legacy/libisofs/attic/libisofs/volume.c

341 lines
7.1 KiB
C

/* -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 8; -*- */
/* vim: set ts=8 sts=8 sw=8 noet : */
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <libgen.h>
#include "libisofs.h"
#include "tree.h"
#include "util.h"
#include "volume.h"
#include "eltorito.h"
struct iso_volset*
iso_volset_new(struct iso_volume *vol, const char *id)
{
struct iso_volset *volset = calloc(1, sizeof(struct iso_volset));
volset->volset_size = 1;
volset->refcount = 1;
volset->volume = malloc(sizeof(void *));
volset->volume[0] = vol;
volset->volset_id = strdup(id);
return volset;
}
void
iso_volset_ref(struct iso_volset *volset)
{
++volset->refcount;
}
void
iso_volset_free(struct iso_volset *volset)
{
if (--volset->refcount < 1) {
int i;
for (i = 0; i < volset->volset_size; i++) {
iso_volume_free(volset->volume[i]);
}
free(volset->volume);
free(volset->volset_id);
free(volset);
}
}
struct iso_volume *
iso_volset_get_volume(struct iso_volset *volset, int volnum)
{
assert(volset);
if (volnum < volset->volset_size)
return volset->volume[volnum];
else
return NULL;
}
struct iso_volume*
iso_volume_new(const char *volume_id,
const char *publisher_id,
const char *data_preparer_id)
{
return iso_volume_new_with_root(volume_id,
publisher_id,
data_preparer_id,
NULL);
}
struct iso_volume*
iso_volume_new_with_root(const char *volume_id,
const char *publisher_id,
const char *data_preparer_id,
struct iso_tree_node_dir *root)
{
struct iso_volume *volume;
volume = calloc(1, sizeof(struct iso_volume));
volume->refcount = 1;
volume->root = root ? root : iso_tree_new_root();
if (volume_id != NULL)
volume->volume_id = strdup(volume_id);
if (publisher_id != NULL)
volume->publisher_id = strdup(publisher_id);
if (data_preparer_id != NULL)
volume->data_preparer_id = strdup(data_preparer_id);
return volume;
}
void
iso_volume_free(struct iso_volume *volume)
{
/* Only free if no references are in use. */
if (--volume->refcount < 1) {
iso_tree_free( (struct iso_tree_node*) volume->root);
free(volume->volume_id);
free(volume->publisher_id);
free(volume->data_preparer_id);
free(volume->system_id);
free(volume->application_id);
free(volume->copyright_file_id);
free(volume->abstract_file_id);
free(volume->biblio_file_id);
if (volume->bootcat)
el_torito_boot_catalog_free(volume->bootcat);
free(volume);
}
}
struct iso_tree_node_dir *
iso_volume_get_root(const struct iso_volume *volume)
{
assert(volume);
return volume->root;
}
void iso_volume_set_volume_id(struct iso_volume *volume,
const char *volume_id)
{
assert(volume);
free(volume->volume_id);
volume->volume_id = strdup(volume_id);
}
const char *
iso_volume_get_volume_id(struct iso_volume *volume)
{
assert(volume);
return volume->volume_id;
}
void iso_volume_set_publisher_id(struct iso_volume *volume,
const char *publisher_id)
{
assert(volume);
free(volume->publisher_id);
volume->publisher_id = strdup(publisher_id);
}
const char *
iso_volume_get_publisher_id(struct iso_volume *volume)
{
assert(volume);
return volume->publisher_id;
}
void iso_volume_set_data_preparer_id(struct iso_volume *volume,
const char *data_preparer_id)
{
assert(volume);
free(volume->data_preparer_id);
volume->data_preparer_id = strdup(data_preparer_id);
}
const char *
iso_volume_get_data_preparer_id(struct iso_volume *volume)
{
assert(volume);
return volume->data_preparer_id;
}
void iso_volume_set_system_id(struct iso_volume *volume,
const char *system_id)
{
assert(volume);
