/* lock.c : functions for manipulating filesystem locks.
*
* ====================================================================
* Copyright (c) 2000-2008 CollabNet. All rights reserved.
*
* This software is licensed as described in the file COPYING, which
* you should have received as part of this distribution. The terms
* are also available at http://subversion.tigris.org/license-1.html.
* If newer versions of this license are posted there, you may use a
* newer version instead, at your option.
*
* This software consists of voluntary contributions made by many
* individuals. For exact contribution history, see the revision
* history and logs, available at http://subversion.tigris.org/.
* ====================================================================
*/
#include "svn_pools.h"
#include "svn_error.h"
#include "svn_path.h"
#include "svn_fs.h"
#include "svn_hash.h"
#include "svn_time.h"
#include "svn_utf.h"
#include <apr_uuid.h>
#include <apr_file_io.h>
#include <apr_file_info.h>
#include "lock.h"
#include "tree.h"
#include "err.h"
#include "fs_fs.h"
#include "../libsvn_fs/fs-loader.h"
#include "private/svn_fs_util.h"
#include "svn_private_config.h"
/* Names of hash keys used to store a lock for writing to disk. */
#define PATH_KEY "path"
#define TOKEN_KEY "token"
#define OWNER_KEY "owner"
#define CREATION_DATE_KEY "creation_date"
#define EXPIRATION_DATE_KEY "expiration_date"
#define COMMENT_KEY "comment"
#define IS_DAV_COMMENT_KEY "is_dav_comment"
#define CHILDREN_KEY "children"
/* Number of characters from the head of a digest file name used to
calculate a subdirectory in which to drop that file. */
#define DIGEST_SUBDIR_LEN 3
�
/*** Generic helper functions. ***/
/* Return the MD5 hash of STR. */
static const char *
make_digest(const char *str,
apr_pool_t *pool)
{
svn_checksum_t *checksum;
svn_checksum(&checksum, svn_checksum_md5, str, strlen(str), pool);
return svn_checksum_to_cstring_display(checksum, pool);
}
/* Set the value of KEY (whose size is KEY_LEN, or APR_HASH_KEY_STRING
if unknown) to an svn_string_t-ized version of VALUE (whose size is
VALUE_LEN, or APR_HASH_KEY_STRING if unknown) in HASH. The value
will be allocated in POOL; KEY will not be duped. If either KEY or VALUE
is NULL, this function will do nothing. */
static void
hash_store(apr_hash_t *hash,
const char *key,
apr_ssize_t key_len,
const char *value,
apr_ssize_t value_len,
apr_pool_t *pool)
{
if (! (key && value))
return;
if (value_len == APR_HASH_KEY_STRING)
value_len = strlen(value);
apr_hash_set(hash, key, key_len,
svn_string_ncreate(value, value_len, pool));
}
/* Fetch the value of KEY from HASH, returning only the cstring data
of that value (if it exists). */
static const char *
hash_fetch(apr_hash_t *hash,
const char *key,
apr_pool_t *pool)
{
svn_string_t *str = apr_hash_get(hash, key, APR_HASH_KEY_STRING);
return str ? str->data : NULL;
}
�
/*** Digest file handling functions. ***/
/* Return the path of the lock/entries file for which DIGEST is the
hashed repository relative path. */
static const char *
digest_path_from_digest(svn_fs_t *fs,
const char *digest,
apr_pool_t *pool)
{
return svn_path_join_many(pool, fs->path, PATH_LOCKS_DIR,
apr_pstrmemdup(pool, digest, DIGEST_SUBDIR_LEN),
digest, NULL);
}
/* Return the path to the lock/entries digest file associate with
