/* dag.h : DAG-like interface filesystem, private to libsvn_fs
*
* ====================================================================
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
* ====================================================================
*/
#ifndef SVN_LIBSVN_FS_DAG_H
#define SVN_LIBSVN_FS_DAG_H
#include "svn_fs.h"
#include "svn_delta.h"
#include "private/svn_cache.h"
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
�
/* The interface in this file provides all the essential filesystem
operations, but exposes the filesystem's DAG structure. This makes
it simpler to implement than the public interface, since a client
of this interface has to understand and cope with shared structure
directly as it appears in the database. However, it's still a
self-consistent set of invariants to maintain, making it
(hopefully) a useful interface boundary.
In other words:
- The dag_node_t interface exposes the internal DAG structure of
the filesystem, while the svn_fs.h interface does any cloning
necessary to make the filesystem look like a tree.
- The dag_node_t interface exposes the existence of copy nodes,
whereas the svn_fs.h handles them transparently.
- dag_node_t's must be explicitly cloned, whereas the svn_fs.h
operations make clones implicitly.
- Callers of the dag_node_t interface use Berkeley DB transactions
to ensure consistency between operations, while callers of the
svn_fs.h interface use Subversion transactions. */
�
/* Generic DAG node stuff. */
typedef struct dag_node_t dag_node_t;
/* Fill *NODE with a dag_node_t representing node revision ID in FS,
allocating in POOL. */
svn_error_t *
svn_fs_fs__dag_get_node(dag_node_t **node,
svn_fs_t *fs,
const svn_fs_id_t *id,
apr_pool_t *pool);
/* Return a new dag_node_t object referring to the same node as NODE,
allocated in POOL. If you're trying to build a structure in a
pool that wants to refer to dag nodes that may have been allocated
elsewhere, you can call this function and avoid inter-pool pointers. */
dag_node_t *
svn_fs_fs__dag_dup(const dag_node_t *node,
apr_pool_t *pool);
/* Serialize a DAG node, except don't try to preserve the 'fs' member.
Implements svn_cache__serialize_func_t */
svn_error_t *
svn_fs_fs__dag_serialize(void **data,
apr_size_t *data_len,
void *in,
apr_pool_t *pool);
/* Deserialize a DAG node, leaving the 'fs' member as NULL.
Implements svn_cache__deserialize_func_t */
svn_error_t *
svn_fs_fs__dag_deserialize(void **out,
void *data,
apr_size_t data_len,
apr_pool_t *pool);
/* Return the filesystem containing NODE. */
svn_fs_t *svn_fs_fs__dag_get_fs(dag_node_t *node);
/* Changes the filesystem containing NODE to FS. (Used when pulling
nodes out of a shared cache, say.) */
void svn_fs_fs__dag_set_fs(dag_node_t *node, svn_fs_t *fs);
/* Set *REV to NODE's revision number, allocating in POOL. If NODE
has never been committed as part of a revision, set *REV to
SVN_INVALID_REVNUM. */
svn_error_t *svn_fs_fs__dag_get_revision(svn_revnum_t *rev,
dag_node_t *node,
apr_pool_t *pool);
/* Return the node revision ID of NODE. The value returned is shared
with NODE, and will be deallocated when NODE is. */
const svn_fs_id_t *svn_fs_fs__dag_get_id(const dag_node_t *node);
/* Return the created path of NODE. The value returned is shared
with NODE, and will be deallocated when NODE is. */
const char *svn_fs_fs__dag_get_created_path(dag_node_t *node);
/* Set *ID_P to the node revision ID of NODE's immediate predecessor,
or NULL if NODE has no predecessor.
*/
svn_error_t *svn_fs_fs__dag_get_predecessor_id(const svn_fs_id_t **id_p,
dag_node_t *node);
/* Set *COUNT to the number of predecessors NODE has (recursively), or
-1 if not known.
*/
/* ### This function is currently only used by 'verify'. */
svn_error_t *svn_fs_fs__dag_get_predecessor_count(int *count,
dag_node_t *node);
/* Set *COUNT to the number of node under NODE (inclusive) with
svn:mergeinfo properties.
*/
svn_error_t *svn_fs_fs__dag_get_mergeinfo_count(apr_int64_t *count,
dag_node_t *node);
/* Set *DO_THEY to a flag indicating whether or not NODE is a
directory with at least one descendant (not including itself) with
svn:mergeinfo.
*/
svn_error_t *
svn_fs_fs__dag_has_descendants_with_mergeinfo(svn_boolean_t *do_they,
dag_node_t *node);
/* Set *HAS_MERGEINFO to a flag indicating whether or not NODE itself
has svn:mergeinfo set on it.
