* wimlib; if not, see http://www.gnu.org/licenses/.
*/
-#include "buffer_io.h"
-#include "dentry.h"
-#include "lookup_table.h"
-#include "timestamp.h"
-#include "wimlib_internal.h"
+#ifdef HAVE_CONFIG_H
+# include "config.h"
+#endif
+
+#include "wimlib.h"
+#include "wimlib/dentry.h"
+#include "wimlib/encoding.h"
+#include "wimlib/endianness.h"
+#include "wimlib/error.h"
+#include "wimlib/lookup_table.h"
+#include "wimlib/metadata.h"
+#include "wimlib/resource.h"
+#include "wimlib/security.h"
+#include "wimlib/sha1.h"
+#include "wimlib/timestamp.h"
+
#include <errno.h>
+/* WIM alternate data stream entry (on-disk format) */
+struct wim_ads_entry_on_disk {
+ /* Length of the entry, in bytes. This apparently includes all
+ * fixed-length fields, plus the stream name and null terminator if
+ * present, and the padding up to an 8 byte boundary. wimlib is a
+ * little less strict when reading the entries, and only requires that
+ * the number of bytes from this field is at least as large as the size
+ * of the fixed length fields and stream name without null terminator.
+ * */
+ le64 length;
+
+ le64 reserved;
+
+ /* SHA1 message digest of the uncompressed stream; or, alternatively,
+ * can be all zeroes if the stream has zero length. */
+ u8 hash[SHA1_HASH_SIZE];
+
+ /* Length of the stream name, in bytes. 0 if the stream is unnamed. */
+ le16 stream_name_nbytes;
+
+ /* Stream name in UTF-16LE. It is @stream_name_nbytes bytes long,
+ * excluding the the null terminator. There is a null terminator
+ * character if @stream_name_nbytes != 0; i.e., if this stream is named.
+ * */
+ utf16lechar stream_name[];
+} _packed_attribute;
+
+#define WIM_ADS_ENTRY_DISK_SIZE 38
+
+/* On-disk format of a WIM dentry (directory entry), located in the metadata
+ * resource for a WIM image. */
+struct wim_dentry_on_disk {
+
+ /* Length of this directory entry in bytes, not including any alternate
+ * data stream entries. Should be a multiple of 8 so that the following
+ * dentry or alternate data stream entry is aligned on an 8-byte
+ * boundary. (If not, wimlib will round it up.) It must be at least as
+ * long as the fixed-length fields of the dentry (WIM_DENTRY_DISK_SIZE),
+ * plus the lengths of the file name and/or short name if present.
+ *
+ * It is also possible for this field to be 0. This situation, which is
+ * undocumented, indicates the end of a list of sibling nodes in a
+ * directory. It also means the real length is 8, because the dentry
+ * included only the length field, but that takes up 8 bytes. */
+ le64 length;
+
+ /* Attributes of the file or directory. This is a bitwise OR of the
+ * FILE_ATTRIBUTE_* constants and should correspond to the value
+ * retrieved by GetFileAttributes() on Windows. */
+ le32 attributes;
+
+ /* A value that specifies the security descriptor for this file or
+ * directory. If -1, the file or directory has no security descriptor.
+ * Otherwise, it is a 0-based index into the WIM image's table of
+ * security descriptors (see: `struct wim_security_data') */
+ sle32 security_id;
+
+ /* Offset, in bytes, from the start of the uncompressed metadata
+ * resource of this directory's child directory entries, or 0 if this
+ * directory entry does not correspond to a directory or otherwise does
+ * not have any children. */
+ le64 subdir_offset;
+
+ /* Reserved fields */
+ le64 unused_1;
+ le64 unused_2;
+
+
+ /* Creation time, last access time, and last write time, in
+ * 100-nanosecond intervals since 12:00 a.m UTC January 1, 1601. They
+ * should correspond to the times gotten by calling GetFileTime() on
+ * Windows. */
+ le64 creation_time;
+ le64 last_access_time;
+ le64 last_write_time;
+
+ /* Vaguely, the SHA-1 message digest ("hash") of the file's contents.
+ * More specifically, this is for the "unnamed data stream" rather than
+ * any "alternate data streams". This hash value is used to look up the
+ * corresponding entry in the WIM's stream lookup table to actually find
+ * the file contents within the WIM.
+ *
+ * If the file has no unnamed data stream (e.g. is a directory), then
+ * this field will be all zeroes. If the unnamed data stream is empty
+ * (i.e. an "empty file"), then this field is also expected to be all
+ * zeroes. (It will be if wimlib created the WIM image, at least;
+ * otherwise it can't be ruled out that the SHA-1 message digest of 0
+ * bytes of data is given explicitly.)
+ *
+ * If the file has reparse data, then this field will instead specify
+ * the SHA-1 message digest of the reparse data. If it is somehow
+ * possible for a file to have both an unnamed data stream and reparse
+ * data, then this is not handled by wimlib.
+ *
+ * As a further special case, if this field is all zeroes but there is
+ * an alternate data stream entry with no name and a nonzero SHA-1
+ * message digest field, then that hash must be used instead of this
+ * one. (wimlib does not use this quirk on WIM images it creates.)
+ */
+ u8 unnamed_stream_hash[SHA1_HASH_SIZE];
+
+ /* The format of the following data is not yet completely known and they
+ * do not correspond to Microsoft's documentation.
+ *
+ * If this directory entry is for a reparse point (has
+ * FILE_ATTRIBUTE_REPARSE_POINT set in the attributes field), then the
+ * version of the following fields containing the reparse tag is valid.
+ * Furthermore, the field notated as not_rpfixed, as far as I can tell,
+ * is supposed to be set to 1 if reparse point fixups (a.k.a. fixing the
+ * targets of absolute symbolic links) were *not* done, and otherwise 0.
+ *
+ * If this directory entry is not for a reparse point, then the version
+ * of the following fields containing the hard_link_group_id is valid.
+ * All MS says about this field is that "If this file is part of a hard
+ * link set, all the directory entries in the set will share the same
+ * value in this field.". However, more specifically I have observed
+ * the following:
+ * - If the file is part of a hard link set of size 1, then the
+ * hard_link_group_id should be set to either 0, which is treated
+ * specially as indicating "not hardlinked", or any unique value.
+ * - The specific nonzero values used to identity hard link sets do
+ * not matter, as long as they are unique.
+ * - However, due to bugs in Microsoft's software, it is actually NOT
+ * guaranteed that directory entries that share the same hard link
+ * group ID are actually hard linked to each either. We have to
+ * handle this by using special code to use distinguishing features
+ * (which is possible because some information about the underlying
+ * inode is repeated in each dentry) to split up these fake hard link
+ * groups into what they actually are supposed to be.
