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libisofs/libisofs/fs_image.c

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/*
* Copyright (c) 2007 Vreixo Formoso
*
* This file is part of the libisofs project; you can redistribute it and/or
* modify it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. See COPYING file for details.
*/
/*
* Filesystem/FileSource implementation to access an ISO image, using an
* IsoDataSource to read image data.
*/
#include "libisofs.h"
#include "ecma119.h"
#include "messages.h"
#include "rockridge.h"
#include "image.h"
#include "tree.h"
#include "eltorito.h"
#ifdef Libisofs_with_aaiP
#include "aaip_0_2.h"
#endif
#include <stdlib.h>
#include <string.h>
#include <locale.h>
#include <langinfo.h>
#include <limits.h>
/**
* Options for image reading.
* There are four kind of options:
* - Related to multisession support.
* In most cases, an image begins at LBA 0 of the data source. However,
* in multisession discs, the later image begins in the last session on
* disc. The block option can be used to specify the start of that last
* session.
* - Related to the tree that will be read.
* As default, when Rock Ridge extensions are present in the image, that
* will be used to get the tree. If RR extensions are not present, libisofs
* will use the Joliet extensions if available. Finally, the plain ISO-9660
* tree is used if neither RR nor Joliet extensions are available. With
* norock, nojoliet, and preferjoliet options, you can change this
* default behavior.
* - Related to default POSIX attributes.
* When Rock Ridege extensions are not used, libisofs can't figure out what
* are the the permissions, uid or gid for the files. You should supply
* default values for that.
*/
struct iso_read_opts
{
/**
* Block where the image begins, usually 0, can be different on a
* multisession disc.
*/
uint32_t block;
unsigned int norock : 1; /*< Do not read Rock Ridge extensions */
unsigned int nojoliet : 1; /*< Do not read Joliet extensions */
unsigned int noiso1999 : 1; /*< Do not read ISO 9660:1999 enhanced tree */
#ifdef Libisofs_with_aaiP
/* ts A90121 */
unsigned int noaaip : 1; /* Do not read AAIP extension for EA and ACL */
#endif /* Libisofs_with_aaiP */
/**
* When both Joliet and RR extensions are present, the RR tree is used.
* If you prefer using Joliet, set this to 1.
*/
unsigned int preferjoliet : 1;
uid_t uid; /**< Default uid when no RR */
gid_t gid; /**< Default uid when no RR */
mode_t dir_mode; /**< Default mode when no RR (only permissions) */
mode_t file_mode;
/* TODO #00024 : option to convert names to lower case for iso reading */
/**
* Input charset for RR file names. NULL to use default locale charset.
*/
char *input_charset;
};
/**
* Return information for image.
* Both size, hasRR and hasJoliet will be filled by libisofs with suitable
* values.
*/
struct iso_read_image_features
{
/**
* Will be filled with the size (in 2048 byte block) of the image, as
* reported in the PVM.
*/
uint32_t size;
/** It will be set to 1 if RR extensions are present, to 0 if not. */
unsigned int hasRR :1;
/** It will be set to 1 if Joliet extensions are present, to 0 if not. */
unsigned int hasJoliet :1;
/**
* It will be set to 1 if the image is an ISO 9660:1999, i.e. it has
* a version 2 Enhanced Volume Descriptor.
*/
unsigned int hasIso1999 :1;
/** It will be set to 1 if El-Torito boot record is present, to 0 if not.*/
unsigned int hasElTorito :1;
};
static int ifs_fs_open(IsoImageFilesystem *fs);
static int ifs_fs_close(IsoImageFilesystem *fs);
static int iso_file_source_new_ifs(IsoImageFilesystem *fs,
IsoFileSource *parent, struct ecma119_dir_record *record,
IsoFileSource **src);
/** unique identifier for each image */
unsigned int fs_dev_id = 0;
/**
* Should the RR extensions be read?
*/
enum read_rr_ext {
RR_EXT_NO = 0, /*< Do not use RR extensions */
RR_EXT_110 = 1, /*< RR extensions conforming version 1.10 */
RR_EXT_112 = 2 /*< RR extensions conforming version 1.12 */
};
/**
* Private data for the image IsoFilesystem
*/
typedef struct
{
/** DataSource from where data will be read */
IsoDataSource *src;
/** unique id for the each image (filesystem instance) */
unsigned int id;
/**
* Counter of the times the filesystem has been openned still pending of
* close. It is used to keep track of when we need to actually open or
* close the IsoDataSource.
*/
unsigned int open_count;
uid_t uid; /**< Default uid when no RR */
gid_t gid; /**< Default uid when no RR */
mode_t dir_mode; /**< Default mode when no RR (only permissions) */
mode_t file_mode;
int msgid;
char *input_charset; /**< Input charset for RR names */
char *local_charset; /**< For RR names, will be set to the locale one */
/**
* Will be filled with the block lba of the extend for the root directory
* of the hierarchy that will be read, either from the PVD (ISO, RR) or
* from the SVD (Joliet)
*/
uint32_t iso_root_block;
/**
* Will be filled with the block lba of the extend for the root directory,
* as read from the PVM
*/
uint32_t pvd_root_block;
/**
* Will be filled with the block lba of the extend for the root directory,
* as read from the SVD
*/
uint32_t svd_root_block;
/**
* Will be filled with the block lba of the extend for the root directory,
* as read from the enhanced volume descriptor (ISO 9660:1999)
*/
uint32_t evd_root_block;
/**
* If we need to read RR extensions. i.e., if the image contains RR
* extensions, and the user wants to read them.
*/
enum read_rr_ext rr;
/**
* Bytes skipped within the System Use field of a directory record, before
* the beginning of the SUSP system user entries. See IEEE 1281, SUSP. 5.3.
*/
uint8_t len_skp;
/* Volume attributes */
char *volset_id;
char *volume_id; /**< Volume identifier. */
char *publisher_id; /**< Volume publisher. */
char *data_preparer_id; /**< Volume data preparer. */
char *system_id; /**< Volume system identifier. */
char *application_id; /**< Volume application id */
char *copyright_file_id;
char *abstract_file_id;
char *biblio_file_id;
/* extension information */
/**
* RR version being used in image.
* 0 no RR extension, 1 RRIP 1.10, 2 RRIP 1.12
*/
enum read_rr_ext rr_version;
/** If Joliet extensions are available on image */
unsigned int joliet : 1;
/** If ISO 9660:1999 is available on image */
unsigned int iso1999 : 1;
#ifdef Libisofs_with_aaiP
/* ts A90121 */
/** Whether AAIP info shall be loaded if it is present.
* 1 = yes , 0 = no
*/
int aaip_load;
/** Whether AAIP is present. Version major.minor = major * 100 + minor
* Value -1 means that no AAIP ER was detected yet.
*/
int aaip_version;
#endif /* ! Libisofs_with_aaiP */
/**
* Number of blocks of the volume, as reported in the PVM.
*/
uint32_t nblocks;
/* el-torito information */
unsigned int eltorito : 1; /* is el-torito available */
unsigned int bootable:1; /**< If the entry is bootable. */
unsigned char type; /**< The type of image */
unsigned char partition_type; /**< type of partition for HD-emul images */
short load_seg; /**< Load segment for the initial boot image. */
short load_size; /**< Number of sectors to load. */
uint32_t imgblock; /**< Block for El-Torito boot image */
uint32_t catblock; /**< Block for El-Torito catalog */
} _ImageFsData;
typedef struct image_fs_data ImageFileSourceData;
struct image_fs_data
{
IsoImageFilesystem *fs; /**< reference to the image it belongs to */
IsoFileSource *parent; /**< reference to the parent (NULL if root) */
struct stat info; /**< filled struct stat */
char *name; /**< name of this file */
/**
* Location of file extents.
*/
struct iso_file_section *sections;
int nsections;
unsigned int opened : 2; /**< 0 not opened, 1 opened file, 2 opened dir */
/* info for content reading */
struct
{
/**
* - For regular files, once opened it points to a temporary data
* buffer of 2048 bytes.
* - For dirs, once opened it points to a IsoFileSource* array with
* its children
* - For symlinks, it points to link destination
*/
void *content;
/**
* - For regular files, number of bytes already read.
*/
off_t offset;
} data;
#ifdef Libisofs_with_aaiP
/* ts A90114 */
/**
* malloc() storage for the string of AA fields which represent
* ACLs and XFS-style Extended Attributes. (Not to be confused with
* ECMA-119 Extended Attributes.)
*/
unsigned char *aa_string;
#endif /* Libisofs_with_aaiP */
};
struct child_list
{
IsoFileSource *file;
struct child_list *next;
};
void child_list_free(struct child_list *list)
{
struct child_list *temp;
struct child_list *next = list;
while (next != NULL) {
temp = next->next;
iso_file_source_unref(next->file);
free(next);
next = temp;
}
}
static
char* ifs_get_path(IsoFileSource *src)
{
ImageFileSourceData *data;
data = src->data;
if (data->parent == NULL) {
return strdup("");
} else {
char *path = ifs_get_path(data->parent);
int pathlen = strlen(path);
path = realloc(path, pathlen + strlen(data->name) + 2);
path[pathlen] = '/';
path[pathlen + 1] = '\0';
return strcat(path, data->name);
}
}
static
char* ifs_get_name(IsoFileSource *src)
{
ImageFileSourceData *data;
data = src->data;
return data->name == NULL ? NULL : strdup(data->name);
}
static
int ifs_lstat(IsoFileSource *src, struct stat *info)
{
ImageFileSourceData *data;
if (src == NULL || info == NULL) {
return ISO_NULL_POINTER;
}
data = src->data;
*info = data->info;
return ISO_SUCCESS;
}
static
int ifs_stat(IsoFileSource *src, struct stat *info)
{
ImageFileSourceData *data;
if (src == NULL || info == NULL || src->data == NULL) {
return ISO_NULL_POINTER;
}
data = (ImageFileSourceData*)src->data;
if (S_ISLNK(data->info.st_mode)) {
/* TODO #00012 : support follow symlinks on image filesystem */
return ISO_FILE_BAD_PATH;
}
*info = data->info;
return ISO_SUCCESS;
}
static
int ifs_access(IsoFileSource *src)
{
/* we always have access, it is controlled by DataSource */
return ISO_SUCCESS;
}
/**
* Read all directory records in a directory, and creates an IsoFileSource for
* each of them, storing them in the data field of the IsoFileSource for the
* given dir.