*/
svn_error_t *
svn_fs_fs__dag_has_mergeinfo(svn_boolean_t *has_mergeinfo,
dag_node_t *node);
/* Return non-zero IFF NODE is currently mutable. */
svn_boolean_t svn_fs_fs__dag_check_mutable(const dag_node_t *node);
/* Return the node kind of NODE. */
svn_node_kind_t svn_fs_fs__dag_node_kind(dag_node_t *node);
/* Set *PROPLIST_P to a PROPLIST hash representing the entire property
list of NODE, allocating from POOL. The hash has const char *
names (the property names) and svn_string_t * values (the property
values).
If properties do not exist on NODE, *PROPLIST_P will be set to
NULL.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_get_proplist(apr_hash_t **proplist_p,
dag_node_t *node,
apr_pool_t *pool);
/* Set the property list of NODE to PROPLIST, allocating from POOL.
The node being changed must be mutable.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_set_proplist(dag_node_t *node,
apr_hash_t *proplist,
apr_pool_t *pool);
/* Increment the mergeinfo_count field on NODE by INCREMENT. The node
being changed must be mutable.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_increment_mergeinfo_count(dag_node_t *node,
apr_int64_t increment,
apr_pool_t *pool);
/* Set the has-mergeinfo flag on NODE to HAS_MERGEINFO. The node
being changed must be mutable.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_set_has_mergeinfo(dag_node_t *node,
svn_boolean_t has_mergeinfo,
apr_pool_t *pool);
�
/* Revision and transaction roots. */
/* Open the root of revision REV of filesystem FS, allocating from
POOL. Set *NODE_P to the new node. */
svn_error_t *svn_fs_fs__dag_revision_root(dag_node_t **node_p,
svn_fs_t *fs,
svn_revnum_t rev,
apr_pool_t *pool);
/* Set *NODE_P to the root of transaction TXN_ID in FS, allocating
from POOL.
Note that the root node of TXN_ID is not necessarily mutable. If
no changes have been made in the transaction, then it may share its
root directory with its base revision. To get a mutable root node
for a transaction, call svn_fs_fs__dag_clone_root. */
svn_error_t *svn_fs_fs__dag_txn_root(dag_node_t **node_p,
svn_fs_t *fs,
const char *txn_id,
apr_pool_t *pool);
/* Set *NODE_P to the base root of transaction TXN_ID in FS,
allocating from POOL. Allocate the node in TRAIL->pool. */
svn_error_t *svn_fs_fs__dag_txn_base_root(dag_node_t **node_p,
svn_fs_t *fs,
const char *txn_id,
apr_pool_t *pool);
/* Clone the root directory of TXN_ID in FS, and update the
`transactions' table entry to point to it, unless this has been
done already. In either case, set *ROOT_P to a reference to the
root directory clone. Allocate *ROOT_P in POOL. */
svn_error_t *svn_fs_fs__dag_clone_root(dag_node_t **root_p,
svn_fs_t *fs,
const char *txn_id,
apr_pool_t *pool);
�
/* Directories. */
/* Open the node named NAME in the directory PARENT. Set *CHILD_P to
the new node, allocated in RESULT_POOL. NAME must be a single path
component; it cannot be a slash-separated directory path.
*/
svn_error_t *
svn_fs_fs__dag_open(dag_node_t **child_p,
dag_node_t *parent,
const char *name,
apr_pool_t *result_pool,
apr_pool_t *scratch_pool);
/* Set *ENTRIES_P to a hash table of NODE's entries. The keys of the
table are entry names, and the values are svn_fs_dirent_t's. The
returned table (and its keys and values) is allocated in POOL,
which is also used for temporary allocations. */
svn_error_t *svn_fs_fs__dag_dir_entries(apr_hash_t **entries_p,
dag_node_t *node,
apr_pool_t *pool);
/* Fetches the NODE's entries and returns a copy of the entry selected
by the key value given in NAME and set *DIRENT to a copy of that
entry. If such entry was found, the copy will be allocated in POOL.
Otherwise, the *DIRENT will be set to NULL.
*/
/* ### This function is currently only called from dag.c. */
svn_error_t * svn_fs_fs__dag_dir_entry(svn_fs_dirent_t **dirent,
dag_node_t *node,
const char* name,
apr_pool_t *pool);
/* Set ENTRY_NAME in NODE to point to ID (with kind KIND), allocating
from POOL. NODE must be a mutable directory. ID can refer to a
mutable or immutable node. If ENTRY_NAME does not exist, it will
be created. TXN_ID is the Subversion transaction under which this
occurs.