PATH, where PATH is the path to the lock file or lock entries file
in FS. */
static const char *
digest_path_from_path(svn_fs_t *fs,
const char *path,
apr_pool_t *pool)
{
const char *digest = make_digest(path, pool);
return svn_path_join_many(pool, fs->path, PATH_LOCKS_DIR,
apr_pstrmemdup(pool, digest, DIGEST_SUBDIR_LEN),
digest, NULL);
}
/* Write to DIGEST_PATH a representation of CHILDREN (which may be
empty, if the versioned path in FS represented by DIGEST_PATH has
no children) and LOCK (which may be NULL if that versioned path is
lock itself locked). Use POOL for all allocations. */
static svn_error_t *
write_digest_file(apr_hash_t *children,
svn_lock_t *lock,
svn_fs_t *fs,
const char *digest_path,
apr_pool_t *pool)
{
svn_error_t *err = SVN_NO_ERROR;
svn_stream_t *stream;
apr_hash_index_t *hi;
apr_hash_t *hash = apr_hash_make(pool);
const char *tmp_path;
const char *rev_0_path;
SVN_ERR(svn_fs_fs__ensure_dir_exists(svn_path_join(fs->path, PATH_LOCKS_DIR,
pool), fs, pool));
SVN_ERR(svn_fs_fs__ensure_dir_exists(svn_path_dirname(digest_path, pool), fs,
pool));
if (lock)
{
const char *creation_date = NULL, *expiration_date = NULL;
if (lock->creation_date)
creation_date = svn_time_to_cstring(lock->creation_date, pool);
if (lock->expiration_date)
expiration_date = svn_time_to_cstring(lock->expiration_date, pool);
hash_store(hash, PATH_KEY, sizeof(PATH_KEY)-1,
lock->path, APR_HASH_KEY_STRING, pool);
hash_store(hash, TOKEN_KEY, sizeof(TOKEN_KEY)-1,
lock->token, APR_HASH_KEY_STRING, pool);
hash_store(hash, OWNER_KEY, sizeof(OWNER_KEY)-1,
lock->owner, APR_HASH_KEY_STRING, pool);
hash_store(hash, COMMENT_KEY, sizeof(COMMENT_KEY)-1,
lock->comment, APR_HASH_KEY_STRING, pool);
hash_store(hash, IS_DAV_COMMENT_KEY, sizeof(IS_DAV_COMMENT_KEY)-1,
lock->is_dav_comment ? "1" : "0", 1, pool);
hash_store(hash, CREATION_DATE_KEY, sizeof(CREATION_DATE_KEY)-1,
creation_date, APR_HASH_KEY_STRING, pool);
hash_store(hash, EXPIRATION_DATE_KEY, sizeof(EXPIRATION_DATE_KEY)-1,
expiration_date, APR_HASH_KEY_STRING, pool);
}
if (apr_hash_count(children))
{
svn_stringbuf_t *children_list = svn_stringbuf_create("", pool);
for (hi = apr_hash_first(pool, children); hi; hi = apr_hash_next(hi))
{
const void *key;
apr_ssize_t klen;
apr_hash_this(hi, &key, &klen, NULL);
svn_stringbuf_appendbytes(children_list, key, klen);
svn_stringbuf_appendbytes(children_list, "\n", 1);
}
hash_store(hash, CHILDREN_KEY, sizeof(CHILDREN_KEY)-1,
children_list->data, children_list->len, pool);
}
SVN_ERR(svn_stream_open_unique(&stream, &tmp_path,
svn_path_dirname(digest_path, pool),
svn_io_file_del_none, pool, pool));
if ((err = svn_hash_write2(hash, stream, SVN_HASH_TERMINATOR, pool)))
{
svn_error_clear(svn_stream_close(stream));
return svn_error_createf(err->apr_err,
err,
_("Cannot write lock/entries hashfile '%s'"),
svn_path_local_style(tmp_path, pool));
}
SVN_ERR(svn_stream_close(stream));
SVN_ERR(svn_io_file_rename(tmp_path, digest_path, pool));
SVN_ERR(svn_fs_fs__path_rev_absolute(&rev_0_path, fs, 0, pool));
return svn_fs_fs__dup_perms(digest_path, rev_0_path, pool);
}
/* Parse the file at DIGEST_PATH, populating the lock LOCK_P in that
file (if it exists, and if *LOCK_P is non-NULL) and the hash of
CHILDREN_P (if any exist, and if *CHILDREN_P is non-NULL). Use POOL
for all allocations. */
static svn_error_t *
read_digest_file(apr_hash_t **children_p,