+ */
+ union {
+ struct {
+ le32 rp_unknown_1;
+ le32 reparse_tag;
+ le16 rp_unknown_2;
+ le16 not_rpfixed;
+ } _packed_attribute reparse;
+ struct {
+ le32 rp_unknown_1;
+ le64 hard_link_group_id;
+ } _packed_attribute nonreparse;
+ };
+
+ /* Number of alternate data stream entries that directly follow this
+ * dentry on-disk. */
+ le16 num_alternate_data_streams;
+
+ /* Length of this file's UTF-16LE encoded short name (8.3 DOS-compatible
+ * name), if present, in bytes, excluding the null terminator. If this
+ * file has no short name, then this field should be 0. */
+ le16 short_name_nbytes;
+
+ /* Length of this file's UTF-16LE encoded "long" name, excluding the
+ * null terminator. If this file has no short name, then this field
+ * should be 0. It's expected that only the root dentry has this field
+ * set to 0. */
+ le16 file_name_nbytes;
+
+ /* Followed by variable length file name, in UTF16-LE, if
+ * file_name_nbytes != 0. Includes null terminator. */
+ /*utf16lechar file_name[];*/
+
+ /* Followed by variable length short name, in UTF16-LE, if
+ * short_name_nbytes != 0. Includes null terminator. */
+ /*utf16lechar short_name[];*/
+} _packed_attribute;
+
+#define WIM_DENTRY_DISK_SIZE 102
+
/* 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_nbytes, u16 short_name_nbytes)
+_dentry_correct_length_unaligned(u16 file_name_nbytes, u16 short_name_nbytes)
{
- u64 length = WIM_DENTRY_DISK_SIZE;
+ u64 length = sizeof(struct wim_dentry_on_disk);
if (file_name_nbytes)
length += file_name_nbytes + 2;
if (short_name_nbytes)
static u64
dentry_correct_length_unaligned(const struct wim_dentry *dentry)
{
- 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)
-{
- return (dentry_correct_length_unaligned(dentry) + 7) & ~7;
-}
-
-/* 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)
-{
- return entry->stream_name_nbytes == name_nbytes &&
- memcmp(entry->stream_name, name, name_nbytes) == 0;
+ return _dentry_correct_length_unaligned(dentry->file_name_nbytes,
+ dentry->short_name_nbytes);
}
/* Duplicates a string of system-dependent encoding into a UTF-16LE string and
dentry->short_name = NULL;
dentry->short_name_nbytes = 0;
}
- dentry->length = dentry_correct_length(dentry);
}
return ret;
}
static u64
ads_entry_total_length(const struct wim_ads_entry *entry)
{
- u64 len = WIM_ADS_ENTRY_DISK_SIZE;
+ u64 len = sizeof(struct wim_ads_entry_on_disk);
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)
+_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++)
u64
dentry_correct_total_length(const struct wim_dentry *dentry)
{
- return __dentry_total_length(dentry,
- dentry_correct_length_unaligned(dentry));
+ return _dentry_total_length(dentry,
+ dentry_correct_length_unaligned(dentry));
}
/* Like dentry_correct_total_length(), but use the existing dentry->length field
static u64
dentry_total_length(const struct wim_dentry *dentry)
{
- return __dentry_total_length(dentry, dentry->length);
+ return _dentry_total_length(dentry, dentry->length);
}
int
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;
for_dentry_in_tree(struct wim_dentry *root,
int (*visitor)(struct wim_dentry*, void*), void *arg)
{
- int ret = visitor(root, arg);
- if (ret == 0) {
- ret = for_dentry_tree_in_rbtree(root->d_inode->i_children.rb_node,
- visitor,
- arg);
- }
- return ret;
+ int ret;
+
+ if (!root)
+ return 0;
+ ret = (*visitor)(root, arg);
+ if (ret)
+ return ret;
+ 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
int (*visitor)(struct wim_dentry*, void*), void *arg)
{
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)
- ret = visitor(root, arg);
- return ret;
+ if (ret)
+ return ret;
+ return (*visitor)(root, arg);
}
/* 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
+int
calculate_dentry_full_path(struct wim_dentry *dentry)
{
tchar *full_path;
return 0;
if (dentry_is_root(dentry)) {
- full_path = TSTRDUP(T("/"));
+ static const tchar _root_path[] = {WIM_PATH_SEPARATOR, T('\0')};
+ full_path = TSTRDUP(_root_path);
if (!full_path)
return WIMLIB_ERR_NOMEM;
full_path_nbytes = 1 * 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('/');
+ full_path[parent_full_path_nbytes / sizeof(tchar)] = WIM_PATH_SEPARATOR;
#if TCHAR_IS_UTF16LE
memcpy(&full_path[parent_full_path_nbytes / sizeof(tchar) + 1],
dentry->file_name,
}
}
+/* Case-sensitive UTF-16LE dentry or stream name comparison. Used on both UNIX
+ * (always) and Windows (sometimes) */
static int
-compare_utf16le_names(const utf16lechar *name1, size_t nbytes1,
- const utf16lechar *name2, size_t nbytes2)
+compare_utf16le_names_case_sensitive(const utf16lechar *name1, size_t nbytes1,
+ const utf16lechar *name2, size_t nbytes2)
{
+ /* Return the result if the strings differ up to their minimum length.
+ * Note that we cannot use strcmp() or strncmp() here, as the strings
+ * are in UTF-16LE format. */
int result = memcmp(name1, name2, min(nbytes1, nbytes2));
if (result)
return result;
+
+ /* The strings are the same up to their minimum length, so return a
+ * result based on their lengths. */
+ if (nbytes1 < nbytes2)
+ return -1;
+ else if (nbytes1 > nbytes2)
+ return 1;
+ else
+ return 0;
+}
+
+#ifdef __WIN32__
+/* Windoze: Case-insensitive UTF-16LE dentry or stream name comparison */
+static int
+compare_utf16le_names_case_insensitive(const utf16lechar *name1, size_t nbytes1,
+ const utf16lechar *name2, size_t nbytes2)
+{
+ /* Return the result if the strings differ up to their minimum length.
+ * */
+ int result = _wcsnicmp((const wchar_t*)name1, (const wchar_t*)name2,
+ min(nbytes1 / 2, nbytes2 / 2));
+ if (result)
+ return result;
+
+ /* The strings are the same up to their minimum length, so return a
+ * result based on their lengths. */
+ if (nbytes1 < nbytes2)
+ return -1;
+ else if (nbytes1 > nbytes2)
+ return 1;
else
- return (int)nbytes1 - (int)nbytes2;
+ return 0;
}
+#endif /* __WIN32__ */
+#ifdef __WIN32__
+# define compare_utf16le_names compare_utf16le_names_case_insensitive
+#else
+# define compare_utf16le_names compare_utf16le_names_case_sensitive
+#endif
+
+
+#ifdef __WIN32__
static int
-dentry_compare_names(const struct wim_dentry *d1, const struct wim_dentry *d2)
+dentry_compare_names_case_insensitive(const struct wim_dentry *d1,
+ const struct wim_dentry *d2)
{
- return compare_utf16le_names(d1->file_name, d1->file_name_nbytes,
- d2->file_name, d2->file_name_nbytes);
+ return compare_utf16le_names_case_insensitive(d1->file_name,
+ d1->file_name_nbytes,
+ d2->file_name,
+ d2->file_name_nbytes);
}
+#endif /* __WIN32__ */
+static int
+dentry_compare_names_case_sensitive(const struct wim_dentry *d1,
+ const struct wim_dentry *d2)
+{
+ return compare_utf16le_names_case_sensitive(d1->file_name,
+ d1->file_name_nbytes,
+ d2->file_name,
+ d2->file_name_nbytes);
+}
+#ifdef __WIN32__
+# define dentry_compare_names dentry_compare_names_case_insensitive
+#else
+# define dentry_compare_names dentry_compare_names_case_sensitive
+#endif
+
+/* 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)
+{
+ return !compare_utf16le_names(name, name_nbytes,
+ entry->stream_name,
+ entry->stream_name_nbytes);
+}
+
+/* Given a UTF-16LE filename and a directory, look up the dentry for the file.
+ * Return it if found, otherwise NULL. This is case-sensitive on UNIX and
+ * case-insensitive on Windows. */
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 rb_node *node;
+
+#ifdef __WIN32__
+ node = dentry->d_inode->i_children_case_insensitive.rb_node;
+#else
+ node = dentry->d_inode->i_children.rb_node;
+#endif
+
struct wim_dentry *child;
while (node) {
+ #ifdef __WIN32__
+ child = rb_entry(node, struct wim_dentry, rb_node_case_insensitive);
+ #else
child = rbnode_dentry(node);
+ #endif
int result = compare_utf16le_names(name, name_nbytes,
child->file_name,
child->file_name_nbytes);
node = node->rb_left;
else if (result > 0)
node = node->rb_right;
- else
+ else {
+ #ifdef __WIN32__
+ if (!list_empty(&child->case_insensitive_conflict_list))
+ {
+ WARNING("Result of case-insensitive lookup is ambiguous "
+ "(returning \"%ls\" instead of \"%ls\")",
+ child->file_name,
+ container_of(child->case_insensitive_conflict_list.next,
+ struct wim_dentry,
+ case_insensitive_conflict_list)->file_name);
+ }
+ #endif
return child;
+ }
}
return NULL;
}
}
static struct wim_dentry *
-get_dentry_utf16le(WIMStruct *w, const utf16lechar *path,
- size_t path_nbytes)
+get_dentry_utf16le(WIMStruct *wim, const utf16lechar *path)
{
struct wim_dentry *cur_dentry, *parent_dentry;
const utf16lechar *p, *pp;
- cur_dentry = parent_dentry = wim_root_dentry(w);
+ cur_dentry = parent_dentry = wim_root_dentry(wim);
+ if (!cur_dentry) {
+ errno = ENOENT;
+ return NULL;
+ }
p = path;
while (1) {
- while (*p == cpu_to_le16('/'))
+ while (*p == cpu_to_le16(WIM_PATH_SEPARATOR))
p++;
- if (*p == '\0')
+ if (*p == cpu_to_le16('\0'))
break;
pp = p;
- while (*pp != cpu_to_le16('/') && *pp != cpu_to_le16('\0'))
+ while (*pp != cpu_to_le16(WIM_PATH_SEPARATOR) &&
+ *pp != cpu_to_le16('\0'))
pp++;
cur_dentry = get_dentry_child_with_utf16le_name(parent_dentry, p,
return cur_dentry;
}
-/* Returns the dentry corresponding to the @path, or NULL if there is no such
- * dentry. */
+/*
+ * Returns the dentry in the currently selected WIM image named by @path
+ * starting from the root of the WIM image, or NULL if there is no such dentry.
+ *
+ * On Windows, the search is done case-insensitively.
