goto exit_traverse_tree; r = isoent_make_sorted_files(a, np, &idr); if (r < 0) goto exit_traverse_tree; if (np->subdirs.first != NULL && depth + 1 < vdd->max_depth) { /* Enter to sub directories. */ np = np->subdirs.first; depth++; continue; } } } while (np != np->parent) { if (np->drnext == NULL) { /* Return to the parent directory. */ np = np->parent; depth--; } else { np = np->drnext; break; } } } while (np != np->parent); r = ARCHIVE_OK; exit_traverse_tree: idr_cleanup(&idr); return (r); } /* * Collect directory entries into path_table by a directory depth. */ static int isoent_collect_dirs(struct vdd *vdd, struct isoent *rootent, int depth) { struct isoent *np; if (rootent == NULL) rootent = vdd->rootent; np = rootent; do { /* Register current directory to pathtable. */ path_table_add_entry(&(vdd->pathtbl[depth]), np); if (np->subdirs.first != NULL && depth + 1 < vdd->max_depth) { /* Enter to sub directories. */ np = np->subdirs.first; depth++; continue; } while (np != rootent) { if (np->drnext == NULL) { /* Return to the parent directory. */ np = np->parent; depth--; } else { np = np->drnext; break; } } } while (np != rootent); return (ARCHIVE_OK); } /* * The entry whose number of levels in a directory hierarchy is * large than eight relocate to rr_move directory. */ static int isoent_rr_move_dir(struct archive_write *a, struct isoent **rr_moved, struct isoent *curent, struct isoent **newent) { struct iso9660 *iso9660 = a->format_data; struct isoent *rrmoved, *mvent, *np; if ((rrmoved = *rr_moved) == NULL) { struct isoent *rootent = iso9660->primary.rootent; /* There isn't rr_move entry. * Create rr_move entry and insert it into the root entry. */ rrmoved = isoent_create_virtual_dir(a, iso9660, "rr_moved"); if (rrmoved == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } /* Add "rr_moved" entry to the root entry. */ isoent_add_child_head(rootent, rrmoved); archive_entry_set_nlink(rootent->file->entry, archive_entry_nlink(rootent->file->entry) + 1); /* Register "rr_moved" entry to second level pathtable. */ path_table_add_entry(&(iso9660->primary.pathtbl[1]), rrmoved); /* Save rr_moved. */ *rr_moved = rrmoved; } /* * Make a clone of curent which is going to be relocated * to rr_moved. */ mvent = isoent_clone(curent); if (mvent == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } /* linking.. and use for creating "CL", "PL" and "RE" */ mvent->rr_parent = curent->parent; curent->rr_child = mvent; /* * Move subdirectories from the curent to mvent */ if (curent->children.first != NULL) { *mvent->children.last = curent->children.first; mvent->children.last = curent->children.last; } for (np = mvent->children.first; np != NULL; np = np->chnext) np->parent = mvent; mvent->children.cnt = curent->children.cnt; curent->children.cnt = 0; curent->children.first = NULL; curent->children.last = &curent->children.first; if (curent->subdirs.first != NULL) { *mvent->subdirs.last = curent->subdirs.first; mvent->subdirs.last = curent->subdirs.last; } mvent->subdirs.cnt = curent->subdirs.cnt; curent->subdirs.cnt = 0; curent->subdirs.first = NULL; curent->subdirs.last = &curent->subdirs.first; /* * The mvent becomes a child of the rr_moved entry. */ isoent_add_child_tail(rrmoved, mvent); archive_entry_set_nlink(rrmoved->file->entry, archive_entry_nlink(rrmoved->file->entry) + 1); /* * This entry which relocated to the rr_moved directory * has to set the flag as a file. * See also RRIP 4.1.5.1 Description of the "CL" System Use Entry. */ curent->dir = 0; *newent = mvent; return (ARCHIVE_OK); } static int isoent_rr_move(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; struct path_table *pt; struct isoent *rootent, *rr_moved; struct isoent *np, *last; int r; pt = &(iso9660->primary.pathtbl[MAX_DEPTH-1]); /* Theare aren't level 8 directories reaching a deepr level. */ if (pt->cnt == 0) return (ARCHIVE_OK); rootent = iso9660->primary.rootent; /* If "rr_moved" directory is already existing, * we have to use it. */ rr_moved = isoent_find_child(rootent, "rr_moved"); if (rr_moved != NULL && rr_moved != rootent->children.first) { /* * It's necessary that rr_move is the first entry * of the root. */ /* Remove "rr_moved" entry from children chain. */ isoent_remove_child(rootent, rr_moved); /* Add "rr_moved" entry into the head of children chain. */ isoent_add_child_head(rootent, rr_moved); } /* * Check level 8 path_table. * If find out sub directory entries, that entries move to rr_move. */ np = pt->first; while (np != NULL) { last = path_table_last_entry(pt); for (; np != NULL; np = np->ptnext) { struct isoent *mvent; struct isoent *newent; if (!np->dir) continue; for (mvent = np->subdirs.first; mvent != NULL; mvent = mvent->drnext) { r = isoent_rr_move_dir(a, &rr_moved, mvent, &newent); if (r < 0) return (r); isoent_collect_dirs(&(iso9660->primary), newent, 2); } } /* If new entries are added to level 8 path_talbe, * its sub directory entries move to rr_move too. */ np = last->ptnext; } return (ARCHIVE_OK); } /* * This comparing rule is according to ISO9660 Standard 6.9.1 */ static int _compare_path_table(const void *v1, const void *v2) { const struct isoent *p1, *p2; const char *s1, *s2; int cmp, l; p1 = *((const struct isoent **)(uintptr_t)v1); p2 = *((const struct isoent **)(uintptr_t)v2); /* Compare parent directory number */ cmp = p1->parent->dir_number - p2->parent->dir_number; if (cmp != 0) return (cmp); /* Compare indetifier */ s1 = p1->identifier; s2 = p2->identifier; l = p1->ext_off; if (l > p2->ext_off) l = p2->ext_off; cmp = strncmp(s1, s2, l); if (cmp != 0) return (cmp); if (p1->ext_off < p2->ext_off) { s2 += l; l = p2->ext_off - p1->ext_off; while (l--) if (0x20 != *s2++) return (0x20 - *(const unsigned char *)(s2 - 1)); } else if (p1->ext_off > p2->ext_off) { s1 += l; l = p1->ext_off - p2->ext_off; while (l--) if (0x20 != *s1++) return (*(const unsigned char *)(s1 - 1) - 0x20); } return (0); } static int _compare_path_table_joliet(const void *v1, const void *v2) { const struct isoent *p1, *p2; const unsigned char *s1, *s2; int cmp, l; p1 = *((const struct isoent **)(uintptr_t)v1); p2 = *((const struct isoent **)(uintptr_t)v2); /* Compare parent directory number */ cmp = p1->parent->dir_number - p2->parent->dir_number; if (cmp != 0) return (cmp); /* Compare indetifier */ s1 = (const unsigned char *)p1->identifier; s2 = (const unsigned char *)p2->identifier; l = p1->ext_off; if (l > p2->ext_off) l = p2->ext_off; cmp = memcmp(s1, s2, l); if (cmp != 0) return (cmp); if (p1->ext_off < p2->ext_off) { s2 += l; l = p2->ext_off - p1->ext_off; while (l--) if (0 != *s2++) return (- *(const unsigned char *)(s2 - 1)); } else if (p1->ext_off > p2->ext_off) { s1 += l; l = p1->ext_off - p2->ext_off; while (l--) if (0 != *s1++) return (*(const unsigned char *)(s1 - 1)); } return (0); } static inline void path_table_add_entry(struct path_table *pathtbl, struct isoent *ent) { ent->ptnext = NULL; *pathtbl->last = ent; pathtbl->last = &(ent->ptnext); pathtbl->cnt ++; } static inline struct isoent * path_table_last_entry(struct path_table *pathtbl) { if (pathtbl->first == NULL) return (NULL); return (((struct isoent *)(void *) ((char *)(pathtbl->last) - offsetof(struct isoent, ptnext)))); } /* * Sort directory entries in path_table * and assign directory number to each entries. */ static int isoent_make_path_table_2(struct archive_write *a, struct vdd *vdd, int depth, int *dir_number) { struct isoent *np; struct isoent **enttbl; struct path_table *pt; int i; pt = &vdd->pathtbl[depth]; if (pt->cnt == 0) { pt->sorted = NULL; return (ARCHIVE_OK); } enttbl = malloc(pt->cnt * sizeof(struct isoent *)); if (enttbl == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } pt->sorted = enttbl; for (np = pt->first; np != NULL; np = np->ptnext) *enttbl ++ = np; enttbl = pt->sorted; switch (vdd->vdd_type) { case VDD_PRIMARY: case VDD_ENHANCED: #ifdef __COMPAR_FN_T qsort(enttbl, pt->cnt, sizeof(struct isoent *), (__compar_fn_t)_compare_path_table); #else qsort(enttbl, pt->cnt, sizeof(struct isoent *), _compare_path_table); #endif break; case VDD_JOLIET: #ifdef __COMPAR_FN_T qsort(enttbl, pt->cnt, sizeof(struct isoent *), (__compar_fn_t)_compare_path_table_joliet); #else qsort(enttbl, pt->cnt, sizeof(struct isoent *), _compare_path_table_joliet); #endif break; } for (i = 0; i < pt->cnt; i++) enttbl[i]->dir_number = (*dir_number)++; return (ARCHIVE_OK); } static int isoent_alloc_path_table(struct archive_write *a, struct vdd *vdd, int max_depth) { int i; vdd->max_depth = max_depth; vdd->pathtbl = malloc(sizeof(*vdd->pathtbl) * vdd->max_depth); if (vdd->pathtbl == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } for (i = 0; i < vdd->max_depth; i++) { vdd->pathtbl[i].first = NULL; vdd->pathtbl[i].last = &(vdd->pathtbl[i].first); vdd->pathtbl[i].sorted = NULL; vdd->pathtbl[i].cnt = 0; } return (ARCHIVE_OK); } /* * Make Path Tables */ static int isoent_make_path_table(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; int depth, r; int dir_number; /* * Init Path Table. */ if (iso9660->dircnt_max >= MAX_DEPTH && (!iso9660->opt.limit_depth || iso9660->opt.iso_level == 4)) r = isoent_alloc_path_table(a, &(iso9660->primary), iso9660->dircnt_max + 1); else /* The number of levels in the hierarchy cannot exceed * eight. */ r = isoent_alloc_path_table(a, &(iso9660->primary), MAX_DEPTH); if (r < 0) return (r); if (iso9660->opt.joliet) { r = isoent_alloc_path_table(a, &(iso9660->joliet), iso9660->dircnt_max + 1); if (r < 0) return (r); } /* Step 0. * - Collect directories for primary and joliet. */ isoent_collect_dirs(&(iso9660->primary), NULL, 0); if (iso9660->opt.joliet) isoent_collect_dirs(&(iso9660->joliet), NULL, 0); /* * Rockridge; move deeper depth directories to rr_moved. */ if (iso9660->opt.rr) { r = isoent_rr_move(a); if (r < 0) return (r); } /* Update nlink. */ isofile_connect_hardlink_files(iso9660); /* Step 1. * - Renew a value of the depth of that directories. * - Resolve hardlinks. * - Convert pathnames to ISO9660 name or UCS2(joliet). * - Sort files by each directory. */ r = isoent_traverse_tree(a, &(iso9660->primary)); if (r < 0) return (r); if (iso9660->opt.joliet) { r = isoent_traverse_tree(a, &(iso9660->joliet)); if (r < 0) return (r); } /* Step 2. * - Sort directories. * - Assign all directory number. */ dir_number = 1; for (depth = 0; depth < iso9660->primary.max_depth; depth++) { r = isoent_make_path_table_2(a, &(iso9660->primary), depth, &dir_number); if (r < 0) return (r); } if (iso9660->opt.joliet) { dir_number = 1; for (depth = 0; depth < iso9660->joliet.max_depth; depth++) { r = isoent_make_path_table_2(a, &(iso9660->joliet), depth, &dir_number); if (r < 0) return (r); } } if (iso9660->opt.limit_dirs && dir_number > 0xffff) { /* * Maximum number of directories is 65535(0xffff) * doe to size(16bit) of Parent Directory Number of * the Path Table. * See also ISO9660 Standard 9.4. */ archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Too many directories(%d) over 65535.", dir_number); return (ARCHIVE_FATAL); } /* Get the size of the Path Table. */ calculate_path_table_size(&(iso9660->primary)); if (iso9660->opt.joliet) calculate_path_table_size(&(iso9660->joliet)); return (ARCHIVE_OK); } static int isoent_find_out_boot_file(struct archive_write *a, struct isoent *rootent) { struct iso9660 *iso9660 = a->format_data; /* Find a isoent of the boot file. */ iso9660->el_torito.boot = isoent_find_entry(rootent, iso9660->el_torito.boot_filename.s); if (iso9660->el_torito.boot == NULL) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Can't find the boot image file ``%s''", iso9660->el_torito.boot_filename.s); return (ARCHIVE_FATAL); } iso9660->el_torito.boot->file->boot = BOOT_IMAGE; return (ARCHIVE_OK); } static int isoent_create_boot_catalog(struct archive_write *a, struct isoent *rootent) { struct iso9660 *iso9660 = a->format_data; struct isofile *file; struct isoent *isoent; struct archive_entry *entry; (void)rootent; /* UNUSED */ /* * Create the entry which is the "boot.catalog" file. */ file = isofile_new(a, NULL); if (file == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } archive_entry_set_pathname(file->entry, iso9660->el_torito.catalog_filename.s); archive_entry_set_size(file->entry, LOGICAL_BLOCK_SIZE); archive_entry_set_mtime(file->entry, iso9660->birth_time, 0); archive_entry_set_atime(file->entry, iso9660->birth_time, 0); archive_entry_set_ctime(file->entry, iso9660->birth_time, 0); archive_entry_set_uid(file->entry, getuid()); archive_entry_set_gid(file->entry, getgid()); archive_entry_set_mode(file->entry, AE_IFREG | 0444); archive_entry_set_nlink(file->entry, 1); if (isofile_gen_utility_names(a, file) < ARCHIVE_WARN) { isofile_free(file); return (ARCHIVE_FATAL); } file->boot = BOOT_CATALOG; file->content.size = LOGICAL_BLOCK_SIZE; isofile_add_entry(iso9660, file); isoent = isoent_new(file); if (isoent == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } isoent->virtual = 1; /* Add the "boot.catalog" entry into tree */ if (isoent_tree(a, &isoent) != ARCHIVE_OK) return (ARCHIVE_FATAL); iso9660->el_torito.catalog = isoent; /* * Get a boot medai type. */ switch (iso9660->opt.boot_type) { default: case OPT_BOOT_TYPE_AUTO: /* Try detecting a media type of the boot image. */ entry = iso9660->el_torito.boot->file->entry; if (archive_entry_size(entry) == FD_1_2M_SIZE) iso9660->el_torito.media_type = BOOT_MEDIA_1_2M_DISKETTE; else if (archive_entry_size(entry) == FD_1_44M_SIZE) iso9660->el_torito.media_type = BOOT_MEDIA_1_44M_DISKETTE; else if (archive_entry_size(entry) == FD_2_88M_SIZE) iso9660->el_torito.media_type = BOOT_MEDIA_2_88M_DISKETTE; else /* We cannot decide whether the boot image is * hard-disk. */ iso9660->el_torito.media_type = BOOT_MEDIA_NO_EMULATION; break; case OPT_BOOT_TYPE_NO_EMU: iso9660->el_torito.media_type = BOOT_MEDIA_NO_EMULATION; break; case OPT_BOOT_TYPE_HARD_DISK: iso9660->el_torito.media_type = BOOT_MEDIA_HARD_DISK; break; case OPT_BOOT_TYPE_FD: entry = iso9660->el_torito.boot->file->entry; if (archive_entry_size(entry) <= FD_1_2M_SIZE) iso9660->el_torito.media_type = BOOT_MEDIA_1_2M_DISKETTE; else if (archive_entry_size(entry) <= FD_1_44M_SIZE) iso9660->el_torito.media_type = BOOT_MEDIA_1_44M_DISKETTE; else if (archive_entry_size(entry) <= FD_2_88M_SIZE) iso9660->el_torito.media_type = BOOT_MEDIA_2_88M_DISKETTE; else { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Boot image file(``%s'') size is too big " "for fd type.", iso9660->el_torito.boot_filename.s); return (ARCHIVE_FATAL); } break; } /* * Get a system type. * TODO: `El Torito' specification says "A copy of byte 5 from the * Partition Table found in the boot image". */ iso9660->el_torito.system_type = 0; /* * Get an ID. */ if (iso9660->opt.publisher) archive_string_copy(&(iso9660->el_torito.id), &(iso9660->publisher_identifier)); return (ARCHIVE_OK); } /* * If a media type is floppy, return its image size. * otherwise return 0. */ static size_t fd_boot_image_size(int media_type) { switch (media_type) { case BOOT_MEDIA_1_2M_DISKETTE: return (FD_1_2M_SIZE); case BOOT_MEDIA_1_44M_DISKETTE: return (FD_1_44M_SIZE); case BOOT_MEDIA_2_88M_DISKETTE: return (FD_2_88M_SIZE); default: return (0); } } /* * Make a boot catalog image data. */ static int make_boot_catalog(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; unsigned char *block; unsigned char *p; uint16_t sum, *wp; block = wb_buffptr(a); memset(block, 0, LOGICAL_BLOCK_SIZE); p = block; /* * Validation Entry */ /* Header ID */ p[0] = 1; /* Platform ID */ p[1] = iso9660->el_torito.platform_id; /* Reserved */ p[2] = p[3] = 0; /* ID */ if (archive_strlen(&(iso9660->el_torito.id)) > 0) strncpy((char *)p+4, iso9660->el_torito.id.s, 23); p[27] = 0; /* Checksum */ p[28] = p[29] = 0; /* Key */ p[30] = 0x55; p[31] = 0xAA; sum = 0; wp = (uint16_t *)block; while (wp < (uint16_t *)&block[32]) sum += archive_le16dec(wp++); set_num_721(&block[28], (~sum) + 1); /* * Initial/Default Entry */ p = &block[32]; /* Boot Indicator */ p[0] = 0x88; /* Boot media type */ p[1] = iso9660->el_torito.media_type; /* Load Segment */ if (iso9660->el_torito.media_type == BOOT_MEDIA_NO_EMULATION) set_num_721(&p[2], iso9660->el_torito.boot_load_seg); else set_num_721(&p[2], 0); /* System Type */ p[4] = iso9660->el_torito.system_type; /* Unused */ p[5] = 0; /* Sector Count */ if (iso9660->el_torito.media_type == BOOT_MEDIA_NO_EMULATION) set_num_721(&p[6], iso9660->el_torito.boot_load_size); else set_num_721(&p[6], 1); /* Load RBA */ set_num_731(&p[8], iso9660->el_torito.boot->file->content.location); /* Unused */ memset(&p[12], 0, 20); return (wb_consume(a, LOGICAL_BLOCK_SIZE)); } static int setup_boot_information(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; struct isoent *np; int64_t size; uint32_t sum; unsigned char buff[4096]; np = iso9660->el_torito.boot; lseek(iso9660->temp_fd, np->file->content.offset_of_temp + 64, SEEK_SET); size = archive_entry_size(np->file->entry) - 64; if (size <= 0) { archive_set_error(&a->archive, errno, "Boot file(%jd) is too small", (intmax_t)size + 64); return (ARCHIVE_FATAL); } sum = 0; while (size > 0) { size_t rsize; ssize_t i, rs; if (size > (int64_t)sizeof(buff)) rsize = sizeof(buff); else rsize = (size_t)size; rs = read(iso9660->temp_fd, buff, rsize); if (rs <= 0) { archive_set_error(&a->archive, errno, "Can't read temporary file(%jd)", (intmax_t)rs); return (ARCHIVE_FATAL); } for (i = 0; i < rs; i += 4) sum += archive_le32dec(buff + i); size -= rs; } /* Set the location of Primary Volume Descriptor. */ set_num_731(buff, SYSTEM_AREA_BLOCK); /* Set the location of the boot file. */ set_num_731(buff+4, np->file->content.location); /* Set the size of the boot file. */ size = fd_boot_image_size(iso9660->el_torito.media_type); if (size == 0) size = archive_entry_size(np->file->entry); set_num_731(buff+8, (uint32_t)size); /* Set the sum of the boot file. */ set_num_731(buff+12, sum); /* Clear reserved bytes. */ memset(buff+16, 0, 40); /* Overwrite the boot file. */ lseek(iso9660->temp_fd, np->file->content.offset_of_temp + 8, SEEK_SET); return (write_to_temp(a, buff, 56)); } #ifdef HAVE_ZLIB_H static int zisofs_init_zstream(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; int r; iso9660->zisofs.stream.next_in = NULL; iso9660->zisofs.stream.avail_in = 0; iso9660->zisofs.stream.total_in = 0; iso9660->zisofs.stream.total_out = 0; if (iso9660->zisofs.stream_valid) r = deflateReset(&(iso9660->zisofs.stream)); else { r = deflateInit(&(iso9660->zisofs.stream), iso9660->zisofs.compression_level); iso9660->zisofs.stream_valid = 1; } switch (r) { case Z_OK: break; default: case Z_STREAM_ERROR: archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Internal error initializing " "compression library: invalid setup parameter"); return (ARCHIVE_FATAL); case Z_MEM_ERROR: archive_set_error(&a->archive, ENOMEM, "Internal error initializing " "compression library"); return (ARCHIVE_FATAL); case Z_VERSION_ERROR: archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Internal error initializing " "compression library: invalid library version"); return (ARCHIVE_FATAL); } return (ARCHIVE_OK); } #endif /* HAVE_ZLIB_H */ static int zisofs_init(struct archive_write *a, struct isofile *file) { struct iso9660 *iso9660 = a->format_data; #ifdef HAVE_ZLIB_H uint64_t tsize; size_t _ceil, bpsize; int r; #endif iso9660->zisofs.detect_magic = 0; iso9660->zisofs.making = 0; if (!iso9660->opt.rr || !iso9660->opt.zisofs) return (ARCHIVE_OK); if (archive_entry_size(file->entry) >= 24 && archive_entry_size(file->entry) < MULTI_EXTENT_SIZE) { /* Acceptable file size for zisofs. */ iso9660->zisofs.detect_magic = 1; iso9660->zisofs.magic_cnt = 0; } if (!iso9660->zisofs.detect_magic) return (ARCHIVE_OK); #ifdef HAVE_ZLIB_H /* The number of Logical Blocks which uncompressed data * will use in iso-image file is the same as the number of * Logical Blocks which zisofs(compressed) data will use * in ISO-image file. It won't reduce iso-image file size. */ if (archive_entry_size(file->entry) <= LOGICAL_BLOCK_SIZE) return (ARCHIVE_OK); /* Initialize compression library */ r = zisofs_init_zstream(a); if (r != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Mark file->zisofs to create RRIP 'ZF' Use Entry. */ file->zisofs.header_size = ZF_HEADER_SIZE >> 2; file->zisofs.log2_bs = ZF_LOG2_BS; file->zisofs.uncompressed_size = (uint32_t)archive_entry_size(file->entry); /* Calculate a size of Block Pointers of zisofs. */ _ceil = (file->zisofs.uncompressed_size + ZF_BLOCK_SIZE -1) >> file->zisofs.log2_bs; iso9660->zisofs.block_pointers_cnt = (int)_ceil + 1; iso9660->zisofs.block_pointers_idx = 0; /* Ensure a buffer size used for Block Pointers */ bpsize = iso9660->zisofs.block_pointers_cnt * sizeof(iso9660->zisofs.block_pointers[0]); if (iso9660->zisofs.block_pointers_allocated < bpsize) { free(iso9660->zisofs.block_pointers); iso9660->zisofs.block_pointers = malloc(bpsize); if (iso9660->zisofs.block_pointers == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate data"); return (ARCHIVE_FATAL); } iso9660->zisofs.block_pointers_allocated = bpsize; } /* * Skip zisofs header and Block Pointers, which we will write * after all compressed data of a file written to the temporary * file. */ tsize = ZF_HEADER_SIZE + bpsize; if (write_null(a, (size_t)tsize) != ARCHIVE_OK) return (ARCHIVE_FATAL); /* * Initialize some variables to make zisofs. */ archive_le32enc(&(iso9660->zisofs.block_pointers[0]), (uint32_t)tsize); iso9660->zisofs.remaining = file->zisofs.uncompressed_size; iso9660->zisofs.making = 1; iso9660->zisofs.allzero = 1; iso9660->zisofs.block_offset = tsize; iso9660->zisofs.total_size = tsize; iso9660->cur_file->cur_content->size = tsize; #endif return (ARCHIVE_OK); } static void zisofs_detect_magic(struct archive_write *a, const void *buff, size_t s) { struct iso9660 *iso9660 = a->format_data; struct isofile *file = iso9660->cur_file; const unsigned char *p, *endp; const unsigned char *magic_buff; uint32_t uncompressed_size; unsigned char header_size; unsigned char log2_bs; size_t _ceil, doff; uint32_t bst, bed; int magic_max; int64_t entry_size; entry_size = archive_entry_size(file->entry); if ((int64_t)sizeof(iso9660->zisofs.magic_buffer) > entry_size) magic_max = (int)entry_size; else magic_max = sizeof(iso9660->zisofs.magic_buffer); if (iso9660->zisofs.magic_cnt == 0 && s >= (size_t)magic_max) /* It's unnecessary we copy buffer. */ magic_buff = buff; else { if (iso9660->zisofs.magic_cnt < magic_max) { size_t l; l = sizeof(iso9660->zisofs.magic_buffer) - iso9660->zisofs.magic_cnt; if (l > s) l = s; memcpy(iso9660->zisofs.magic_buffer + iso9660->zisofs.magic_cnt, buff, l); iso9660->zisofs.magic_cnt += (int)l; if (iso9660->zisofs.magic_cnt < magic_max) return; } magic_buff = iso9660->zisofs.magic_buffer; } iso9660->zisofs.detect_magic = 0; p = magic_buff; /* Check the magic code of zisofs. */ if (memcmp(p, zisofs_magic, sizeof(zisofs_magic)) != 0) /* This is not zisofs file which made by mkzftree. */ return; p += sizeof(zisofs_magic); /* Read a zisofs header. */ uncompressed_size = archive_le32dec(p); header_size = p[4]; log2_bs = p[5]; if (uncompressed_size < 24 || header_size != 4 || log2_bs > 30 || log2_bs < 7) return;/* Invalid or not supported header. */ /* Calculate a size of Block