*/
static
int read_dir(ImageFileSourceData *data)
{
int ret;
uint32_t size;
uint32_t block;
IsoImageFilesystem *fs;
_ImageFsData *fsdata;
struct ecma119_dir_record *record;
uint8_t buffer[BLOCK_SIZE];
IsoFileSource *child = NULL;
uint32_t pos = 0;
uint32_t tlen = 0;
if (data == NULL) {
return ISO_NULL_POINTER;
}
fs = data->fs;
fsdata = fs->data;
/* a dir has always a single extent */
block = data->sections[0].block;
ret = fsdata->src->read_block(fsdata->src, block, buffer);
if (ret < 0) {
return ret;
}
/* "." entry, get size of the dir and skip */
record = (struct ecma119_dir_record *)(buffer + pos);
size = iso_read_bb(record->length, 4, NULL);
tlen += record->len_dr[0];
pos += record->len_dr[0];
/* skip ".." */
record = (struct ecma119_dir_record *)(buffer + pos);
tlen += record->len_dr[0];
pos += record->len_dr[0];
while (tlen < size) {
record = (struct ecma119_dir_record *)(buffer + pos);
if (pos == 2048 || record->len_dr[0] == 0) {
/*
* The directory entries are splitted in several blocks
* read next block
*/
ret = fsdata->src->read_block(fsdata->src, ++block, buffer);
if (ret < 0) {
return ret;
}
tlen += 2048 - pos;
pos = 0;
continue;
}
/*
* What about ignoring files with existence flag?
* if (record->flags[0] & 0x01)
* continue;
*/
/*
* For a extrange reason, mkisofs relocates directories under
* a RR_MOVED dir. It seems that it is only used for that purposes,
* and thus it should be removed from the iso tree before
* generating a new image with libisofs, that don't uses it.
*/
if (data->parent == NULL && record->len_fi[0] == 8
&& !strncmp((char*)record->file_id, "RR_MOVED", 8)) {
iso_msg_debug(fsdata->msgid, "Skipping RR_MOVE entry.");
tlen += record->len_dr[0];
pos += record->len_dr[0];
continue;
}
/*
* We pass a NULL parent instead of dir, to prevent the circular
* reference from child to parent.
*/
ret = iso_file_source_new_ifs(fs, NULL, record, &child);
if (ret < 0) {
if (child) {
/*
* This can only happen with multi-extent files.
*/
ImageFileSourceData *ifsdata = child->data;
free(ifsdata->sections);
free(ifsdata->name);
free(ifsdata);
free(child);
}
return ret;
}
/* add to the child list */
if (ret == 1) {
struct child_list *node;
node = malloc(sizeof(struct child_list));
if (node == NULL) {
iso_file_source_unref(child);
return ISO_OUT_OF_MEM;
}
/*
* Note that we insert in reverse order. This leads to faster
* addition here, but also when adding to the tree, as insertion
* will be done, sorted, in the first position of the list.
*/
node->next = data->data.content;
node->file = child;
data->data.content = node;
child = NULL;
}
tlen += record->len_dr[0];
pos += record->len_dr[0];
}
return ISO_SUCCESS;
}
static
int ifs_open(IsoFileSource *src)
{
int ret;
ImageFileSourceData *data;
if (src == NULL || src->data == NULL) {
return ISO_NULL_POINTER;
}
data = (ImageFileSourceData*)src->data;
if (data->opened) {
return ISO_FILE_ALREADY_OPENED;
}
if (S_ISDIR(data->info.st_mode)) {
/* ensure fs is openned */
ret = data->fs->open(data->fs);
if (ret < 0) {
return ret;
}
/*
* Cache all directory entries.
* This can waste more memory, but improves as disc is read in much more
* sequencially way, thus reducing jump between tracks on disc
*/
ret = read_dir(data);
data->fs->close(data->fs);
if (ret < 0) {
/* free probably allocated children */
child_list_free((struct child_list*)data->data.content);
} else {
data->opened = 2;
}
return ret;
} else if (S_ISREG(data->info.st_mode)) {
/* ensure fs is openned */
ret = data->fs->open(data->fs);
if (ret < 0) {
return ret;
}
data->data.content = malloc(BLOCK_SIZE);
if (data->data.content == NULL) {
return ISO_OUT_OF_MEM;
}
data->data.offset = 0;
data->opened = 1;
} else {
/* symlinks and special files inside image can't be openned */
return ISO_FILE_ERROR;
}
return ISO_SUCCESS;
}
static
int ifs_close(IsoFileSource *src)
{
ImageFileSourceData *data;
if (src == NULL || src->data == NULL) {
return ISO_NULL_POINTER;
}
data = (ImageFileSourceData*)src->data;
if (!data->opened) {
return ISO_FILE_NOT_OPENED;
}
if (data->opened == 2) {
/*
* close a dir, free all pending pre-allocated children.
* not that we don't need to close the filesystem, it was already
* closed
*/
child_list_free((struct child_list*) data->data.content);
data->data.content = NULL;
data->opened = 0;
} else if (data->opened == 1) {
/* close regular file */
free(data->data.content);
data->fs->close(data->fs);
data->data.content = NULL;
data->opened = 0;
} else {
/* TODO only dirs and files supported for now */
return ISO_ERROR;
}
return ISO_SUCCESS;
}
/**
* Computes the block where the given offset should start.
*/
static
uint32_t block_from_offset(int nsections, struct iso_file_section *sections,
off_t offset)
{
int section = 0;
off_t bytes = 0;
do {
if ( (offset - bytes) < (off_t) sections[section].size ) {
return sections[section].block + (offset - bytes) / BLOCK_SIZE;
} else {
bytes += (off_t) sections[section].size;
section++;
}
} while(section < nsections);
return 0; /* should never happen */
}
/**
* Get the size available for reading on the corresponding block
*/
static
uint32_t size_available(int nsections, struct iso_file_section *sections,
off_t offset)
{
int section = 0;
off_t bytes = 0;
do {
if ( (offset - bytes) < (off_t) sections[section].size ) {
uint32_t curr_section_offset = (uint32_t)(offset - bytes);
uint32_t curr_section_left = sections[section].size - curr_section_offset;
uint32_t available = BLOCK_SIZE - curr_section_offset % BLOCK_SIZE;
return MIN(curr_section_left, available);
} else {
bytes += (off_t) sections[section].size;
section++;
}
} while(section < nsections);
return 0; /* should never happen */
}
/**
* Get the block offset for reading the given file offset
*/
static
uint32_t block_offset(int nsections, struct iso_file_section *sections,
off_t offset)
{
int section = 0;
off_t bytes = 0;
do {
if ( (offset - bytes) < (off_t) sections[section].size ) {
return (uint32_t)(offset - bytes) % BLOCK_SIZE;
} else {
bytes += (off_t) sections[section].size;
section++;
}
} while(section < nsections);
return 0; /* should never happen */
}
/**
* Attempts to read up to count bytes from the given source into
* the buffer starting at buf.
*
* The file src must be open() before calling this, and close() when no
* more needed. Not valid for dirs. On symlinks it reads the destination
* file.
*
* @return
* number of bytes read, 0 if EOF, < 0 on error
* Error codes:
* ISO_FILE_ERROR
* ISO_NULL_POINTER
* ISO_FILE_NOT_OPENED
* ISO_FILE_IS_DIR
* ISO_OUT_OF_MEM
* ISO_INTERRUPTED
*/
static
int ifs_read(IsoFileSource *src, void *buf, size_t count)
{
int ret;
ImageFileSourceData *data;
uint32_t read = 0;
if (src == NULL || src->data == NULL || buf == NULL) {
return ISO_NULL_POINTER;
}
if (count == 0) {
return ISO_WRONG_ARG_VALUE;
}
data = (ImageFileSourceData*)src->data;
if (!data->opened) {
return ISO_FILE_NOT_OPENED;
} else if (data->opened != 1) {
return ISO_FILE_IS_DIR;
}
while (read < count && data->data.offset < data->info.st_size) {
size_t bytes;
uint8_t *orig;
if (block_offset(data->nsections, data->sections, data->data.offset) == 0) {
/* we need to buffer next block */
uint32_t block;
_ImageFsData *fsdata;
if (data->data.offset >= data->info.st_size) {
/* EOF */
break;
}
fsdata = data->fs->data;
block = block_from_offset(data->nsections, data->sections,
data->data.offset);
ret = fsdata->src->read_block(fsdata->src, block,
data->data.content);
if (ret < 0) {
return ret;
}
}
/* how much can I read */
bytes = MIN(size_available(data->nsections, data->sections, data->data.offset),
count - read);
if (data->data.offset + (off_t)bytes > data->info.st_size) {
bytes = data->info.st_size - data->data.offset;
}
orig = data->data.content;
orig += block_offset(data->nsections, data->sections, data->data.offset);
memcpy((uint8_t*)buf + read, orig, bytes);
read += bytes;
data->data.offset += (off_t)bytes;
}
return read;
}
static
off_t ifs_lseek(IsoFileSource *src, off_t offset, int flag)
{
ImageFileSourceData *data;
if (src == NULL) {
return (off_t)ISO_NULL_POINTER;
}
if (offset < (off_t)0) {
return (off_t)ISO_WRONG_ARG_VALUE;
}
data = src->data;
if (!data->opened) {
return (off_t)ISO_FILE_NOT_OPENED;
} else if (data->opened != 1) {
return (off_t)ISO_FILE_IS_DIR;
}
switch (flag) {
case 0: /* SEEK_SET */
data->data.offset = offset;
break;
case 1: /* SEEK_CUR */
data->data.offset += offset;
break;
case 2: /* SEEK_END */
/* do this make sense? */
data->data.offset = data->info.st_size + offset;
break;
default:
return (off_t)ISO_WRONG_ARG_VALUE;
}
/*
* We check for block_offset != 0 because if it is already 0, the block
* will be read from image in the read function
*/
if (block_offset(data->nsections, data->sections, data->data.offset) != 0) {
/* we need to buffer the block */
uint32_t block;
_ImageFsData *fsdata;
if (data->data.offset < data->info.st_size) {
int ret;
fsdata = data->fs->data;
block = block_from_offset(data->nsections, data->sections,
data->data.offset);
ret = fsdata->src->read_block(fsdata->src, block,
data->data.content);
if (ret < 0) {
return (off_t)ret;
}
}
}
return data->data.offset;
}
static
int ifs_readdir(IsoFileSource *src, IsoFileSource **child)
{
ImageFileSourceData *data, *cdata;
struct child_list *children;
if (src == NULL || src->data == NULL || child == NULL) {
return ISO_NULL_POINTER;
}
data = (ImageFileSourceData*)src->data;
if (!data->opened) {
return ISO_FILE_NOT_OPENED;
} else if (data->opened != 2) {
return ISO_FILE_IS_NOT_DIR;
}
/* return the first child and free it */
if (data->data.content == NULL) {
return 0; /* EOF */
}
children = (struct child_list*)data->data.content;
*child = children->file;
cdata = (ImageFileSourceData*)(*child)->data;
/* set the ref to the parent */
cdata->parent = src;
iso_file_source_ref(src);
/* free the first element of the list */
data->data.content = children->next;
free(children);
return ISO_SUCCESS;
}
/**
* Read the destination of a symlink. You don't need to open the file
* to call this.