+ */
struct wim_dentry *
-get_dentry(WIMStruct *w, const tchar *path)
+get_dentry(WIMStruct *wim, const tchar *path)
{
#if TCHAR_IS_UTF16LE
- return get_dentry_utf16le(w, path, tstrlen(path) * sizeof(tchar));
+ return get_dentry_utf16le(wim, path);
#else
utf16lechar *path_utf16le;
size_t path_utf16le_nbytes;
&path_utf16le, &path_utf16le_nbytes);
if (ret)
return NULL;
- dentry = get_dentry_utf16le(w, path_utf16le, path_utf16le_nbytes);
+ dentry = get_dentry_utf16le(wim, path_utf16le);
FREE(path_utf16le);
return dentry;
#endif
}
struct wim_inode *
-wim_pathname_to_inode(WIMStruct *w, const tchar *path)
+wim_pathname_to_inode(WIMStruct *wim, const tchar *path)
{
struct wim_dentry *dentry;
- dentry = get_dentry(w, path);
+ dentry = get_dentry(wim, path);
if (dentry)
return dentry->d_inode;
else
to_parent_name(tchar *buf, size_t len)
{
ssize_t i = (ssize_t)len - 1;
- while (i >= 0 && buf[i] == T('/'))
+ while (i >= 0 && buf[i] == WIM_PATH_SEPARATOR)
i--;
- while (i >= 0 && buf[i] != T('/'))
+ while (i >= 0 && buf[i] != WIM_PATH_SEPARATOR)
i--;
- while (i >= 0 && buf[i] == T('/'))
+ while (i >= 0 && buf[i] == WIM_PATH_SEPARATOR)
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 tchar *path)
+get_parent_dentry(WIMStruct *wim, const tchar *path)
{
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);
+ return get_dentry(wim, buf);
}
/* Prints the full path of a dentry. */
}
struct wim_inode *
-new_timeless_inode()
+new_timeless_inode(void)
{
struct wim_inode *inode = CALLOC(1, sizeof(struct wim_inode));
if (inode) {
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 NULL;
- }
- #endif
INIT_LIST_HEAD(&inode->i_dentry);
}
return inode;
}
static struct wim_inode *
-new_inode()
+new_inode(void)
{
struct wim_inode *inode = new_timeless_inode();
if (inode) {
static int
-__new_dentry_with_inode(const tchar *name, struct wim_dentry **dentry_ret,
+_new_dentry_with_inode(const tchar *name, struct wim_dentry **dentry_ret,
bool timeless)
{
struct wim_dentry *dentry;
int
new_dentry_with_timeless_inode(const tchar *name, struct wim_dentry **dentry_ret)
{
- return __new_dentry_with_inode(name, dentry_ret, true);
+ return _new_dentry_with_inode(name, dentry_ret, true);
}
int
new_dentry_with_inode(const tchar *name, struct wim_dentry **dentry_ret)
{
- return __new_dentry_with_inode(name, dentry_ret, 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;
+
+ DEBUG("Creating filler directory \"%"TS"\"", name);
+ ret = new_dentry_with_inode(name, &dentry);
+ if (ret)
+ return ret;
+ /* 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;
+ return 0;
+}
static int
init_ads_entry(struct wim_ads_entry *ads_entry, const void *name,
if (!p)
return WIMLIB_ERR_NOMEM;
memcpy(p, name, name_nbytes);
- p[name_nbytes / 2] = 0;
+ p[name_nbytes / 2] = cpu_to_le16(0);
ads_entry->stream_name = p;
ads_entry->stream_name_nbytes = name_nbytes;
} else {
destroy_ads_entry(&inode->i_ads_entries[i]);
FREE(inode->i_ads_entries);
}
- #ifdef WITH_FUSE
- wimlib_assert(inode->i_num_opened_fds == 0);
- FREE(inode->i_fds);
- pthread_mutex_destroy(&inode->i_mutex);
- #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);
+ if (!hlist_unhashed(&inode->i_hlist))
+ hlist_del(&inode->i_hlist);
FREE(inode);
}
}
void
free_dentry(struct wim_dentry *dentry)
{
- FREE(dentry->file_name);
- FREE(dentry->short_name);
- FREE(dentry->_full_path);
- if (dentry->d_inode)
- put_inode(dentry->d_inode);
- FREE(dentry);
+ if (dentry) {
+ FREE(dentry->file_name);
+ FREE(dentry->short_name);
+ FREE(dentry->_full_path);
+ if (dentry->d_inode)
+ put_inode(dentry->d_inode);
+ FREE(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)
+do_free_dentry(struct wim_dentry *dentry, void *_lookup_table)
{
- struct wim_lookup_table *lookup_table = __lookup_table;
- unsigned i;
+ struct wim_lookup_table *lookup_table = _lookup_table;
if (lookup_table) {
- struct wim_lookup_table_entry *lte;
struct wim_inode *inode = dentry->d_inode;
- wimlib_assert(inode->i_nlink != 0);
- for (i = 0; i <= inode->i_num_ads; i++) {
+ for (unsigned i = 0; i <= inode->i_num_ads; i++) {
+ struct wim_lookup_table_entry *lte;
+
lte = inode_stream_lte(inode, i, lookup_table);
if (lte)
lte_decrement_refcnt(lte, lookup_table);
/*
* Unlinks and frees a dentry tree.
*
- * @root: The root of the tree.
- * @lookup_table: The lookup table for dentries. If non-NULL, the
- * reference counts in the lookup table for the lookup
- * table entries corresponding to the dentries will be
- * decremented.
+ * @root:
+ * The root of the tree.
+ *
+ * @lookup_table:
+ * The lookup table for dentries. If non-NULL, the reference counts in the
+ * lookup table for the lookup table entries corresponding to the dentries
+ * will be decremented.
*/
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);
+ for_dentry_in_tree_depth(root, do_free_dentry, lookup_table);
}
+#ifdef __WIN32__
+
+/* Insert a dentry into the case insensitive index for a directory.
+ *
+ * This is a red-black tree, but when multiple dentries share the same
+ * case-insensitive name, only one is inserted into the tree itself; the rest
+ * are connected in a list.
+ */
+static struct wim_dentry *
+dentry_add_child_case_insensitive(struct wim_dentry *parent,
+ struct wim_dentry *child)
+{
+ struct rb_root *root;
+ struct rb_node **new;
+ struct rb_node *rb_parent;
+
+ root = &parent->d_inode->i_children_case_insensitive;
+ new = &root->rb_node;
+ rb_parent = NULL;
+ while (*new) {
+ struct wim_dentry *this = container_of(*new, struct wim_dentry,
+ rb_node_case_insensitive);
+ int result = dentry_compare_names_case_insensitive(child, this);
+
+ rb_parent = *new;
+
+ if (result < 0)
+ new = &((*new)->rb_left);
+ else if (result > 0)
+ new = &((*new)->rb_right);
+ else
+ return this;
+ }
+ rb_link_node(&child->rb_node_case_insensitive, rb_parent, new);
+ rb_insert_color(&child->rb_node_case_insensitive, root);
+ return NULL;
+}
+#endif
+
/*
* Links a dentry into the directory tree.
*
- * @parent: The dentry that will be the parent of @dentry.
- * @dentry: The dentry to link.
+ * @parent: The dentry that will be the parent of @child.
+ * @child: The dentry to link.
+ *
+ * Returns NULL if successful. If @parent already contains a dentry with the
+ * same case-sensitive name as @child, the pointer to this duplicate dentry is
+ * returned.
