*/
/*
- * Copyright (C) 2012 Eric Biggers
+ * Copyright (C) 2012, 2013 Eric Biggers
*
* This file is part of wimlib, a library for working with WIM files.
*
/* Calculates the unaligned length, in bytes, of an on-disk WIM dentry that has
* a file name and short name that take the specified numbers of bytes. This
* excludes any alternate data stream entries that may follow the dentry. */
-static u64 __dentry_correct_length_unaligned(u16 file_name_len,
- u16 short_name_len)
+static u64
+__dentry_correct_length_unaligned(u16 file_name_nbytes, u16 short_name_nbytes)
{
u64 length = WIM_DENTRY_DISK_SIZE;
- if (file_name_len)
- length += file_name_len + 2;
- if (short_name_len)
- length += short_name_len + 2;
+ if (file_name_nbytes)
+ length += file_name_nbytes + 2;
+ if (short_name_nbytes)
+ length += short_name_nbytes + 2;
return length;
}
* the file name length and short name length. Note that dentry->length is
* ignored; also, this excludes any alternate data stream entries that may
* follow the dentry. */
-static u64 dentry_correct_length_unaligned(const struct wim_dentry *dentry)
+static u64
+dentry_correct_length_unaligned(const struct wim_dentry *dentry)
{
- return __dentry_correct_length_unaligned(dentry->file_name_len,
- dentry->short_name_len);
+ return __dentry_correct_length_unaligned(dentry->file_name_nbytes,
+ dentry->short_name_nbytes);
}
/* Return the "correct" value to write in the length field of a WIM dentry,
* based on the file name length and short name length. */
-static u64 dentry_correct_length(const struct wim_dentry *dentry)
+static u64
+dentry_correct_length(const struct wim_dentry *dentry)
{
return (dentry_correct_length_unaligned(dentry) + 7) & ~7;
}
-/* Return %true iff the alternate data stream entry @entry has the UTF-8 stream
- * name @name that has length @name_len bytes. */
-static inline bool ads_entry_has_name(const struct wim_ads_entry *entry,
- const char *name, size_t name_len)
+/* Return %true iff the alternate data stream entry @entry has the UTF-16LE
+ * stream name @name that has length @name_nbytes bytes. */
+static inline bool
+ads_entry_has_name(const struct wim_ads_entry *entry,
+ const utf16lechar *name, size_t name_nbytes)
{
- if (entry->stream_name_utf8_len != name_len)
- return false;
- return memcmp(entry->stream_name_utf8, name, name_len) == 0;
+ return entry->stream_name_nbytes == name_nbytes &&
+ memcmp(entry->stream_name, name, name_nbytes) == 0;
}
-/* Duplicates a UTF-8 string into UTF-8 and UTF-16 strings and returns the
- * strings and their lengths in the pointer arguments. (Frees existing strings
- * first.) */
-static int get_names(char **name_utf16_ret, char **name_utf8_ret,
- u16 *name_utf16_len_ret, u16 *name_utf8_len_ret,
- const char *name)
+/* Duplicates a string of system-dependent encoding into a UTF-16LE string and
+ * returns the string and its length, in bytes, in the pointer arguments. Frees
+ * any existing string at the return location before overwriting it. */
+static int
+get_utf16le_name(const tchar *name, utf16lechar **name_utf16le_ret,
+ u16 *name_utf16le_nbytes_ret)
{
- size_t utf8_len;
- size_t utf16_len;
- char *name_utf16, *name_utf8;
+ utf16lechar *name_utf16le;
+ size_t name_utf16le_nbytes;
int ret;
-
- utf8_len = strlen(name);
- ret = utf8_to_utf16(name, utf8_len, &name_utf16, &utf16_len);
- if (ret != 0)
- return ret;
-
- name_utf8 = MALLOC(utf8_len + 1);
- if (!name_utf8) {
- FREE(name_utf16);
+#if TCHAR_IS_UTF16LE
+ name_utf16le_nbytes = tstrlen(name) * sizeof(utf16lechar);
+ name_utf16le = MALLOC(name_utf16le_nbytes + sizeof(utf16lechar));
+ if (!name_utf16le)
return WIMLIB_ERR_NOMEM;
+ memcpy(name_utf16le, name, name_utf16le_nbytes + sizeof(utf16lechar));
+ ret = 0;
+#else
+
+ ret = tstr_to_utf16le(name, tstrlen(name), &name_utf16le,
+ &name_utf16le_nbytes);
+ if (ret == 0) {
+ if (name_utf16le_nbytes > 0xffff) {
+ FREE(name_utf16le);
+ ERROR("Multibyte string \"%"TS"\" is too long!", name);
+ ret = WIMLIB_ERR_INVALID_UTF8_STRING;
+ }
}
- memcpy(name_utf8, name, utf8_len + 1);
- FREE(*name_utf8_ret);
- FREE(*name_utf16_ret);
- *name_utf8_ret = name_utf8;
- *name_utf16_ret = name_utf16;
- *name_utf8_len_ret = utf8_len;
- *name_utf16_len_ret = utf16_len;
- return 0;
+#endif
+ if (ret == 0) {
+ FREE(*name_utf16le_ret);
+ *name_utf16le_ret = name_utf16le;
+ *name_utf16le_nbytes_ret = name_utf16le_nbytes;
+ }
+ return ret;
}
-/* Sets the name of a WIM dentry. */
-int set_dentry_name(struct wim_dentry *dentry, const char *new_name)
+/* Sets the name of a WIM dentry from a multibyte string. */
+int
+set_dentry_name(struct wim_dentry *dentry, const tchar *new_name)
{
int ret;
-
- ret = get_names(&dentry->file_name, &dentry->file_name_utf8,
- &dentry->file_name_len, &dentry->file_name_utf8_len,
- new_name);
+ ret = get_utf16le_name(new_name, &dentry->file_name,
+ &dentry->file_name_nbytes);
if (ret == 0) {
- if (dentry->short_name_len) {
+ /* Clear the short name and recalculate the dentry length */
+ if (dentry_has_short_name(dentry)) {
FREE(dentry->short_name);
- dentry->short_name_len = 0;
+ dentry->short_name = NULL;
+ dentry->short_name_nbytes = 0;
}
dentry->length = dentry_correct_length(dentry);
}
return ret;
}
-/*
- * Changes the name of an alternate data stream */
-static int change_ads_name(struct wim_ads_entry *entry, const char *new_name)
-{
- return get_names(&entry->stream_name, &entry->stream_name_utf8,
- &entry->stream_name_len,
- &entry->stream_name_utf8_len,
- new_name);
-}
-
/* Returns the total length of a WIM alternate data stream entry on-disk,
* including the stream name, the null terminator, AND the padding after the
* entry to align the next ADS entry or dentry on an 8-byte boundary. */
-static u64 ads_entry_total_length(const struct wim_ads_entry *entry)
+static u64
+ads_entry_total_length(const struct wim_ads_entry *entry)
{
u64 len = WIM_ADS_ENTRY_DISK_SIZE;
- if (entry->stream_name_len)
- len += entry->stream_name_len + 2;
+ if (entry->stream_name_nbytes)
+ len += entry->stream_name_nbytes + 2;
return (len + 7) & ~7;
}
-static u64 __dentry_total_length(const struct wim_dentry *dentry, u64 length)
+static u64
+__dentry_total_length(const struct wim_dentry *dentry, u64 length)
{
const struct wim_inode *inode = dentry->d_inode;
for (u16 i = 0; i < inode->i_num_ads; i++)
/* Calculate the aligned *total* length of an on-disk WIM dentry. This includes
* all alternate data streams. */
-u64 dentry_correct_total_length(const struct wim_dentry *dentry)
+u64
+dentry_correct_total_length(const struct wim_dentry *dentry)
{
return __dentry_total_length(dentry,
dentry_correct_length_unaligned(dentry));
/* Like dentry_correct_total_length(), but use the existing dentry->length field
* instead of calculating its "correct" value. */
-static u64 dentry_total_length(const struct wim_dentry *dentry)
+static u64
+dentry_total_length(const struct wim_dentry *dentry)
{
return __dentry_total_length(dentry, dentry->length);
}
-int for_dentry_in_rbtree(struct rb_node *root,
- int (*visitor)(struct wim_dentry *, void *),
- void *arg)
+int
+for_dentry_in_rbtree(struct rb_node *root,
+ int (*visitor)(struct wim_dentry *, void *),
+ void *arg)
{
int ret;
struct rb_node *node = root;
}
}
-static int for_dentry_tree_in_rbtree_depth(struct rb_node *node,
- int (*visitor)(struct wim_dentry*, void*),
- void *arg)
+static int
+for_dentry_tree_in_rbtree_depth(struct rb_node *node,
+ int (*visitor)(struct wim_dentry*, void*),
+ void *arg)
{
int ret;
if (node) {
return 0;
}
-/*#define RECURSIVE_FOR_DENTRY_IN_TREE*/
-
-#ifdef RECURSIVE_FOR_DENTRY_IN_TREE
-static int for_dentry_tree_in_rbtree(struct rb_node *node,
- int (*visitor)(struct wim_dentry*, void*),
- void *arg)
+static int
+for_dentry_tree_in_rbtree(struct rb_node *node,
+ int (*visitor)(struct wim_dentry*, void*),
+ void *arg)
{
int ret;
if (node) {
ret = for_dentry_tree_in_rbtree(node->rb_left, visitor, arg);
- if (ret != 0)
+ if (ret)
return ret;
ret = for_dentry_in_tree(rbnode_dentry(node), visitor, arg);
- if (ret != 0)
+ if (ret)
return ret;
ret = for_dentry_tree_in_rbtree(node->rb_right, visitor, arg);
- if (ret != 0)
+ if (ret)
return ret;
}
return 0;
}
-#endif
-/*
- * Calls a function on all directory entries in a WIM dentry tree. Logically,
+/* Calls a function on all directory entries in a WIM dentry tree. Logically,
* this is a pre-order traversal (the function is called on a parent dentry
* before its children), but sibling dentries will be visited in order as well.