*
* @param buf
* allocated buffer of at least bufsiz bytes.
* The dest. will be copied there, and it will be NULL-terminated
* @param bufsiz
* characters to be copied. Destination link will be truncated if
* it is larger than given size. This include the \0 character.
* @return
* 1 on success, < 0 on error
* Error codes:
* ISO_FILE_ERROR
* ISO_NULL_POINTER
* ISO_WRONG_ARG_VALUE -> if bufsiz <= 0
* ISO_FILE_IS_NOT_SYMLINK
* ISO_OUT_OF_MEM
* ISO_FILE_BAD_PATH
* ISO_FILE_DOESNT_EXIST
*
*/
static
int ifs_readlink(IsoFileSource *src, char *buf, size_t bufsiz)
{
char *dest;
size_t len;
ImageFileSourceData *data;
if (src == NULL || buf == NULL || src->data == NULL) {
return ISO_NULL_POINTER;
}
if (bufsiz <= 0) {
return ISO_WRONG_ARG_VALUE;
}
data = (ImageFileSourceData*)src->data;
if (!S_ISLNK(data->info.st_mode)) {
return ISO_FILE_IS_NOT_SYMLINK;
}
dest = (char*)data->data.content;
len = strlen(dest);
if (bufsiz <= len) {
len = bufsiz - 1;
}
strncpy(buf, dest, len);
buf[len] = '\0';
return ISO_SUCCESS;
}
static
IsoFilesystem* ifs_get_filesystem(IsoFileSource *src)
{
ImageFileSourceData *data;
if (src == NULL) {
return NULL;
}
data = src->data;
return data->fs;
}
static
void ifs_free(IsoFileSource *src)
{
ImageFileSourceData *data;
data = src->data;
/* close the file if it is already openned */
if (data->opened) {
src->class->close(src);
}
/* free destination if it is a link */
if (S_ISLNK(data->info.st_mode)) {
free(data->data.content);
}
iso_filesystem_unref(data->fs);
if (data->parent != NULL) {
iso_file_source_unref(data->parent);
}
free(data->sections);
free(data->name);
#ifdef Libisofs_with_aaiP
/* ts A90115 */
if (data->aa_string != NULL)
free(data->aa_string);
#endif /* Libisofs_with_aaiP */
free(data);
}
#ifdef Libisofs_with_aaiP
static
int ifs_get_aa_string(IsoFileSource *src, unsigned char **aa_string, int flag)
{
size_t len;
ImageFileSourceData *data;
data = src->data;
if ((flag & 1) || data->aa_string == NULL) {
*aa_string = data->aa_string;
data->aa_string = NULL;
} else {
len = aaip_count_bytes(data->aa_string, 0);
*aa_string = calloc(len, 1);
if (*aa_string == NULL)
return ISO_OUT_OF_MEM;
memcpy(*aa_string, data->aa_string, len);
aaip_set_signature("AA", *aa_string, 0); /* libisofs.h demands so */
}
return 1;
}
#endif /* Libisofs_with_aaiP */
IsoFileSourceIface ifs_class = {
#ifdef Libisofs_with_aaiP
1, /* version */
#else
0, /* version */
#endif
ifs_get_path,
ifs_get_name,
ifs_lstat,
ifs_stat,
ifs_access,
ifs_open,
ifs_close,
ifs_read,
ifs_readdir,
ifs_readlink,
ifs_get_filesystem,
ifs_free,
ifs_lseek
#ifdef Libisofs_with_aaiP
,
ifs_get_aa_string
#endif
};
/**
* Read a file name from a directory record, doing the needed charset
* conversion
*/
static
char *get_name(_ImageFsData *fsdata, const char *str, size_t len)
{
int ret;
char *name = NULL;
if (strcmp(fsdata->local_charset, fsdata->input_charset)) {
/* charset conversion needed */
ret = strnconv(str, fsdata->input_charset, fsdata->local_charset, len,
&name);
if (ret == 1) {
return name;
} else {
ret = iso_msg_submit(fsdata->msgid, ISO_FILENAME_WRONG_CHARSET, ret,
"Charset conversion error. Cannot convert from %s to %s",
fsdata->input_charset, fsdata->local_charset);
if (ret < 0) {
return NULL; /* aborted */
}
/* fallback */
}
}
/* we reach here when the charset conversion is not needed or has failed */
name = malloc(len + 1);
if (name == NULL) {
return NULL;
}
memcpy(name, str, len);
name[len] = '\0';
return name;
}
/**
*
* @param src
* if not-NULL, it points to a multi-extent file returned by a previous
* call to this function.
* @return
* 2 node is still incomplete (multi-extent)
* 1 success, 0 record ignored (not an error, can be a relocated dir),
* < 0 error
*/
static
int iso_file_source_new_ifs(IsoImageFilesystem *fs, IsoFileSource *parent,
struct ecma119_dir_record *record,
IsoFileSource **src)
{
int ret;
struct stat atts;
time_t recorded;
_ImageFsData *fsdata;
IsoFileSource *ifsrc = NULL;
ImageFileSourceData *ifsdata = NULL;
int namecont = 0; /* 1 if found a NM with CONTINUE flag */
char *name = NULL;
/* 1 if found a SL with CONTINUE flag,
* 2 if found a component with continue flag */
int linkdestcont = 0;
char *linkdest = NULL;
uint32_t relocated_dir = 0;
#ifdef Libisofs_with_aaiP
/* ts A90115 */
unsigned char *aa_string = NULL;
size_t aa_size = 0, aa_len = 0, prev_field = 0;
int aa_done = 0;
#endif /* Libisofs_with_aaiP */
if (fs == NULL || fs->data == NULL || record == NULL || src == NULL) {
return ISO_NULL_POINTER;
}
fsdata = (_ImageFsData*)fs->data;
memset(&atts, 0, sizeof(struct stat));
/*
* First of all, check for unsupported ECMA-119 features
*/
/* check for unsupported interleaved mode */
if (record->file_unit_size[0] || record->interleave_gap_size[0]) {
iso_msg_submit(fsdata->msgid, ISO_UNSUPPORTED_ECMA119, 0,
"Unsupported image. This image has at least one file recorded "
"in interleaved mode. We do not support this mode, as we think "
"it is not used. If you are reading this, then we are wrong :) "
"Please contact libisofs developers, so we can fix this.");
return ISO_UNSUPPORTED_ECMA119;
}
/*
* Check for extended attributes, that are not supported. Note that even
* if we don't support them, it is easy to ignore them.
*/
if (record->len_xa[0]) {
iso_msg_submit(fsdata->msgid, ISO_UNSUPPORTED_ECMA119, 0,
"Unsupported image. This image has at least one file with "
"ECMA-119 Extended Attributes, that are not supported");
return ISO_UNSUPPORTED_ECMA119;
}
/* TODO #00013 : check for unsupported flags when reading a dir record */
/*
* If src is not-NULL, it refers to more extents of this file. We ensure
* name matches, otherwise it means we are dealing with wrong image
*/
if (*src != NULL) {
ImageFileSourceData* data = (*src)->data;
char* new_name = get_name(fsdata, (char*)record->file_id, record->len_fi[0]);
if (new_name == NULL) {
iso_msg_submit(fsdata->msgid, ISO_WRONG_ECMA119, 0,
"Cannot retrieve file name");
return ISO_WRONG_ECMA119;
}
if (strcmp(new_name, data->name)) {
iso_msg_submit(fsdata->msgid, ISO_WRONG_ECMA119, 0,
"Multi-extent file lacks last entry.");
free(new_name);
return ISO_WRONG_ECMA119;
}
free(new_name);
}
/* check for multi-extent */
if (record->flags[0] & 0x80) {
iso_msg_debug(fsdata->msgid, "Found multi-extent file");
/*
* Directory entries can only have one section (ECMA-119, 6.8.1)
*/
if (record->flags[0] & 0x02) {
iso_msg_submit(fsdata->msgid, ISO_WRONG_ECMA119, 0,
"Directories with more than one section are not allowed.");
return ISO_WRONG_ECMA119;
}
if (*src == NULL) {
ifsdata = calloc(1, sizeof(ImageFileSourceData));
if (ifsdata == NULL) {
ret = ISO_OUT_OF_MEM;
goto ifs_cleanup;
}
ifsrc = calloc(1, sizeof(IsoFileSource));
if (ifsrc == NULL) {
ret = ISO_OUT_OF_MEM;
goto ifs_cleanup;
}
ifsrc->data = ifsdata;
ifsdata->name = get_name(fsdata, (char*)record->file_id, record->len_fi[0]);
if (ifsdata->name == NULL) {
iso_msg_submit(fsdata->msgid, ISO_WRONG_ECMA119, 0,
"Cannot retrieve file name");
ret = ISO_WRONG_ECMA119;
goto ifs_cleanup;
}
*src = ifsrc;
} else {
ifsdata = (*src)->data;
}
/* store current extent */
ifsdata->sections = realloc(ifsdata->sections,
(1 + ifsdata->nsections) * sizeof(struct iso_file_section));
if (ifsdata->sections == NULL) {
free(ifsdata->name);
ret = ISO_OUT_OF_MEM;
goto ifs_cleanup;
}
ifsdata->sections[ifsdata->nsections].block = iso_read_bb(record->block, 4, NULL);
ifsdata->sections[ifsdata->nsections].size = iso_read_bb(record->length, 4, NULL);
ifsdata->info.st_size += (off_t) ifsdata->sections[ifsdata->nsections].size;
ifsdata->nsections++;
return 2;
}
/*
* The idea is to read all the RR entries (if we want to do that and RR
* extensions exist on image), storing the info we want from that.
* Then, we need some sanity checks.
* Finally, we select what kind of node it is, and set values properly.