Pointers of zisofs. */ _ceil = (uncompressed_size + (ARCHIVE_LITERAL_LL(1) << log2_bs) -1) >> log2_bs; doff = (_ceil + 1) * 4 + 16; if (entry_size < (int64_t)doff) return;/* Invalid data. */ /* Check every Block Pointer has valid value. */ p = magic_buff + 16; endp = magic_buff + magic_max; while (_ceil && p + 8 <= endp) { bst = archive_le32dec(p); if (bst != doff) return;/* Invalid data. */ p += 4; bed = archive_le32dec(p); if (bed < bst || bed > entry_size) return;/* Invalid data. */ doff += bed - bst; _ceil--; } file->zisofs.uncompressed_size = uncompressed_size; file->zisofs.header_size = header_size; file->zisofs.log2_bs = log2_bs; /* Disable making a zisofs image. */ iso9660->zisofs.making = 0; } #ifdef HAVE_ZLIB_H /* * Compress data and write it to a temporary file. */ static int zisofs_write_to_temp(struct archive_write *a, const void *buff, size_t s) { struct iso9660 *iso9660 = a->format_data; struct isofile *file = iso9660->cur_file; const unsigned char *b; z_stream *zstrm; size_t avail, csize; int flush, r; zstrm = &(iso9660->zisofs.stream); zstrm->next_out = wb_buffptr(a); zstrm->avail_out = (uInt)wb_remaining(a); b = (const unsigned char *)buff; do { avail = ZF_BLOCK_SIZE - zstrm->total_in; if (s < avail) { avail = s; flush = Z_NO_FLUSH; } else flush = Z_FINISH; iso9660->zisofs.remaining -= avail; if (iso9660->zisofs.remaining <= 0) flush = Z_FINISH; zstrm->next_in = (Bytef *)(uintptr_t)(const void *)b; zstrm->avail_in = (uInt)avail; /* * Check if current data block are all zero. */ if (iso9660->zisofs.allzero) { const unsigned char *nonzero = b; const unsigned char *nonzeroend = b + avail; while (nonzero < nonzeroend) if (*nonzero++) { iso9660->zisofs.allzero = 0; break; } } b += avail; s -= avail; /* * If current data block are all zero, we do not use * compressed data. */ if (flush == Z_FINISH && iso9660->zisofs.allzero && avail + zstrm->total_in == ZF_BLOCK_SIZE) { if (iso9660->zisofs.block_offset != file->cur_content->size) { int64_t diff; r = wb_set_offset(a, file->cur_content->offset_of_temp + iso9660->zisofs.block_offset); if (r != ARCHIVE_OK) return (r); diff = file->cur_content->size - iso9660->zisofs.block_offset; file->cur_content->size -= diff; iso9660->zisofs.total_size -= diff; } zstrm->avail_in = 0; } /* * Compress file data. */ while (zstrm->avail_in > 0) { csize = zstrm->total_out; r = deflate(zstrm, flush); switch (r) { case Z_OK: case Z_STREAM_END: csize = zstrm->total_out - csize; if (wb_consume(a, csize) != ARCHIVE_OK) return (ARCHIVE_FATAL); iso9660->zisofs.total_size += csize; iso9660->cur_file->cur_content->size += csize; zstrm->next_out = wb_buffptr(a); zstrm->avail_out = (uInt)wb_remaining(a); break; default: archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Compression failed:" " deflate() call returned status %d", r); return (ARCHIVE_FATAL); } } if (flush == Z_FINISH) { /* * Save the information of one zisofs block. */ iso9660->zisofs.block_pointers_idx ++; archive_le32enc(&(iso9660->zisofs.block_pointers[ iso9660->zisofs.block_pointers_idx]), (uint32_t)iso9660->zisofs.total_size); r = zisofs_init_zstream(a); if (r != ARCHIVE_OK) return (ARCHIVE_FATAL); iso9660->zisofs.allzero = 1; iso9660->zisofs.block_offset = file->cur_content->size; } } while (s); return (ARCHIVE_OK); } static int zisofs_finish_entry(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; struct isofile *file = iso9660->cur_file; unsigned char buff[16]; size_t s; int64_t tail; /* Direct temp file stream to zisofs temp file stream. */ archive_entry_set_size(file->entry, iso9660->zisofs.total_size); /* * Save a file pointer which points the end of current zisofs data. */ tail = wb_offset(a); /* * Make a header. * * +-----------------+----------------+-----------------+ * | Header 16 bytes | Block Pointers | Compressed data | * +-----------------+----------------+-----------------+ * 0 16 +X * Block Pointers : * 4 * (((Uncompressed file size + block_size -1) / block_size) + 1) * * Write zisofs header. * Magic number * +----+----+----+----+----+----+----+----+ * | 37 | E4 | 53 | 96 | C9 | DB | D6 | 07 | * +----+----+----+----+----+----+----+----+ * 0 1 2 3 4 5 6 7 8 * * +------------------------+------------------+ * | Uncompressed file size | header_size >> 2 | * +------------------------+------------------+ * 8 12 13 * * +-----------------+----------------+ * | log2 block_size | Reserved(0000) | * +-----------------+----------------+ * 13 14 16 */ memcpy(buff, zisofs_magic, 8); set_num_731(buff+8, file->zisofs.uncompressed_size); buff[12] = file->zisofs.header_size; buff[13] = file->zisofs.log2_bs; buff[14] = buff[15] = 0;/* Reserved */ /* Move to