- *
- * In reality, the data structures are more complicated than the above might
- * suggest because there is a separate red-black tree for each dentry that
- * contains its direct children.
- */
-int for_dentry_in_tree(struct wim_dentry *root,
- int (*visitor)(struct wim_dentry*, void*), void *arg)
+ * */
+int
+for_dentry_in_tree(struct wim_dentry *root,
+ int (*visitor)(struct wim_dentry*, void*), void *arg)
{
-#ifdef RECURSIVE_FOR_DENTRY_IN_TREE
- int ret = visitor(root, arg);
- if (ret != 0)
- return ret;
- return for_dentry_tree_in_rbtree(root->d_inode->i_children.rb_node, visitor, arg);
-#else
int ret;
- struct list_head main_stack;
- struct list_head sibling_stack;
- struct list_head *sibling_stack_bottom;
- struct wim_dentry *main_dentry;
- struct rb_node *node;
- struct list_head *next_sibling;
- struct wim_dentry *dentry;
- ret = visitor(root, arg);
- if (ret != 0)
+ if (!root)
+ return 0;
+ ret = (*visitor)(root, arg);
+ if (ret)
return ret;
-
- main_dentry = root;
- sibling_stack_bottom = &sibling_stack;
- INIT_LIST_HEAD(&main_stack);
- INIT_LIST_HEAD(&sibling_stack);
-
- list_add(&root->tmp_list, &main_stack);
- node = root->d_inode->i_children.rb_node;
-
- while (1) {
- // Prepare for non-recursive in-order traversal of the red-black
- // tree of this dentry's children
-
- while (node) {
- // Push this node to the sibling stack and examine the
- // left neighbor, if any
- list_add(&rbnode_dentry(node)->tmp_list, &sibling_stack);
- node = node->rb_left;
- }
-
- next_sibling = sibling_stack.next;
- if (next_sibling == sibling_stack_bottom) {
- // Done with all siblings. Pop the main dentry to move
- // back up one level.
- main_dentry = container_of(main_stack.next,
- struct wim_dentry,
- tmp_list);
- list_del(&main_dentry->tmp_list);
-
- if (main_dentry == root)
- goto out;
-
- // Restore sibling stack bottom from the previous level
- sibling_stack_bottom = (void*)main_dentry->parent;
-
- // Restore the just-popped main dentry's parent
- main_dentry->parent = container_of(main_stack.next,
- struct wim_dentry,
- tmp_list);
-
- // The next sibling to traverse in the previous level,
- // in the in-order traversal of the red-black tree, is
- // the one to the right.
- node = main_dentry->rb_node.rb_right;
- } else {
- // The sibling stack is not empty, so there are more to
- // go!
-
- // Pop a sibling from the stack.
- list_del(next_sibling);
- dentry = container_of(next_sibling, struct wim_dentry, tmp_list);
-
- // Visit the sibling.
- ret = visitor(dentry, arg);
- if (ret != 0) {
- // Failed. Restore parent pointers for the
- // dentries in the main stack
- list_for_each_entry(dentry, &main_stack, tmp_list) {
- dentry->parent = container_of(dentry->tmp_list.next,
- struct wim_dentry,
- tmp_list);
- }
- goto out;
- }
-
- // We'd like to recursively visit the dentry tree rooted
- // at this sibling. To do this, add it to the main
- // stack, save the bottom of this level's sibling stack
- // in the dentry->parent field, re-set the bottom of the
- // sibling stack to be its current height, and set
- // main_dentry to the sibling so it becomes the parent
- // dentry in the next iteration through the outer loop.
- if (inode_has_children(dentry->d_inode)) {
- list_add(&dentry->tmp_list, &main_stack);
- dentry->parent = (void*)sibling_stack_bottom;
- sibling_stack_bottom = sibling_stack.next;
-
- main_dentry = dentry;
- node = main_dentry->d_inode->i_children.rb_node;
- } else {
- node = dentry->rb_node.rb_right;
- }
- }
- }
-out:
- root->parent = root;
- return ret;
-#endif
+ return for_dentry_tree_in_rbtree(root->d_inode->i_children.rb_node,
+ visitor,
+ arg);
}
-/*
- * Like for_dentry_in_tree(), but the visitor function is always called on a
- * dentry's children before on itself.
- */
-int for_dentry_in_tree_depth(struct wim_dentry *root,
- int (*visitor)(struct wim_dentry*, void*), void *arg)
+/* Like for_dentry_in_tree(), but the visitor function is always called on a
+ * dentry's children before on itself. */
+int
+for_dentry_in_tree_depth(struct wim_dentry *root,
+ int (*visitor)(struct wim_dentry*, void*), void *arg)
{
-#if 1
int ret;
+
+ if (!root)
+ return 0;
ret = for_dentry_tree_in_rbtree_depth(root->d_inode->i_children.rb_node,
visitor, arg);
- if (ret != 0)
+ if (ret)
return ret;
- return visitor(root, arg);
+ return (*visitor)(root, arg);
+}
-#else
+/* Calculate the full path of @dentry. The full path of its parent must have
+ * already been calculated, or it must be the root dentry. */
+static int
+calculate_dentry_full_path(struct wim_dentry *dentry)
+{
+ tchar *full_path;
+ u32 full_path_nbytes;
int ret;
- struct list_head main_stack;
- struct list_head sibling_stack;
- struct list_head *sibling_stack_bottom;
- struct wim_dentry *main_dentry;
- struct rb_node *node;
- struct list_head *next_sibling;
- struct wim_dentry *dentry;
-
- main_dentry = root;
- sibling_stack_bottom = &sibling_stack;
- INIT_LIST_HEAD(&main_stack);
- INIT_LIST_HEAD(&sibling_stack);
- list_add(&main_dentry->tmp_list, &main_stack);
+ if (dentry->_full_path)
+ return 0;
- while (1) {
- node = main_dentry->d_inode->i_children.rb_node;
+ if (dentry_is_root(dentry)) {
+ full_path = TSTRDUP(T("/"));
+ if (!full_path)
+ return WIMLIB_ERR_NOMEM;
+ full_path_nbytes = 1 * sizeof(tchar);
+ } else {
+ struct wim_dentry *parent;
+ tchar *parent_full_path;
+ u32 parent_full_path_nbytes;
+ size_t filename_nbytes;
- while (1) {
- if (node->rb_left) {
- list_add(&rbnode_dentry(node)->tmp_list, &sibling_stack);
- node = node->rb_left;
- continue;
- }
- if (node->rb_right) {
- list_add(&rbnode_dentry(node)->tmp_list, &sibling_stack);
- node = node->rb_right;
- continue;
+ parent = dentry->parent;
+ if (dentry_is_root(parent)) {
+ parent_full_path = T("");
+ parent_full_path_nbytes = 0;
+ } else {
+ if (!parent->_full_path) {
+ ret = calculate_dentry_full_path(parent);
+ if (ret)
+ return ret;
}
- list_add(&rbnode_dentry(node)->tmp_list, &sibling_stack);
+ parent_full_path = parent->_full_path;
+ parent_full_path_nbytes = parent->full_path_nbytes;
}
- pop_sibling:
- next_sibling = sibling_stack.next;
- if (next_sibling == sibling_stack_bottom) {
- main_dentry = container_of(main_stack.next,
- struct wim_dentry,
- tmp_list);
- list_del(&main_dentry->tmp_list);
-
-
- sibling_stack_bottom = (void*)main_dentry->parent;
-
- if (main_dentry == root) {
- main_dentry->parent = main_dentry;
- ret = visitor(dentry, arg);
- return ret;
- } else {
- main_dentry->parent = container_of(main_stack.next,
- struct wim_dentry,
- tmp_list);
- }
-
- ret = visitor(main_dentry, arg);
-
- if (ret != 0) {
- list_del(&root->tmp_list);
- list_for_each_entry(dentry, &main_stack, tmp_list) {
- dentry->parent = container_of(dentry->tmp_list.next,
- struct wim_dentry,
- tmp_list);
- }
- root->parent = root;
+ /* Append this dentry's name as a tchar string to the full path
+ * of the parent followed by the path separator */
+ #if TCHAR_IS_UTF16LE
+ filename_nbytes = dentry->file_name_nbytes;
+ #else
+ {
+ int ret = utf16le_to_tstr_nbytes(dentry->file_name,
+ dentry->file_name_nbytes,
+ &filename_nbytes);
+ if (ret)
return ret;
- }
- goto pop_sibling;
- } else {
-
- list_del(next_sibling);
- dentry = container_of(next_sibling, struct wim_dentry, tmp_list);
-
-
- list_add(&dentry->tmp_list, &main_stack);
- dentry->parent = (void*)sibling_stack_bottom;
- sibling_stack_bottom = sibling_stack.next;
-
- main_dentry = dentry;
}
+ #endif
+
+ full_path_nbytes = parent_full_path_nbytes + sizeof(tchar) +
+ filename_nbytes;
+ full_path = MALLOC(full_path_nbytes + sizeof(tchar));
+ if (!full_path)
+ return WIMLIB_ERR_NOMEM;
+ memcpy(full_path, parent_full_path, parent_full_path_nbytes);
+ full_path[parent_full_path_nbytes / sizeof(tchar)] = T('/');
+ #if TCHAR_IS_UTF16LE
+ memcpy(&full_path[parent_full_path_nbytes / sizeof(tchar) + 1],
+ dentry->file_name,
+ filename_nbytes + sizeof(tchar));
+ #else
+ utf16le_to_tstr_buf(dentry->file_name,
+ dentry->file_name_nbytes,
+ &full_path[parent_full_path_nbytes /
+ sizeof(tchar) + 1]);
+ #endif
}
-#endif
+ dentry->_full_path = full_path;
+ dentry->full_path_nbytes= full_path_nbytes;
+ return 0;
}
-/*
- * Calculate the full path of @dentry, based on its parent's full path and on
- * its UTF-8 file name.