*/
if (fsdata->rr) {
struct susp_sys_user_entry *sue;
SuspIterator *iter;
iter = susp_iter_new(fsdata->src, record, fsdata->len_skp,
fsdata->msgid);
if (iter == NULL) {
return ISO_OUT_OF_MEM;
}
while ((ret = susp_iter_next(iter, &sue)) > 0) {
/* ignore entries from different version */
if (sue->version[0] != 1)
continue;
if (SUSP_SIG(sue, 'P', 'X')) {
ret = read_rr_PX(sue, &atts);
if (ret < 0) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, ret,
"Invalid PX entry");
}
} else if (SUSP_SIG(sue, 'T', 'F')) {
ret = read_rr_TF(sue, &atts);
if (ret < 0) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, ret,
"Invalid TF entry");
}
} else if (SUSP_SIG(sue, 'N', 'M')) {
if (name != NULL && namecont == 0) {
/* ups, RR standard violation */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, 0,
"New NM entry found without previous"
"CONTINUE flag. Ignored");
continue;
}
ret = read_rr_NM(sue, &name, &namecont);
if (ret < 0) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, ret,
"Invalid NM entry");
}
} else if (SUSP_SIG(sue, 'S', 'L')) {
if (linkdest != NULL && linkdestcont == 0) {
/* ups, RR standard violation */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, 0,
"New SL entry found without previous"
"CONTINUE flag. Ignored");
continue;
}
ret = read_rr_SL(sue, &linkdest, &linkdestcont);
if (ret < 0) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, ret,
"Invalid SL entry");
}
} else if (SUSP_SIG(sue, 'R', 'E')) {
/*
* this directory entry refers to a relocated directory.
* We simply ignore it, as it will be correctly handled
* when found the CL
*/
susp_iter_free(iter);
free(name);
return 0; /* it's not an error */
} else if (SUSP_SIG(sue, 'C', 'L')) {
/*
* This entry is a placeholder for a relocated dir.
* We need to ignore other entries, with the exception of NM.
* Then we create a directory node that represents the
* relocated dir, and iterate over its children.
*/
relocated_dir = iso_read_bb(sue->data.CL.child_loc, 4, NULL);
if (relocated_dir == 0) {
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR, 0,
"Invalid SL entry, no child location");
break;
}
} else if (SUSP_SIG(sue, 'P', 'N')) {
ret = read_rr_PN(sue, &atts);
if (ret < 0) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, ret,
"Invalid PN entry");
}
} else if (SUSP_SIG(sue, 'S', 'F')) {
ret = iso_msg_submit(fsdata->msgid, ISO_UNSUPPORTED_RR, 0,
"Sparse files not supported.");
break;
} else if (SUSP_SIG(sue, 'R', 'R')) {
/* This was an optional flag byte in RRIP 1.09 which told the
reader what other RRIP fields to expect.
mkisofs emits it. We don't.
*/
continue;
} else if (SUSP_SIG(sue, 'S', 'P')) {
/*
* Ignore this, to prevent the hint message, if we are dealing
* with root node (SP is only valid in "." of root node)
*/
if (parent != NULL) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR, 0,
"SP entry found in a directory entry other "
"than '.' entry of root node");
}
continue;
} else if (SUSP_SIG(sue, 'E', 'R')) {
/*
* Ignore this, to prevent the hint message, if we are dealing
* with root node (ER is only valid in "." of root node)
*/
if (parent != NULL) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR, 0,
"ER entry found in a directory entry other "
"than '.' entry of root node");
}
continue;
#ifdef Libisofs_with_aaiP
/* ts A90115 */
} else if (SUSP_SIG(sue, 'A', 'A') && fsdata->aaip_load == 1) {
ret = read_aaip_AA(sue, "AA", &aa_string, &aa_size, &aa_len,
&prev_field, &aa_done, 0);
if (ret < 0) {
/* notify and continue */
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR_WARN, ret,
"Invalid AA entry");
continue;
}
#endif /* Libisofs_with_aaiP */
} else {
#ifdef Libisofs_with_aaiP_retro
/* ts A90112 : this message is inflationary */
ret = iso_msg_submit(fsdata->msgid, ISO_SUSP_UNHANDLED, 0,
"Unhandled SUSP entry %c%c.", sue->sig[0], sue->sig[1]);
#else
;
#endif
}
}
susp_iter_free(iter);
/* check for RR problems */
if (ret < 0) {
/* error was already submitted above */
iso_msg_debug(fsdata->msgid, "Error parsing RR entries");
} else if (!relocated_dir && atts.st_mode == (mode_t) 0 ) {
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR, 0, "Mandatory "
"Rock Ridge PX entry is not present or it "
"contains invalid values.");
} else {
/* ensure both name and link dest are finished */
if (namecont != 0) {
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR, 0,
"Incomplete RR name, last NM entry continues");
}
if (linkdestcont != 0) {
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR, 0,
"Incomplete link destination, last SL entry continues");
}
}
if (ret < 0) {
free(name);
return ret;
}
/* convert name to needed charset */
if (strcmp(fsdata->input_charset, fsdata->local_charset) && name) {
/* we need to convert name charset */
char *newname = NULL;
ret = strconv(name, fsdata->input_charset, fsdata->local_charset,
&newname);
if (ret < 0) {
/* its just a hint message */
ret = iso_msg_submit(fsdata->msgid, ISO_FILENAME_WRONG_CHARSET,
ret, "Charset conversion error. Cannot "
"convert from %s to %s",
fsdata->input_charset, fsdata->local_charset);
free(newname);
if (ret < 0) {
free(name);
return ret;
}
} else {
free(name);
name = newname;
}
}
/* convert link destination to needed charset */
if (strcmp(fsdata->input_charset, fsdata->local_charset) && linkdest) {
/* we need to convert name charset */
char *newlinkdest = NULL;
ret = strconv(linkdest, fsdata->input_charset,
fsdata->local_charset, &newlinkdest);
if (ret < 0) {
ret = iso_msg_submit(fsdata->msgid, ISO_FILENAME_WRONG_CHARSET,
ret, "Charset conversion error. Cannot "
"convert from %s to %s",
fsdata->input_charset, fsdata->local_charset);
free(newlinkdest);
if (ret < 0) {
free(name);
return ret;
}
} else {
free(linkdest);
linkdest = newlinkdest;
}
}
} else {
/* RR extensions are not read / used */
atts.st_gid = fsdata->gid;
atts.st_uid = fsdata->uid;
if (record->flags[0] & 0x02) {
atts.st_mode = S_IFDIR | fsdata->dir_mode;
} else {
atts.st_mode = S_IFREG | fsdata->file_mode;
}
}
/*
* if we haven't RR extensions, or no NM entry is present,
* we use the name in directory record
*/
if (!name) {
size_t len;
if (record->len_fi[0] == 1 && record->file_id[0] == 0) {
/* "." entry, we can call this for root node, so... */
if (!(atts.st_mode & S_IFDIR)) {
return iso_msg_submit(fsdata->msgid, ISO_WRONG_ECMA119, 0,
"Wrong ISO file name. \".\" not dir");
}
} else {
name = get_name(fsdata, (char*)record->file_id, record->len_fi[0]);
if (name == NULL) {
return iso_msg_submit(fsdata->msgid, ISO_WRONG_ECMA119, 0,
"Cannot retrieve file name");
}
/* remove trailing version number */
len = strlen(name);
if (len > 2 && name[len-2] == ';' && name[len-1] == '1') {
if (len > 3 && name[len-3] == '.') {
/*
* the "." is mandatory, so in most cases is included only
* for standard compliance
*/
name[len-3] = '\0';
} else {
name[len-2] = '\0';
}
}
}
}
if (relocated_dir) {
/*
* We are dealing with a placeholder for a relocated dir.
* Thus, we need to read attributes for this directory from the "."
* entry of the relocated dir.
*/
uint8_t buffer[BLOCK_SIZE];
ret = fsdata->src->read_block(fsdata->src, relocated_dir, buffer);
if (ret < 0) {
return ret;
}
ret = iso_file_source_new_ifs(fs, parent, (struct ecma119_dir_record*)
buffer, src);
if (ret <= 0) {
return ret;
}
/* but the real name is the name of the placeholder */
ifsdata = (ImageFileSourceData*) (*src)->data;
ifsdata->name = name;
return ISO_SUCCESS;
}
/* ts Nov 25 2008: TODO
This seems not fully consistent with read_rr_PX() which decides
by (px->len_sue[0] == 44) whether an inode number is present or not.
What if read_rr_PX finds a PX of length 36 in a IEEE_1282 image ?
It is illegal but could confuse the image by duplicate inode numbers.
Regrettably it is not enough to just use single default numbers.
If only one number misses in the image, then all would need to be
defaulted by the following iso_global_inode code.
Why do duplicate inode numbers confuse the file lengths, anyway ?
(See ticket 144)
*/
if (fsdata->rr != RR_EXT_112) {
/*
* Only RRIP 1.12 provides valid inode numbers. If not, it is not easy
* to generate those serial numbers, and we use extend block instead.
* It BREAKS POSIX SEMANTICS, but its suitable for our needs
*/
#define Libisofs_patch_ticket_144 yes
#ifdef Libisofs_patch_ticket_144
/* Trying to ensure unique inode numbers */
{
static ino_t iso_global_inode= 0;
if(iso_global_inode <= 0)
iso_global_inode= 1;
atts.st_ino = iso_global_inode++;
}
#else
/* Ticket 144: This produces duplicate numbers with empty files.