free(volume->system_id);
volume->system_id = strdup(system_id);
}
const char *
iso_volume_get_system_id(struct iso_volume *volume)
{
assert(volume);
return volume->system_id;
}
void iso_volume_set_application_id(struct iso_volume *volume,
const char *application_id)
{
assert(volume);
free(volume->application_id);
volume->application_id = strdup(application_id);
}
const char *
iso_volume_get_application_id(struct iso_volume *volume)
{
assert(volume);
return volume->application_id;
}
void iso_volume_set_copyright_file_id(struct iso_volume *volume,
const char *copyright_file_id)
{
assert(volume);
free(volume->copyright_file_id);
volume->copyright_file_id = strdup(copyright_file_id);
}
const char *
iso_volume_get_copyright_file_id(struct iso_volume *volume)
{
assert(volume);
return volume->copyright_file_id;
}
void iso_volume_set_abstract_file_id(struct iso_volume *volume,
const char *abstract_file_id)
{
assert(volume);
free(volume->abstract_file_id);
volume->abstract_file_id = strdup(abstract_file_id);
}
const char *
iso_volume_get_abstract_file_id(struct iso_volume *volume)
{
assert(volume);
return volume->abstract_file_id;
}
void iso_volume_set_biblio_file_id(struct iso_volume *volume,
const char *biblio_file_id)
{
assert(volume);
free(volume->biblio_file_id);
volume->biblio_file_id = strdup(biblio_file_id);
}
const char *
iso_volume_get_biblio_file_id(struct iso_volume *volume)
{
assert(volume);
return volume->biblio_file_id;
}
struct iso_tree_node *
iso_tree_volume_path_to_node(struct iso_volume *volume, const char *path)
{
struct iso_tree_node *node;
struct iso_tree_node_dir *dir;
char *ptr, *brk_info, *component;
/* get the first child at the root of the volume
* that is "/" */
dir = iso_volume_get_root(volume);
node = (struct iso_tree_node *)dir;
if (!strcmp(path, "/"))
return node;
if (!dir->nchildren)
return NULL;
ptr = strdup(path);
/* get the first component of the path */
component=strtok_r(ptr, "/", &brk_info);
while (component) {
size_t max;
size_t i;
if ( !ISO_ISDIR(node) ) {
node=NULL;
break;
}
dir = (struct iso_tree_node_dir *)node;
/* search among all the children of this directory if this path component exists */
max=dir->nchildren;
for (i=0; i < max; i++) {
if (!strcmp(component, dir->children[i]->name)) {
node=dir->children[i];
break;
}
}
/* see if a node could be found */
if (i==max) {
node=NULL;
break;
}
component=strtok_r(NULL, "/", &brk_info);
}
free(ptr);
return node;
}
//
//struct iso_tree_node *
//iso_tree_volume_add_path(struct iso_volume *volume,
// const char *disc_path,
// const char *path)
//{
// char *tmp;
// struct iso_tree_node *node;
// struct iso_tree_node *parent_node;
//
// tmp=strdup(disc_path);
// parent_node = iso_tree_volume_path_to_node(volume, dirname(tmp));
// free(tmp);
//
// if (!parent_node)
// return NULL;
//
// node = iso_tree_radd_dir(parent_node, path);
// if (!node)
// return NULL;
//
// tmp=strdup(disc_path);
// iso_tree_node_set_name(node, basename(tmp));
// free(tmp);
//
// return node;
//}
//
//struct iso_tree_node *
//iso_tree_volume_add_new_dir(struct iso_volume *volume,
// const char *disc_path)
//{
// char *tmp;
// struct iso_tree_node *node;
// struct iso_tree_node *parent_node;
//
// tmp=strdup(disc_path);
// parent_node = iso_tree_volume_path_to_node(volume, dirname(tmp));
// free(tmp);
//
// if (!parent_node)
// return NULL;
//
// tmp=strdup(disc_path);
// node = iso_tree_add_new_dir(parent_node, basename(tmp));
// free(tmp);
//
// return node;
//}