- */
-int calculate_dentry_full_path(struct wim_dentry *dentry, void *ignore)
+static int
+do_calculate_dentry_full_path(struct wim_dentry *dentry, void *_ignore)
{
- char *full_path;
- u32 full_path_len;
- if (dentry_is_root(dentry)) {
- full_path = MALLOC(2);
- if (!full_path)
- goto oom;
- full_path[0] = '/';
- full_path[1] = '\0';
- full_path_len = 1;
- } else {
- char *parent_full_path;
- u32 parent_full_path_len;
- const struct wim_dentry *parent = dentry->parent;
+ return calculate_dentry_full_path(dentry);
+}
- if (dentry_is_root(parent)) {
- parent_full_path = "";
- parent_full_path_len = 0;
- } else {
- parent_full_path = parent->full_path_utf8;
- parent_full_path_len = parent->full_path_utf8_len;
- }
+int
+calculate_dentry_tree_full_paths(struct wim_dentry *root)
+{
+ return for_dentry_in_tree(root, do_calculate_dentry_full_path, NULL);
+}
- full_path_len = parent_full_path_len + 1 +
- dentry->file_name_utf8_len;
- full_path = MALLOC(full_path_len + 1);
- if (!full_path)
- goto oom;
-
- memcpy(full_path, parent_full_path, parent_full_path_len);
- full_path[parent_full_path_len] = '/';
- memcpy(full_path + parent_full_path_len + 1,
- dentry->file_name_utf8,
- dentry->file_name_utf8_len);
- full_path[full_path_len] = '\0';
- }
- FREE(dentry->full_path_utf8);
- dentry->full_path_utf8 = full_path;
- dentry->full_path_utf8_len = full_path_len;
- return 0;
-oom:
- ERROR("Out of memory while calculating dentry full path");
- return WIMLIB_ERR_NOMEM;
+tchar *
+dentry_full_path(struct wim_dentry *dentry)
+{
+ calculate_dentry_full_path(dentry);
+ return dentry->_full_path;
}
-static int increment_subdir_offset(struct wim_dentry *dentry, void *subdir_offset_p)
+static int
+increment_subdir_offset(struct wim_dentry *dentry, void *subdir_offset_p)
{
*(u64*)subdir_offset_p += dentry_correct_total_length(dentry);
return 0;
}
-static int call_calculate_subdir_offsets(struct wim_dentry *dentry,
- void *subdir_offset_p)
+static int
+call_calculate_subdir_offsets(struct wim_dentry *dentry, void *subdir_offset_p)
{
calculate_subdir_offsets(dentry, subdir_offset_p);
return 0;
* @subdir_offset_p: The current subdirectory offset; i.e., the subdirectory
* offset for @dentry.
*/
-void calculate_subdir_offsets(struct wim_dentry *dentry, u64 *subdir_offset_p)
+void
+calculate_subdir_offsets(struct wim_dentry *dentry, u64 *subdir_offset_p)
{
struct rb_node *node;
}
}
-static int compare_names(const char *name_1, u16 len_1,
- const char *name_2, u16 len_2)
+static int
+compare_utf16le_names(const utf16lechar *name1, size_t nbytes1,
+ const utf16lechar *name2, size_t nbytes2)
{
- int result = strncasecmp(name_1, name_2, min(len_1, len_2));
- if (result) {
+ int result = memcmp(name1, name2, min(nbytes1, nbytes2));
+ if (result)
return result;
- } else {
- return (int)len_1 - (int)len_2;
- }
+ else
+ return (int)nbytes1 - (int)nbytes2;
}
-static int dentry_compare_names(const struct wim_dentry *d1, const struct wim_dentry *d2)
+static int
+dentry_compare_names(const struct wim_dentry *d1, const struct wim_dentry *d2)
{
- return compare_names(d1->file_name_utf8, d1->file_name_utf8_len,
- d2->file_name_utf8, d2->file_name_utf8_len);
+ return compare_utf16le_names(d1->file_name, d1->file_name_nbytes,
+ d2->file_name, d2->file_name_nbytes);
}
-static struct wim_dentry *
-get_rbtree_child_with_name(const struct rb_node *node,
- const char *name, size_t name_len)
-{
- do {
- struct wim_dentry *child = rbnode_dentry(node);
- int result = compare_names(name, name_len,
- child->file_name_utf8,
- child->file_name_utf8_len);
+struct wim_dentry *
+get_dentry_child_with_utf16le_name(const struct wim_dentry *dentry,
+ const utf16lechar *name,
+ size_t name_nbytes)
+{
+ struct rb_node *node = dentry->d_inode->i_children.rb_node;
+ struct wim_dentry *child;
+ while (node) {
+ child = rbnode_dentry(node);
+ int result = compare_utf16le_names(name, name_nbytes,
+ child->file_name,
+ child->file_name_nbytes);
if (result < 0)
node = node->rb_left;
else if (result > 0)
node = node->rb_right;
else
return child;
- } while (node);
+ }
return NULL;
}
-/* Returns the child of @dentry that has the file name @name.
- * Returns NULL if no child has the name. */
-struct wim_dentry *get_dentry_child_with_name(const struct wim_dentry *dentry,
- const char *name)
+/* Returns the child of @dentry that has the file name @name. Returns NULL if
+ * no child has the name. */
+struct wim_dentry *
+get_dentry_child_with_name(const struct wim_dentry *dentry, const tchar *name)
{
- struct rb_node *node = dentry->d_inode->i_children.rb_node;
- if (node)
- return get_rbtree_child_with_name(node, name, strlen(name));
- else
- return NULL;
+#if TCHAR_IS_UTF16LE
+ return get_dentry_child_with_utf16le_name(dentry, name,
+ tstrlen(name) * sizeof(tchar));
+#else
+ utf16lechar *utf16le_name;
+ size_t utf16le_name_nbytes;
+ int ret;
+ struct wim_dentry *child;
+
+ ret = tstr_to_utf16le(name, tstrlen(name) * sizeof(tchar),
+ &utf16le_name, &utf16le_name_nbytes);
+ if (ret) {
+ child = NULL;
+ } else {
+ child = get_dentry_child_with_utf16le_name(dentry,
+ utf16le_name,
+ utf16le_name_nbytes);
+ FREE(utf16le_name);
+ }
+ return child;
+#endif
}
-/* Retrieves the dentry that has the UTF-8 @path relative to the dentry
- * @cur_dentry. Returns NULL if no dentry having the path is found. */
-static struct wim_dentry *get_dentry_relative_path(struct wim_dentry *cur_dentry,
- const char *path)
+static struct wim_dentry *
+get_dentry_utf16le(WIMStruct *w, const utf16lechar *path,
+ size_t path_nbytes)
{
- if (*path == '\0')
- return cur_dentry;
+ struct wim_dentry *cur_dentry, *parent_dentry;
+ const utf16lechar *p, *pp;
- struct rb_node *node = cur_dentry->d_inode->i_children.rb_node;
- if (node) {
- struct wim_dentry *child;
- size_t base_len;
- const char *new_path;
-
- new_path = path_next_part(path, &base_len);
+ cur_dentry = parent_dentry = wim_root_dentry(w);
+ if (!cur_dentry) {
+ errno = ENOENT;
+ return NULL;
+ }
+ p = path;
+ while (1) {
+ while (*p == cpu_to_le16('/'))
+ p++;
+ if (*p == '\0')
+ break;
+ pp = p;
+ while (*pp != cpu_to_le16('/') && *pp != cpu_to_le16('\0'))
+ pp++;
- child = get_rbtree_child_with_name(node, path, base_len);
- if (child)
- return get_dentry_relative_path(child, new_path);
+ cur_dentry = get_dentry_child_with_utf16le_name(parent_dentry, p,
+ (void*)pp - (void*)p);
+ if (cur_dentry == NULL)
+ break;
+ p = pp;
+ parent_dentry = cur_dentry;
}
- /* errno is set to ENOTDIR if the lookup failed due to reaching a
- * non-directory, or ENOENT if the lookup failed otherwise. This maybe
- * should be factored out somehow. */
- if (dentry_is_directory(cur_dentry))
- errno = ENOENT;
- else
- errno = ENOTDIR;
- return NULL;
+ if (cur_dentry == NULL) {
+ if (dentry_is_directory(parent_dentry))
+ errno = ENOENT;
+ else
+ errno = ENOTDIR;
+ }
+ return cur_dentry;
}
-/* Returns the dentry corresponding to the UTF-8 @path, or NULL if there is no
- * such dentry. */
-struct wim_dentry *get_dentry(WIMStruct *w, const char *path)
+/* Returns the dentry corresponding to the @path, or NULL if there is no such
+ * dentry. */
+struct wim_dentry *
+get_dentry(WIMStruct *w, const tchar *path)
{
- struct wim_dentry *root = wim_root_dentry(w);
- while (*path == '/')
- path++;
- return get_dentry_relative_path(root, path);
+#if TCHAR_IS_UTF16LE
+ return get_dentry_utf16le(w, path, tstrlen(path) * sizeof(tchar));
+#else
+ utf16lechar *path_utf16le;
+ size_t path_utf16le_nbytes;
+ int ret;
+ struct wim_dentry *dentry;
+
+ ret = tstr_to_utf16le(path, tstrlen(path) * sizeof(tchar),
+ &path_utf16le, &path_utf16le_nbytes);
+ if (ret)
+ return NULL;
+ dentry = get_dentry_utf16le(w, path_utf16le, path_utf16le_nbytes);
+ FREE(path_utf16le);
+ return dentry;
+#endif
}
-struct wim_inode *wim_pathname_to_inode(WIMStruct *w, const char *path)
+struct wim_inode *
+wim_pathname_to_inode(WIMStruct *w, const tchar *path)
{
struct wim_dentry *dentry;
dentry = get_dentry(w, path);
return NULL;
}
+/* Takes in a path of length @len in @buf, and transforms it into a string for