*/
atts.st_ino = (ino_t) iso_read_bb(record->block, 4, NULL);
#endif
if (fsdata->rr == 0) {
atts.st_nlink = 1;
}
}
/*
* if we haven't RR extensions, or a needed TF time stamp is not present,
* we use plain iso recording time
*/
recorded = iso_datetime_read_7(record->recording_time);
if (atts.st_atime == (time_t) 0) {
atts.st_atime = recorded;
}
if (atts.st_ctime == (time_t) 0) {
atts.st_ctime = recorded;
}
if (atts.st_mtime == (time_t) 0) {
atts.st_mtime = recorded;
}
/* the size is read from iso directory record */
atts.st_size = iso_read_bb(record->length, 4, NULL);
/* Fill last entries */
atts.st_dev = fsdata->id;
atts.st_blksize = BLOCK_SIZE;
atts.st_blocks = DIV_UP(atts.st_size, BLOCK_SIZE);
/* TODO #00014 : more sanity checks to ensure dir record info is valid */
if (S_ISLNK(atts.st_mode) && (linkdest == NULL)) {
ret = iso_msg_submit(fsdata->msgid, ISO_WRONG_RR, 0,
"Link without destination.");
free(name);
return ret;
}
/* ok, we can now create the file source */
if (*src == NULL) {
ifsdata = calloc(1, sizeof(ImageFileSourceData));
if (ifsdata == NULL) {
ret = ISO_OUT_OF_MEM;
goto ifs_cleanup;
}
ifsrc = calloc(1, sizeof(IsoFileSource));
if (ifsrc == NULL) {
ret = ISO_OUT_OF_MEM;
goto ifs_cleanup;
}
} else {
ifsdata = (*src)->data;
ifsrc = (*src);
free(ifsdata->name); /* we will assign a new one */
atts.st_size += (off_t)ifsdata->info.st_size;
}
/* fill data */
ifsdata->fs = fs;
iso_filesystem_ref(fs);
if (parent != NULL) {
ifsdata->parent = parent;
iso_file_source_ref(parent);
}
ifsdata->info = atts;
ifsdata->name = name;
#ifdef Libisofs_with_aaiP
ifsdata->aa_string = aa_string;
#endif /* Libisofs_with_aaiP */
/* save extents */
ifsdata->sections = realloc(ifsdata->sections,
(1 + ifsdata->nsections) * sizeof(struct iso_file_section));
if (ifsdata->sections == NULL) {
free(ifsdata->name);
ret = ISO_OUT_OF_MEM;
goto ifs_cleanup;
}
ifsdata->sections[ifsdata->nsections].block = iso_read_bb(record->block, 4, NULL);
ifsdata->sections[ifsdata->nsections].size = iso_read_bb(record->length, 4, NULL);
ifsdata->nsections++;
if (S_ISLNK(atts.st_mode)) {
ifsdata->data.content = linkdest;
}
ifsrc->class = &ifs_class;
ifsrc->data = ifsdata;
ifsrc->refcount = 1;
*src = ifsrc;
return ISO_SUCCESS;
ifs_cleanup: ;
free(name);
free(linkdest);
free(ifsdata);
free(ifsrc);
return ret;
}
static
int ifs_get_root(IsoFilesystem *fs, IsoFileSource **root)
{
int ret;
_ImageFsData *data;
uint8_t buffer[BLOCK_SIZE];
if (fs == NULL || fs->data == NULL || root == NULL) {
return ISO_NULL_POINTER;
}
data = (_ImageFsData*)fs->data;
/* open the filesystem */
ret = ifs_fs_open((IsoImageFilesystem*)fs);
if (ret < 0) {
return ret;
}
/* read extend for root record */
ret = data->src->read_block(data->src, data->iso_root_block, buffer);
if (ret < 0) {
ifs_fs_close((IsoImageFilesystem*)fs);
return ret;
}
/* get root attributes from "." entry */
*root = NULL;
ret = iso_file_source_new_ifs((IsoImageFilesystem*)fs, NULL,
(struct ecma119_dir_record*) buffer, root);
ifs_fs_close((IsoImageFilesystem*)fs);
return ret;
}
/**
* Find a file inside a node.
*
* @param file
* it is not modified if requested file is not found
* @return
* 1 success, 0 not found, < 0 error
*/
static
int ifs_get_file(IsoFileSource *dir, const char *name, IsoFileSource **file)
{
int ret;
IsoFileSource *src;
ret = iso_file_source_open(dir);
if (ret < 0) {
return ret;
}
while ((ret = iso_file_source_readdir(dir, &src)) == 1) {
char *fname = iso_file_source_get_name(src);
if (!strcmp(name, fname)) {
free(fname);
*file = src;
ret = ISO_SUCCESS;
break;
}
free(fname);
iso_file_source_unref(src);
}
iso_file_source_close(dir);
return ret;
}
static
int ifs_get_by_path(IsoFilesystem *fs, const char *path, IsoFileSource **file)
{
int ret;
_ImageFsData *data;
IsoFileSource *src;
char *ptr, *brk_info, *component;
if (fs == NULL || fs->data == NULL || path == NULL || file == NULL) {
return ISO_NULL_POINTER;
}
if (path[0] != '/') {
/* only absolute paths supported */
return ISO_FILE_BAD_PATH;
}
data = (_ImageFsData*)fs->data;
/* open the filesystem */
ret = ifs_fs_open((IsoImageFilesystem*)fs);
if (ret < 0) {
return ret;
}
ret = ifs_get_root(fs, &src);
if (ret < 0) {
return ret;
}
if (!strcmp(path, "/")) {
/* we are looking for root */
*file = src;
ret = ISO_SUCCESS;
goto get_path_exit;
}
ptr = strdup(path);
if (ptr == NULL) {
iso_file_source_unref(src);
ret = ISO_OUT_OF_MEM;
goto get_path_exit;
}
component = strtok_r(ptr, "/", &brk_info);
while (component) {
IsoFileSource *child = NULL;
ImageFileSourceData *fdata;
fdata = src->data;
if (!S_ISDIR(fdata->info.st_mode)) {
ret = ISO_FILE_BAD_PATH;
break;
}
ret = ifs_get_file(src, component, &child);
iso_file_source_unref(src);
if (ret <= 0) {
break;
}
src = child;
component = strtok_r(NULL, "/", &brk_info);
}
free(ptr);
if (ret < 0) {
iso_file_source_unref(src);
} else if (ret == 0) {
ret = ISO_FILE_DOESNT_EXIST;
} else {
*file = src;
}
get_path_exit:;
ifs_fs_close((IsoImageFilesystem*)fs);
return ret;
}
unsigned int ifs_get_id(IsoFilesystem *fs)
{
return ISO_IMAGE_FS_ID;
}
static
int ifs_fs_open(IsoImageFilesystem *fs)
{
_ImageFsData *data;
if (fs == NULL || fs->data == NULL) {
return ISO_NULL_POINTER;
}
data = (_ImageFsData*)fs->data;
if (data->open_count == 0) {
/* we need to actually open the data source */
int res = data->src->open(data->src);
if (res < 0) {
return res;
}
}
++data->open_count;
return ISO_SUCCESS;
}
static
int ifs_fs_close(IsoImageFilesystem *fs)
{
_ImageFsData *data;
if (fs == NULL || fs->data == NULL) {
return ISO_NULL_POINTER;
}
data = (_ImageFsData*)fs->data;
if (--data->open_count == 0) {
/* we need to actually close the data source */
return data->src->close(data->src);
}
return ISO_SUCCESS;
}
static
void ifs_fs_free(IsoFilesystem *fs)
{
IsoImageFilesystem *ifs;
_ImageFsData *data;
ifs = (IsoImageFilesystem*)fs;
data = (_ImageFsData*) fs->data;
/* close data source if already openned */
if (data->open_count > 0) {
data->src->close(data->src);
}
/* free our ref to datasource */
iso_data_source_unref(data->src);
/* free volume atts */
free(data->volset_id);
free(data->volume_id);
free(data->publisher_id);
free(data->data_preparer_id);
free(data->system_id);
free(data->application_id);
free(data->copyright_file_id);
free(data->abstract_file_id);
free(data->biblio_file_id);
free(data->input_charset);
free(data->local_charset);
free(data);
}
/**
* Read the SUSP system user entries of the "." entry of the root directory,
* indentifying when Rock Ridge extensions are being used.
*
* @return
* 1 success, 0 ignored, < 0 error
*/
static
int read_root_susp_entries(_ImageFsData *data, uint32_t block)
{
int ret;
unsigned char buffer[2048];
struct ecma119_dir_record *record;
struct susp_sys_user_entry *sue;
SuspIterator *iter;
ret = data->src->read_block(data->src, block, buffer);
if (ret < 0) {
return ret;
}
/* record will be the "." directory entry for the root record */
record = (struct ecma119_dir_record *)buffer;
/*
* TODO #00015 : take care of CD-ROM XA discs when reading SP entry
* SUSP specification claims that for CD-ROM XA the SP entry
* is not at position BP 1, but at BP 15. Is that used?
* In that case, we need to set info->len_skp to 15!!
*/
iter = susp_iter_new(data->src, record, data->len_skp, data->msgid);
if (iter == NULL) {
return ISO_OUT_OF_MEM;
}
/* first entry must be an SP system use entry */
ret = susp_iter_next(iter, &sue);
if (ret < 0) {
/* error */
susp_iter_free(iter);
return ret;
} else if (ret == 0 || !SUSP_SIG(sue, 'S', 'P') ) {
iso_msg_debug(data->msgid, "SUSP/RR is not being used.");
susp_iter_free(iter);
return ISO_SUCCESS;
}
/* it is a SP system use entry */
if (sue->version[0] != 1 || sue->data.SP.be[0] != 0xBE
|| sue->data.SP.ef[0] != 0xEF) {
susp_iter_free(iter);
return iso_msg_submit(data->msgid, ISO_UNSUPPORTED_SUSP, 0,
"SUSP SP system use entry seems to be wrong. "
"Ignoring Rock Ridge Extensions.");
}
iso_msg_debug(data->msgid, "SUSP/RR is being used.");
/*
* The LEN_SKP field, defined in IEEE 1281, SUSP. 5.3, specifies the
* number of bytes to be skipped within each System Use field.
* I think this will be always 0, but given that support this standard
* feature is easy...
*/
data->len_skp = sue->data.SP.len_skp[0];
/*
* Ok, now search for ER entry.
* Just notice that the attributes for root dir are read elsewhere.
*
* TODO #00016 : handle non RR ER entries
*
* if several ER are present, we need to identify the position of
* what refers to RR, and then look for corresponding ES entry in
* each directory record. I have not implemented this (it's not used,
* no?), but if we finally need it, it can be easily implemented in
* the iterator, transparently for the rest of the code.