Use POOL for all allocations, including to cache the node_revision in
NODE.
*/
svn_error_t *svn_fs_fs__dag_set_entry(dag_node_t *node,
const char *entry_name,
const svn_fs_id_t *id,
svn_node_kind_t kind,
const char *txn_id,
apr_pool_t *pool);
/* Make a new mutable clone of the node named NAME in PARENT, and
adjust PARENT's directory entry to point to it, unless NAME in
PARENT already refers to a mutable node. In either case, set
*CHILD_P to a reference to the new node, allocated in POOL. PARENT
must be mutable. NAME must be a single path component; it cannot
be a slash-separated directory path. PARENT_PATH must be the
canonicalized absolute path of the parent directory.
COPY_ID, if non-NULL, is a key into the `copies' table, and
indicates that this new node is being created as the result of a
copy operation, and specifically which operation that was.
PATH is the canonicalized absolute path at which this node is being
created.
TXN_ID is the Subversion transaction under which this occurs.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_clone_child(dag_node_t **child_p,
dag_node_t *parent,
const char *parent_path,
const char *name,
const char *copy_id,
const char *txn_id,
svn_boolean_t is_parent_copyroot,
apr_pool_t *pool);
/* Delete the directory entry named NAME from PARENT, allocating from
POOL. PARENT must be mutable. NAME must be a single path
component; it cannot be a slash-separated directory path. If the
node being deleted is a mutable directory, remove all mutable nodes
reachable from it. TXN_ID is the Subversion transaction under
which this occurs.
If return SVN_ERR_FS_NO_SUCH_ENTRY, then there is no entry NAME in
PARENT.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_delete(dag_node_t *parent,
const char *name,
const char *txn_id,
apr_pool_t *pool);
/* Delete the node revision assigned to node ID from FS's `nodes'
table, allocating from POOL. Also delete any mutable
representations and strings associated with that node revision. ID
may refer to a file or directory, which must be mutable.
NOTE: If ID represents a directory, and that directory has mutable
children, you risk orphaning those children by leaving them
dangling, disconnected from all DAG trees. It is assumed that
callers of this interface know what in the world they are doing. */
svn_error_t *svn_fs_fs__dag_remove_node(svn_fs_t *fs,
const svn_fs_id_t *id,
apr_pool_t *pool);
/* Delete all mutable node revisions reachable from node ID, including
ID itself, from FS's `nodes' table, allocating from POOL. Also
delete any mutable representations and strings associated with that
node revision. ID may refer to a file or directory, which may be
mutable or immutable. */
svn_error_t *svn_fs_fs__dag_delete_if_mutable(svn_fs_t *fs,
const svn_fs_id_t *id,
apr_pool_t *pool);
/* Create a new mutable directory named NAME in PARENT. Set *CHILD_P
to a reference to the new node, allocated in POOL. The new
directory has no contents, and no properties. PARENT must be
mutable. NAME must be a single path component; it cannot be a
slash-separated directory path. PARENT_PATH must be the
canonicalized absolute path of the parent directory. PARENT must
not currently have an entry named NAME. TXN_ID is the Subversion
transaction under which this occurs.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_make_dir(dag_node_t **child_p,
dag_node_t *parent,
const char *parent_path,
const char *name,
const char *txn_id,
apr_pool_t *pool);
�
/* Files. */
/* Set *CONTENTS to a readable generic stream which yields the
contents of FILE. Allocate the stream in POOL.
If FILE is not a file, return SVN_ERR_FS_NOT_FILE.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_get_contents(svn_stream_t **contents,
dag_node_t *file,
apr_pool_t *pool);
/* Attempt to fetch the contents of NODE and pass it along with the BATON
to the PROCESSOR. Set *SUCCESS only of the data could be provided
and the processor had been called.
Use POOL for all allocations.
*/
svn_error_t *
svn_fs_fs__dag_try_process_file_contents(svn_boolean_t *success,
dag_node_t *node,
svn_fs_process_contents_func_t processor,
void* baton,
apr_pool_t *pool);
/* Set *STREAM_P to a delta stream that will turn the contents of SOURCE into
the contents of TARGET, allocated in POOL. If SOURCE is null, the empty
string will be used.
Use POOL for all allocations.
*/
svn_error_t *
svn_fs_fs__dag_get_file_delta_stream(svn_txdelta_stream_t **stream_p,
dag_node_t *source,
dag_node_t *target,
apr_pool_t *pool);
/* Return a generic writable stream in *CONTENTS with which to set the
contents of FILE. Allocate the stream in POOL.