+ * the path of its parent directory. */
+static void
+to_parent_name(tchar *buf, size_t len)
+{
+ ssize_t i = (ssize_t)len - 1;
+ while (i >= 0 && buf[i] == T('/'))
+ i--;
+ while (i >= 0 && buf[i] != T('/'))
+ i--;
+ while (i >= 0 && buf[i] == T('/'))
+ i--;
+ buf[i + 1] = T('\0');
+}
+
/* Returns the dentry that corresponds to the parent directory of @path, or NULL
* if the dentry is not found. */
-struct wim_dentry *get_parent_dentry(WIMStruct *w, const char *path)
+struct wim_dentry *
+get_parent_dentry(WIMStruct *w, const tchar *path)
{
- size_t path_len = strlen(path);
- char buf[path_len + 1];
-
- memcpy(buf, path, path_len + 1);
+ size_t path_len = tstrlen(path);
+ tchar buf[path_len + 1];
+ tmemcpy(buf, path, path_len + 1);
to_parent_name(buf, path_len);
-
return get_dentry(w, buf);
}
/* Prints the full path of a dentry. */
-int print_dentry_full_path(struct wim_dentry *dentry, void *ignore)
+int
+print_dentry_full_path(struct wim_dentry *dentry, void *_ignore)
{
- if (dentry->full_path_utf8)
- puts(dentry->full_path_utf8);
+ int ret = calculate_dentry_full_path(dentry);
+ if (ret)
+ return ret;
+ tprintf(T("%"TS"\n"), dentry->_full_path);
return 0;
}
* set. */
struct file_attr_flag {
u32 flag;
- const char *name;
+ const tchar *name;
};
struct file_attr_flag file_attr_flags[] = {
- {FILE_ATTRIBUTE_READONLY, "READONLY"},
- {FILE_ATTRIBUTE_HIDDEN, "HIDDEN"},
- {FILE_ATTRIBUTE_SYSTEM, "SYSTEM"},
- {FILE_ATTRIBUTE_DIRECTORY, "DIRECTORY"},
- {FILE_ATTRIBUTE_ARCHIVE, "ARCHIVE"},
- {FILE_ATTRIBUTE_DEVICE, "DEVICE"},
- {FILE_ATTRIBUTE_NORMAL, "NORMAL"},
- {FILE_ATTRIBUTE_TEMPORARY, "TEMPORARY"},
- {FILE_ATTRIBUTE_SPARSE_FILE, "SPARSE_FILE"},
- {FILE_ATTRIBUTE_REPARSE_POINT, "REPARSE_POINT"},
- {FILE_ATTRIBUTE_COMPRESSED, "COMPRESSED"},
- {FILE_ATTRIBUTE_OFFLINE, "OFFLINE"},
- {FILE_ATTRIBUTE_NOT_CONTENT_INDEXED,"NOT_CONTENT_INDEXED"},
- {FILE_ATTRIBUTE_ENCRYPTED, "ENCRYPTED"},
- {FILE_ATTRIBUTE_VIRTUAL, "VIRTUAL"},
+ {FILE_ATTRIBUTE_READONLY, T("READONLY")},
+ {FILE_ATTRIBUTE_HIDDEN, T("HIDDEN")},
+ {FILE_ATTRIBUTE_SYSTEM, T("SYSTEM")},
+ {FILE_ATTRIBUTE_DIRECTORY, T("DIRECTORY")},
+ {FILE_ATTRIBUTE_ARCHIVE, T("ARCHIVE")},
+ {FILE_ATTRIBUTE_DEVICE, T("DEVICE")},
+ {FILE_ATTRIBUTE_NORMAL, T("NORMAL")},
+ {FILE_ATTRIBUTE_TEMPORARY, T("TEMPORARY")},
+ {FILE_ATTRIBUTE_SPARSE_FILE, T("SPARSE_FILE")},
+ {FILE_ATTRIBUTE_REPARSE_POINT, T("REPARSE_POINT")},
+ {FILE_ATTRIBUTE_COMPRESSED, T("COMPRESSED")},
+ {FILE_ATTRIBUTE_OFFLINE, T("OFFLINE")},
+ {FILE_ATTRIBUTE_NOT_CONTENT_INDEXED,T("NOT_CONTENT_INDEXED")},
+ {FILE_ATTRIBUTE_ENCRYPTED, T("ENCRYPTED")},
+ {FILE_ATTRIBUTE_VIRTUAL, T("VIRTUAL")},
};
/* Prints a directory entry. @lookup_table is a pointer to the lookup table, if
* available. If the dentry is unresolved and the lookup table is NULL, the
* lookup table entries will not be printed. Otherwise, they will be. */
-int print_dentry(struct wim_dentry *dentry, void *lookup_table)
+int
+print_dentry(struct wim_dentry *dentry, void *lookup_table)
{
const u8 *hash;
struct wim_lookup_table_entry *lte;
const struct wim_inode *inode = dentry->d_inode;
- char buf[50];
+ tchar buf[50];
- printf("[DENTRY]\n");
- printf("Length = %"PRIu64"\n", dentry->length);
- printf("Attributes = 0x%x\n", inode->i_attributes);
+ tprintf(T("[DENTRY]\n"));
+ tprintf(T("Length = %"PRIu64"\n"), dentry->length);
+ tprintf(T("Attributes = 0x%x\n"), inode->i_attributes);
for (size_t i = 0; i < ARRAY_LEN(file_attr_flags); i++)
if (file_attr_flags[i].flag & inode->i_attributes)
- printf(" FILE_ATTRIBUTE_%s is set\n",
+ tprintf(T(" FILE_ATTRIBUTE_%"TS" is set\n"),
file_attr_flags[i].name);
- printf("Security ID = %d\n", inode->i_security_id);
- printf("Subdir offset = %"PRIu64"\n", dentry->subdir_offset);
+ tprintf(T("Security ID = %d\n"), inode->i_security_id);
+ tprintf(T("Subdir offset = %"PRIu64"\n"), dentry->subdir_offset);
wim_timestamp_to_str(inode->i_creation_time, buf, sizeof(buf));
- printf("Creation Time = %s\n", buf);
+ tprintf(T("Creation Time = %"TS"\n"), buf);
wim_timestamp_to_str(inode->i_last_access_time, buf, sizeof(buf));
- printf("Last Access Time = %s\n", buf);
+ tprintf(T("Last Access Time = %"TS"\n"), buf);
wim_timestamp_to_str(inode->i_last_write_time, buf, sizeof(buf));
- printf("Last Write Time = %s\n", buf);
-
- printf("Reparse Tag = 0x%"PRIx32"\n", inode->i_reparse_tag);
- printf("Hard Link Group = 0x%"PRIx64"\n", inode->i_ino);
- printf("Hard Link Group Size = %"PRIu32"\n", inode->i_nlink);
- printf("Number of Alternate Data Streams = %hu\n", inode->i_num_ads);
- printf("Filename (UTF-8) = \"%s\"\n", dentry->file_name_utf8);
- /*printf("Filename (UTF-8) Length = %hu\n", dentry->file_name_utf8_len);*/
- printf("Short Name (UTF-16LE) = \"");
- print_string(dentry->short_name, dentry->short_name_len);
- puts("\"");
- /*printf("Short Name Length = %hu\n", dentry->short_name_len);*/
- printf("Full Path (UTF-8) = \"%s\"\n", dentry->full_path_utf8);
+ tprintf(T("Last Write Time = %"TS"\n"), buf);
+
+ if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT) {
+ tprintf(T("Reparse Tag = 0x%"PRIx32"\n"), inode->i_reparse_tag);
+ tprintf(T("Reparse Point Flags = 0x%"PRIx16"\n"),
+ inode->i_not_rpfixed);
+ tprintf(T("Reparse Point Unknown 2 = 0x%"PRIx32"\n"),
+ inode->i_rp_unknown_2);
+ }
+ tprintf(T("Reparse Point Unknown 1 = 0x%"PRIx32"\n"),
+ inode->i_rp_unknown_1);
+ tprintf(T("Hard Link Group = 0x%"PRIx64"\n"), inode->i_ino);
+ tprintf(T("Hard Link Group Size = %"PRIu32"\n"), inode->i_nlink);
+ tprintf(T("Number of Alternate Data Streams = %hu\n"), inode->i_num_ads);
+ if (dentry_has_long_name(dentry))
+ wimlib_printf(T("Filename = \"%"WS"\"\n"), dentry->file_name);
+ if (dentry_has_short_name(dentry))
+ wimlib_printf(T("Short Name \"%"WS"\"\n"), dentry->short_name);
+ if (dentry->_full_path)
+ tprintf(T("Full Path = \"%"TS"\"\n"), dentry->_full_path);
+
lte = inode_stream_lte(dentry->d_inode, 0, lookup_table);
if (lte) {
- print_lookup_table_entry(lte);
+ print_lookup_table_entry(lte, stdout);
} else {
hash = inode_stream_hash(inode, 0);
if (hash) {
- printf("Hash = 0x");
- print_hash(hash);
- putchar('\n');
- putchar('\n');
+ tprintf(T("Hash = 0x"));
+ print_hash(hash, stdout);
+ tputchar(T('\n'));
+ tputchar(T('\n'));
}
}
for (u16 i = 0; i < inode->i_num_ads; i++) {
- printf("[Alternate Stream Entry %u]\n", i);
- printf("Name = \"%s\"\n", inode->i_ads_entries[i].stream_name_utf8);
- printf("Name Length (UTF-16) = %u\n",
- inode->i_ads_entries[i].stream_name_len);
+ tprintf(T("[Alternate Stream Entry %u]\n"), i);
+ wimlib_printf(T("Name = \"%"WS"\"\n"),
+ inode->i_ads_entries[i].stream_name);
+ tprintf(T("Name Length (UTF16 bytes) = %hu\n"),
+ inode->i_ads_entries[i].stream_name_nbytes);
hash = inode_stream_hash(inode, i + 1);
if (hash) {
- printf("Hash = 0x");
- print_hash(hash);
- putchar('\n');
+ tprintf(T("Hash = 0x"));
+ print_hash(hash, stdout);
+ tputchar(T('\n'));
}
- print_lookup_table_entry(inode_stream_lte(inode, i + 1,
- lookup_table));
+ print_lookup_table_entry(inode_stream_lte(inode, i + 1, lookup_table),
+ stdout);
}
return 0;
}
/* Initializations done on every `struct wim_dentry'. */
-static void dentry_common_init(struct wim_dentry *dentry)
+static void
+dentry_common_init(struct wim_dentry *dentry)
{
memset(dentry, 0, sizeof(struct wim_dentry));
- dentry->refcnt = 1;
}
-static struct wim_inode *new_timeless_inode()
+struct wim_inode *
+new_timeless_inode()
{
struct wim_inode *inode = CALLOC(1, sizeof(struct wim_inode));
if (inode) {
inode->i_security_id = -1;
inode->i_nlink = 1;
- #ifdef WITH_FUSE
inode->i_next_stream_id = 1;
+ inode->i_not_rpfixed = 1;
+ INIT_LIST_HEAD(&inode->i_list);
+ #ifdef WITH_FUSE
if (pthread_mutex_init(&inode->i_mutex, NULL) != 0) {
ERROR_WITH_ERRNO("Error initializing mutex");
FREE(inode);
return inode;
}
-static struct wim_inode *new_inode()
+static struct wim_inode *
+new_inode()
{
struct wim_inode *inode = new_timeless_inode();
if (inode) {
return inode;
}
-/*
- * Creates an unlinked directory entry.