*/
while ((ret = susp_iter_next(iter, &sue)) > 0) {
/* ignore entries from different version */
if (sue->version[0] != 1)
continue;
if (SUSP_SIG(sue, 'E', 'R')) {
#ifdef Libisofs_with_aaiP_retro
/* ts A90113 : this warning is not appropriate any more */
if (data->rr_version) {
ret = iso_msg_submit(data->msgid, ISO_SUSP_MULTIPLE_ER, 0,
"More than one ER has found. This is not supported. "
"It will be ignored, but can cause problems. "
"Please notify us about this.");
if (ret < 0) {
break;
}
}
#endif /* ! Libisofs_with_aaiP_retro */
/*
* it seems that Rock Ridge can be identified with any
* of the following
*/
if ( sue->data.ER.len_id[0] == 10 &&
!strncmp((char*)sue->data.ER.ext_id, "RRIP_1991A", 10) ) {
iso_msg_debug(data->msgid,
"Suitable Rock Ridge ER found. Version 1.10.");
data->rr_version = RR_EXT_110;
} else if ( (sue->data.ER.len_id[0] == 10 &&
!strncmp((char*)sue->data.ER.ext_id, "IEEE_P1282", 10))
|| (sue->data.ER.len_id[0] == 9 &&
!strncmp((char*)sue->data.ER.ext_id, "IEEE_1282", 9)) ) {
iso_msg_debug(data->msgid,
"Suitable Rock Ridge ER found. Version 1.12.");
data->rr_version = RR_EXT_112;
#ifndef Libisofs_with_aaiP_retro
/* ts A90113 : tolerate AAIP ER even if not supported */
} else if ( (sue->data.ER.len_id[0] == 9 &&
!strncmp((char*)sue->data.ER.ext_id, "AAIP_0002", 9)) ) {
iso_msg_debug(data->msgid,
"Arbitrary Attribute ER found. Version 0.2.");
#ifdef Libisofs_with_aaiP
data->aaip_version = 2;
if (!data->aaip_load)
iso_msg_submit(data->msgid, ISO_DATA_AAIP_IGNORED, 0,
"Identifier for extension AAIP 0.2 found, but loading is not enabled.");
#else /* Libisofs_with_aaiP */
iso_msg_submit(data->msgid, ISO_DATA_AAIP_IGNORED, 0,
"Identifier for future extension AAIP 0.2 found and ignored.");
#endif /* ! Libisofs_with_aaiP */
#endif /* ! Libisofs_with_aaiP_retro */
} else {
ret = iso_msg_submit(data->msgid, ISO_SUSP_MULTIPLE_ER, 0,
"Non-Rock-Ridge ER found.\n"
"It will be ignored, but can cause problems in "
"image reading. Please notify us about this.");
if (ret < 0) {
break;
}
}
}
}
susp_iter_free(iter);
if (ret < 0) {
return ret;
}
return ISO_SUCCESS;
}
static
int read_pvm(_ImageFsData *data, uint32_t block)
{
int ret;
struct ecma119_pri_vol_desc *pvm;
struct ecma119_dir_record *rootdr;
uint8_t buffer[BLOCK_SIZE];
/* read PVM */
ret = data->src->read_block(data->src, block, buffer);
if (ret < 0) {
return ret;
}
pvm = (struct ecma119_pri_vol_desc *)buffer;
/* sanity checks */
if (pvm->vol_desc_type[0] != 1 || pvm->vol_desc_version[0] != 1
|| strncmp((char*)pvm->std_identifier, "CD001", 5)
|| pvm->file_structure_version[0] != 1) {
return ISO_WRONG_PVD;
}
/* ok, it is a valid PVD */
/* fill volume attributes */
/* TODO take care of input charset */
data->volset_id = strcopy((char*)pvm->vol_set_id, 128);
data->volume_id = strcopy((char*)pvm->volume_id, 32);
data->publisher_id = strcopy((char*)pvm->publisher_id, 128);
data->data_preparer_id = strcopy((char*)pvm->data_prep_id, 128);
data->system_id = strcopy((char*)pvm->system_id, 32);
data->application_id = strcopy((char*)pvm->application_id, 128);
data->copyright_file_id = strcopy((char*)pvm->copyright_file_id, 37);
data->abstract_file_id = strcopy((char*)pvm->abstract_file_id, 37);
data->biblio_file_id = strcopy((char*)pvm->bibliographic_file_id, 37);
data->nblocks = iso_read_bb(pvm->vol_space_size, 4, NULL);
rootdr = (struct ecma119_dir_record*) pvm->root_dir_record;
data->pvd_root_block = iso_read_bb(rootdr->block, 4, NULL);
/*
* TODO #00017 : take advantage of other atts of PVD
* PVD has other things that could be interesting, but that don't have a
* member in IsoImage, such as creation date. In a multisession disc, we
* could keep the creation date and update the modification date, for
* example.
*/
return ISO_SUCCESS;
}
/**
* @return
* 1 success, 0 ignored, < 0 error
*/
static
int read_el_torito_boot_catalog(_ImageFsData *data, uint32_t block)
{
int ret;
struct el_torito_validation_entry *ve;
struct el_torito_default_entry *entry;
unsigned char buffer[BLOCK_SIZE];
ret = data->src->read_block(data->src, block, buffer);
if (ret < 0) {
return ret;
}
ve = (struct el_torito_validation_entry*)buffer;
/* check if it is a valid catalog (TODO: check also the checksum)*/
if ( (ve->header_id[0] != 1) || (ve->key_byte1[0] != 0x55)
|| (ve->key_byte2[0] != 0xAA) ) {
return iso_msg_submit(data->msgid, ISO_WRONG_EL_TORITO, 0,
"Wrong or damaged El-Torito Catalog. El-Torito info "
"will be ignored.");
}
/* check for a valid platform */
if (ve->platform_id[0] != 0) {
return iso_msg_submit(data->msgid, ISO_UNSUPPORTED_EL_TORITO, 0,
"Unsupported El-Torito platform. Only 80x86 is "
"supported. El-Torito info will be ignored.");
}
/* ok, once we are here we assume it is a valid catalog */
/* parse the default entry */
entry = (struct el_torito_default_entry *)(buffer + 32);
data->eltorito = 1;
data->bootable = entry->boot_indicator[0] ? 1 : 0;
data->type = entry->boot_media_type[0];
data->partition_type = entry->system_type[0];
data->load_seg = iso_read_lsb(entry->load_seg, 2);
data->load_size = iso_read_lsb(entry->sec_count, 2);
data->imgblock = iso_read_lsb(entry->block, 4);
/* TODO #00018 : check if there are more entries in the boot catalog */
return ISO_SUCCESS;
}
int iso_image_filesystem_new(IsoDataSource *src, struct iso_read_opts *opts,
int msgid, IsoImageFilesystem **fs)
{
int ret;
uint32_t block;
IsoImageFilesystem *ifs;
_ImageFsData *data;
uint8_t buffer[BLOCK_SIZE];
if (src == NULL || opts == NULL || fs == NULL) {
return ISO_NULL_POINTER;
}
data = calloc(1, sizeof(_ImageFsData));
if (data == NULL) {
return ISO_OUT_OF_MEM;
}
ifs = calloc(1, sizeof(IsoImageFilesystem));
if (ifs == NULL) {
free(data);
return ISO_OUT_OF_MEM;
}
/* get our ref to IsoDataSource */
data->src = src;
iso_data_source_ref(src);
data->open_count = 0;
/* get an id for the filesystem */
data->id = ++fs_dev_id;
/* fill data from opts */
data->gid = opts->gid;
data->uid = opts->uid;
data->file_mode = opts->file_mode & ~S_IFMT;
data->dir_mode = opts->dir_mode & ~S_IFMT;
data->msgid = msgid;
#ifdef Libisofs_with_aaiP
/* ts A90121 */
data->aaip_load = !opts->noaaip;
data->aaip_version = -1;
#endif /* Libisofs_with_aaiP */
/* ??? ts Nov 25 2008 :
Shouldn't this go to library initialization or even to app ?
*/
setlocale(LC_CTYPE, "");
data->local_charset = strdup(iso_get_local_charset(0));
if (data->local_charset == NULL) {
ret = ISO_OUT_OF_MEM;
goto fs_cleanup;
}
strncpy(ifs->type, "iso ", 4);
ifs->data = data;
ifs->refcount = 1;
ifs->version = 0;
ifs->get_root = ifs_get_root;
ifs->get_by_path = ifs_get_by_path;
ifs->get_id = ifs_get_id;
ifs->open = ifs_fs_open;
ifs->close = ifs_fs_close;
ifs->free = ifs_fs_free;
/* read Volume Descriptors and ensure it is a valid image */
/* 1. first, open the filesystem */
ifs_fs_open(ifs);
/* 2. read primary volume description */
ret = read_pvm(data, opts->block + 16);
if (ret < 0) {
goto fs_cleanup;
}
/* 3. read next volume descriptors */
block = opts->block + 17;
do {
ret = src->read_block(src, block, buffer);
if (ret < 0) {
/* cleanup and exit */
goto fs_cleanup;
}
switch (buffer[0]) {
case 0:
/* boot record */
{
struct ecma119_boot_rec_vol_desc *vol;
vol = (struct ecma119_boot_rec_vol_desc*)buffer;
/* some sanity checks */
if (strncmp((char*)vol->std_identifier, "CD001", 5)
|| vol->vol_desc_version[0] != 1
|| strncmp((char*)vol->boot_sys_id,
"EL TORITO SPECIFICATION", 23)) {
ret = iso_msg_submit(data->msgid,
ISO_UNSUPPORTED_EL_TORITO, 0,
"Unsupported Boot Vol. Desc. Only El-Torito "
"Specification, Version 1.0 Volume "
"Descriptors are supported. Ignoring boot info");
if (ret < 0) {
goto fs_cleanup;
}
break;
}
data->catblock = iso_read_lsb(vol->boot_catalog, 4);
ret = read_el_torito_boot_catalog(data, data->catblock);
if (ret < 0) {
goto fs_cleanup;
}
}
break;
case 2:
/* suplementary volume descritor */
{
struct ecma119_sup_vol_desc *sup;
struct ecma119_dir_record *root;
sup = (struct ecma119_sup_vol_desc*)buffer;
if (sup->esc_sequences[0] == 0x25 &&
sup->esc_sequences[1] == 0x2F &&
(sup->esc_sequences[2] == 0x40 ||
sup->esc_sequences[2] == 0x43 ||
sup->esc_sequences[2] == 0x45) ) {
/* it's a Joliet Sup. Vol. Desc. */
iso_msg_debug(data->msgid, "Found Joliet extensions");
data->joliet = 1;
root = (struct ecma119_dir_record*)sup->root_dir_record;