svn_lock_t **lock_p,
svn_fs_t *fs,
const char *digest_path,
apr_pool_t *pool)
{
svn_error_t *err = SVN_NO_ERROR;
svn_lock_t *lock;
apr_hash_t *hash;
svn_stream_t *stream;
const char *val;
if (lock_p)
*lock_p = NULL;
if (children_p)
*children_p = apr_hash_make(pool);
err = svn_stream_open_readonly(&stream, digest_path, pool, pool);
if (err && APR_STATUS_IS_ENOENT(err->apr_err))
{
svn_error_clear(err);
return SVN_NO_ERROR;
}
SVN_ERR(err);
/* If our caller doesn't care about anything but the presence of the
file... whatever. */
if (! (lock_p || children_p))
return svn_stream_close(stream);
hash = apr_hash_make(pool);
if ((err = svn_hash_read2(hash, stream, SVN_HASH_TERMINATOR, pool)))
{
svn_error_clear(svn_stream_close(stream));
return svn_error_createf(err->apr_err,
err,
_("Can't parse lock/entries hashfile '%s'"),
svn_path_local_style(digest_path, pool));
}
SVN_ERR(svn_stream_close(stream));
/* If our caller cares, see if we have a lock path in our hash. If
so, we'll assume we have a lock here. */
val = hash_fetch(hash, PATH_KEY, pool);
if (val && lock_p)
{
const char *path = val;
/* Create our lock and load it up. */
lock = svn_lock_create(pool);
lock->path = path;
if (! ((lock->token = hash_fetch(hash, TOKEN_KEY, pool))))
return svn_fs_fs__err_corrupt_lockfile(fs, path);
if (! ((lock->owner = hash_fetch(hash, OWNER_KEY, pool))))
return svn_fs_fs__err_corrupt_lockfile(fs, path);
if (! ((val = hash_fetch(hash, IS_DAV_COMMENT_KEY, pool))))
return svn_fs_fs__err_corrupt_lockfile(fs, path);
lock->is_dav_comment = (val[0] == '1');
if (! ((val = hash_fetch(hash, CREATION_DATE_KEY, pool))))
return svn_fs_fs__err_corrupt_lockfile(fs, path);
SVN_ERR(svn_time_from_cstring(&(lock->creation_date), val, pool));
if ((val = hash_fetch(hash, EXPIRATION_DATE_KEY, pool)))
SVN_ERR(svn_time_from_cstring(&(lock->expiration_date), val, pool));
lock->comment = hash_fetch(hash, COMMENT_KEY, pool);
*lock_p = lock;
}
/* If our caller cares, see if we have any children for this path. */
val = hash_fetch(hash, CHILDREN_KEY, pool);
if (val && children_p)
{
apr_array_header_t *kiddos = svn_cstring_split(val, "\n", FALSE, pool);
int i;
for (i = 0; i < kiddos->nelts; i++)
{
apr_hash_set(*children_p, APR_ARRAY_IDX(kiddos, i, const char *),
APR_HASH_KEY_STRING, (void *)1);
}
}
return SVN_NO_ERROR;
}
�
/*** Lock helper functions (path here are still FS paths, not on-disk
schema-supporting paths) ***/
/* Write LOCK in FS to the actual OS filesystem. */
static svn_error_t *
set_lock(svn_fs_t *fs,
svn_lock_t *lock,
apr_pool_t *pool)
{
svn_stringbuf_t *this_path = svn_stringbuf_create(lock->path, pool);
svn_stringbuf_t *last_child = svn_stringbuf_create("", pool);
apr_pool_t *subpool;
SVN_ERR_ASSERT(lock);
/* Iterate in reverse, creating the lock for LOCK->path, and then
just adding entries for its parent, until we reach a parent
that's already listed in *its* parent. */
subpool = svn_pool_create(pool);
while (1729)
{
const char *digest_path, *parent_dir, *digest_file;
apr_hash_t *this_children;
svn_lock_t *this_lock;
svn_pool_clear(subpool);
/* Calculate the DIGEST_PATH for the currently FS path, and then
split it into a PARENT_DIR and DIGEST_FILE basename. */
digest_path = digest_path_from_path(fs, this_path->data, subpool);
svn_path_split(digest_path, &parent_dir, &digest_file, subpool);
SVN_ERR(read_digest_file(&this_children, &this_lock, fs,