- *
- * @name: The UTF-8 filename of the new dentry.
- *
- * Returns a pointer to the new dentry, or NULL if out of memory.
- */
-struct wim_dentry *new_dentry(const char *name)
+/* Creates an unlinked directory entry. */
+int
+new_dentry(const tchar *name, struct wim_dentry **dentry_ret)
{
struct wim_dentry *dentry;
+ int ret;
dentry = MALLOC(sizeof(struct wim_dentry));
if (!dentry)
- goto err;
+ return WIMLIB_ERR_NOMEM;
dentry_common_init(dentry);
- if (set_dentry_name(dentry, name) != 0)
- goto err;
-
- dentry->parent = dentry;
-
- return dentry;
-err:
- FREE(dentry);
- ERROR_WITH_ERRNO("Failed to create new dentry with name \"%s\"", name);
- return NULL;
+ ret = set_dentry_name(dentry, name);
+ if (ret == 0) {
+ dentry->parent = dentry;
+ *dentry_ret = dentry;
+ } else {
+ FREE(dentry);
+ ERROR("Failed to set name on new dentry with name \"%"TS"\"",
+ name);
+ }
+ return ret;
}
-static struct wim_dentry *
-__new_dentry_with_inode(const char *name, bool timeless)
+static int
+__new_dentry_with_inode(const tchar *name, struct wim_dentry **dentry_ret,
+ bool timeless)
{
struct wim_dentry *dentry;
- dentry = new_dentry(name);
- if (dentry) {
- if (timeless)
- dentry->d_inode = new_timeless_inode();
- else
- dentry->d_inode = new_inode();
- if (dentry->d_inode) {
- inode_add_dentry(dentry, dentry->d_inode);
- } else {
- free_dentry(dentry);
- dentry = NULL;
- }
+ int ret;
+
+ ret = new_dentry(name, &dentry);
+ if (ret)
+ return ret;
+
+ if (timeless)
+ dentry->d_inode = new_timeless_inode();
+ else
+ dentry->d_inode = new_inode();
+ if (!dentry->d_inode) {
+ free_dentry(dentry);
+ return WIMLIB_ERR_NOMEM;
}
- return dentry;
+
+ inode_add_dentry(dentry, dentry->d_inode);
+ *dentry_ret = dentry;
+ return 0;
}
-struct wim_dentry *new_dentry_with_timeless_inode(const char *name)
+int
+new_dentry_with_timeless_inode(const tchar *name, struct wim_dentry **dentry_ret)
{
- return __new_dentry_with_inode(name, true);
+ return __new_dentry_with_inode(name, dentry_ret, true);
}
-struct wim_dentry *new_dentry_with_inode(const char *name)
+int
+new_dentry_with_inode(const tchar *name, struct wim_dentry **dentry_ret)
{
- return __new_dentry_with_inode(name, false);
+ return __new_dentry_with_inode(name, dentry_ret, false);
}
+int
+new_filler_directory(const tchar *name, struct wim_dentry **dentry_ret)
+{
+ int ret;
+ struct wim_dentry *dentry;
-static int init_ads_entry(struct wim_ads_entry *ads_entry, const char *name)
+ DEBUG("Creating filler directory \"%"TS"\"", name);
+ ret = new_dentry_with_inode(name, &dentry);
+ if (ret)
+ goto out;
+ /* Leave the inode number as 0; this is allowed for non
+ * hard-linked files. */
+ dentry->d_inode->i_resolved = 1;
+ dentry->d_inode->i_attributes = FILE_ATTRIBUTE_DIRECTORY;
+ *dentry_ret = dentry;
+ ret = 0;
+out:
+ return ret;
+}
+
+static int
+init_ads_entry(struct wim_ads_entry *ads_entry, const void *name,
+ size_t name_nbytes, bool is_utf16le)
{
int ret = 0;
memset(ads_entry, 0, sizeof(*ads_entry));
- if (name && *name)
- ret = change_ads_name(ads_entry, name);
+
+ if (is_utf16le) {
+ utf16lechar *p = MALLOC(name_nbytes + sizeof(utf16lechar));
+ if (!p)
+ return WIMLIB_ERR_NOMEM;
+ memcpy(p, name, name_nbytes);
+ p[name_nbytes / 2] = 0;
+ ads_entry->stream_name = p;
+ ads_entry->stream_name_nbytes = name_nbytes;
+ } else {
+ if (name && *(const tchar*)name != T('\0')) {
+ ret = get_utf16le_name(name, &ads_entry->stream_name,
+ &ads_entry->stream_name_nbytes);
+ }
+ }
return ret;
}
-static void destroy_ads_entry(struct wim_ads_entry *ads_entry)
+static void
+destroy_ads_entry(struct wim_ads_entry *ads_entry)
{
FREE(ads_entry->stream_name);
- FREE(ads_entry->stream_name_utf8);
}
-
/* Frees an inode. */
-void free_inode(struct wim_inode *inode)
+void
+free_inode(struct wim_inode *inode)
{
if (inode) {
if (inode->i_ads_entries) {
wimlib_assert(inode->i_num_opened_fds == 0);
FREE(inode->i_fds);
pthread_mutex_destroy(&inode->i_mutex);
- if (inode->i_hlist.pprev)
- hlist_del(&inode->i_hlist);
#endif
+ /* HACK: This may instead delete the inode from i_list, but the
+ * hlist_del() behaves the same as list_del(). */
+ hlist_del(&inode->i_hlist);
FREE(inode->i_extracted_file);
FREE(inode);
}
/* Decrements link count on an inode and frees it if the link count reaches 0.
* */
-static void put_inode(struct wim_inode *inode)
+static void
+put_inode(struct wim_inode *inode)
{
wimlib_assert(inode->i_nlink != 0);
if (--inode->i_nlink == 0) {
* The corresponding inode (if any) is freed only if its link count is
* decremented to 0.
*/
-void free_dentry(struct wim_dentry *dentry)
+void
+free_dentry(struct wim_dentry *dentry)
{
FREE(dentry->file_name);
- FREE(dentry->file_name_utf8);
FREE(dentry->short_name);
- FREE(dentry->full_path_utf8);
+ FREE(dentry->_full_path);
if (dentry->d_inode)
put_inode(dentry->d_inode);
FREE(dentry);
}
-void put_dentry(struct wim_dentry *dentry)
-{
- wimlib_assert(dentry->refcnt != 0);
- if (--dentry->refcnt == 0)
- free_dentry(dentry);
-}
-
/* This function is passed as an argument to for_dentry_in_tree_depth() in order
* to free a directory tree. */
-static int do_free_dentry(struct wim_dentry *dentry, void *__lookup_table)
+static int
+do_free_dentry(struct wim_dentry *dentry, void *__lookup_table)
{
struct wim_lookup_table *lookup_table = __lookup_table;
unsigned i;
lte_decrement_refcnt(lte, lookup_table);
}
}
-
- put_dentry(dentry);
+ free_dentry(dentry);
return 0;
}
* table entries corresponding to the dentries will be
* decremented.
*/
-void free_dentry_tree(struct wim_dentry *root, struct wim_lookup_table *lookup_table)
+void
+free_dentry_tree(struct wim_dentry *root, struct wim_lookup_table *lookup_table)
{
- if (root)
- for_dentry_in_tree_depth(root, do_free_dentry, lookup_table);
-}
-
-int increment_dentry_refcnt(struct wim_dentry *dentry, void *ignore)
-{
- dentry->refcnt++;
- return 0;
+ for_dentry_in_tree_depth(root, do_free_dentry, lookup_table);
}
/*
* Links a dentry into the directory tree.
*
- * @dentry: The dentry to link.
* @parent: The dentry that will be the parent of @dentry.
+ * @dentry: The dentry to link.
