* hardlink.c
*
* Code to deal with hard links in WIMs. Essentially, the WIM dentries are put
- * into a hash table indexed by the hard link group ID field, then for each hard
- * link group, a linked list is made to connect the dentries.
+ * into a hash table indexed by the inode ID field, then for each hard
+ * inode, a linked list is made to connect the dentries.
*/
/*
* This file is part of wimlib, a library for working with WIM files.
*
* wimlib is free software; you can redistribute it and/or modify it under the
- * terms of the GNU Lesser General Public License as published by the Free
- * Software Foundation; either version 2.1 of the License, or (at your option)
+ * terms of the GNU General Public License as published by the Free
+ * Software Foundation; either version 3 of the License, or (at your option)
* any later version.
*
* wimlib is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
- * A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+ * A PARTICULAR PURPOSE. See the GNU General Public License for more
* details.
*
- * You should have received a copy of the GNU Lesser General Public License
+ * You should have received a copy of the GNU General Public License
* along with wimlib; if not, see http://www.gnu.org/licenses/.
*/
#include "list.h"
#include "lookup_table.h"
-/* Hard link group; it's identified by its hard link group ID and consists of a
- * circularly linked list of dentries. */
-struct link_group {
- u64 link_group_id;
- struct link_group *next;
- struct list_head *dentry_list;
-};
-
-/* Hash table to find hard link groups, identified by their hard link group ID.
- * */
-struct link_group_table {
- struct link_group **array;
- u64 num_entries;
- u64 capacity;
- struct link_group *singles;
-};
-
-/* Returns pointer to a new link group table having the specified capacity */
-struct link_group_table *new_link_group_table(u64 capacity)
+/* NULL NULL
+ * ^ ^
+ * dentry | |
+ * / \ ----------- -----------
+ * | dentry<---| struct | | struct |---> dentry
+ * \ / | inode | | inode |
+ * dentry ------------ ------------
+ * ^ ^
+ * | |
+ * | | dentry
+ * ----------- ----------- / \
+ * dentry<---| struct | | struct |---> dentry dentry
+ * / | inode | | inode | \ /
+ * dentry ------------ ------------ dentry
+ * ^ ^
+ * | |
+ * -----------------
+ * inode_table->array | idx 0 | idx 1 |
+ * -----------------
+ */
+
+
+int init_inode_table(struct inode_table *table, size_t capacity)
{
- struct link_group_table *table;
- struct link_group **array;
-
- table = MALLOC(sizeof(struct link_group_table));
- if (!table)
- goto err;
- array = CALLOC(capacity, sizeof(array[0]));
- if (!array) {
- FREE(table);
- goto err;
+ table->array = CALLOC(capacity, sizeof(table->array[0]));
+ if (!table->array) {
+ ERROR("Cannot initalize inode table: out of memory");
+ return WIMLIB_ERR_NOMEM;
}
- table->num_entries = 0;
- table->capacity = capacity;
- table->array = array;
- table->singles = NULL;
- return table;
-err:
- ERROR("Failed to allocate memory for link group table with capacity %zu",
- capacity);
- return NULL;
+ table->num_entries = 0;
+ table->capacity = capacity;
+ INIT_HLIST_HEAD(&table->extra_inodes);
+ return 0;
+}
+
+
+static size_t inode_link_count(const struct inode *inode)
+{
+ const struct list_head *cur;
+ size_t size = 0;
+ list_for_each(cur, &inode->dentry_list)
+ size++;
+ return size;
}
-/*
- * Insert a dentry into the hard link group table based on its hard link group
+/*
+ * Insert a dentry into the inode table based on its inode
* ID.
*
- * If there is already a dentry in the table having the same hard link group ID,
- * we link the dentries together in a circular list.
+ * If there is already a dentry in the table having the same inode ID,
+ * and the inode ID is not 0, the dentry is added to the circular
+ * linked list for that inode.