digest_path, subpool));
/* We're either writing a new lock (first time through only) or
a new entry (every time but the first). */
if (lock)
{
this_lock = lock;
lock = NULL;
svn_stringbuf_set(last_child, digest_file);
}
else
{
/* If we already have an entry for this path, we're done. */
if (apr_hash_get(this_children, last_child->data, last_child->len))
break;
apr_hash_set(this_children, last_child->data,
last_child->len, (void *)1);
}
SVN_ERR(write_digest_file(this_children, this_lock, fs,
digest_path, subpool));
/* Prep for next iteration, or bail if we're done. */
if ((this_path->len == 1) && (this_path->data[0] == '/'))
break;
svn_stringbuf_set(this_path,
svn_path_dirname(this_path->data, subpool));
}
svn_pool_destroy(subpool);
return SVN_NO_ERROR;
}
/* Delete LOCK from FS in the actual OS filesystem. */
static svn_error_t *
delete_lock(svn_fs_t *fs,
svn_lock_t *lock,
apr_pool_t *pool)
{
svn_stringbuf_t *this_path = svn_stringbuf_create(lock->path, pool);
svn_stringbuf_t *child_to_kill = svn_stringbuf_create("", pool);
apr_pool_t *subpool;
SVN_ERR_ASSERT(lock);
/* Iterate in reverse, deleting the lock for LOCK->path, and then
pruning entries from its parents. */
subpool = svn_pool_create(pool);
while (1729)
{
const char *digest_path, *parent_dir, *digest_file;
apr_hash_t *this_children;
svn_lock_t *this_lock;
svn_pool_clear(subpool);
/* Calculate the DIGEST_PATH for the currently FS path, and then
split it into a PARENT_DIR and DIGEST_FILE basename. */
digest_path = digest_path_from_path(fs, this_path->data, subpool);
svn_path_split(digest_path, &parent_dir, &digest_file, subpool);
SVN_ERR(read_digest_file(&this_children, &this_lock, fs,
digest_path, subpool));
/* If we are supposed to drop the last entry from this path's
children list, do so. */
if (child_to_kill->len)
apr_hash_set(this_children, child_to_kill->data,
child_to_kill->len, NULL);
/* Delete the lock (first time through only). */
if (lock)
{
this_lock = NULL;
lock = NULL;
}
if (! (this_lock || apr_hash_count(this_children) != 0))
{
/* Special case: no goodz, no file. And remember to nix
the entry for it in its parent. */
svn_stringbuf_set(child_to_kill,
svn_path_basename(digest_path, subpool));
SVN_ERR(svn_io_remove_file(digest_path, subpool));
}
else
{
SVN_ERR(write_digest_file(this_children, this_lock, fs,
digest_path, subpool));
svn_stringbuf_setempty(child_to_kill);
}
/* Prep for next iteration, or bail if we're done. */
if ((this_path->len == 1) && (this_path->data[0] == '/'))
break;
svn_stringbuf_set(this_path,
svn_path_dirname(this_path->data, subpool));
}
svn_pool_destroy(subpool);
return SVN_NO_ERROR;
}
/* Set *LOCK_P to the lock for PATH in FS. HAVE_WRITE_LOCK should be
TRUE if the caller (or one of its callers) has taken out the
repository-wide write lock, FALSE otherwise. Use POOL for
allocations. */
static svn_error_t *
get_lock(svn_lock_t **lock_p,
svn_fs_t *fs,
const char *path,
svn_boolean_t have_write_lock,
apr_pool_t *pool)
{
svn_lock_t *lock;
const char *digest_path = digest_path_from_path(fs, path, pool);
SVN_ERR(read_digest_file(NULL, &lock, fs, digest_path, pool));
if (! lock)
return SVN_FS__ERR_NO_SUCH_LOCK(fs, path);
/* Don't return an expired lock. */
if (lock->expiration_date && (apr_time_now() > lock->expiration_date))
{
/* Only remove the lock if we have the write lock.