*/
-bool dentry_add_child(struct wim_dentry * restrict parent,
- struct wim_dentry * restrict child)
+struct wim_dentry *
+dentry_add_child(struct wim_dentry * restrict parent,
+ struct wim_dentry * restrict child)
{
wimlib_assert(dentry_is_directory(parent));
else if (result > 0)
new = &((*new)->rb_right);
else
- return false;
+ return this;
}
child->parent = parent;
rb_link_node(&child->rb_node, rb_parent, new);
rb_insert_color(&child->rb_node, root);
- return true;
+ return NULL;
}
-#ifdef WITH_FUSE
/* Unlink a WIM dentry from the directory entry tree. */
-void unlink_dentry(struct wim_dentry *dentry)
+void
+unlink_dentry(struct wim_dentry *dentry)
{
struct wim_dentry *parent = dentry->parent;
if (parent == dentry)
return;
rb_erase(&dentry->rb_node, &parent->d_inode->i_children);
}
-#endif
-#ifdef WITH_FUSE
-/*
+/*
* Returns the alternate data stream entry belonging to @inode that has the
* stream name @stream_name.
*/
-struct wim_ads_entry *inode_get_ads_entry(struct wim_inode *inode,
- const char *stream_name,
- u16 *idx_ret)
+struct wim_ads_entry *
+inode_get_ads_entry(struct wim_inode *inode, const tchar *stream_name,
+ u16 *idx_ret)
{
- if (inode->i_num_ads != 0) {
- u16 i = 0;
- size_t stream_name_len = strlen(stream_name);
+ if (inode->i_num_ads == 0) {
+ return NULL;
+ } else {
+ size_t stream_name_utf16le_nbytes;
+ u16 i;
+ struct wim_ads_entry *result;
+
+ #if TCHAR_IS_UTF16LE
+ const utf16lechar *stream_name_utf16le;
+
+ stream_name_utf16le = stream_name;
+ stream_name_utf16le_nbytes = tstrlen(stream_name) * sizeof(tchar);
+ #else
+ utf16lechar *stream_name_utf16le;
+
+ {
+ int ret = tstr_to_utf16le(stream_name,
+ tstrlen(stream_name) *
+ sizeof(tchar),
+ &stream_name_utf16le,
+ &stream_name_utf16le_nbytes);
+ if (ret)
+ return NULL;
+ }
+ #endif
+ i = 0;
+ result = NULL;
do {
if (ads_entry_has_name(&inode->i_ads_entries[i],
- stream_name, stream_name_len))
+ stream_name_utf16le,
+ stream_name_utf16le_nbytes))
{
if (idx_ret)
*idx_ret = i;
- return &inode->i_ads_entries[i];
+ result = &inode->i_ads_entries[i];
+ break;
}
} while (++i != inode->i_num_ads);
+ #if !TCHAR_IS_UTF16LE
+ FREE(stream_name_utf16le);
+ #endif
+ return result;
}
- return NULL;
}
-#endif
-#if defined(WITH_FUSE) || defined(WITH_NTFS_3G)
-/*
- * Add an alternate stream entry to a WIM inode and return a pointer to it, or
- * NULL if memory could not be allocated.
- */
-struct wim_ads_entry *inode_add_ads(struct wim_inode *inode, const char *stream_name)
+static struct wim_ads_entry *
+do_inode_add_ads(struct wim_inode *inode, const void *stream_name,
+ size_t stream_name_nbytes, bool is_utf16le)
{
u16 num_ads;
struct wim_ads_entry *ads_entries;
struct wim_ads_entry *new_entry;
- DEBUG("Add alternate data stream \"%s\"", stream_name);
-
if (inode->i_num_ads >= 0xfffe) {
ERROR("Too many alternate data streams in one inode!");
return NULL;
inode->i_ads_entries = ads_entries;
new_entry = &inode->i_ads_entries[num_ads - 1];
- if (init_ads_entry(new_entry, stream_name) != 0)
+ if (init_ads_entry(new_entry, stream_name, stream_name_nbytes, is_utf16le))
return NULL;
-#ifdef WITH_FUSE
new_entry->stream_id = inode->i_next_stream_id++;
-#endif
inode->i_num_ads = num_ads;
return new_entry;
}
-#endif
-#ifdef WITH_FUSE
+struct wim_ads_entry *
+inode_add_ads_utf16le(struct wim_inode *inode,
+ const utf16lechar *stream_name,
+ size_t stream_name_nbytes)
+{
+ DEBUG("Add alternate data stream \"%"WS"\"", stream_name);
+ return do_inode_add_ads(inode, stream_name, stream_name_nbytes, true);
+}
+
+/*
+ * Add an alternate stream entry to a WIM inode and return a pointer to it, or
+ * NULL if memory could not be allocated.
+ */
+struct wim_ads_entry *
+inode_add_ads(struct wim_inode *inode, const tchar *stream_name)
+{
+ DEBUG("Add alternate data stream \"%"TS"\"", stream_name);
+ return do_inode_add_ads(inode, stream_name,
+ tstrlen(stream_name) * sizeof(tchar),
+ TCHAR_IS_UTF16LE);
+}
+
+int
+inode_add_ads_with_data(struct wim_inode *inode, const tchar *name,
+ const void *value, size_t size,
+ struct wim_lookup_table *lookup_table)
+{
+ int ret = WIMLIB_ERR_NOMEM;
+ struct wim_ads_entry *new_ads_entry;
+ struct wim_lookup_table_entry *existing_lte;
+ struct wim_lookup_table_entry *lte;
+ u8 value_hash[SHA1_HASH_SIZE];
+
+ wimlib_assert(inode->i_resolved);
+ new_ads_entry = inode_add_ads(inode, name);
+ if (!new_ads_entry)
+ goto out;
+ sha1_buffer((const u8*)value, size, value_hash);
+ existing_lte = __lookup_resource(lookup_table, value_hash);
+ if (existing_lte) {
+ lte = existing_lte;
+ lte->refcnt++;
+ } else {
+ u8 *value_copy;
+ lte = new_lookup_table_entry();
+ if (!lte)
+ goto out_remove_ads_entry;
+ value_copy = MALLOC(size);
+ if (!value_copy) {
+ FREE(lte);
+ goto out_remove_ads_entry;
+ }
+ memcpy(value_copy, value, size);
+ lte->resource_location = RESOURCE_IN_ATTACHED_BUFFER;
+ lte->attached_buffer = value_copy;
+ lte->resource_entry.original_size = size;
+ lte->resource_entry.size = size;
+ copy_hash(lte->hash, value_hash);
+ lookup_table_insert(lookup_table, lte);
+ }
+ new_ads_entry->lte = lte;
+ ret = 0;
+ goto out;
+out_remove_ads_entry:
+ inode_remove_ads(inode, new_ads_entry - inode->i_ads_entries,
+ lookup_table);
+out:
+ return ret;
+}
+
+/* Set the unnamed stream of a WIM inode, given a data buffer containing the
+ * stream contents. */
+int
+inode_set_unnamed_stream(struct wim_inode *inode, const void *data, size_t len,
+ struct wim_lookup_table *lookup_table)
+{
+ struct wim_lookup_table_entry *lte, *existing_lte;
+ u8 hash[SHA1_HASH_SIZE];
+ void *buf;
+
+ sha1_buffer(data, len, hash);
+ existing_lte = __lookup_resource(lookup_table, hash);
+ if (existing_lte) {
+ wimlib_assert(wim_resource_size(existing_lte) == len);
+ lte = existing_lte;
+ lte->refcnt++;
+ } else {
+ lte = new_lookup_table_entry();
+ if (!lte)
+ return WIMLIB_ERR_NOMEM;
+ buf = MALLOC(len);
+ if (!buf) {
+ free_lookup_table_entry(lte);
+ return WIMLIB_ERR_NOMEM;
+ }
+ memcpy(buf, data, len);
+ lte->resource_location = RESOURCE_IN_ATTACHED_BUFFER;
+ lte->attached_buffer = buf;
+ lte->resource_entry.original_size = len;
+ copy_hash(lte->hash, hash);
+ lookup_table_insert(lookup_table, lte);
+ }
+ inode->i_lte = lte;
+ inode->i_resolved = 1;
+ return 0;
+}
+
/* Remove an alternate data stream from a WIM inode */
-void inode_remove_ads(struct wim_inode *inode, u16 idx,
- struct wim_lookup_table *lookup_table)
+void
+inode_remove_ads(struct wim_inode *inode, u16 idx,
+ struct wim_lookup_table *lookup_table)
{
struct wim_ads_entry *ads_entry;
struct wim_lookup_table_entry *lte;
ads_entry = &inode->i_ads_entries[idx];
- DEBUG("Remove alternate data stream \"%s\"", ads_entry->stream_name_utf8);
+ DEBUG("Remove alternate data stream \"%"WS"\"", ads_entry->stream_name);
lte = ads_entry->lte;
if (lte)
destroy_ads_entry(ads_entry);
- memcpy(&inode->i_ads_entries[idx],
- &inode->i_ads_entries[idx + 1],
- (inode->i_num_ads - idx - 1) * sizeof(inode->i_ads_entries[0]));
+ memmove(&inode->i_ads_entries[idx],
+ &inode->i_ads_entries[idx + 1],
+ (inode->i_num_ads - idx - 1) * sizeof(inode->i_ads_entries[0]));
inode->i_num_ads--;
}
-#endif
+#ifndef __WIN32__
+int
+inode_get_unix_data(const struct wim_inode *inode,
+ struct wimlib_unix_data *unix_data,
+ u16 *stream_idx_ret)
+{
+ const struct wim_ads_entry *ads_entry;
+ const struct wim_lookup_table_entry *lte;
+ size_t size;
+ int ret;
+
+ wimlib_assert(inode->i_resolved);
+
+ ads_entry = inode_get_ads_entry((struct wim_inode*)inode,
+ WIMLIB_UNIX_DATA_TAG, NULL);
+ if (!ads_entry)
+ return NO_UNIX_DATA;
+
+ if (stream_idx_ret)
+ *stream_idx_ret = ads_entry - inode->i_ads_entries;
+
+ lte = ads_entry->lte;
+ if (!lte)
+ return NO_UNIX_DATA;
+
+ size = wim_resource_size(lte);
+ if (size != sizeof(struct wimlib_unix_data))
+ return BAD_UNIX_DATA;
+
+ ret = read_full_resource_into_buf(lte, unix_data);
+ if (ret)
+ return ret;
+
+ if (unix_data->version != 0)
+ return BAD_UNIX_DATA;
+ return 0;
+}
+
+int
+inode_set_unix_data(struct wim_inode *inode, uid_t uid, gid_t gid, mode_t mode,
+ struct wim_lookup_table *lookup_table, int which)
+{
+ struct wimlib_unix_data unix_data;
+ int ret;
+ bool have_good_unix_data = false;
+ bool have_unix_data = false;
+ u16 stream_idx;
+
+ if (!(which & UNIX_DATA_CREATE)) {
+ ret = inode_get_unix_data(inode, &unix_data, &stream_idx);
+ if (ret == 0 || ret == BAD_UNIX_DATA || ret > 0)
+ have_unix_data = true;
+ if (ret == 0)
+ have_good_unix_data = true;
+ }
+ unix_data.version = 0;
+ if (which & UNIX_DATA_UID || !have_good_unix_data)
+ unix_data.uid = uid;
+ if (which & UNIX_DATA_GID || !have_good_unix_data)
+ unix_data.gid = gid;
+ if (which & UNIX_DATA_MODE || !have_good_unix_data)
+ unix_data.mode = mode;
+ ret = inode_add_ads_with_data(inode, WIMLIB_UNIX_DATA_TAG,
+ &unix_data,
+ sizeof(struct wimlib_unix_data),
+ lookup_table);
+ if (ret == 0 && have_unix_data)
+ inode_remove_ads(inode, stream_idx, lookup_table);
+ return ret;
+}
+#endif /* !__WIN32__ */
+/* Replace weird characters in filenames and alternate data stream names.