the right position to write the header. */ wb_set_offset(a, file->content.offset_of_temp); /* Write the header. */ if (wb_write_to_temp(a, buff, 16) != ARCHIVE_OK) return (ARCHIVE_FATAL); /* * Write zisofs Block Pointers. */ s = iso9660->zisofs.block_pointers_cnt * sizeof(iso9660->zisofs.block_pointers[0]); if (wb_write_to_temp(a, iso9660->zisofs.block_pointers, s) != ARCHIVE_OK) return (ARCHIVE_FATAL); /* Set a file pointer back to the end of the temporary file. */ wb_set_offset(a, tail); return (ARCHIVE_OK); } static int zisofs_free(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; int ret = ARCHIVE_OK; free(iso9660->zisofs.block_pointers); if (iso9660->zisofs.stream_valid && deflateEnd(&(iso9660->zisofs.stream)) != Z_OK) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Failed to clean up compressor"); ret = ARCHIVE_FATAL; } iso9660->zisofs.block_pointers = NULL; iso9660->zisofs.stream_valid = 0; return (ret); } struct zisofs_extract { int pz_log2_bs; /* Log2 of block size */ uint64_t pz_uncompressed_size; size_t uncompressed_buffer_size; int initialized:1; int header_passed:1; uint32_t pz_offset; unsigned char *block_pointers; size_t block_pointers_size; size_t block_pointers_avail; size_t block_off; uint32_t block_avail; z_stream stream; int stream_valid; }; static ssize_t zisofs_extract_init(struct archive_write *a, struct zisofs_extract *zisofs, const unsigned char *p, size_t bytes) { size_t avail = bytes; size_t _ceil, xsize; /* Allocate block pointers buffer. */ _ceil = (size_t)((zisofs->pz_uncompressed_size + (((int64_t)1) << zisofs->pz_log2_bs) - 1) >> zisofs->pz_log2_bs); xsize = (_ceil + 1) * 4; if (zisofs->block_pointers == NULL) { size_t alloc = ((xsize >> 10) + 1) << 10; zisofs->block_pointers = malloc(alloc); if (zisofs->block_pointers == NULL) { archive_set_error(&a->archive, ENOMEM, "No memory for zisofs decompression"); return (ARCHIVE_FATAL); } } zisofs->block_pointers_size = xsize; /* Allocate uncompressed data buffer. */ zisofs->uncompressed_buffer_size = (size_t)1UL << zisofs->pz_log2_bs; /* * Read the file header, and check the magic code of zisofs. */ if (!zisofs->header_passed) { int err = 0; if (avail < 16) { archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, "Illegal zisofs file body"); return (ARCHIVE_FATAL); } if (memcmp(p, zisofs_magic, sizeof(zisofs_magic)) != 0) err = 1; else if (archive_le32dec(p + 8) != zisofs->pz_uncompressed_size) err = 1; else if (p[12] != 4 || p[13] != zisofs->pz_log2_bs) err = 1; if (err) { archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, "Illegal zisofs file body"); return (ARCHIVE_FATAL); } avail -= 16; p += 16; zisofs->header_passed = 1; } /* * Read block pointers. */ if (zisofs->header_passed && zisofs->block_pointers_avail < zisofs->block_pointers_size) { xsize = zisofs->block_pointers_size - zisofs->block_pointers_avail; if (avail < xsize) xsize = avail; memcpy(zisofs->block_pointers + zisofs->block_pointers_avail, p, xsize); zisofs->block_pointers_avail += xsize; avail -= xsize; if (zisofs->block_pointers_avail == zisofs->block_pointers_size) { /* We've got all block pointers and initialize * related variables. */ zisofs->block_off = 0; zisofs->block_avail = 0; /* Complete a initialization */ zisofs->initialized = 1; } } return ((ssize_t)avail); } static ssize_t zisofs_extract(struct archive_write *a, struct zisofs_extract *zisofs, const unsigned char *p, size_t bytes) { size_t avail; int r; if (!zisofs->initialized) { ssize_t rs = zisofs_extract_init(a, zisofs, p, bytes); if (rs < 0) return (rs); if (!zisofs->initialized) { /* We need more data. */ zisofs->pz_offset += (uint32_t)bytes; return (bytes); } avail = rs; p += bytes - avail; } else avail = bytes; /* * Get block offsets from block pointers. */ if (zisofs->block_avail == 0) { uint32_t bst, bed; if (zisofs->block_off + 4 >= zisofs->block_pointers_size) { /* There isn't a pair of offsets. */ archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, "Illegal zisofs block pointers"); return (ARCHIVE_FATAL); } bst = archive_le32dec( zisofs->block_pointers + zisofs->block_off); if (bst != zisofs->pz_offset + (bytes - avail)) { archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, "Illegal zisofs block pointers(cannot seek)"); return (ARCHIVE_FATAL); } bed = archive_le32dec( zisofs->block_pointers + zisofs->block_off + 4); if (bed < bst) { archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, "Illegal zisofs block pointers"); return (ARCHIVE_FATAL); } zisofs->block_avail = bed - bst; zisofs->block_off += 4; /* Initialize compression library for new block. */ if (zisofs->stream_valid) r = inflateReset(&zisofs->stream); else