*
- * If the hard link group ID is 0, this indicates a dentry that's in a hard link
- * group by itself (has a link count of 1). We can't insert it into the hash
- * table itself because we don't know what hard link group IDs are available to
+ * If the inode ID is 0, this indicates a dentry that's in a hard link
+ * inode by itself (has a link count of 1). We can't insert it into the hash
+ * table itself because we don't know what inode numbers are available to
* give it (this could be kept track of but would be more difficult). Instead
- * we keep a linked list of the single dentries, and assign them hard link group
- * IDs later.
+ * we keep a linked list of the single dentries, and assign them inode
+ * numbers later.
*/
-int link_group_table_insert(struct dentry *dentry, void *__table)
+int inode_table_insert(struct dentry *dentry, void *__table)
{
- struct link_group_table *table = __table;
- size_t pos;
- struct link_group *group;
-
- if (dentry->hard_link == 0) {
- /* Single group--- Add to the singles list (we can't put it in
- * the table itself because all the singles have a link group ID
- * of 0) */
- group = MALLOC(sizeof(struct link_group));
- if (!group)
- return WIMLIB_ERR_NOMEM;
- group->link_group_id = 0;
- group->next = table->singles;
- table->singles = group;
- INIT_LIST_HEAD(&dentry->link_group_list);
- group->dentry_list = &dentry->link_group_list;
+ struct inode_table *table = __table;
+ struct inode *d_inode = dentry->d_inode;
+
+ if (d_inode->ino == 0) {
+ /* Single inode--- Add to the list of extra inodes (we can't put
+ * it in the table itself because all the singles have a link
+ * inode ID of 0) */
+ hlist_add_head(&d_inode->hlist, &table->extra_inodes);
+
+ wimlib_assert(d_inode->dentry_list.next == &dentry->inode_dentry_list);
+ wimlib_assert(d_inode->dentry_list.prev == &dentry->inode_dentry_list);
+ wimlib_assert(d_inode->link_count == 1);
} else {
- /* Hard link group that may should multiple dentries (the code
- * will work even if the group actually contains only 1 dentry
+ /* Inode that may have multiple corresponding dentries (the code
+ * will work even if the inode actually contains only 1 dentry
* though) */
- /* Try adding to existing hard link group */
- pos = dentry->hard_link % table->capacity;
- group = table->array[pos];
- while (group) {
- if (group->link_group_id == dentry->hard_link) {
- list_add(&dentry->link_group_list,
- group->dentry_list);
+ size_t pos;
+ struct inode *inode;
+ struct hlist_node *cur;
+
+ /* Try adding to existing inode */
+ pos = d_inode->ino % table->capacity;
+ hlist_for_each_entry(inode, cur, &table->array[pos], hlist) {
+ if (inode->ino == d_inode->ino) {
+ inode_add_dentry(dentry, inode);
+ inode->link_count++;
return 0;
}
- group = group->next;
}
- /* Add new hard link group to the table */
+ /* Add new inode to the table */
+ hlist_add_head(&d_inode->hlist, &table->array[pos]);
- group = MALLOC(sizeof(struct link_group));
- if (!group)
- return WIMLIB_ERR_NOMEM;
- group->link_group_id = dentry->hard_link;
- group->next = table->array[pos];
- INIT_LIST_HEAD(&dentry->link_group_list);
- group->dentry_list = &dentry->link_group_list;
- table->array[pos] = group;
+ wimlib_assert(d_inode->dentry_list.next == &dentry->inode_dentry_list);
+ wimlib_assert(d_inode->dentry_list.prev == &dentry->inode_dentry_list);
+ wimlib_assert(d_inode->link_count == 1);
/* XXX Make the table grow when too many entries have been
* inserted. */
return 0;
}
-/* Frees a link group table. */
-void free_link_group_table(struct link_group_table *table)
+/* Assign the inode numbers to dentries in a inode table, and return the
