#include "wimlib/types.h"
struct wim_inode;
-struct wim_lookup_table;
+struct blob_table;
/* Base size of a WIM dentry in the on-disk format, up to and including the file
* name length. This does not include the variable-length file name, short
- * name, alternate data stream entries, and padding to 8-byte boundaries. */
+ * name, extra stream entries, and padding to 8-byte boundaries. */
#define WIM_DENTRY_DISK_SIZE 102
/*
* tree for each image in the WIM.
*
* Note that this is a directory entry and not an inode. Since NTFS allows hard
- * links, it's possible for an NTFS inode to correspond to multiple WIM dentries.
- * The hard link group ID field of the on-disk WIM dentry tells us the number of
- * the NTFS inode that the dentry corresponds to (and this gets placed in
- * d_inode->i_ino).
+ * links, it's possible for an NTFS inode to correspond to multiple WIM
+ * dentries. The hard link group ID field of the on-disk WIM dentry tells us
+ * the number of the NTFS inode that the dentry corresponds to (and this gets
+ * placed in d_inode->i_ino).
*
* Unfortunately, WIM files do not have an analogue to an inode; instead certain
- * information, such as file attributes, the security descriptor, and file
- * streams is replicated in each hard-linked dentry, even though this
- * information really is associated with an inode. In-memory, we fix up this
- * flaw by allocating a `struct wim_inode' for each dentry that contains some of
- * this duplicated information, then combining the inodes for each hard link
- * group together.
- *
- * Confusingly, it's possible for stream information to be missing from a dentry
- * in a hard link set, in which case the stream information needs to be gotten
- * from one of the other dentries in the hard link set. In addition, it is
- * possible for dentries to have inconsistent security IDs, file attributes, or
- * file streams when they share the same hard link ID (don't even ask. I hope
- * that Microsoft may have fixed this problem, since I've only noticed it in the
- * 'install.wim' for Windows 7). For those dentries, we have to use the
- * conflicting fields to split up the hard link groups. (See
- * dentry_tree_fix_inodes() in inode_fixup.c.)
+ * information, such as file attributes, the security descriptor, and streams is
+ * replicated in each hard-linked dentry, even though this information really is
+ * associated with an inode. In-memory, we fix up this flaw by allocating a
+ * `struct wim_inode' for each dentry that contains some of this duplicated
+ * information, then combining the inodes for each hard link group together.
+ * (See dentry_tree_fix_inodes().)
*/
struct wim_dentry {
/* Pointer to the inode for this dentry. This will contain some
* long names but share the same case insensitive long name. */
struct list_head d_ci_conflict_list;
- /* The parent of this directory entry. */
+ /* The parent of this directory entry. (The root is its own parent.) */
struct wim_dentry *d_parent;
/* Linked list node that places this dentry in the list of aliases for
return dentry->d_extraction_list_node.next != NULL;
}
-extern u64
+extern size_t
dentry_out_total_length(const struct wim_dentry *dentry);
extern int
void *args);
/* Iterate through each @child dentry of the @dir directory inode,
- * in sorted order (by case sensitive name). */
-#define for_inode_child(child, dir) \
- avl_tree_for_each_in_order((child), (dir)->i_children, \
+ * in sorted order by case sensitive name. */
+#define for_inode_child(child, dir) \
+ avl_tree_for_each_in_order((child), (dir)->i_children, \
struct wim_dentry, d_index_node)
/* Iterate through each @child dentry of the @parent dentry,
- * in sorted order (by case sensitive name). */
+ * in sorted order by case sensitive name. */
#define for_dentry_child(child, parent) \
for_inode_child((child), (parent)->d_inode)
+/* Iterate through each @child dentry of the @dir directory inode,
+ * in sorted order by case insensitive name. */
+#define for_inode_child_case_insensitive(child, dir) \
+ avl_tree_for_each_in_order((child), (dir)->i_children_ci, \
+ struct wim_dentry, d_index_node_ci)
+
+/* Iterate through each @child dentry of the @parent dentry,
+ * in sorted order by case insensitive name. */
+#define for_dentry_child_case_insensitive(child, parent) \
+ for_inode_child_case_insensitive((child), (parent)->d_inode)
+
/* Iterate through each @child dentry of the @dir directory inode,
* in postorder (safe for freeing the child dentries). */
#define for_inode_child_postorder(child, dir) \
dentry_full_path(struct wim_dentry *dentry);
extern int
-new_dentry(const tchar *name, struct wim_dentry **dentry_ret);
-
-extern int
-new_dentry_with_inode(const tchar *name, struct wim_dentry **dentry_ret);
+new_dentry_with_new_inode(const tchar *name, bool set_timestamps,
+ struct wim_dentry **dentry_ret);
extern int
-new_dentry_with_timeless_inode(const tchar *name, struct wim_dentry **dentry_ret);
+new_dentry_with_existing_inode(const tchar *name, struct wim_inode *inode,
+ struct wim_dentry **dentry_ret);
extern void
dentry_tree_clear_inode_visited(struct wim_dentry *root);
extern void
free_dentry_tree(struct wim_dentry *root,
- struct wim_lookup_table *lookup_table);
+ struct blob_table *blob_table);
extern void
unlink_dentry(struct wim_dentry *dentry);