Read operations shouldn't change the filesystem. */
if (have_write_lock)
SVN_ERR(delete_lock(fs, lock, pool));
*lock_p = NULL;
return SVN_FS__ERR_LOCK_EXPIRED(fs, lock->token);
}
*lock_p = lock;
return SVN_NO_ERROR;
}
/* Set *LOCK_P to the lock for PATH in FS. HAVE_WRITE_LOCK should be
TRUE if the caller (or one of its callers) has taken out the
repository-wide write lock, FALSE otherwise. Use POOL for
allocations. */
static svn_error_t *
get_lock_helper(svn_fs_t *fs,
svn_lock_t **lock_p,
const char *path,
svn_boolean_t have_write_lock,
apr_pool_t *pool)
{
svn_lock_t *lock;
svn_error_t *err;
err = get_lock(&lock, fs, path, have_write_lock, pool);
/* We've deliberately decided that this function doesn't tell the
caller *why* the lock is unavailable. */
if (err && ((err->apr_err == SVN_ERR_FS_NO_SUCH_LOCK)
|| (err->apr_err == SVN_ERR_FS_LOCK_EXPIRED)))
{
svn_error_clear(err);
*lock_p = NULL;
return SVN_NO_ERROR;
}
else
SVN_ERR(err);
*lock_p = lock;
return SVN_NO_ERROR;
}
/* A recursive function that calls GET_LOCKS_FUNC/GET_LOCKS_BATON for
all locks in and under PATH in FS.
HAVE_WRITE_LOCK should be true if the caller (directly or indirectly)
has the FS write lock. */
static svn_error_t *
walk_digest_files(svn_fs_t *fs,
const char *digest_path,
svn_fs_get_locks_callback_t get_locks_func,
void *get_locks_baton,
svn_boolean_t have_write_lock,
apr_pool_t *pool)
{
apr_hash_t *children;
svn_lock_t *lock;
apr_hash_index_t *hi;
apr_pool_t *subpool;
/* First, send up any locks in the current digest file. */
SVN_ERR(read_digest_file(&children, &lock, fs, digest_path, pool));
if (lock)
{
/* Don't report an expired lock. */
if (lock->expiration_date == 0
|| (apr_time_now() <= lock->expiration_date))
{
if (get_locks_func)
SVN_ERR(get_locks_func(get_locks_baton, lock, pool));
}
else
{
/* Only remove the lock if we have the write lock.
Read operations shouldn't change the filesystem. */
if (have_write_lock)
SVN_ERR(delete_lock(fs, lock, pool));
}
}
/* Now, recurse on this thing's child entries (if any; bail otherwise). */
if (! apr_hash_count(children))
return SVN_NO_ERROR;
subpool = svn_pool_create(pool);
for (hi = apr_hash_first(pool, children); hi; hi = apr_hash_next(hi))
{
const void *key;
svn_pool_clear(subpool);
apr_hash_this(hi, &key, NULL, NULL);
SVN_ERR(walk_digest_files
(fs, digest_path_from_digest(fs, key, subpool),
get_locks_func, get_locks_baton, have_write_lock, subpool));
}
svn_pool_destroy(subpool);
return SVN_NO_ERROR;
}
/* Utility function: verify that a lock can be used. Interesting
errors returned from this function:
SVN_ERR_FS_NO_USER: No username attached to FS.
SVN_ERR_FS_LOCK_OWNER_MISMATCH: FS's username doesn't match LOCK's owner.
SVN_ERR_FS_BAD_LOCK_TOKEN: FS doesn't hold matching lock-token for LOCK.