+ * next available inode ID. */
+u64 assign_inode_numbers(struct hlist_head *inode_list)
{
- struct link_group *single, *next;
-
- if (!table)
- return;
- if (table->array) {
- for (u64 i = 0; i < table->capacity; i++) {
- struct link_group *group = table->array[i];
- struct link_group *next;
- while (group) {
- next = group->next;
- FREE(group);
- group = next;
- }
- }
- FREE(table->array);
- }
- single = table->singles;
- while (single) {
- next = single->next;
- FREE(single);
- single = next;
+ DEBUG("Assigning inode numbers");
+ struct inode *inode;
+ struct hlist_node *cur;
+ u64 cur_ino = 1;
+ hlist_for_each_entry(inode, cur, inode_list, hlist) {
+ inode->ino = cur_ino;
+ cur_ino++;
}
-
- FREE(table);
+ return cur_ino;
}
-/* Assign the link group IDs to dentries in a link group table, and return the
- * next available link group ID. */
-u64 assign_link_groups(struct link_group_table *table)
-{
- DEBUG("Assigning link groups");
- /* Assign consecutive link group IDs to each link group in the hash
- * table */
- u64 id = 1;
- for (u64 i = 0; i < table->capacity; i++) {
- struct link_group *group = table->array[i];
- struct link_group *next_group;
- struct dentry *dentry;
- struct list_head *cur;
- while (group) {
- cur = group->dentry_list;
- do {
- dentry = container_of(cur,
- struct dentry,
- link_group_list);
- dentry->hard_link = id;
- cur = cur->next;
- } while (cur != group->dentry_list);
- id++;
- group = group->next;
- }
- }
- /* Assign link group IDs to the link groups that previously had link
- * group IDs of 0, and insert them into the hash table */
- struct link_group *single = table->singles;
- while (single) {
- struct dentry *dentry;
- struct link_group *next_single;
- size_t pos;
+static void print_inode_dentries(const struct inode *inode)
+{
+ struct dentry *dentry;
+ inode_for_each_dentry(dentry, inode)
+ printf("`%s'\n", dentry->full_path_utf8);
+}
- next_single = single->next;
+static void inconsistent_inode(const struct inode *inode)
+{
+ ERROR("An inconsistent hard link group that we cannot correct has been "
+ "detected");
+ ERROR("The dentries are located at the following paths:");
+ print_inode_dentries(inode);
+}
- dentry = container_of(single->dentry_list, struct dentry,
- link_group_list);
- dentry->hard_link = id;
+static bool ref_inodes_consistent(const struct inode * restrict ref_inode_1,
+ const struct inode * restrict ref_inode_2)
+{
+ wimlib_assert(ref_inode_1 != ref_inode_2);
- pos = id % table->capacity;
- single->next = table->array[pos];
- table->array[pos] = single;
+ if (ref_inode_1->num_ads != ref_inode_2->num_ads)
+ return false;
+ if (ref_inode_1->security_id != ref_inode_2->security_id
+ || ref_inode_1->attributes != ref_inode_2->attributes)
+ return false;
+ for (unsigned i = 0; i <= ref_inode_1->num_ads; i++) {
+ const u8 *ref_1_hash, *ref_2_hash;
+ ref_1_hash = inode_stream_hash(ref_inode_1, i);
+ ref_2_hash = inode_stream_hash(ref_inode_2, i);
+ if (!hashes_equal(ref_1_hash, ref_2_hash))
+ return false;
+ if (i && !ads_entries_have_same_name(&ref_inode_1->ads_entries[i - 1],
+ &ref_inode_2->ads_entries[i - 1]))
+ return false;
- single = next_single;
- id++;
}
- table->singles = NULL;
- return id;
+ return true;
}
-static bool dentries_have_same_ads(const struct dentry *d1,
- const struct dentry *d2)
+static bool inodes_consistent(const struct inode * restrict ref_inode,
+ const struct inode * restrict inode)
{
- /* Verify stream names and hashes are the same */
- for (u16 i = 0; i < d1->num_ads; i++) {
- if (strcmp(d1->ads_entries[i].stream_name_utf8,