data->svd_root_block = iso_read_bb(root->block, 4, NULL);
/* TODO #00019 : set IsoImage attribs from Joliet SVD? */
/* TODO #00020 : handle RR info in Joliet tree */
} else if (sup->vol_desc_version[0] == 2) {
/*
* It is an Enhanced Volume Descriptor, image is an
* ISO 9660:1999
*/
iso_msg_debug(data->msgid, "Found ISO 9660:1999");
data->iso1999 = 1;
root = (struct ecma119_dir_record*)sup->root_dir_record;
data->evd_root_block = iso_read_bb(root->block, 4, NULL);
/* TODO #00021 : handle RR info in ISO 9660:1999 tree */
} else {
ret = iso_msg_submit(data->msgid, ISO_UNSUPPORTED_VD, 0,
"Unsupported Sup. Vol. Desc found.");
if (ret < 0) {
goto fs_cleanup;
}
}
}
break;
case 255:
/*
* volume set terminator
* ignore, as it's checked in loop end condition
*/
break;
default:
ret = iso_msg_submit(data->msgid, ISO_UNSUPPORTED_VD, 0,
"Ignoring Volume descriptor %x.", buffer[0]);
if (ret < 0) {
goto fs_cleanup;
}
break;
}
block++;
} while (buffer[0] != 255);
/* 4. check if RR extensions are being used */
ret = read_root_susp_entries(data, data->pvd_root_block);
if (ret < 0) {
goto fs_cleanup;
}
/* user doesn't want to read RR extensions */
if (opts->norock) {
data->rr = RR_EXT_NO;
} else {
data->rr = data->rr_version;
}
/* select what tree to read */
if (data->rr) {
/* RR extensions are available */
if (!opts->nojoliet && opts->preferjoliet && data->joliet) {
/* if user prefers joliet, that is used */
iso_msg_debug(data->msgid, "Reading Joliet extensions.");
data->input_charset = strdup("UCS-2BE");
data->rr = RR_EXT_NO;
data->iso_root_block = data->svd_root_block;
} else {
/* RR will be used */
iso_msg_debug(data->msgid, "Reading Rock Ridge extensions.");
data->iso_root_block = data->pvd_root_block;
}
} else {
/* RR extensions are not available */
if (!opts->nojoliet && data->joliet) {
/* joliet will be used */
iso_msg_debug(data->msgid, "Reading Joliet extensions.");
data->input_charset = strdup("UCS-2BE");
data->iso_root_block = data->svd_root_block;
} else if (!opts->noiso1999 && data->iso1999) {
/* we will read ISO 9660:1999 */
iso_msg_debug(data->msgid, "Reading ISO-9660:1999 tree.");
data->iso_root_block = data->evd_root_block;
} else {
/* default to plain iso */
iso_msg_debug(data->msgid, "Reading plain ISO-9660 tree.");
data->iso_root_block = data->pvd_root_block;
data->input_charset = strdup("ASCII");
}
}
if (data->input_charset == NULL) {
if (opts->input_charset != NULL) {
data->input_charset = strdup(opts->input_charset);
} else {
data->input_charset = strdup(data->local_charset);
}
}
if (data->input_charset == NULL) {
ret = ISO_OUT_OF_MEM;
goto fs_cleanup;
}
/* and finally return. Note that we keep the DataSource opened */
*fs = ifs;
return ISO_SUCCESS;
fs_cleanup: ;
ifs_fs_free(ifs);
free(ifs);
return ret;
}
static
int image_builder_create_node(IsoNodeBuilder *builder, IsoImage *image,
IsoFileSource *src, IsoNode **node)
{
int ret;
struct stat info;
IsoNode *new;
char *name;
ImageFileSourceData *data;
#ifdef Libisofs_with_aaiP
unsigned char *aa_string;
#endif /* Libisofs_with_aaiP */
if (builder == NULL || src == NULL || node == NULL || src->data == NULL) {
return ISO_NULL_POINTER;
}
data = (ImageFileSourceData*)src->data;
name = iso_file_source_get_name(src);
/* get info about source */
ret = iso_file_source_lstat(src, &info);
if (ret < 0) {
return ret;
}
new = NULL;
switch (info.st_mode & S_IFMT) {
case S_IFREG:
{
/* source is a regular file */
_ImageFsData *fsdata = data->fs->data;
/* El-Torito images have only one section */
if (fsdata->eltorito && data->sections[0].block == fsdata->catblock) {
if (image->bootcat->node != NULL) {
ret = iso_msg_submit(image->id, ISO_EL_TORITO_WARN, 0,
"More than one catalog node has been found. "
"We can continue, but that could lead to "
"problems");
if (ret < 0) {
return ret;
}
iso_node_unref((IsoNode*)image->bootcat->node);
}
/* we create a placeholder for the catalog instead of
* a regular file */
new = calloc(1, sizeof(IsoBoot));
if (new == NULL) {
ret = ISO_OUT_OF_MEM;
free(name);
return ret;
}
/* and set the image node */
image->bootcat->node = (IsoBoot*)new;
new->type = LIBISO_BOOT;
new->refcount = 1;
} else {
IsoStream *stream;
IsoFile *file;
ret = iso_file_source_stream_new(src, &stream);
if (ret < 0) {
free(name);
return ret;
}
/* take a ref to the src, as stream has taken our ref */
iso_file_source_ref(src);
file = calloc(1, sizeof(IsoFile));
if (file == NULL) {
free(name);
iso_stream_unref(stream);
return ISO_OUT_OF_MEM;
}
/* mark file as from old session */
file->from_old_session = 1;
/*
* and we set the sort weight based on the block on image, to
* improve performance on image modifying.
*/
file->sort_weight = INT_MAX - data->sections[0].block;
file->stream = stream;
file->node.type = LIBISO_FILE;
new = (IsoNode*) file;
new->refcount = 0;
if (fsdata->eltorito && data->sections[0].block == fsdata->imgblock) {
/* it is boot image node */
if (image->bootcat->image->image != NULL) {
ret = iso_msg_submit(image->id, ISO_EL_TORITO_WARN, 0,
"More than one image node has been found.");
if (ret < 0) {
free(name);
iso_stream_unref(stream);
return ret;
}
} else {
/* and set the image node */
image->bootcat->image->image = file;
new->refcount++;
}
}
}
}
break;
case S_IFDIR:
{
/* source is a directory */
new = calloc(1, sizeof(IsoDir));
if (new == NULL) {
free(name);
return ISO_OUT_OF_MEM;
}
new->type = LIBISO_DIR;
new->refcount = 0;
}
break;
case S_IFLNK:
{
/* source is a symbolic link */
char dest[PATH_MAX];
IsoSymlink *link;
ret = iso_file_source_readlink(src, dest, PATH_MAX);
if (ret < 0) {
free(name);
return ret;
}
link = calloc(1, sizeof(IsoSymlink));
if (link == NULL) {
free(name);
return ISO_OUT_OF_MEM;
}
link->dest = strdup(dest);
link->node.type = LIBISO_SYMLINK;
new = (IsoNode*) link;
new->refcount = 0;
}
break;
case S_IFSOCK:
case S_IFBLK:
case S_IFCHR:
case S_IFIFO:
{
/* source is an special file */
IsoSpecial *special;
special = calloc(1, sizeof(IsoSpecial));
if (special == NULL) {
free(name);
return ISO_OUT_OF_MEM;
}
special->dev = info.st_rdev;
special->node.type = LIBISO_SPECIAL;
new = (IsoNode*) special;
new->refcount = 0;
}
break;
}
/* fill fields */
new->refcount++;
new->name = name;
new->mode = info.st_mode;
new->uid = info.st_uid;
new->gid = info.st_gid;
new->atime = info.st_atime;
new->mtime = info.st_mtime;
new->ctime = info.st_ctime;
new->hidden = 0;
new->parent = NULL;
new->next = NULL;
*node = new;
#ifdef Libisofs_with_aaiP
/* ts A90115 */
/* obtain ownership of eventual AA string */
ret = iso_file_source_get_aa_string(src, &aa_string, 1);
if (ret == 1 && aa_string != NULL) {
/* >>> change field signatures to eventual libisofs non-"AA" setting */;
/* (for now everything is "AA" anyway) */
ret = iso_node_add_xinfo(new, aaip_xinfo_func, aa_string);
if (ret < 0)
return ret;
}
#endif /* Libisofs_with_aaiP */
return ISO_SUCCESS;
}
/**
* Create a new builder, that is exactly a copy of an old builder, but where
* create_node() function has been replaced by image_builder_create_node.
*/
static
int iso_image_builder_new(IsoNodeBuilder *old, IsoNodeBuilder **builder)
{
IsoNodeBuilder *b;
if (builder == NULL) {
return ISO_NULL_POINTER;
}
b = malloc(sizeof(IsoNodeBuilder));
if (b == NULL) {
return ISO_OUT_OF_MEM;
}
b->refcount = 1;
b->create_file_data = old->create_file_data;
b->create_node_data = old->create_node_data;
b->create_file = old->create_file;
b->create_node = image_builder_create_node;
b->free = old->free;
*builder = b;
return ISO_SUCCESS;
}
/**
* Create a file source to access the El-Torito boot image, when it is not
* accessible from the ISO filesystem.
*/
static
int create_boot_img_filesrc(IsoImageFilesystem *fs, IsoFileSource **src)
{
int ret;
struct stat atts;
_ImageFsData *fsdata;
IsoFileSource *ifsrc = NULL;
ImageFileSourceData *ifsdata = NULL;
if (fs == NULL || fs->data == NULL || src == NULL) {
return ISO_NULL_POINTER;
}
fsdata = (_ImageFsData*)fs->data;
memset(&atts, 0, sizeof(struct stat));
atts.st_mode = S_IFREG;
atts.st_ino = fsdata->imgblock; /* not the best solution, but... */
atts.st_nlink = 1;
/*
* this is the greater problem. We don't know the size. For now, we
* just use a single block of data. In a future, maybe we could figure out
* a better idea. Another alternative is to use several blocks, that way
* is less probable that we throw out valid data.