*/
struct wim_dentry *
dentry_add_child(struct wim_dentry * restrict parent,
struct wim_dentry * restrict child)
{
- wimlib_assert(dentry_is_directory(parent));
+ struct rb_root *root;
+ struct rb_node **new;
+ struct rb_node *rb_parent;
- struct rb_root *root = &parent->d_inode->i_children;
- struct rb_node **new = &(root->rb_node);
- struct rb_node *rb_parent = NULL;
+ wimlib_assert(dentry_is_directory(parent));
+ wimlib_assert(parent != child);
+ /* Case sensitive child dentry index */
+ root = &parent->d_inode->i_children;
+ new = &root->rb_node;
+ rb_parent = NULL;
while (*new) {
struct wim_dentry *this = rbnode_dentry(*new);
- int result = dentry_compare_names(child, this);
+ int result = dentry_compare_names_case_sensitive(child, this);
rb_parent = *new;
child->parent = parent;
rb_link_node(&child->rb_node, rb_parent, new);
rb_insert_color(&child->rb_node, root);
+
+#ifdef __WIN32__
+ {
+ struct wim_dentry *existing;
+ existing = dentry_add_child_case_insensitive(parent, child);
+ if (existing) {
+ list_add(&child->case_insensitive_conflict_list,
+ &existing->case_insensitive_conflict_list);
+ child->rb_node_case_insensitive.__rb_parent_color = 0;
+ } else {
+ INIT_LIST_HEAD(&child->case_insensitive_conflict_list);
+ }
+ }
+#endif
return NULL;
}
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);
+#ifdef __WIN32__
+ if (dentry->rb_node_case_insensitive.__rb_parent_color) {
+ /* This dentry was in the case-insensitive red-black tree. */
+ rb_erase(&dentry->rb_node_case_insensitive,
+ &parent->d_inode->i_children_case_insensitive);
+ if (!list_empty(&dentry->case_insensitive_conflict_list)) {
+ /* Make a different case-insensitively-the-same dentry
+ * be the "representative" in the red-black tree. */
+ struct list_head *next;
+ struct wim_dentry *other;
+ struct wim_dentry *existing;
+
+ next = dentry->case_insensitive_conflict_list.next;
+ other = list_entry(next, struct wim_dentry, case_insensitive_conflict_list);
+ existing = dentry_add_child_case_insensitive(parent, other);
+ wimlib_assert(existing == NULL);
+ }
+ }
+ list_del(&dentry->case_insensitive_conflict_list);
+#endif
}
/*
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)
+static struct wim_lookup_table_entry *
+add_stream_from_data_buffer(const void *buffer, 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];
+ u8 hash[SHA1_HASH_SIZE];
+ struct wim_lookup_table_entry *lte, *existing_lte;
- 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);
+ sha1_buffer(buffer, size, hash);
+ existing_lte = __lookup_resource(lookup_table, hash);
if (existing_lte) {
+ wimlib_assert(wim_resource_size(existing_lte) == size);
lte = existing_lte;
lte->refcnt++;
} else {
- u8 *value_copy;
+ void *buffer_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;
+ return NULL;
+ buffer_copy = memdup(buffer, size);
+ if (!buffer_copy) {
+ free_lookup_table_entry(lte);
+ return NULL;
}
- memcpy(value_copy, value, size);
lte->resource_location = RESOURCE_IN_ATTACHED_BUFFER;
- lte->attached_buffer = value_copy;
+ lte->attached_buffer = buffer_copy;
lte->resource_entry.original_size = size;
- lte->resource_entry.size = size;
- copy_hash(lte->hash, value_hash);
+ copy_hash(lte->hash, 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;
+ return lte;
+}
+
+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)
+{
+ struct wim_ads_entry *new_ads_entry;
+
+ wimlib_assert(inode->i_resolved);
+
+ new_ads_entry = inode_add_ads(inode, name);
+ if (!new_ads_entry)
+ return WIMLIB_ERR_NOMEM;
+
+ new_ads_entry->lte = add_stream_from_data_buffer(value, size,
+ lookup_table);
+ if (!new_ads_entry->lte) {
+ inode_remove_ads(inode, new_ads_entry - inode->i_ads_entries,
+ lookup_table);
+ return WIMLIB_ERR_NOMEM;
+ }
+ return 0;
+}
+
+bool
+inode_has_named_stream(const struct wim_inode *inode)
+{
+ for (u16 i = 0; i < inode->i_num_ads; i++)
+ if (ads_entry_is_named_stream(&inode->i_ads_entries[i]))
+ return true;
+ return false;
}
/* Set the unnamed stream of a WIM inode, given a data buffer containing the
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_lte = add_stream_from_data_buffer(data, len, lookup_table);
+ if (!inode->i_lte)
+ return WIMLIB_ERR_NOMEM;
inode->i_resolved = 1;
return 0;
}
inode->i_num_ads--;
}
+bool
+inode_has_unix_data(const struct wim_inode *inode)
+{
+ for (u16 i = 0; i < inode->i_num_ads; i++)
+ if (ads_entry_is_unix_data(&inode->i_ads_entries[i]))
+ return true;
+ return false;
+}
+
#ifndef __WIN32__
int
inode_get_unix_data(const struct wim_inode *inode,
if (size != sizeof(struct wimlib_unix_data))
return BAD_UNIX_DATA;
- ret = read_full_resource_into_buf(lte, unix_data, true);
+ ret = read_full_resource_into_buf(lte, unix_data);
if (ret)
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 == '/')
- #endif
- {
- #ifdef __WIN32__
- *p = cpu_to_le16(0xfffd);
- #else
- *p = '?';
- #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.
*
- * @p: Pointer to buffer that starts with the first alternate stream entry.
- *
- * @inode: Inode to load the alternate data streams into.
- * @inode->i_num_ads must have been set to the number of
- * alternate data streams that are expected.
+ * @p:
+ * Pointer to buffer that starts with the first alternate stream entry.
*
- * @remaining_size: Number of bytes of data remaining in the buffer pointed
- * to by @p.
+ * @inode:
+ * Inode to load the alternate data streams into. @inode->i_num_ads must
+ * have been set to the number of alternate data streams that are expected.
*
- * The format of the on-disk alternate stream entries is as follows:
+ * @remaining_size:
+ * Number of bytes of data remaining in the buffer pointed to by @p.
*
- * struct wim_ads_entry_on_disk {
- * u64 length; // Length of the entry, in bytes. This includes
- * all fields (including the stream name and
- * null terminator if present, AND the padding!).
- * u64 reserved; // Seems to be unused
- * u8 hash[20]; // SHA1 message digest of the uncompressed stream
- * u16 stream_name_len; // Length of the stream name, in bytes
- * char stream_name[]; // Stream name in UTF-16LE, @stream_name_len bytes long,
- * not including null terminator
- * u16 zero; // UTF-16 null terminator for the stream name, NOT
- * included in @stream_name_len. Based on what
- * I've observed from filenames in dentries,
- * this field should not exist when
- * (@stream_name_len == 0), but you can't
- * actually tell because of the padding anyway
- * (provided that the padding is zeroed, which
- * it always seems to be).
- * char padding[]; // Padding to make the size a multiple of 8 bytes.
- * };
+ * On success, inode->i_ads_entries is set to an array of `struct
+ * wim_ads_entry's of length inode->i_num_ads. On failure, @inode is not
+ * modified.
*
- * In addition, the entries are 8-byte aligned.
- *
- * Return 0 on success or nonzero on failure. On success, inode->i_ads_entries
- * is set to an array of `struct wim_ads_entry's of length inode->i_num_ads. On
- * failure, @inode is not modified.
+ * Return values:
+ * WIMLIB_ERR_SUCCESS (0)
+ * WIMLIB_ERR_INVALID_METADATA_RESOURCE
+ * WIMLIB_ERR_NOMEM
*/
static int
-read_ads_entries(const u8 *p, struct wim_inode *inode, u64 remaining_size)
+read_ads_entries(const u8 * restrict p, struct wim_inode * restrict inode,
+ size_t nbytes_remaining)
{
u16 num_ads;
struct wim_ads_entry *ads_entries;
int ret;
+ BUILD_BUG_ON(sizeof(struct wim_ads_entry_on_disk) != WIM_ADS_ENTRY_DISK_SIZE);
+
+ /* Allocate an array for our in-memory representation of the alternate
+ * data stream entries. */
num_ads = inode->i_num_ads;
ads_entries = CALLOC(num_ads, sizeof(inode->i_ads_entries[0]));
- if (!ads_entries) {
- ERROR("Could not allocate memory for %"PRIu16" "
- "alternate data stream entries", num_ads);
- return WIMLIB_ERR_NOMEM;
- }
+ if (!ads_entries)
+ goto out_of_memory;
+ /* Read the entries into our newly allocated buffer. */
for (u16 i = 0; i < num_ads; i++) {
- struct wim_ads_entry *cur_entry;
u64 length;
- u64 length_no_padding;
- u64 total_length;
- const u8 *p_save = p;
+ struct wim_ads_entry *cur_entry;
+ const struct wim_ads_entry_on_disk *disk_entry =
+ (const struct wim_ads_entry_on_disk*)p;
cur_entry = &ads_entries[i];
-
- #ifdef WITH_FUSE
ads_entries[i].stream_id = i + 1;
- #endif
-
- /* Read the base stream entry, excluding the stream name. */
- if (remaining_size < WIM_ADS_ENTRY_DISK_SIZE) {
- ERROR("Stream entries go past end of metadata resource");
- ERROR("(remaining_size = %"PRIu64")", remaining_size);
- ret = WIMLIB_ERR_INVALID_DENTRY;
- goto out_free_ads_entries;
- }
-
- p = get_u64(p, &length);
- 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;
-
- /* Length including neither the null terminator nor the padding
- * */
- length_no_padding = WIM_ADS_ENTRY_DISK_SIZE +
- cur_entry->stream_name_nbytes;
-
- /* Length including the null terminator and the padding */
- total_length = ((length_no_padding + 2) + 7) & ~7;
- wimlib_assert(total_length == ads_entry_total_length(cur_entry));
+ /* Do we have at least the size of the fixed-length data we know
+ * need? */
+ if (nbytes_remaining < sizeof(struct wim_ads_entry_on_disk))
+ goto out_invalid;
+
+ /* Read the length field */
+ length = le64_to_cpu(disk_entry->length);
+
+ /* Make sure the length field is neither so small it doesn't
+ * include all the fixed-length data nor so large it overflows
+ * the metadata resource buffer. */
+ if (length < sizeof(struct wim_ads_entry_on_disk) ||
+ length > nbytes_remaining)
+ goto out_invalid;
+
+ /* Read the rest of the fixed-length data. */
+
+ cur_entry->reserved = le64_to_cpu(disk_entry->reserved);
+ copy_hash(cur_entry->hash, disk_entry->hash);
+ cur_entry->stream_name_nbytes = le16_to_cpu(disk_entry->stream_name_nbytes);
+
+ /* If stream_name_nbytes != 0, this is a named stream.