- d2->ads_entries[i].stream_name_utf8) != 0)
+ wimlib_assert(ref_inode != inode);
+
+ if (ref_inode->num_ads != inode->num_ads &&
+ inode->num_ads != 0)
+ return false;
+ if (ref_inode->security_id != inode->security_id
+ || ref_inode->attributes != inode->attributes)
+ return false;
+ for (unsigned i = 0; i <= min(ref_inode->num_ads, inode->num_ads); i++) {
+ const u8 *ref_hash, *hash;
+ ref_hash = inode_stream_hash(ref_inode, i);
+ hash = inode_stream_hash(inode, i);
+ if (!hashes_equal(ref_hash, hash) && !is_zero_hash(hash))
return false;
- if (!hashes_equal(d1->ads_entries[i].hash,
- d2->ads_entries[i].hash))
+ if (i && !ads_entries_have_same_name(&ref_inode->ads_entries[i - 1],
+ &inode->ads_entries[i - 1]))
return false;
}
return true;
}
-/* Share the alternate stream entries between hard-linked dentries. */
-static int share_dentry_ads(struct dentry *owner, struct dentry *user)
+/* Fix up a "true" inode and check for inconsistencies */
+static int fix_true_inode(struct inode *inode, struct hlist_head *inode_list)
{
- const char *mismatch_type;
- wimlib_assert(owner->num_ads == 0 ||
- owner->ads_entries != user->ads_entries);
- if (owner->attributes != user->attributes) {
- mismatch_type = "attributes";
- goto mismatch;
- }
- if (owner->attributes & FILE_ATTRIBUTE_DIRECTORY) {
- WARNING("`%s' is hard-linked to `%s', which is a directory ",
- user->full_path_utf8, owner->full_path_utf8);
- return WIMLIB_ERR_INVALID_DENTRY;
- }
- if (owner->security_id != user->security_id) {
- mismatch_type = "security ID";
- goto mismatch;
- }
- if (!hashes_equal(owner->hash, user->hash)) {
- mismatch_type = "main file resource";
- goto mismatch;
+ struct dentry *dentry;
+ struct dentry *ref_dentry = NULL;
+ struct inode *ref_inode;
+ u64 last_ctime = 0;
+ u64 last_mtime = 0;
+ u64 last_atime = 0;
+
+ inode_for_each_dentry(dentry, inode) {
+ if (!ref_dentry || dentry->d_inode->num_ads > ref_dentry->d_inode->num_ads)
+ ref_dentry = dentry;
+ if (dentry->d_inode->creation_time > last_ctime)
+ last_ctime = dentry->d_inode->creation_time;
+ if (dentry->d_inode->last_write_time > last_mtime)
+ last_mtime = dentry->d_inode->last_write_time;
+ if (dentry->d_inode->last_access_time > last_atime)
+ last_atime = dentry->d_inode->last_access_time;
}
- if (!dentries_have_same_ads(owner, user)) {
- mismatch_type = "Alternate Stream Entries";
- goto mismatch;
+
+ ref_inode = ref_dentry->d_inode;
+ ref_inode->link_count = 1;
+ hlist_add_head(&ref_inode->hlist, inode_list);
+
+ list_del(&inode->dentry_list);
+ list_add(&ref_inode->dentry_list, &ref_dentry->inode_dentry_list);
+
+ inode_for_each_dentry(dentry, ref_inode) {
+ if (dentry != ref_dentry) {
+ if (!inodes_consistent(ref_inode, dentry->d_inode)) {
+ inconsistent_inode(ref_inode);
+ return WIMLIB_ERR_INVALID_DENTRY;
+ }
+ /* Free the unneeded `struct inode'. */
+ free_inode(dentry->d_inode);
+ dentry->d_inode = ref_inode;
+ ref_inode->link_count++;
+ }
}
- dentry_free_ads_entries(user);
- user->ads_entries = owner->ads_entries;
- user->ads_entries_status = ADS_ENTRIES_USER;
+ ref_inode->creation_time = last_ctime;
+ ref_inode->last_write_time = last_mtime;
+ ref_inode->last_access_time = last_atime;
+ wimlib_assert(inode_link_count(ref_inode) == ref_inode->link_count);
return 0;
-mismatch:
- WARNING("Dentries `%s' and `%s' in the same hard-link group but "
- "do not share the same %s",
- owner->full_path_utf8, user->full_path_utf8,
- mismatch_type);
- return WIMLIB_ERR_INVALID_DENTRY;
}
-static int link_group_free_duplicate_data(struct link_group *group,
- struct link_group **bad_links)
+/*
+ * Fixes up a nominal inode.