*/
atts.st_size = (off_t)BLOCK_SIZE;
/* Fill last entries */
atts.st_dev = fsdata->id;
atts.st_blksize = BLOCK_SIZE;
atts.st_blocks = DIV_UP(atts.st_size, BLOCK_SIZE);
/* ok, we can now create the file source */
ifsdata = calloc(1, sizeof(ImageFileSourceData));
if (ifsdata == NULL) {
ret = ISO_OUT_OF_MEM;
goto boot_fs_cleanup;
}
ifsrc = calloc(1, sizeof(IsoFileSource));
if (ifsrc == NULL) {
ret = ISO_OUT_OF_MEM;
goto boot_fs_cleanup;
}
ifsdata->sections = malloc(sizeof(struct iso_file_section));
if (ifsdata->sections == NULL) {
ret = ISO_OUT_OF_MEM;
goto boot_fs_cleanup;
}
/* fill data */
ifsdata->fs = fs;
iso_filesystem_ref(fs);
ifsdata->parent = NULL;
ifsdata->info = atts;
ifsdata->name = NULL;
ifsdata->sections[0].block = fsdata->imgblock;
ifsdata->sections[0].size = BLOCK_SIZE;
ifsdata->nsections = 1;
ifsrc->class = &ifs_class;
ifsrc->data = ifsdata;
ifsrc->refcount = 1;
*src = ifsrc;
return ISO_SUCCESS;
boot_fs_cleanup: ;
free(ifsdata);
free(ifsrc);
return ret;
}
int iso_image_import(IsoImage *image, IsoDataSource *src,
struct iso_read_opts *opts,
IsoReadImageFeatures **features)
{
int ret;
IsoImageFilesystem *fs;
IsoFilesystem *fsback;
IsoNodeBuilder *blback;
IsoDir *oldroot;
IsoFileSource *newroot;
_ImageFsData *data;
struct el_torito_boot_catalog *oldbootcat;
if (image == NULL || src == NULL || opts == NULL) {
return ISO_NULL_POINTER;
}
ret = iso_image_filesystem_new(src, opts, image->id, &fs);
if (ret < 0) {
return ret;
}
data = fs->data;
/* get root from filesystem */
ret = fs->get_root(fs, &newroot);
if (ret < 0) {
return ret;
}
/* backup image filesystem, builder and root */
fsback = image->fs;
blback = image->builder;
oldroot = image->root;
oldbootcat = image->bootcat; /* could be NULL */
image->bootcat = NULL;
/* create new builder */
ret = iso_image_builder_new(blback, &image->builder);
if (ret < 0) {
goto import_revert;
}
image->fs = fs;
/* create new root, and set root attributes from source */
ret = iso_node_new_root(&image->root);
if (ret < 0) {
goto import_revert;
}
{
struct stat info;
/* I know this will not fail */
iso_file_source_lstat(newroot, &info);
image->root->node.mode = info.st_mode;
image->root->node.uid = info.st_uid;
image->root->node.gid = info.st_gid;
image->root->node.atime = info.st_atime;
image->root->node.mtime = info.st_mtime;
image->root->node.ctime = info.st_ctime;
}
/* if old image has el-torito, add a new catalog */
if (data->eltorito) {
struct el_torito_boot_catalog *catalog;
ElToritoBootImage *boot_image= NULL;
boot_image = calloc(1, sizeof(ElToritoBootImage));
if (boot_image == NULL) {
ret = ISO_OUT_OF_MEM;
goto import_revert;
}
boot_image->bootable = data->bootable;
boot_image->type = data->type;
boot_image->partition_type = data->partition_type;
boot_image->load_seg = data->load_seg;
boot_image->load_size = data->load_size;
catalog = calloc(1, sizeof(struct el_torito_boot_catalog));
if (catalog == NULL) {
ret = ISO_OUT_OF_MEM;
goto import_revert;
}
catalog->image = boot_image;
image->bootcat = catalog;
}
/* recursively add image */
ret = iso_add_dir_src_rec(image, image->root, newroot);
/* error during recursive image addition? */
if (ret < 0) {
iso_node_builder_unref(image->builder);
goto import_revert;
}
if (data->eltorito) {
/* if catalog and image nodes were not filled, we create them here */
if (image->bootcat->image->image == NULL) {
IsoFileSource *src;
IsoNode *node;
ret = create_boot_img_filesrc(fs, &src);
if (ret < 0) {
iso_node_builder_unref(image->builder);
goto import_revert;
}
ret = image_builder_create_node(image->builder, image, src, &node);
if (ret < 0) {
iso_node_builder_unref(image->builder);
goto import_revert;
}
image->bootcat->image->image = (IsoFile*)node;
/* warn about hidden images */
iso_msg_submit(image->id, ISO_EL_TORITO_HIDDEN, 0,
"Found hidden El-Torito image. Its size could not "
"be figure out, so image modify or boot image "
"patching may lead to bad results.");
}
if (image->bootcat->node == NULL) {
IsoNode *node = calloc(1, sizeof(IsoBoot));
if (node == NULL) {
ret = ISO_OUT_OF_MEM;
goto import_revert;
}
node->type = LIBISO_BOOT;
node->mode = S_IFREG;
node->refcount = 1;
image->bootcat->node = (IsoBoot*)node;
}
}
iso_node_builder_unref(image->builder);
/* free old root */
iso_node_unref((IsoNode*)oldroot);
/* free old boot catalog */
el_torito_boot_catalog_free(oldbootcat);
/* set volume attributes */
iso_image_set_volset_id(image, data->volset_id);
iso_image_set_volume_id(image, data->volume_id);
iso_image_set_publisher_id(image, data->publisher_id);
iso_image_set_data_preparer_id(image, data->data_preparer_id);
iso_image_set_system_id(image, data->system_id);
iso_image_set_application_id(image, data->application_id);
iso_image_set_copyright_file_id(image, data->copyright_file_id);
iso_image_set_abstract_file_id(image, data->abstract_file_id);
iso_image_set_biblio_file_id(image, data->biblio_file_id);
if (features != NULL) {
*features = malloc(sizeof(IsoReadImageFeatures));
if (*features == NULL) {
ret = ISO_OUT_OF_MEM;
goto import_cleanup;
}
(*features)->hasJoliet = data->joliet;
(*features)->hasRR = data->rr_version != 0;
(*features)->hasIso1999 = data->iso1999;
(*features)->hasElTorito = data->eltorito;
(*features)->size = data->nblocks;
}
ret = ISO_SUCCESS;
goto import_cleanup;
import_revert:;
iso_node_unref((IsoNode*)image->root);
el_torito_boot_catalog_free(image->bootcat);
image->root = oldroot;
image->fs = fsback;
image->bootcat = oldbootcat;
import_cleanup:;
/* recover backed fs and builder */
image->fs = fsback;
image->builder = blback;
iso_file_source_unref(newroot);
fs->close(fs);
iso_filesystem_unref(fs);
return ret;
}
const char *iso_image_fs_get_volset_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->volset_id;
}
const char *iso_image_fs_get_volume_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->volume_id;
}
const char *iso_image_fs_get_publisher_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->publisher_id;
}
const char *iso_image_fs_get_data_preparer_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->data_preparer_id;
}
const char *iso_image_fs_get_system_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->system_id;
}
const char *iso_image_fs_get_application_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->application_id;
}
const char *iso_image_fs_get_copyright_file_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->copyright_file_id;
}
const char *iso_image_fs_get_abstract_file_id(IsoImageFilesystem *fs)
{
_ImageFsData *data;
data = (_ImageFsData*) fs->data;
return data->abstract_file_id;
}
const char *iso_image_fs_get_biblio_file_id(IsoImageFilesystem *fs)
{
_ImageFsData *data = (_ImageFsData*) fs->data;
return data->biblio_file_id;
}
int iso_read_opts_new(IsoReadOpts **opts, int profile)
{
IsoReadOpts *ropts;
if (opts == NULL) {
return ISO_NULL_POINTER;
}
if (profile != 0) {
return ISO_WRONG_ARG_VALUE;
}
ropts = calloc(1, sizeof(IsoReadOpts));
if (ropts == NULL) {
return ISO_OUT_OF_MEM;
}
ropts->file_mode = 0444;
ropts->dir_mode = 0555;
#ifdef Libisofs_with_aaiP
/* ts A90121 */
ropts->noaaip= 1;
#endif /* Libisofs_with_aaiP */
*opts = ropts;
return ISO_SUCCESS;
}
void iso_read_opts_free(IsoReadOpts *opts)
{
if (opts == NULL) {
return;
}
free(opts->input_charset);
free(opts);
}
int iso_read_opts_set_start_block(IsoReadOpts *opts, uint32_t block)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->block = block;
return ISO_SUCCESS;
}
int iso_read_opts_set_no_rockridge(IsoReadOpts *opts, int norr)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->norock = norr ? 1 :0;
return ISO_SUCCESS;
}
int iso_read_opts_set_no_joliet(IsoReadOpts *opts, int nojoliet)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->nojoliet = nojoliet ? 1 :0;
return ISO_SUCCESS;
}
int iso_read_opts_set_no_iso1999(IsoReadOpts *opts, int noiso1999)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->noiso1999 = noiso1999 ? 1 :0;
return ISO_SUCCESS;
}
/* ts A90121 */
int iso_read_opts_set_no_aaip(IsoReadOpts *opts, int noaaip)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
#ifdef Libisofs_with_aaiP
opts->noaaip = noaaip ? 1 : 0;
#endif /* Libisofs_with_aaiP */
return ISO_SUCCESS;
}
int iso_read_opts_set_preferjoliet(IsoReadOpts *opts, int preferjoliet)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->preferjoliet = preferjoliet ? 1 :0;
return ISO_SUCCESS;
}
int iso_read_opts_set_default_uid(IsoReadOpts *opts, uid_t uid)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->uid = uid;
return ISO_SUCCESS;
}
int iso_read_opts_set_default_gid(IsoReadOpts *opts, gid_t gid)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->gid = gid;
return ISO_SUCCESS;
}
int iso_read_opts_set_default_permissions(IsoReadOpts *opts, mode_t file_perm,
mode_t dir_perm)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->file_mode = file_perm;
opts->dir_mode = dir_perm;
return ISO_SUCCESS;
}
int iso_read_opts_set_input_charset(IsoReadOpts *opts, const char *charset)
{
if (opts == NULL) {
return ISO_NULL_POINTER;
}
opts->input_charset = charset ? strdup(charset) : NULL;
return ISO_SUCCESS;
}
/**
* Destroy an IsoReadImageFeatures object obtained with iso_image_import.
*/
void iso_read_image_features_destroy(IsoReadImageFeatures *f)
{
if (f) {
free(f);
}
}
/**
* Get the size (in 2048 byte block) of the image, as reported in the PVM.
*/
uint32_t iso_read_image_features_get_size(IsoReadImageFeatures *f)
{
return f->size;
}
/**
* Whether RockRidge extensions are present in the image imported.
*/
int iso_read_image_features_has_rockridge(IsoReadImageFeatures *f)
{
return f->hasRR;
}
/**
* Whether Joliet extensions are present in the image imported.
*/
int iso_read_image_features_has_joliet(IsoReadImageFeatures *f)
{
return f->hasJoliet;
}
/**
* Whether the image is recorded according to ISO 9660:1999, i.e. it has
* a version 2 Enhanced Volume Descriptor.
*/
int iso_read_image_features_has_iso1999(IsoReadImageFeatures *f)
{
return f->hasIso1999;
}
/**
* Whether El-Torito boot record is present present in the image imported.
*/
int iso_read_image_features_has_eltorito(IsoReadImageFeatures *f)
{
return f->hasElTorito;
}
/**
* Get the start addresses and the sizes of the data extents of a file node
* if it was imported from an old image.
*
* @param file
* The file
* @param section_count
* Returns the number of extent entries in sections arrays
* @param sections
* Returns the array of file sections. Apply free() to dispose it.
* @param flag
* Reserved for future usage, submit 0
* @return
* 1 if there are valid extents (file comes from old image),
* 0 if file was newly added, i.e. it does not come from an old image,
* < 0 error
*/
int iso_file_get_old_image_sections(IsoFile *file, int *section_count,
struct iso_file_section **sections,
int flag)
{
if (file == NULL || section_count == NULL || sections == NULL) {
return ISO_NULL_POINTER;
}
if (flag != 0) {
return ISO_WRONG_ARG_VALUE;
}
if (file->from_old_session != 0) {
/*
* When file is from old session, we retrieve the original IsoFileSource
* to get the sections. This break encapsultation, but safes memory as
* we don't need to store the sections in the IsoFile node.
*/
FSrcStreamData *data = file->stream->data;
ImageFileSourceData *ifsdata = data->src->data;
*section_count = ifsdata->nsections;
*sections = malloc(ifsdata->nsections *
sizeof(struct iso_file_section));
if (*sections == NULL) {
return ISO_OUT_OF_MEM;
}
memcpy(*sections, ifsdata->sections,
ifsdata->nsections * sizeof(struct iso_file_section));
return 1;
}
return 0;
}
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