+ *
+ * In particular we do not want the path separator to appear in any names, as
+ * that would make it possible for a "malicious" WIM to extract itself to any
+ * location it wanted to. */
+static void
+replace_forbidden_characters(utf16lechar *name)
+{
+ utf16lechar *p;
+
+ for (p = name; *p; p++) {
+ #ifdef __WIN32__
+ if (wcschr(L"<>:\"/\\|?*", (wchar_t)*p))
+ #else
+ if (*p == cpu_to_le16('/'))
+ #endif
+ {
+ #ifdef __WIN32__
+ *p = cpu_to_le16(0xfffd);
+ #else
+ *p = cpu_to_le16('?');
+ #endif
+ if (name) {
+ WARNING("File, directory, or stream name \"%"WS"\"\n"
+ " contains forbidden characters; "
+ "substituting replacement characters.",
+ name);
+ name = NULL;
+ }
+ }
+ }
+}
/*
* Reads the alternate data stream entries of a WIM dentry.
* is set to an array of `struct wim_ads_entry's of length inode->i_num_ads. On
* failure, @inode is not modified.
*/
-static int read_ads_entries(const u8 *p, struct wim_inode *inode,
- u64 remaining_size)
+static int
+read_ads_entries(const u8 *p, struct wim_inode *inode, u64 remaining_size)
{
u16 num_ads;
struct wim_ads_entry *ads_entries;
u64 length;
u64 length_no_padding;
u64 total_length;
- size_t utf8_len;
const u8 *p_save = p;
cur_entry = &ads_entries[i];
}
p = get_u64(p, &length);
- p += 8; /* Skip the reserved field */
- p = get_bytes(p, SHA1_HASH_SIZE, (u8*)cur_entry->hash);
- p = get_u16(p, &cur_entry->stream_name_len);
+ p = get_u64(p, &cur_entry->unused);
+ p = get_bytes(p, SHA1_HASH_SIZE, cur_entry->hash);
+ p = get_u16(p, &cur_entry->stream_name_nbytes);
cur_entry->stream_name = NULL;
- cur_entry->stream_name_utf8 = NULL;
/* Length including neither the null terminator nor the padding
* */
length_no_padding = WIM_ADS_ENTRY_DISK_SIZE +
- cur_entry->stream_name_len;
+ cur_entry->stream_name_nbytes;
/* Length including the null terminator and the padding */
total_length = ((length_no_padding + 2) + 7) & ~7;
goto out_free_ads_entries;
}
- if (cur_entry->stream_name_len) {
- cur_entry->stream_name = MALLOC(cur_entry->stream_name_len);
+ if (cur_entry->stream_name_nbytes) {
+ cur_entry->stream_name = MALLOC(cur_entry->stream_name_nbytes + 2);
if (!cur_entry->stream_name) {
ret = WIMLIB_ERR_NOMEM;
goto out_free_ads_entries;
}
- get_bytes(p, cur_entry->stream_name_len,
- (u8*)cur_entry->stream_name);
-
- ret = utf16_to_utf8(cur_entry->stream_name,
- cur_entry->stream_name_len,
- &cur_entry->stream_name_utf8,
- &utf8_len);
- if (ret != 0)
- goto out_free_ads_entries;
- cur_entry->stream_name_utf8_len = utf8_len;
+ get_bytes(p, cur_entry->stream_name_nbytes,
+ cur_entry->stream_name);
+ cur_entry->stream_name[cur_entry->stream_name_nbytes / 2] = 0;
+ replace_forbidden_characters(cur_entry->stream_name);
}
/* It's expected that the size of every ADS entry is a multiple
* of 8. However, to be safe, I'm allowing the possibility of
* this was a special "end of directory" dentry and not a real dentry. If
* nonzero, this was a real dentry.
*/
-int read_dentry(const u8 metadata_resource[], u64 metadata_resource_len,
- u64 offset, struct wim_dentry *dentry)
+int
+read_dentry(const u8 metadata_resource[], u64 metadata_resource_len,
+ u64 offset, struct wim_dentry *dentry)
{
const u8 *p;
u64 calculated_size;
- char *file_name = NULL;
- char *file_name_utf8 = NULL;
- char *short_name = NULL;
- u16 short_name_len;
- u16 file_name_len;
- size_t file_name_utf8_len = 0;
+ utf16lechar *file_name = NULL;
+ utf16lechar *short_name = NULL;
+ u16 short_name_nbytes;
+ u16 file_name_nbytes;
int ret;
struct wim_inode *inode = NULL;
p = get_u32(p, (u32*)&inode->i_security_id);
p = get_u64(p, &dentry->subdir_offset);
- /* 2 unused fields */
- p += 2 * sizeof(u64);
- /*p = get_u64(p, &dentry->unused1);*/
- /*p = get_u64(p, &dentry->unused2);*/
+ p = get_u64(p, &inode->i_unused_1);
+ p = get_u64(p, &inode->i_unused_2);
p = get_u64(p, &inode->i_creation_time);
p = get_u64(p, &inode->i_last_access_time);
p = get_bytes(p, SHA1_HASH_SIZE, inode->i_hash);
- /*
- * I don't know what's going on here. It seems like M$ screwed up the
+ /* I don't know what's going on here. It seems like M$ screwed up the
* reparse points, then put the fields in the same place and didn't
- * document it. The WIM_HDR_FLAG_RP_FIX flag in the WIM header might
- * have something to do with this, but it's not documented.
- */
+ * document it. */
if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT) {
- /* ??? */
- p += 4;
+ p = get_u32(p, &inode->i_rp_unknown_1);
p = get_u32(p, &inode->i_reparse_tag);
- p += 4;
+ p = get_u16(p, &inode->i_rp_unknown_2);
+ p = get_u16(p, &inode->i_not_rpfixed);
} else {
- p = get_u32(p, &inode->i_reparse_tag);
+ p = get_u32(p, &inode->i_rp_unknown_1);
p = get_u64(p, &inode->i_ino);
}
p = get_u16(p, &inode->i_num_ads);
- p = get_u16(p, &short_name_len);
- p = get_u16(p, &file_name_len);
+ p = get_u16(p, &short_name_nbytes);
+ p = get_u16(p, &file_name_nbytes);
/* We now know the length of the file name and short name. Make sure
* the length of the dentry is large enough to actually hold them.