+ * Otherwise this is an unnamed stream, or in some cases (bugs
+ * in Microsoft's software I guess) a meaningless entry
+ * distinguished from the real unnamed stream entry, if any, by
+ * the fact that the real unnamed stream entry has a nonzero
+ * hash field. */
+ if (cur_entry->stream_name_nbytes) {
+ /* The name is encoded in UTF16-LE, which uses 2-byte
+ * coding units, so the length of the name had better be
+ * an even number of bytes... */
+ if (cur_entry->stream_name_nbytes & 1)
+ goto out_invalid;
+
+ /* Add the length of the stream name to get the length
+ * we actually need to read. Make sure this isn't more
+ * than the specified length of the entry. */
+ if (sizeof(struct wim_ads_entry_on_disk) +
+ cur_entry->stream_name_nbytes > length)
+ goto out_invalid;
- if (remaining_size < length_no_padding) {
- ERROR("Stream entries go past end of metadata resource");
- ERROR("(remaining_size = %"PRIu64" bytes, "
- "length_no_padding = %"PRIu64" bytes)",
- remaining_size, length_no_padding);
- ret = WIMLIB_ERR_INVALID_DENTRY;
- goto out_free_ads_entries;
- }
+ cur_entry->stream_name = MALLOC(cur_entry->stream_name_nbytes + 2);
+ if (!cur_entry->stream_name)
+ goto out_of_memory;
- /* The @length field in the on-disk ADS entry is expected to be
- * equal to @total_length, which includes all of the entry and
- * the padding that follows it to align the next ADS entry to an
- * 8-byte boundary. However, to be safe, we'll accept the
- * length field as long as it's not less than the un-padded
- * total length and not more than the padded total length. */
- if (length < length_no_padding || length > total_length) {
- ERROR("Stream entry has unexpected length "
- "field (length field = %"PRIu64", "
- "unpadded total length = %"PRIu64", "
- "padded total length = %"PRIu64")",
- length, length_no_padding, total_length);
- ret = WIMLIB_ERR_INVALID_DENTRY;
- goto out_free_ads_entries;
+ memcpy(cur_entry->stream_name,
+ disk_entry->stream_name,
+ cur_entry->stream_name_nbytes);
+ cur_entry->stream_name[cur_entry->stream_name_nbytes / 2] = cpu_to_le16(0);
}
- 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_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
* an ADS entry at the very end of the metadata resource ending
* un-aligned. So although we still need to increment the input
- * pointer by @total_length to reach the next ADS entry, it's
- * possible that less than @total_length is actually remaining
- * in the metadata resource. We should set the remaining size to
- * 0 bytes if this happens. */
- p = p_save + total_length;
- if (remaining_size < total_length)
- remaining_size = 0;
+ * pointer by @length to reach the next ADS entry, it's possible
+ * that less than @length is actually remaining in the metadata
+ * resource. We should set the remaining bytes to 0 if this
+ * happens. */
+ length = (length + 7) & ~(u64)7;
+ p += length;
+ if (nbytes_remaining < length)
+ nbytes_remaining = 0;
else
- remaining_size -= total_length;
+ nbytes_remaining -= length;
}
inode->i_ads_entries = ads_entries;
-#ifdef WITH_FUSE
inode->i_next_stream_id = inode->i_num_ads + 1;
-#endif
- return 0;
+ ret = 0;
+ goto out;
+out_of_memory:
+ ret = WIMLIB_ERR_NOMEM;
+ goto out_free_ads_entries;
+out_invalid:
+ ERROR("An alternate data stream entry is invalid");
+ ret = WIMLIB_ERR_INVALID_METADATA_RESOURCE;
out_free_ads_entries:
- for (u16 i = 0; i < num_ads; i++)
- destroy_ads_entry(&ads_entries[i]);
- FREE(ads_entries);
+ if (ads_entries) {
+ for (u16 i = 0; i < num_ads; i++)
+ destroy_ads_entry(&ads_entries[i]);
+ FREE(ads_entries);
+ }
+out:
return ret;
}
* Reads a WIM directory entry, including all alternate data stream entries that
* follow it, from the WIM image's metadata resource.
*
- * @metadata_resource: Buffer containing the uncompressed metadata resource.
- * @metadata_resource_len: Length of the metadata resource.
- * @offset: Offset of this directory entry in the metadata resource.
+ * @metadata_resource:
+ * Pointer to the metadata resource buffer.
+ *
+ * @metadata_resource_len:
+ * Length of the metadata resource buffer, in bytes.
+ *
+ * @offset: Offset of the dentry within the metadata resource.
+ *
* @dentry: A `struct wim_dentry' that will be filled in by this function.
*
* Return 0 on success or nonzero on failure. On failure, @dentry will have
* buffers. On success, the dentry->length field must be examined. If zero,
* this was a special "end of directory" dentry and not a real dentry. If
* nonzero, this was a real dentry.
+ *
+ * Return values:
+ * WIMLIB_ERR_SUCCESS (0)
+ * WIMLIB_ERR_INVALID_METADATA_RESOURCE
+ * WIMLIB_ERR_NOMEM
*/
int
-read_dentry(const u8 metadata_resource[], u64 metadata_resource_len,
- u64 offset, struct wim_dentry *dentry)
+read_dentry(const u8 * restrict metadata_resource, u64 metadata_resource_len,
+ u64 offset, struct wim_dentry * restrict dentry)
{
- const u8 *p;
+
u64 calculated_size;
- utf16lechar *file_name = NULL;
- utf16lechar *short_name = NULL;
+ utf16lechar *file_name;
+ utf16lechar *short_name;
u16 short_name_nbytes;
u16 file_name_nbytes;
int ret;
- struct wim_inode *inode = NULL;
+ struct wim_inode *inode;
+ const u8 *p = &metadata_resource[offset];
+ const struct wim_dentry_on_disk *disk_dentry =
+ (const struct wim_dentry_on_disk*)p;
+
+ BUILD_BUG_ON(sizeof(struct wim_dentry_on_disk) != WIM_DENTRY_DISK_SIZE);
+
+ if ((uintptr_t)p & 7)
+ WARNING("WIM dentry is not 8-byte aligned");
dentry_common_init(dentry);
- /*Make sure the dentry really fits into the metadata resource.*/
- if (offset + 8 > metadata_resource_len || offset + 8 < offset) {
+ /* Before reading the whole dentry, we need to read just the length.
+ * This is because a dentry of length 8 (that is, just the length field)
+ * terminates the list of sibling directory entries. */
+ if (offset + sizeof(u64) > metadata_resource_len ||
+ offset + sizeof(u64) < offset)
+ {
ERROR("Directory entry starting at %"PRIu64" ends past the "
"end of the metadata resource (size %"PRIu64")",
offset, metadata_resource_len);
- return WIMLIB_ERR_INVALID_DENTRY;
+ return WIMLIB_ERR_INVALID_METADATA_RESOURCE;
}
-
- /* Before reading the whole dentry, we need to read just the length.
- * This is because a dentry of length 8 (that is, just the length field)
- * terminates the list of sibling directory entries. */
-
- p = get_u64(&metadata_resource[offset], &dentry->length);
+ dentry->length = le64_to_cpu(disk_dentry->length);
/* A zero length field (really a length of 8, since that's how big the
* directory entry is...) indicates that this is the end of directory
* dentry. We do not read it into memory as an actual dentry, so just
- * return successfully in that case. */
+ * return successfully in this case. */
+ if (dentry->length == 8)
+ dentry->length = 0;
if (dentry->length == 0)
return 0;
- /* If the dentry does not overflow the metadata resource buffer and is
- * not too short, read the rest of it (excluding the alternate data
- * streams, but including the file name and short name variable-length
- * fields) into memory. */
- if (offset + dentry->length >= metadata_resource_len
- || offset + dentry->length < offset)
+ /* Now that we have the actual length provided in the on-disk structure,
+ * again make sure it doesn't overflow the metadata resource buffer. */
+ if (offset + dentry->length > metadata_resource_len ||
+ offset + dentry->length < offset)
{
ERROR("Directory entry at offset %"PRIu64" and with size "
"%"PRIu64" ends past the end of the metadata resource "
"(size %"PRIu64")",
offset, dentry->length, metadata_resource_len);
- return WIMLIB_ERR_INVALID_DENTRY;
+ return WIMLIB_ERR_INVALID_METADATA_RESOURCE;
}
- if (dentry->length < WIM_DENTRY_DISK_SIZE) {
+ /* Make sure the dentry length is at least as large as the number of
+ * fixed-length fields */
+ if (dentry->length < sizeof(struct wim_dentry_on_disk)) {
ERROR("Directory entry has invalid length of %"PRIu64" bytes",
dentry->length);
- return WIMLIB_ERR_INVALID_DENTRY;
+ return WIMLIB_ERR_INVALID_METADATA_RESOURCE;
}
+ /* Allocate a `struct wim_inode' for this `struct wim_dentry'. */
inode = new_timeless_inode();
if (!inode)
return WIMLIB_ERR_NOMEM;
- p = get_u32(p, &inode->i_attributes);
- p = get_u32(p, (u32*)&inode->i_security_id);
- p = get_u64(p, &dentry->subdir_offset);
-