*/
static svn_error_t *
verify_lock(svn_fs_t *fs,
svn_lock_t *lock,
apr_pool_t *pool)
{
if ((! fs->access_ctx) || (! fs->access_ctx->username))
return svn_error_createf
(SVN_ERR_FS_NO_USER, NULL,
_("Cannot verify lock on path '%s'; no username available"),
lock->path);
else if (strcmp(fs->access_ctx->username, lock->owner) != 0)
return svn_error_createf
(SVN_ERR_FS_LOCK_OWNER_MISMATCH, NULL,
_("User %s does not own lock on path '%s' (currently locked by %s)"),
fs->access_ctx->username, lock->path, lock->owner);
else if (apr_hash_get(fs->access_ctx->lock_tokens, lock->token,
APR_HASH_KEY_STRING) == NULL)
return svn_error_createf
(SVN_ERR_FS_BAD_LOCK_TOKEN, NULL,
_("Cannot verify lock on path '%s'; no matching lock-token available"),
lock->path);
return SVN_NO_ERROR;
}
/* This implements the svn_fs_get_locks_callback_t interface, where
BATON is just an svn_fs_t object. */
static svn_error_t *
get_locks_callback(void *baton,
svn_lock_t *lock,
apr_pool_t *pool)
{
return verify_lock(baton, lock, pool);
}
/* The main routine for lock enforcement, used throughout libsvn_fs_fs. */
svn_error_t *
svn_fs_fs__allow_locked_operation(const char *path,
svn_fs_t *fs,
svn_boolean_t recurse,
svn_boolean_t have_write_lock,
apr_pool_t *pool)
{
path = svn_fs__canonicalize_abspath(path, pool);
if (recurse)
{
/* Discover all locks at or below the path. */
const char *digest_path = digest_path_from_path(fs, path, pool);
SVN_ERR(walk_digest_files(fs, digest_path, get_locks_callback,
fs, have_write_lock, pool));
}
else
{
/* Discover and verify any lock attached to the path. */
svn_lock_t *lock;
SVN_ERR(get_lock_helper(fs, &lock, path, have_write_lock, pool));
if (lock)
SVN_ERR(verify_lock(fs, lock, pool));
}
return SVN_NO_ERROR;
}
/* Baton used for lock_body below. */
struct lock_baton {
svn_lock_t **lock_p;
svn_fs_t *fs;
const char *path;
const char *token;
const char *comment;
svn_boolean_t is_dav_comment;
apr_time_t expiration_date;
svn_revnum_t current_rev;
svn_boolean_t steal_lock;
apr_pool_t *pool;
};
/* This implements the svn_fs_fs__with_write_lock() 'body' callback
type, and assumes that the write lock is held.
BATON is a 'struct lock_baton *'. */
static svn_error_t *
lock_body(void *baton, apr_pool_t *pool)
{
struct lock_baton *lb = baton;
svn_node_kind_t kind;
svn_lock_t *existing_lock;
svn_lock_t *lock;
svn_fs_root_t *root;
svn_revnum_t youngest;
/* Until we implement directory locks someday, we only allow locks
on files or non-existent paths. */
/* Use fs->vtable->foo instead of svn_fs_foo to avoid circular
library dependencies, which are not portable. */
SVN_ERR(lb->fs->vtable->youngest_rev(&youngest, lb->fs, pool));
SVN_ERR(lb->fs->vtable->revision_root(&root, lb->fs, youngest, pool));
SVN_ERR(svn_fs_fs__check_path(&kind, root, lb->path, pool));
if (kind == svn_node_dir)
return SVN_FS__ERR_NOT_FILE(lb->fs, lb->path);
/* While our locking implementation easily supports the locking of
nonexistent paths, we deliberately choose not to allow such madness. */
if (kind == svn_node_none)
return svn_error_createf(SVN_ERR_FS_NOT_FOUND, NULL,
_("Path '%s' doesn't exist in HEAD revision"),
lb->path);
/* We need to have a username attached to the fs. */
if (!lb->fs->access_ctx || !lb->fs->access_ctx->username)
return SVN_FS__ERR_NO_USER(lb->fs);
/* Is the caller attempting to lock an out-of-date working file? */
