+/*
+ Bacula(R) - The Network Backup Solution
+
+ Copyright (C) 2000-2017 Kern Sibbald
+
+ The original author of Bacula is Kern Sibbald, with contributions
+ from many others, a complete list can be found in the file AUTHORS.
+
+ You may use this file and others of this release according to the
+ license defined in the LICENSE file, which includes the Affero General
+ Public License, v3.0 ("AGPLv3") and some additional permissions and
+ terms pursuant to its AGPLv3 Section 7.
+
+ This notice must be preserved when any source code is
+ conveyed and/or propagated.
+
+ Bacula(R) is a registered trademark of Kern Sibbald.
+*/
/*
* Directory tree build/traverse routines
*
* Kern Sibbald, June MMII
*
*/
-/*
- Copyright (C) 2002-2004 Kern Sibbald and John Walker
-
- This program is free software; you can redistribute it and/or
- modify it under the terms of the GNU General Public License as
- published by the Free Software Foundation; either version 2 of
- the License, or (at your option) any later version.
- This program 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
- General Public License for more details.
-
- You should have received a copy of the GNU General Public
- License along with this program; if not, write to the Free
- Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
- MA 02111-1307, USA.
-
- */
+#include "htable.h"
struct s_mem {
- struct s_mem *next; /* next buffer */
- int rem; /* remaining bytes */
- char *mem; /* memory pointer */
- char first[1]; /* first byte */
+ struct s_mem *next; /* next buffer */
+ int rem; /* remaining bytes */
+ char *mem; /* memory pointer */
+ char first[1]; /* first byte */
};
#define USE_DLIST
-#ifdef USE_DLIST
+
#define foreach_child(var, list) \
for((var)=NULL; (*((TREE_NODE **)&(var))=(TREE_NODE*)(list->child.next(var))); )
#define tree_node_has_child(node) \
- ((node)->child.size() > 0)
+ ((node)->child.size() > 0)
#define first_child(node) \
- ((TREE_NODE *)(node->child.first())
+ ((TREE_NODE *)(node->child.first())
+struct delta_list {
+ struct delta_list *next;
+ JobId_t JobId;
+ int32_t FileIndex;
+};
/*
* Keep this node as small as possible because
struct s_tree_node {
/* KEEP sibling as the first member to avoid having to
* do initialization of child */
- dlink sibling;
- dlist child;
- char *fname; /* file name */
- int32_t FileIndex; /* file index */
- uint32_t JobId; /* JobId */
- uint16_t fname_len; /* filename length */
- int type: 8; /* node type */
- unsigned int extract: 1; /* extract item */
+ rblink sibling;
+ rblist child;
+ char *fname; /* file name */
+ int32_t FileIndex; /* file index */
+ uint32_t JobId; /* JobId */
+ int32_t delta_seq; /* current delta sequence */
+ uint16_t fname_len; /* filename length */
+ int type: 8; /* node type */
+ unsigned int extract: 1; /* extract item */
unsigned int extract_dir: 1; /* extract dir entry only */
- unsigned int hard_link: 1; /* set if have hard link */
- unsigned int soft_link: 1; /* set if is soft link */
- unsigned int inserted: 1; /* set when newly inserted */
+ unsigned int hard_link: 1; /* set if have hard link */
+ unsigned int soft_link: 1; /* set if is soft link */
+ unsigned int inserted: 1; /* set when node newly inserted */
+ unsigned int loaded: 1; /* set when the dir is in the tree */
+ unsigned int can_access: 1; /* Can access to this node */
struct s_tree_node *parent;
- struct s_tree_node *next; /* next hash of FileIndex */
+ struct s_tree_node *next; /* next hash of FileIndex */
+ struct delta_list *delta_list; /* delta parts for this node */
};
typedef struct s_tree_node TREE_NODE;
struct s_tree_root {
/* KEEP sibling as the first member to avoid having to
* do initialization of child */
- dlink sibling;
- dlist child;
- const char *fname; /* file name */
- int32_t FileIndex; /* file index */
- uint32_t JobId; /* JobId */
- uint16_t fname_len; /* filename length */
- unsigned int type: 8; /* node type */
- unsigned int extract: 1; /* extract item */
+ rblink sibling;
+ rblist child;
+ const char *fname; /* file name */
+ int32_t FileIndex; /* file index */
+ uint32_t JobId; /* JobId */
+ int32_t delta_seq; /* current delta sequence */
+ uint16_t fname_len; /* filename length */
+ unsigned int type: 8; /* node type */
+ unsigned int extract: 1; /* extract item */
unsigned int extract_dir: 1; /* extract dir entry only */
- unsigned int have_link: 1; /* set if have hard link */
- unsigned int inserted: 1; /* set when newly inserted */
+ unsigned int hard_link: 1; /* set if have hard link */
+ unsigned int soft_link: 1; /* set if is soft link */
+ unsigned int inserted: 1; /* set when newly inserted */
+ unsigned int loaded: 1; /* set when the dir is in the tree */
+ unsigned int can_access: 1; /* Can access to this node */
struct s_tree_node *parent;
- struct s_tree_node *next; /* next hash of FileIndex */
+ struct s_tree_node *next; /* next hash of FileIndex */
+ struct delta_list *delta_list; /* delta parts for this node */
/* The above ^^^ must be identical to a TREE_NODE structure */
- struct s_tree_node *first; /* first entry in the tree */
- struct s_tree_node *last; /* last entry in tree */
- struct s_mem *mem; /* tree memory */
- uint32_t total_size; /* total bytes allocated */
- uint32_t blocks; /* total mallocs */
- int cached_path_len; /* length of cached path */
- char *cached_path; /* cached current path */
- TREE_NODE *cached_parent; /* cached parent for above path */
+ struct s_tree_node *first; /* first entry in the tree */
+ struct s_tree_node *last; /* last entry in tree */
+ struct s_mem *mem; /* tree memory */
+ uint32_t total_size; /* total bytes allocated */
+ uint32_t blocks; /* total mallocs */
+ int cached_path_len; /* length of cached path */
+ char *cached_path; /* cached current path */
+ TREE_NODE *cached_parent; /* cached parent for above path */
+ htable hardlinks; /* references to first occurrence of hardlinks */
};
typedef struct s_tree_root TREE_ROOT;
-#else
-#define foreach_child(cld, node) \
- for(cld=(node)->child_; cld; cld=cld->sibling_)
-
-#define tree_node_has_child(node) \
- ((node)->child_ != NULL)
-
-#define first_child(node) \
- ((node)->child_)
-
-
-/*
- * Keep this node as small as possible because
- * there is one for each file.