- 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_u64(p, &inode->i_last_write_time);
+ /* Read more fields; some into the dentry, and some into the inode. */
- p = get_bytes(p, SHA1_HASH_SIZE, inode->i_hash);
+ inode->i_attributes = le32_to_cpu(disk_dentry->attributes);
+ inode->i_security_id = le32_to_cpu(disk_dentry->security_id);
+ dentry->subdir_offset = le64_to_cpu(disk_dentry->subdir_offset);
+ dentry->d_unused_1 = le64_to_cpu(disk_dentry->unused_1);
+ dentry->d_unused_2 = le64_to_cpu(disk_dentry->unused_2);
+ inode->i_creation_time = le64_to_cpu(disk_dentry->creation_time);
+ inode->i_last_access_time = le64_to_cpu(disk_dentry->last_access_time);
+ inode->i_last_write_time = le64_to_cpu(disk_dentry->last_write_time);
+ copy_hash(inode->i_hash, disk_dentry->unnamed_stream_hash);
/* 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. */
+ * document it. So we have some fields we read for reparse points, and
+ * some fields in the same place for non-reparse-point.s */
if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT) {
- p = get_u32(p, &inode->i_rp_unknown_1);
- p = get_u32(p, &inode->i_reparse_tag);
- p = get_u16(p, &inode->i_rp_unknown_2);
- p = get_u16(p, &inode->i_not_rpfixed);
+ inode->i_rp_unknown_1 = le32_to_cpu(disk_dentry->reparse.rp_unknown_1);
+ inode->i_reparse_tag = le32_to_cpu(disk_dentry->reparse.reparse_tag);
+ inode->i_rp_unknown_2 = le16_to_cpu(disk_dentry->reparse.rp_unknown_2);
+ inode->i_not_rpfixed = le16_to_cpu(disk_dentry->reparse.not_rpfixed);
+ /* Leave inode->i_ino at 0. Note that this means the WIM file
+ * cannot archive hard-linked reparse points. Such a thing
+ * doesn't really make sense anyway, although I believe it's
+ * theoretically possible to have them on NTFS. */
} else {
- p = get_u32(p, &inode->i_rp_unknown_1);
- p = get_u64(p, &inode->i_ino);
+ inode->i_rp_unknown_1 = le32_to_cpu(disk_dentry->nonreparse.rp_unknown_1);
+ inode->i_ino = le64_to_cpu(disk_dentry->nonreparse.hard_link_group_id);
}
- /* By the way, the reparse_reserved field does not actually exist (at
- * least when the file is not a reparse point) */
+ inode->i_num_ads = le16_to_cpu(disk_dentry->num_alternate_data_streams);
- p = get_u16(p, &inode->i_num_ads);
+ short_name_nbytes = le16_to_cpu(disk_dentry->short_name_nbytes);
+ file_name_nbytes = le16_to_cpu(disk_dentry->file_name_nbytes);
- p = get_u16(p, &short_name_nbytes);
- p = get_u16(p, &file_name_nbytes);
+ if ((short_name_nbytes & 1) | (file_name_nbytes & 1))
+ {
+ ERROR("Dentry name is not valid UTF-16LE (odd number of bytes)!");
+ ret = WIMLIB_ERR_INVALID_METADATA_RESOURCE;
+ goto out_free_inode;
+ }
/* 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_nbytes,
- short_name_nbytes);
+ 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_nbytes = %hu, file_name_nbytes = %hu)",
- calculated_size, dentry->length,
- short_name_nbytes, file_name_nbytes);
- ret = WIMLIB_ERR_INVALID_DENTRY;
+ "at least %"PRIu64" bytes, got %"PRIu64" bytes.)",
+ calculated_size, dentry->length);
+ ret = WIMLIB_ERR_INVALID_METADATA_RESOURCE;
goto out_free_inode;
}
+ p += sizeof(struct wim_dentry_on_disk);
+
/* Read the filename if present. Note: if the filename is empty, there
* is no null terminator following it. */
if (file_name_nbytes) {
ret = WIMLIB_ERR_NOMEM;
goto out_free_inode;
}
- 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);
+ memcpy(file_name, p, file_name_nbytes);
+ p += file_name_nbytes + 2;
+ file_name[file_name_nbytes / 2] = cpu_to_le16(0);
+ } else {
+ file_name = NULL;
}
- /* Align the calculated size */
- calculated_size = (calculated_size + 7) & ~7;
-
- if (dentry->length > calculated_size) {
- /* Weird; the dentry says it's longer than it should be. Note
- * that the length field does NOT include the size of the
- * alternate stream entries. */
-
- /* Strangely, some directory entries inexplicably have a little
- * over 70 bytes of extra data. The exact amount of data seems
- * to be 72 bytes, but it is aligned on the next 8-byte
- * boundary. It does NOT seem to be alternate data stream
- * entries. Here's an example of the aligned data:
- *
- * 01000000 40000000 6c786bba c58ede11 b0bb0026 1870892a b6adb76f
- * e63a3e46 8fca8653 0d2effa1 6c786bba c58ede11 b0bb0026 1870892a
- * 00000000 00000000 00000000 00000000
- *
- * Here's one interpretation of how the data is laid out.
- *
- * struct unknown {
- * u32 field1; (always 0x00000001)
- * u32 field2; (always 0x40000000)
- * u8 data[48]; (???)
- * u64 reserved1; (always 0)
- * u64 reserved2; (always 0)
- * };*/
- /*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. */
ret = WIMLIB_ERR_NOMEM;
goto out_free_file_name;
}
- 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);
+ memcpy(short_name, p, short_name_nbytes);
+ p += short_name_nbytes + 2;
+ short_name[short_name_nbytes / 2] = cpu_to_le16(0);
+ } else {
+ short_name = NULL;
}
+ /* Align the dentry length */
+ dentry->length = (dentry->length + 7) & ~7;
+
/*
* Read the alternate data streams, if present. dentry->num_ads tells
* us how many they are, and they will directly follow the dentry
* on-disk.
*
* Note that each alternate data stream entry begins on an 8-byte
- * aligned boundary, and the alternate data stream entries are NOT
- * included in the dentry->length field for some reason.
+ * aligned boundary, and the alternate data stream entries seem to NOT
+ * be included in the dentry->length field for some reason.
*/
if (inode->i_num_ads != 0) {
-
- /* Trying different lengths is just a hack to make sure we have
- * a chance of reading the ADS entries correctly despite the
- * poor documentation. */
-
- if (calculated_size != dentry->length) {
- WARNING("Trying calculated dentry length (%"PRIu64") "
- "instead of dentry->length field (%"PRIu64") "
- "to read ADS entries",
- calculated_size, dentry->length);
- }
- u64 lengths_to_try[3] = {calculated_size,
- (dentry->length + 7) & ~7,
- dentry->length};
- ret = WIMLIB_ERR_INVALID_DENTRY;
- for (size_t i = 0; i < ARRAY_LEN(lengths_to_try); i++) {
- if (lengths_to_try[i] > metadata_resource_len - offset)
- continue;
- ret = read_ads_entries(&metadata_resource[offset + lengths_to_try[i]],
- inode,
- metadata_resource_len - offset - lengths_to_try[i]);
- if (ret == 0)
- goto out;
+ ret = WIMLIB_ERR_INVALID_METADATA_RESOURCE;
+ if (offset + dentry->length > metadata_resource_len ||
+ (ret = read_ads_entries(&metadata_resource[offset + dentry->length],
+ inode,
+ metadata_resource_len - offset - dentry->length)))
+ {
+ ERROR("Failed to read alternate data stream "
+ "entries of WIM dentry \"%"WS"\"", file_name);
+ goto out_free_short_name;
}
- ERROR("Failed to read alternate data stream "
- "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->short_name = short_name;
dentry->file_name_nbytes = file_name_nbytes;
dentry->short_name_nbytes = short_name_nbytes;
- return 0;
+ ret = 0;
+ goto out;
out_free_short_name:
FREE(short_name);
out_free_file_name:
FREE(file_name);
out_free_inode:
free_inode(inode);
+out:
return ret;
}
+static const tchar *
+dentry_get_file_type_string(const struct wim_dentry *dentry)
+{
+ const struct wim_inode *inode = dentry->d_inode;
+ if (inode_is_directory(inode))
+ return T("directory");
+ else if (inode_is_symlink(inode))
+ return T("symbolic link");
+ else
+ return T("file");
+}
+
/* Reads the children of a dentry, and all their children, ..., etc. from the
* metadata resource and into the dentry tree.
*
- * @metadata_resource: An array that contains the uncompressed metadata
- * resource for the WIM file.
+ * @metadata_resource:
+ * An array that contains the uncompressed metadata resource for the WIM
+ * file.
*
- * @metadata_resource_len: The length of the uncompressed metadata resource, in
- * bytes.
+ * @metadata_resource_len:
+ * The length of the uncompressed metadata resource, in bytes.
*
- * @dentry: A pointer to a `struct wim_dentry' that is the root of the directory
- * tree and has already been read from the metadata resource. It
- * does not need to be the real root because this procedure is
- * called recursively.
+ * @dentry:
+ * A pointer to a `struct wim_dentry' that is the root of the directory
+ * tree and has already been read from the metadata resource. It does not
+ * need to be the real root because this procedure is called recursively.
*
- * Returns zero on success; nonzero on failure.