r = inflateInit(&zisofs->stream); if (r != Z_OK) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Can't initialize zisofs decompression."); return (ARCHIVE_FATAL); } zisofs->stream_valid = 1; zisofs->stream.total_in = 0; zisofs->stream.total_out = 0; } /* * Make uncompressed data. */ if (zisofs->block_avail == 0) { /* * It's basically 32K bytes NUL data. */ unsigned char *wb; size_t size, wsize; size = zisofs->uncompressed_buffer_size; while (size) { wb = wb_buffptr(a); if (size > wb_remaining(a)) wsize = wb_remaining(a); else wsize = size; memset(wb, 0, wsize); r = wb_consume(a, wsize); if (r < 0) return (r); size -= wsize; } } else { zisofs->stream.next_in = (Bytef *)(uintptr_t)(const void *)p; if (avail > zisofs->block_avail) zisofs->stream.avail_in = zisofs->block_avail; else zisofs->stream.avail_in = (uInt)avail; zisofs->stream.next_out = wb_buffptr(a); zisofs->stream.avail_out = (uInt)wb_remaining(a); r = inflate(&zisofs->stream, 0); switch (r) { case Z_OK: /* Decompressor made some progress.*/ case Z_STREAM_END: /* Found end of stream. */ break; default: archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "zisofs decompression failed (%d)", r); return (ARCHIVE_FATAL); } avail -= zisofs->stream.next_in - p; zisofs->block_avail -= (uint32_t)(zisofs->stream.next_in - p); r = wb_consume(a, wb_remaining(a) - zisofs->stream.avail_out); if (r < 0) return (r); } zisofs->pz_offset += (uint32_t)bytes; return (bytes - avail); } static int zisofs_rewind_boot_file(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; struct isofile *file; unsigned char *rbuff; ssize_t r; size_t remaining, rbuff_size; struct zisofs_extract zext; int64_t read_offset, write_offset, new_offset; int fd, ret = ARCHIVE_OK; file = iso9660->el_torito.boot->file; /* * There is nothing to do if this boot file does not have * zisofs header. */ if (file->zisofs.header_size == 0) return (ARCHIVE_OK); /* * Uncompress the zisofs'ed file contents. */ memset(&zext, 0, sizeof(zext)); zext.pz_uncompressed_size = file->zisofs.uncompressed_size; zext.pz_log2_bs = file->zisofs.log2_bs; fd = iso9660->temp_fd; new_offset = wb_offset(a); read_offset = file->content.offset_of_temp; remaining = (size_t)file->content.size; if (remaining > 1024 * 32) rbuff_size = 1024 * 32; else rbuff_size = remaining; rbuff = malloc(rbuff_size); if (rbuff == NULL) { archive_set_error(&a->archive, ENOMEM, "Can't allocate memory"); return (ARCHIVE_FATAL); } while (remaining) { size_t rsize; ssize_t rs; /* Get the current file pointer. */ write_offset = lseek(fd, 0, SEEK_CUR); /* Change the file pointer to read. */ lseek(fd, read_offset, SEEK_SET); rsize = rbuff_size; if (rsize > remaining) rsize = remaining; rs = read(iso9660->temp_fd, rbuff, rsize); if (rs <= 0) { archive_set_error(&a->archive, errno, "Can't read temporary file(%jd)", (intmax_t)rs); ret = ARCHIVE_FATAL; break; } remaining -= rs; read_offset += rs; /* Put the file pointer back to write. */ lseek(fd, write_offset, SEEK_SET); r = zisofs_extract(a, &zext, rbuff, rs); if (r < 0) { ret = (int)r; break; } } if (ret == ARCHIVE_OK) { /* * Change the boot file content from zisofs'ed data * to plain data. */ file->content.offset_of_temp = new_offset; file->content.size = file->zisofs.uncompressed_size; archive_entry_set_size(file->entry, file->content.size); /* Set to be no zisofs. */ file->zisofs.header_size = 0; file->zisofs.log2_bs = 0; file->zisofs.uncompressed_size = 0; r = wb_write_padding_to_temp(a, file->content.size); if (r < 0) ret = ARCHIVE_FATAL; } /* * Free the resource we used in this function only. */ free(rbuff); free(zext.block_pointers); if (zext.stream_valid && inflateEnd(&(zext.stream)) != Z_OK) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Failed to clean up compressor"); ret = ARCHIVE_FATAL; } return (ret); } #else static int zisofs_write_to_temp(struct archive_write *a, const void *buff, size_t s) { (void)buff; /* UNUSED */ (void)s; /* UNUSED */ archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "Programing error"); return (ARCHIVE_FATAL); } static int zisofs_rewind_boot_file(struct archive_write *a) { struct iso9660 *iso9660 = a->format_data; if (iso9660->el_torito.boot->file->zisofs.header_size != 0) { archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, "We cannot extract the zisofs imaged boot file;" " this may not boot in being zisofs imaged"); return (ARCHIVE_FAILED); } return (ARCHIVE_OK); } static int zisofs_finish_entry(struct archive_write *a) { (void)a; /* UNUSED */ return (ARCHIVE_OK); } static int zisofs_free(struct archive_write *a) { (void)a; /* UNUSED */ return (ARCHIVE_OK); } #endif /* HAVE_ZLIB_H */