* The calculated length here is unaligned to allow for the possibility
* that the dentry->length names an unaligned length, although this
* would be unexpected. */
- calculated_size = __dentry_correct_length_unaligned(file_name_len,
- short_name_len);
+ calculated_size = __dentry_correct_length_unaligned(file_name_nbytes,
+ short_name_nbytes);
if (dentry->length < calculated_size) {
ERROR("Unexpected end of directory entry! (Expected "
"at least %"PRIu64" bytes, got %"PRIu64" bytes. "
- "short_name_len = %hu, file_name_len = %hu)",
+ "short_name_nbytes = %hu, file_name_nbytes = %hu)",
calculated_size, dentry->length,
- short_name_len, file_name_len);
+ short_name_nbytes, file_name_nbytes);
ret = WIMLIB_ERR_INVALID_DENTRY;
goto out_free_inode;
}
/* Read the filename if present. Note: if the filename is empty, there
* is no null terminator following it. */
- if (file_name_len) {
- file_name = MALLOC(file_name_len);
+ if (file_name_nbytes) {
+ file_name = MALLOC(file_name_nbytes + 2);
if (!file_name) {
- ERROR("Failed to allocate %hu bytes for dentry file name",
- file_name_len);
+ ERROR("Failed to allocate %d bytes for dentry file name",
+ file_name_nbytes + 2);
ret = WIMLIB_ERR_NOMEM;
goto out_free_inode;
}
- p = get_bytes(p, file_name_len, file_name);
-
- /* Convert filename to UTF-8. */
- ret = utf16_to_utf8(file_name, file_name_len, &file_name_utf8,
- &file_name_utf8_len);
- if (ret != 0)
- goto out_free_file_name;
- if (*(u16*)p)
- WARNING("Expected two zero bytes following the file name "
- "`%s', but found non-zero bytes", file_name_utf8);
- p += 2;
+ p = get_bytes(p, file_name_nbytes + 2, file_name);
+ if (file_name[file_name_nbytes / 2] != 0) {
+ file_name[file_name_nbytes / 2] = 0;
+ WARNING("File name in WIM dentry \"%"WS"\" is not "
+ "null-terminated!", file_name);
+ }
+ replace_forbidden_characters(file_name);
}
/* Align the calculated size */
* u64 reserved1; (always 0)
* u64 reserved2; (always 0)
* };*/
- DEBUG("Dentry for file or directory `%s' has %zu extra "
- "bytes of data",
- file_name_utf8, dentry->length - calculated_size);
+ /*DEBUG("Dentry for file or directory `%"WS"' has %"PRIu64" "*/
+ /*"extra bytes of data", file_name,*/
+ /*dentry->length - calculated_size);*/
}
/* Read the short filename if present. Note: if there is no short
* filename, there is no null terminator following it. */
- if (short_name_len) {
- short_name = MALLOC(short_name_len);
+ if (short_name_nbytes) {
+ short_name = MALLOC(short_name_nbytes + 2);
if (!short_name) {
- ERROR("Failed to allocate %hu bytes for short filename",
- short_name_len);
+ ERROR("Failed to allocate %d bytes for dentry short name",
+ short_name_nbytes + 2);
ret = WIMLIB_ERR_NOMEM;
- goto out_free_file_name_utf8;
+ goto out_free_file_name;
}
-
- p = get_bytes(p, short_name_len, short_name);
- if (*(u16*)p)
- WARNING("Expected two zero bytes following the short name of "
- "`%s', but found non-zero bytes", file_name_utf8);
- p += 2;
+ p = get_bytes(p, short_name_nbytes + 2, short_name);
+ if (short_name[short_name_nbytes / 2] != 0) {
+ short_name[short_name_nbytes / 2] = 0;
+ WARNING("Short name in WIM dentry \"%"WS"\" is not "
+ "null-terminated!", file_name);
+ }
+ replace_forbidden_characters(short_name);
}
/*
goto out;
}
ERROR("Failed to read alternate data stream "
- "entries of `%s'", dentry->file_name_utf8);
+ "entries of WIM dentry \"%"WS"\"", file_name);
goto out_free_short_name;
}
out:
-
/* We've read all the data for this dentry. Set the names and their
* lengths, and we've done. */
- dentry->d_inode = inode;
- dentry->file_name = file_name;
- dentry->file_name_utf8 = file_name_utf8;
- dentry->short_name = short_name;
- dentry->file_name_len = file_name_len;
- dentry->file_name_utf8_len = file_name_utf8_len;
- dentry->short_name_len = short_name_len;
+ dentry->d_inode = inode;
+ dentry->file_name = file_name;
+ dentry->short_name = short_name;
+ dentry->file_name_nbytes = file_name_nbytes;
+ dentry->short_name_nbytes = short_name_nbytes;
return 0;
out_free_short_name:
FREE(short_name);
-out_free_file_name_utf8:
- FREE(file_name_utf8);
out_free_file_name:
FREE(file_name);
out_free_inode:
* does not need to be the real root because this procedure is
* called recursively.
*
- * @return: Zero on success, nonzero on failure.
+ * Returns zero on success; nonzero on failure.
*/
-int read_dentry_tree(const u8 metadata_resource[], u64 metadata_resource_len,
- struct wim_dentry *dentry)
+int
+read_dentry_tree(const u8 metadata_resource[], u64 metadata_resource_len,
+ struct wim_dentry *dentry)
{
u64 cur_offset = dentry->subdir_offset;
struct wim_dentry *child;
* @return: Pointer to the byte after the last byte we wrote as part of the
* dentry.
*/
-static u8 *write_dentry(const struct wim_dentry *dentry, u8 *p)
+static u8 *
+write_dentry(const struct wim_dentry *dentry, u8 *p)
{
u8 *orig_p = p;
const u8 *hash;
p = put_u32(p, inode->i_attributes);
p = put_u32(p, inode->i_security_id);
p = put_u64(p, dentry->subdir_offset);
- p = put_u64(p, 0); /* unused1 */
- p = put_u64(p, 0); /* unused2 */
+ p = put_u64(p, inode->i_unused_1);
+ p = put_u64(p, inode->i_unused_2);
p = put_u64(p, inode->i_creation_time);
p = put_u64(p, inode->i_last_access_time);
p = put_u64(p, inode->i_last_write_time);
hash = inode_stream_hash(inode, 0);
p = put_bytes(p, SHA1_HASH_SIZE, hash);
if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT) {
- p = put_zeroes(p, 4);
+ p = put_u32(p, inode->i_rp_unknown_1);
p = put_u32(p, inode->i_reparse_tag);
- p = put_zeroes(p, 4);
+ p = put_u16(p, inode->i_rp_unknown_2);
+ p = put_u16(p, inode->i_not_rpfixed);
} else {
u64 link_group_id;
- p = put_u32(p, 0);
+ p = put_u32(p, inode->i_rp_unknown_1);
if (inode->i_nlink == 1)
link_group_id = 0;
else
p = put_u64(p, link_group_id);
}
p = put_u16(p, inode->i_num_ads);
- p = put_u16(p, dentry->short_name_len);
- p = put_u16(p, dentry->file_name_len);
- if (dentry->file_name_len) {
- p = put_bytes(p, dentry->file_name_len, (u8*)dentry->file_name);
- p = put_u16(p, 0); /* filename padding, 2 bytes. */
+ p = put_u16(p, dentry->short_name_nbytes);
+ p = put_u16(p, dentry->file_name_nbytes);
+ if (dentry_has_long_name(dentry)) {
+ p = put_bytes(p, dentry->file_name_nbytes + 2,
+ dentry->file_name);
}
- if (dentry->short_name) {
- p = put_bytes(p, dentry->short_name_len, (u8*)dentry->short_name);
- p = put_u16(p, 0); /* short name padding, 2 bytes */
+ if (dentry_has_short_name(dentry)) {
+ p = put_bytes(p, dentry->short_name_nbytes + 2,
+ dentry->short_name);
}
/* Align to 8-byte boundary */
* alternate data stream entries. */
for (u16 i = 0; i < inode->i_num_ads; i++) {
p = put_u64(p, ads_entry_total_length(&inode->i_ads_entries[i]));
- p = put_u64(p, 0); /* Unused */
+ p = put_u64(p, inode->i_ads_entries[i].unused);
hash = inode_stream_hash(inode, i + 1);
p = put_bytes(p, SHA1_HASH_SIZE, hash);
- p = put_u16(p, inode->i_ads_entries[i].stream_name_len);
- if (inode->i_ads_entries[i].stream_name_len) {
- p = put_bytes(p, inode->i_ads_entries[i].stream_name_len,
- (u8*)inode->i_ads_entries[i].stream_name);
- p = put_u16(p, 0);
+ p = put_u16(p, inode->i_ads_entries[i].stream_name_nbytes);
+ if (inode->i_ads_entries[i].stream_name_nbytes) {
+ p = put_bytes(p,
+ inode->i_ads_entries[i].stream_name_nbytes + 2,
+ inode->i_ads_entries[i].stream_name);
}
p = put_zeroes(p, (8 - (p - orig_p) % 8) % 8);
}
return p;
}
-static int write_dentry_cb(struct wim_dentry *dentry, void *_p)
+static int
+write_dentry_cb(struct wim_dentry *dentry, void *_p)
{
u8 **p = _p;
*p = write_dentry(dentry, *p);
return 0;
}
-static u8 *write_dentry_tree_recursive(const struct wim_dentry *parent, u8 *p);
+static u8 *
+write_dentry_tree_recursive(const struct wim_dentry *parent, u8 *p);
-static int write_dentry_tree_recursive_cb(struct wim_dentry *dentry, void *_p)
+static int
+write_dentry_tree_recursive_cb(struct wim_dentry *dentry, void *_p)
{
u8 **p = _p;
*p = write_dentry_tree_recursive(dentry, *p);
/* Recursive function that writes a dentry tree rooted at @parent, not including
* @parent itself, which has already been written. */
-static u8 *write_dentry_tree_recursive(const struct wim_dentry *parent, u8 *p)
+static u8 *
+write_dentry_tree_recursive(const struct wim_dentry *parent, u8 *p)
{
/* Nothing to do if this dentry has no children. */
if (parent->subdir_offset == 0)
* recursively writing the directory trees rooted at each of the child
* dentries, since the on-disk dentries for a dentry's children are
* always located at consecutive positions in the metadata resource! */
- for_dentry_in_rbtree(parent->d_inode->i_children.rb_node, write_dentry_cb, &p);
+ for_dentry_child(parent, write_dentry_cb, &p);
/* write end of directory entry */
p = put_u64(p, 0);
/* Recurse on children. */
- for_dentry_in_rbtree(parent->d_inode->i_children.rb_node,
- write_dentry_tree_recursive_cb, &p);
+ for_dentry_child(parent, write_dentry_tree_recursive_cb, &p);
return p;
}
*
* Returns pointer to the byte after the last byte we wrote.
*/
-u8 *write_dentry_tree(const struct wim_dentry *root, u8 *p)
+u8 *
+write_dentry_tree(const struct wim_dentry *root, u8 *p)
{
DEBUG("Writing dentry tree.");
wimlib_assert(dentry_is_root(root));