+ * Return values:
+ * WIMLIB_ERR_SUCCESS (0)
+ * WIMLIB_ERR_INVALID_METADATA_RESOURCE
+ * WIMLIB_ERR_NOMEM
*/
int
-read_dentry_tree(const u8 metadata_resource[], u64 metadata_resource_len,
- struct wim_dentry *dentry)
+read_dentry_tree(const u8 * restrict metadata_resource,
+ u64 metadata_resource_len,
+ struct wim_dentry * restrict dentry)
{
u64 cur_offset = dentry->subdir_offset;
struct wim_dentry *child;
+ struct wim_dentry *duplicate;
+ struct wim_dentry *parent;
struct wim_dentry cur_child;
int ret;
if (cur_offset == 0)
return 0;
+ /* Check for cyclic directory structure */
+ for (parent = dentry->parent; !dentry_is_root(parent); parent = parent->parent)
+ {
+ if (unlikely(parent->subdir_offset == cur_offset)) {
+ ERROR("Cyclic directory structure directed: children "
+ "of \"%"TS"\" coincide with children of \"%"TS"\"",
+ dentry_full_path(dentry),
+ dentry_full_path(parent));
+ return WIMLIB_ERR_INVALID_METADATA_RESOURCE;
+ }
+ }
+
/* Find and read all the children of @dentry. */
- while (1) {
+ for (;;) {
/* Read next child of @dentry into @cur_child. */
ret = read_dentry(metadata_resource, metadata_resource_len,
cur_offset, &cur_child);
- if (ret != 0)
+ if (ret)
break;
/* Check for end of directory. */
/* Not end of directory. Allocate this child permanently and
* link it to the parent and previous child. */
- child = MALLOC(sizeof(struct wim_dentry));
+ child = memdup(&cur_child, sizeof(struct wim_dentry));
if (!child) {
- ERROR("Failed to allocate %zu bytes for new dentry",
- sizeof(struct wim_dentry));
+ ERROR("Failed to allocate new dentry!");
ret = WIMLIB_ERR_NOMEM;
break;
}
- memcpy(child, &cur_child, sizeof(struct wim_dentry));
- dentry_add_child(dentry, child);
- inode_add_dentry(child, child->d_inode);
-
- /* If there are children of this child, call this procedure
- * recursively. */
- if (child->subdir_offset != 0) {
- ret = read_dentry_tree(metadata_resource,
- metadata_resource_len, child);
- if (ret != 0)
- break;
- }
/* Advance to the offset of the next child. Note: We need to
* advance by the TOTAL length of the dentry, not by the length
- * child->length, which although it does take into account the
- * padding, it DOES NOT take into account alternate stream
+ * cur_child.length, which although it does take into account
+ * the padding, it DOES NOT take into account alternate stream
* entries. */
cur_offset += dentry_total_length(child);
+
+ if (unlikely(!dentry_has_long_name(child))) {
+ WARNING("Ignoring unnamed dentry in "
+ "directory \"%"TS"\"",
+ dentry_full_path(dentry));
+ free_dentry(child);
+ continue;
+ }
+
+ duplicate = dentry_add_child(dentry, child);
+ if (unlikely(duplicate)) {
+ const tchar *child_type, *duplicate_type;
+ child_type = dentry_get_file_type_string(child);
+ duplicate_type = dentry_get_file_type_string(duplicate);
+ WARNING("Ignoring duplicate %"TS" \"%"TS"\" "
+ "(the WIM image already contains a %"TS" "
+ "at that path with the exact same name)",
+ child_type, dentry_full_path(duplicate),
+ duplicate_type);
+ free_dentry(child);
+ continue;
+ }
+
+ inode_add_dentry(child, child->d_inode);
+ /* If there are children of this child, call this
+ * procedure recursively. */
+ if (child->subdir_offset != 0) {
+ if (likely(dentry_is_directory(child))) {
+ ret = read_dentry_tree(metadata_resource,
+ metadata_resource_len,
+ child);
+ if (ret)
+ break;
+ } else {
+ WARNING("Ignoring children of non-directory \"%"TS"\"",
+ dentry_full_path(child));
+ }
+ }
}
return ret;
}
*
* @dentry: The dentry structure.
* @p: The memory location to write the data to.
- * @return: Pointer to the byte after the last byte we wrote as part of the
- * dentry.
+ *
+ * Returns the pointer to the byte after the last byte we wrote as part of the
+ * dentry, including any alternate data stream entries.
*/
static u8 *
-write_dentry(const struct wim_dentry *dentry, u8 *p)
+write_dentry(const struct wim_dentry * restrict dentry, u8 * restrict p)
{
- u8 *orig_p = p;
+ const struct wim_inode *inode;
+ struct wim_dentry_on_disk *disk_dentry;
+ const u8 *orig_p;
const u8 *hash;
- const struct wim_inode *inode = dentry->d_inode;
- /* We calculate the correct length of the dentry ourselves because the
- * dentry->length field may been set to an unexpected value from when we
- * read the dentry in (for example, there may have been unknown data
- * appended to the end of the dentry...) */
- u64 length = dentry_correct_length(dentry);
-
- p = put_u64(p, length);
- 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, 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);
+ wimlib_assert(((uintptr_t)p & 7) == 0); /* 8 byte aligned */
+ orig_p = p;
+
+ inode = dentry->d_inode;
+ disk_dentry = (struct wim_dentry_on_disk*)p;
+
+ disk_dentry->attributes = cpu_to_le32(inode->i_attributes);
+ disk_dentry->security_id = cpu_to_le32(inode->i_security_id);
+ disk_dentry->subdir_offset = cpu_to_le64(dentry->subdir_offset);
+ disk_dentry->unused_1 = cpu_to_le64(dentry->d_unused_1);
+ disk_dentry->unused_2 = cpu_to_le64(dentry->d_unused_2);
+ disk_dentry->creation_time = cpu_to_le64(inode->i_creation_time);
+ disk_dentry->last_access_time = cpu_to_le64(inode->i_last_access_time);
+ disk_dentry->last_write_time = cpu_to_le64(inode->i_last_write_time);
hash = inode_stream_hash(inode, 0);
- p = put_bytes(p, SHA1_HASH_SIZE, hash);
+ copy_hash(disk_dentry->unnamed_stream_hash, hash);
if (inode->i_attributes & FILE_ATTRIBUTE_REPARSE_POINT) {
- p = put_u32(p, inode->i_rp_unknown_1);
- p = put_u32(p, inode->i_reparse_tag);
- p = put_u16(p, inode->i_rp_unknown_2);
- p = put_u16(p, inode->i_not_rpfixed);
+ disk_dentry->reparse.rp_unknown_1 = cpu_to_le32(inode->i_rp_unknown_1);
+ disk_dentry->reparse.reparse_tag = cpu_to_le32(inode->i_reparse_tag);
+ disk_dentry->reparse.rp_unknown_2 = cpu_to_le16(inode->i_rp_unknown_2);
+ disk_dentry->reparse.not_rpfixed = cpu_to_le16(inode->i_not_rpfixed);
} else {
- u64 link_group_id;
- p = put_u32(p, inode->i_rp_unknown_1);
- if (inode->i_nlink == 1)
- link_group_id = 0;
- else
- link_group_id = inode->i_ino;
- p = put_u64(p, link_group_id);
- }
- p = put_u16(p, inode->i_num_ads);
- 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_has_short_name(dentry)) {
- p = put_bytes(p, dentry->short_name_nbytes + 2,
- dentry->short_name);
+ disk_dentry->nonreparse.rp_unknown_1 = cpu_to_le32(inode->i_rp_unknown_1);
+ disk_dentry->nonreparse.hard_link_group_id =
+ cpu_to_le64((inode->i_nlink == 1) ? 0 : inode->i_ino);
}
+ disk_dentry->num_alternate_data_streams = cpu_to_le16(inode->i_num_ads);
+ disk_dentry->short_name_nbytes = cpu_to_le16(dentry->short_name_nbytes);
+ disk_dentry->file_name_nbytes = cpu_to_le16(dentry->file_name_nbytes);
+ p += sizeof(struct wim_dentry_on_disk);
+
+ wimlib_assert(dentry_is_root(dentry) != dentry_has_long_name(dentry));
+
+ if (dentry_has_long_name(dentry))
+ p = mempcpy(p, dentry->file_name, dentry->file_name_nbytes + 2);
+
+ if (dentry_has_short_name(dentry))
+ p = mempcpy(p, dentry->short_name, dentry->short_name_nbytes + 2);
/* Align to 8-byte boundary */
- wimlib_assert(length >= (p - orig_p) && length - (p - orig_p) <= 7);
- p = put_zeroes(p, length - (p - orig_p));
+ while ((uintptr_t)p & 7)
+ *p++ = 0;
- /* Write the alternate data streams, if there are any. Please see
- * read_ads_entries() for comments about the format of the on-disk
- * alternate data stream entries. */
+ /* We calculate the correct length of the dentry ourselves because the
+ * dentry->length field may been set to an unexpected value from when we
+ * read the dentry in (for example, there may have been unknown data
+ * appended to the end of the dentry...). Furthermore, the dentry may
+ * have been renamed, thus changing its needed length. */
+ disk_dentry->length = cpu_to_le64(p - orig_p);
+
+ /* Write the alternate data streams entries, if any. */
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, inode->i_ads_entries[i].unused);
+ const struct wim_ads_entry *ads_entry =
+ &inode->i_ads_entries[i];
+ struct wim_ads_entry_on_disk *disk_ads_entry =
+ (struct wim_ads_entry_on_disk*)p;
+ orig_p = p;
+
+ disk_ads_entry->reserved = cpu_to_le64(ads_entry->reserved);
+
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_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);
+ copy_hash(disk_ads_entry->hash, hash);
+ disk_ads_entry->stream_name_nbytes = cpu_to_le16(ads_entry->stream_name_nbytes);
+ p += sizeof(struct wim_ads_entry_on_disk);
+ if (ads_entry->stream_name_nbytes) {
+ p = mempcpy(p, ads_entry->stream_name,
+ ads_entry->stream_name_nbytes + 2);
}
- p = put_zeroes(p, (8 - (p - orig_p) % 8) % 8);
+ /* Align to 8-byte boundary */
+ while ((uintptr_t)p & 7)
+ *p++ = 0;
+ disk_ads_entry->length = cpu_to_le64(p - orig_p);
}
- wimlib_assert(p - orig_p == __dentry_total_length(dentry, length));
return p;
}
for_dentry_child(parent, write_dentry_cb, &p);
/* write end of directory entry */
- p = put_u64(p, 0);
+ *(le64*)p = cpu_to_le64(0);
+ p += 8;
/* Recurse on children. */
for_dentry_child(parent, write_dentry_tree_recursive_cb, &p);
* Returns pointer to the byte after the last byte we wrote.