- */
-struct s_tree_node {
- char *fname; /* file name */
- int32_t FileIndex; /* file index */
- uint32_t JobId; /* JobId */
- uint16_t fname_len; /* filename length */
- int type: 8; /* node type */
- unsigned int extract: 1; /* extract item */
- unsigned int extract_dir: 1; /* extract dir entry only */
- unsigned int hard_link: 1; /* set if have hard link */
- unsigned int soft_link: 1; /* set if is soft link */
- unsigned int inserted: 1; /* set when newly inserted */
- struct s_tree_node *parent;
- struct s_tree_node *sibling_;
- struct s_tree_node *next; /* next hash of FileIndex */
- struct s_tree_node *child_;
-};
-typedef struct s_tree_node TREE_NODE;
-
-struct s_tree_root {
- char *fname; /* file name */
- int32_t FileIndex; /* file index */
- uint32_t JobId; /* JobId */
- uint16_t fname_len; /* filename length */
- unsigned int type: 8; /* node type */
- unsigned int extract: 1; /* extract item */
- unsigned int extract_dir: 1; /* extract dir entry only */
- unsigned int have_link: 1; /* set if have hard link */
- unsigned int inserted: 1; /* set when newly inserted */
- struct s_tree_node *parent;
- struct s_tree_node *sibling_;
- struct s_tree_node *next; /* next hash of FileIndex */
- struct s_tree_node *child_;
-
- /* The above ^^^ must be identical to a TREE_NODE structure */
- struct s_tree_node *first; /* first entry in the tree */
- struct s_tree_node *last; /* last entry in tree */
- struct s_mem *mem; /* tree memory */
- uint32_t total_size; /* total bytes allocated */
- uint32_t blocks; /* total mallocs */
- int cached_path_len; /* length of cached path */
- char *cached_path; /* cached current path */
- TREE_NODE *cached_parent; /* cached parent for above path */
+/* hardlink hashtable entry */
+struct s_hl_entry {
+ uint64_t key;
+ hlink link;
+ TREE_NODE *node;
};
-typedef struct s_tree_root TREE_ROOT;
-#endif
+typedef struct s_hl_entry HL_ENTRY;
/* type values */
-#define TN_ROOT 1 /* root node */
-#define TN_NEWDIR 2 /* created directory to fill path */
-#define TN_DIR 3 /* directory entry */
-#define TN_DIR_NLS 4 /* directory -- no leading slash -- win32 */
-#define TN_FILE 5 /* file entry */
+#define TN_ROOT 1 /* root node */
+#define TN_NEWDIR 2 /* created directory to fill path */
+#define TN_DIR 3 /* directory entry */
+#define TN_DIR_NLS 4 /* directory -- no leading slash -- win32 */
+#define TN_FILE 5 /* file entry */
/* External interface */
TREE_ROOT *new_tree(int count);
TREE_NODE *insert_tree_node(char *path, char *fname, int type,
- TREE_ROOT *root, TREE_NODE *parent);
+ TREE_ROOT *root, TREE_NODE *parent);
TREE_NODE *make_tree_path(char *path, TREE_ROOT *root);
TREE_NODE *tree_cwd(char *path, TREE_ROOT *root, TREE_NODE *node);
TREE_NODE *tree_relcwd(char *path, TREE_ROOT *root, TREE_NODE *node);
+void tree_add_delta_part(TREE_ROOT *root, TREE_NODE *node,
+ JobId_t JobId, int32_t FileIndex);
void free_tree(TREE_ROOT *root);
int tree_getpath(TREE_NODE *node, char *buf, int buf_size);
+void tree_remove_node(TREE_ROOT *root, TREE_NODE *node);
/*
* Use the following for traversing the whole tree. It will be
* traversed in the order the entries were inserted into the
* tree.
*/
-#ifdef SLOW_WAY
-TREE_NODE *first_tree_node(TREE_ROOT *root);
-TREE_NODE *next_tree_node(TREE_NODE *node);
-#else
- #define first_tree_node(r) (r)->first
- #define next_tree_node(n) (n)->next
-#endif
+#define first_tree_node(r) (r)->first
+#define next_tree_node(n) (n)->next
projects / bacula / bacula / blobdiff