Any previous edits on the file will be deleted, and a new edit
stream will be constructed.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_get_edit_stream(svn_stream_t **contents,
dag_node_t *file,
apr_pool_t *pool);
/* Signify the completion of edits to FILE made using the stream
returned by svn_fs_fs__dag_get_edit_stream, allocating from POOL.
If CHECKSUM is non-null, it must match the checksum for FILE's
contents (note: this is not recalculated, the recorded checksum is
used), else the error SVN_ERR_CHECKSUM_MISMATCH is returned.
This operation is a no-op if no edits are present.
Use POOL for all allocations, including to cache the node_revision in
FILE.
*/
svn_error_t *svn_fs_fs__dag_finalize_edits(dag_node_t *file,
const svn_checksum_t *checksum,
apr_pool_t *pool);
/* Set *LENGTH to the length of the contents of FILE.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_file_length(svn_filesize_t *length,
dag_node_t *file,
apr_pool_t *pool);
/* Put the recorded checksum of type KIND for FILE into CHECKSUM, allocating
from POOL.
If no stored checksum is available, do not calculate the checksum,
just put NULL into CHECKSUM.
Use POOL for all allocations.
*/
svn_error_t *
svn_fs_fs__dag_file_checksum(svn_checksum_t **checksum,
dag_node_t *file,
svn_checksum_kind_t kind,
apr_pool_t *pool);
/* Create a new mutable file named NAME in PARENT. Set *CHILD_P to a
reference to the new node, allocated in POOL. The new file's
contents are the empty string, and it has no properties. PARENT
must be mutable. NAME must be a single path component; it cannot
be a slash-separated directory path. PARENT_PATH must be the
canonicalized absolute path of the parent directory. TXN_ID is the
Subversion transaction under which this occurs.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_make_file(dag_node_t **child_p,
dag_node_t *parent,
const char *parent_path,
const char *name,
const char *txn_id,
apr_pool_t *pool);
�
/* Copies */
/* Make ENTRY in TO_NODE be a copy of FROM_NODE, allocating from POOL.
TO_NODE must be mutable. TXN_ID is the Subversion transaction
under which this occurs.
If PRESERVE_HISTORY is true, the new node will record that it was
copied from FROM_PATH in FROM_REV; therefore, FROM_NODE should be
the node found at FROM_PATH in FROM_REV, although this is not
checked. FROM_PATH should be canonicalized before being passed
here.
If PRESERVE_HISTORY is false, FROM_PATH and FROM_REV are ignored.
Use POOL for all allocations.
*/
svn_error_t *svn_fs_fs__dag_copy(dag_node_t *to_node,
const char *entry,
dag_node_t *from_node,
svn_boolean_t preserve_history,
svn_revnum_t from_rev,
const char *from_path,
const char *txn_id,
apr_pool_t *pool);
�
/* Comparison */
/* Find out what is the same between two nodes.
If PROPS_CHANGED is non-null, set *PROPS_CHANGED to 1 if the two
nodes have different property lists, or to 0 if same.
If CONTENTS_CHANGED is non-null, set *CONTENTS_CHANGED to 1 if the
two nodes have different contents, or to 0 if same. For files,
file contents are compared; for directories, the entries lists are
compared. If one is a file and the other is a directory, the one's
contents will be compared to the other's entries list. (Not
terribly useful, I suppose, but that's the caller's business.)
### todo: This function only compares rep keys at the moment. This
may leave us with a slight chance of a false positive, though I
don't really see how that would happen in practice. Nevertheless,
it should probably be fixed.
*/
svn_error_t *svn_fs_fs__dag_things_different(svn_boolean_t *props_changed,
svn_boolean_t *contents_changed,
dag_node_t *node1,
dag_node_t *node2);
/* Set *REV and *PATH to the copyroot revision and path of node NODE, or
to SVN_INVALID_REVNUM and NULL if no copyroot exists.
*/
svn_error_t *svn_fs_fs__dag_get_copyroot(svn_revnum_t *rev,
const char **path,
dag_node_t *node);
/* Set *REV to the copyfrom revision associated with NODE.
*/
svn_error_t *svn_fs_fs__dag_get_copyfrom_rev(svn_revnum_t *rev,
dag_node_t *node);
/* Set *PATH to the copyfrom path associated with NODE.
*/
svn_error_t *svn_fs_fs__dag_get_copyfrom_path(const char **path,
dag_node_t *node);
/* Update *TARGET so that SOURCE is it's predecessor.
*/
svn_error_t *
svn_fs_fs__dag_update_ancestry(dag_node_t *target,
dag_node_t *source,
apr_pool_t *pool);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* SVN_LIBSVN_FS_DAG_H */