*/
u8 *
-write_dentry_tree(const struct wim_dentry *root, u8 *p)
+write_dentry_tree(const struct wim_dentry * restrict root, u8 * restrict p)
{
DEBUG("Writing dentry tree.");
wimlib_assert(dentry_is_root(root));
/* Write end of directory entry after the root dentry just to be safe;
* however the root dentry obviously cannot have any siblings. */
- p = put_u64(p, 0);
+ *(le64*)p = cpu_to_le64(0);
+ p += 8;
/* Recursively write the rest of the dentry tree. */
return write_dentry_tree_recursive(root, p);
}
+
+
+static int
+init_wimlib_dentry(struct wimlib_dir_entry *wdentry,
+ struct wim_dentry *dentry,
+ const WIMStruct *wim)
+{
+ int ret;
+ size_t dummy;
+ const struct wim_inode *inode = dentry->d_inode;
+ struct wim_lookup_table_entry *lte;
+
+#if TCHAR_IS_UTF16LE
+ wdentry->filename = dentry->file_name;
+ wdentry->dos_name = dentry->short_name;
+#else
+ if (dentry_has_long_name(dentry)) {
+ ret = utf16le_to_tstr(dentry->file_name,
+ dentry->file_name_nbytes,
+ (tchar**)&wdentry->filename,
+ &dummy);
+ if (ret)
+ return ret;
+ }
+ if (dentry_has_short_name(dentry)) {
+ ret = utf16le_to_tstr(dentry->short_name,
+ dentry->short_name_nbytes,
+ (tchar**)&wdentry->dos_name,
+ &dummy);
+ if (ret)
+ return ret;
+ }
+#endif
+ ret = calculate_dentry_full_path(dentry);
+ if (ret)
+ return ret;
+ wdentry->full_path = dentry->_full_path;
+
+ for (struct wim_dentry *d = dentry; !dentry_is_root(d); d = d->parent)
+ wdentry->depth++;
+
+ if (inode->i_security_id >= 0) {
+ const struct wim_security_data *sd = wim_const_security_data(wim);
+ wdentry->security_descriptor = sd->descriptors[inode->i_security_id];
+ wdentry->security_descriptor_size = sd->sizes[inode->i_security_id];
+ }
+ wdentry->reparse_tag = inode->i_reparse_tag;
+ wdentry->num_links = inode->i_nlink;
+ wdentry->attributes = inode->i_attributes;
+ wdentry->hard_link_group_id = inode->i_ino;
+ wdentry->creation_time = wim_timestamp_to_timespec(inode->i_creation_time);
+ wdentry->last_write_time = wim_timestamp_to_timespec(inode->i_last_write_time);
+ wdentry->last_access_time = wim_timestamp_to_timespec(inode->i_last_access_time);
+
+ lte = inode_unnamed_lte(inode, wim->lookup_table);
+ if (lte)
+ lte_to_wimlib_resource_entry(lte, &wdentry->streams[0].resource);
+
+ for (unsigned i = 0; i < inode->i_num_ads; i++) {
+ if (inode->i_ads_entries[i].stream_name == NULL)
+ continue;
+ lte = inode_stream_lte(inode, i + 1, wim->lookup_table);
+ wdentry->num_named_streams++;
+ if (lte) {
+ lte_to_wimlib_resource_entry(lte, &wdentry->streams[
+ wdentry->num_named_streams].resource);
+ }
+ #if TCHAR_IS_UTF16LE
+ wdentry->streams[wdentry->num_named_streams].stream_name =
+ inode->i_ads_entries[i].stream_name;
+ #else
+ size_t dummy;
+
+ ret = utf16le_to_tstr(inode->i_ads_entries[i].stream_name,
+ inode->i_ads_entries[i].stream_name_nbytes,
+ (tchar**)&wdentry->streams[
+ wdentry->num_named_streams].stream_name,
+ &dummy);
+ if (ret)
+ return ret;
+ #endif
+ }
+ return 0;
+}
+
+static void
+free_wimlib_dentry(struct wimlib_dir_entry *wdentry)
+{
+#if !TCHAR_IS_UTF16LE
+ FREE((tchar*)wdentry->filename);
+ FREE((tchar*)wdentry->dos_name);
+ for (unsigned i = 1; i <= wdentry->num_named_streams; i++)
+ FREE((tchar*)wdentry->streams[i].stream_name);
+#endif
+ FREE(wdentry);
+}
+
+struct iterate_dir_tree_ctx {
+ WIMStruct *wim;
+ int flags;
+ wimlib_iterate_dir_tree_callback_t cb;
+ void *user_ctx;
+};
+
+static int
+do_iterate_dir_tree(WIMStruct *wim,
+ struct wim_dentry *dentry, int flags,
+ wimlib_iterate_dir_tree_callback_t cb,
+ void *user_ctx);
+
+static int
+call_do_iterate_dir_tree(struct wim_dentry *dentry, void *_ctx)
+{
+ struct iterate_dir_tree_ctx *ctx = _ctx;
+ return do_iterate_dir_tree(ctx->wim, dentry, ctx->flags,
+ ctx->cb, ctx->user_ctx);
+}
+
+static int
+do_iterate_dir_tree(WIMStruct *wim,
+ struct wim_dentry *dentry, int flags,
+ wimlib_iterate_dir_tree_callback_t cb,
+ void *user_ctx)
+{
+ struct wimlib_dir_entry *wdentry;
+ int ret = WIMLIB_ERR_NOMEM;
+
+
+ wdentry = CALLOC(1, sizeof(struct wimlib_dir_entry) +
+ (1 + dentry->d_inode->i_num_ads) *
+ sizeof(struct wimlib_stream_entry));
+ if (!wdentry)
+ goto out;
+
+ ret = init_wimlib_dentry(wdentry, dentry, wim);
+ if (ret)
+ goto out_free_wimlib_dentry;
+
+ if (!(flags & WIMLIB_ITERATE_DIR_TREE_FLAG_CHILDREN)) {
+ ret = (*cb)(wdentry, user_ctx);
+ if (ret)
+ goto out_free_wimlib_dentry;
+ }
+
+ if (flags & (WIMLIB_ITERATE_DIR_TREE_FLAG_RECURSIVE |
+ WIMLIB_ITERATE_DIR_TREE_FLAG_CHILDREN))
+ {
+ struct iterate_dir_tree_ctx ctx = {
+ .wim = wim,
+ .flags = flags &= ~WIMLIB_ITERATE_DIR_TREE_FLAG_CHILDREN,
+ .cb = cb,
+ .user_ctx = user_ctx,
+ };
+ ret = for_dentry_child(dentry, call_do_iterate_dir_tree, &ctx);
+ }
+out_free_wimlib_dentry:
+ free_wimlib_dentry(wdentry);
+out:
+ return ret;
+}
+
+struct image_iterate_dir_tree_ctx {
+ const tchar *path;
+ int flags;
+ wimlib_iterate_dir_tree_callback_t cb;
+ void *user_ctx;
+};
+
+
+static int
+image_do_iterate_dir_tree(WIMStruct *wim)
+{
+ struct image_iterate_dir_tree_ctx *ctx = wim->private;
+ struct wim_dentry *dentry;
+
+ dentry = get_dentry(wim, ctx->path);
+ if (!dentry)
+ return WIMLIB_ERR_PATH_DOES_NOT_EXIST;
+ return do_iterate_dir_tree(wim, dentry, ctx->flags, ctx->cb, ctx->user_ctx);
+}
+
+/* API function documented in wimlib.h */
+WIMLIBAPI int
+wimlib_iterate_dir_tree(WIMStruct *wim, int image, const tchar *path,
+ int flags,
+ wimlib_iterate_dir_tree_callback_t cb, void *user_ctx)
+{
+ struct image_iterate_dir_tree_ctx ctx = {
+ .path = path,
+ .flags = flags,
+ .cb = cb,
+ .user_ctx = user_ctx,
+ };
+ wim->private = &ctx;
+ return for_image(wim, image, image_do_iterate_dir_tree);
+}