+ *
+ * By a nominal inode we mean a group of two or more dentries that share
+ * the same hard link group ID.
+ *
+ * If dentries in the inode are found to be inconsistent, we may split the inode
+ * into several "true" inodes.
+ *
+ * After splitting up each nominal inode into the "true" inodes we will
+ * canonicalize the link group by getting rid of all the unnecessary `struct
+ * inodes'. There will be just one `struct inode' for each hard link group
+ * remaining.
+ */
+static int
+fix_nominal_inode(struct inode *inode, struct hlist_head *inode_list)
{
- struct dentry *owner, *user, *tmp;
-
- owner = container_of(group->dentry_list, struct dentry,
- link_group_list);
- owner->ads_entries_status = ADS_ENTRIES_OWNER;
-
- list_for_each_entry_safe(user, tmp, group->dentry_list,
- link_group_list)
- {
- /* I would like it to be an error if two dentries are in the
- * same hard link group but have irreconcilable differences such
- * as different file permissions, but unfortunately some of M$'s
- * WIMs contain many instances of this error. This problem is
- * worked around here by splitting each offending dentry off
- * into its own hard link group. */
- if (share_dentry_ads(owner, user) != 0) {
- struct link_group *single;
- single = MALLOC(sizeof(struct link_group));
- if (!single)
- return WIMLIB_ERR_NOMEM;
- list_del(&user->link_group_list);
- INIT_LIST_HEAD(&user->link_group_list);
- single->link_group_id = 0;
- single->next = *bad_links;
- single->dentry_list = &user->link_group_list;
- *bad_links = single;
- user->ads_entries_status = ADS_ENTRIES_OWNER;
+ struct dentry *dentry;
+ struct hlist_node *cur, *tmp;
+ int ret;
+ size_t num_true_inodes;
+
+ wimlib_assert(inode->link_count == inode_link_count(inode));
+
+ LIST_HEAD(dentries_with_data_streams);
+ LIST_HEAD(dentries_with_no_data_streams);
+ HLIST_HEAD(true_inodes);
+
+ /* Create a list of dentries in the nominal inode that have at
+ * least one data stream with a non-zero hash, and another list that
+ * contains the dentries that have a zero hash for all data streams. */
+ inode_for_each_dentry(dentry, inode) {
+ for (unsigned i = 0; i <= dentry->d_inode->num_ads; i++) {
+ const u8 *hash;
+ hash = inode_stream_hash(dentry->d_inode, i);
+ if (!is_zero_hash(hash)) {
+ list_add(&dentry->tmp_list,
+ &dentries_with_data_streams);
+ goto next_dentry;
+ }
+ }
+ list_add(&dentry->tmp_list,
+ &dentries_with_no_data_streams);
+ next_dentry:
+ ;
+ }
+
+ /* If there are no dentries with data streams, we require the nominal
+ * inode to be a true inode */
+ if (list_empty(&dentries_with_data_streams)) {
+ #ifdef ENABLE_DEBUG
+ if (inode->link_count > 1) {
+ DEBUG("Found link group of size %u without "
+ "any data streams:", inode->link_count);
+ print_inode_dentries(inode);
+ DEBUG("We are going to interpret it as true "
+ "link group, provided that the dentries "
+ "are consistent.");
+ }
+ #endif
+ return fix_true_inode(inode, inode_list);
+ }
+
+ /* One or more dentries had data streams specified. We check each of
+ * these dentries for consistency with the others to form a set of true
+ * inodes. */
+ num_true_inodes = 0;
+ list_for_each_entry(dentry, &dentries_with_data_streams, tmp_list) {
+ /* Look for a true inode that is consistent with this dentry and
+ * add this dentry to it. Or, if none of the true inodes are
+ * consistent with this dentry, add a new one (if that happens,
+ * we have split the hard link group). */
+ hlist_for_each_entry(inode, cur, &true_inodes, hlist) {
+ if (ref_inodes_consistent(inode, dentry->d_inode)) {
+ inode_add_dentry(dentry, inode);
+ goto next_dentry_2;
+ }
}
+ num_true_inodes++;
+ INIT_LIST_HEAD(&dentry->d_inode->dentry_list);
+ inode_add_dentry(dentry, dentry->d_inode);
+ hlist_add_head(&dentry->d_inode->hlist, &true_inodes);
+next_dentry_2:
+ ;
+ }
+
+ wimlib_assert(num_true_inodes != 0);
+
+ /* If there were dentries with no data streams, we require there to only
+ * be one true inode so that we know which inode to assign the
+ * streamless dentries to. */
+ if (!list_empty(&dentries_with_no_data_streams)) {
+ if (num_true_inodes != 1) {
+ ERROR("Hard inode ambiguity detected!");
+ ERROR("We split up inode 0x%"PRIx64" due to "
+ "inconsistencies,", inode->ino);
+ ERROR("but dentries with no stream information remained. "
+ "We don't know which inode");
+ ERROR("to assign them to.");
+ return WIMLIB_ERR_INVALID_DENTRY;
+ }
+ inode = container_of(true_inodes.first, struct inode, hlist);
+ /* Assign the streamless dentries to the one and only true
+ * inode. */
+ list_for_each_entry(dentry, &dentries_with_no_data_streams, tmp_list)
+ inode_add_dentry(dentry, inode);
+ }
+ #ifdef ENABLE_DEBUG
+ if (num_true_inodes != 1) {
+ inode = container_of(true_inodes.first, struct inode, hlist);
+
+ printf("Split nominal inode 0x%"PRIx64" into %zu "
+ "inodes:\n",
+ inode->ino, num_true_inodes);
+ puts("------------------------------------------------------------------------------");
+ size_t i = 1;
+ hlist_for_each_entry(inode, cur, &true_inodes, hlist) {
+ printf("[Split inode %zu]\n", i++);
+ print_inode_dentries(inode);
+ putchar('\n');
+ }
+ puts("------------------------------------------------------------------------------");
+ }
+ #endif
+
+ hlist_for_each_entry_safe(inode, cur, tmp, &true_inodes, hlist) {
+ ret = fix_true_inode(inode, inode_list);
+ if (ret != 0)
+ return ret;
}
return 0;
}
/*
- * Goes through each link group and shares the ads_entries (Alternate Data
- * Stream entries) field of each dentry between members of a hard link group.
+ * Goes through each hard link group (dentries sharing the same hard link group
+ * ID field) that's been inserted into the inode table and shares the `struct
+ * inode's among members of each hard link group.
*
- * In the process, the dentries in each link group are checked for consistency.
- * If they contain data features that indicate they cannot really be in the same
- * hard link group, this should be an error, but in reality this case needs to
- * be handled, so we split the dentries into different hard link groups.
+ * In the process, the dentries belonging to each inode are checked for
+ * consistency. If they contain data features that indicate they cannot really
+ * correspond to the same inode, this should be an error, but in reality this
+ * case needs to be handled, so we split the dentries into different inodes.
*
- * One of the dentries in the group is arbitrarily assigned the role of "owner"
- * (ADS_ENTRIES_OWNER), while the others are "users" (ADS_ENTRIES_USER).
+ * After this function returns, the inodes are no longer in the inode table, and
+ * the inode table should be destroyed. A list of the inodes, including all
+ * split inodes as well as the inodes that were good before, is returned in the
+ * list @inode_list.
*/
-int link_groups_free_duplicate_data(struct link_group_table *table)
+int fix_inodes(struct inode_table *table, struct hlist_head *inode_list)
{
+ struct inode *inode;
+ struct hlist_node *cur, *tmp;
+ int ret;
+ INIT_HLIST_HEAD(inode_list);
for (u64 i = 0; i < table->capacity; i++) {
- struct link_group *group = table->array[i];
- while (group) {
- int ret;
- ret = link_group_free_duplicate_data(group,
- &table->singles);
+ hlist_for_each_entry_safe(inode, cur, tmp, &table->array[i], hlist) {
+ ret = fix_nominal_inode(inode, inode_list);
if (ret != 0)
return ret;
- group = group->next;
}
}
+ hlist_for_each_safe(cur, tmp, &table->extra_inodes)
+ hlist_add_head(cur, inode_list);
return 0;
}