if (SVN_IS_VALID_REVNUM(lb->current_rev))
{
svn_revnum_t created_rev;
SVN_ERR(svn_fs_fs__node_created_rev(&created_rev, root, lb->path,
pool));
/* SVN_INVALID_REVNUM means the path doesn't exist. So
apparently somebody is trying to lock something in their
working copy, but somebody else has deleted the thing
from HEAD. That counts as being 'out of date'. */
if (! SVN_IS_VALID_REVNUM(created_rev))
return svn_error_createf
(SVN_ERR_FS_OUT_OF_DATE, NULL,
_("Path '%s' doesn't exist in HEAD revision"), lb->path);
if (lb->current_rev < created_rev)
return svn_error_createf
(SVN_ERR_FS_OUT_OF_DATE, NULL,
_("Lock failed: newer version of '%s' exists"), lb->path);
}
/* If the caller provided a TOKEN, we *really* need to see
if a lock already exists with that token, and if so, verify that
the lock's path matches PATH. Otherwise we run the risk of
breaking the 1-to-1 mapping of lock tokens to locked paths. */
/* ### TODO: actually do this check. This is tough, because the
schema doesn't supply a lookup-by-token mechanism. */
/* Is the path already locked?
Note that this next function call will automatically ignore any
errors about {the path not existing as a key, the path's token
not existing as a key, the lock just having been expired}. And
that's totally fine. Any of these three errors are perfectly
acceptable to ignore; it means that the path is now free and
clear for locking, because the fsfs funcs just cleared out both
of the tables for us. */
SVN_ERR(get_lock_helper(lb->fs, &existing_lock, lb->path, TRUE, pool));
if (existing_lock)
{
if (! lb->steal_lock)
{
/* Sorry, the path is already locked. */
return SVN_FS__ERR_PATH_ALREADY_LOCKED(lb->fs, existing_lock);
}
else
{
/* STEAL_LOCK was passed, so fs_username is "stealing" the
lock from lock->owner. Destroy the existing lock. */
SVN_ERR(delete_lock(lb->fs, existing_lock, pool));
}
}
/* Create our new lock, and add it to the tables.
Ensure that the lock is created in the correct pool. */
lock = svn_lock_create(lb->pool);
if (lb->token)
lock->token = apr_pstrdup(lb->pool, lb->token);
else
SVN_ERR(svn_fs_fs__generate_lock_token(&(lock->token), lb->fs,
lb->pool));
lock->path = apr_pstrdup(lb->pool, lb->path);
lock->owner = apr_pstrdup(lb->pool, lb->fs->access_ctx->username);
lock->comment = apr_pstrdup(lb->pool, lb->comment);
lock->is_dav_comment = lb->is_dav_comment;
lock->creation_date = apr_time_now();
lock->expiration_date = lb->expiration_date;
SVN_ERR(set_lock(lb->fs, lock, pool));
*lb->lock_p = lock;
return SVN_NO_ERROR;
}
/* Baton used for unlock_body below. */
struct unlock_baton {
svn_fs_t *fs;
const char *path;
const char *token;
svn_boolean_t break_lock;
};
/* This implements the svn_fs_fs__with_write_lock() 'body' callback
type, and assumes that the write lock is held.
BATON is a 'struct unlock_baton *'. */
static svn_error_t *
unlock_body(void *baton, apr_pool_t *pool)
{
struct unlock_baton *ub = baton;
svn_lock_t *lock;
/* This could return SVN_ERR_FS_BAD_LOCK_TOKEN or SVN_ERR_FS_LOCK_EXPIRED. */
SVN_ERR(get_lock(&lock, ub->fs, ub->path, TRUE, pool));
/* Unless breaking the lock, we do some checks. */
if (! ub->break_lock)
{
/* Sanity check: the incoming token should match lock->token. */
if (strcmp(ub->token, lock->token) != 0)
return SVN_FS__ERR_NO_SUCH_LOCK(ub->fs, lock->path);
/* There better be a username attached to the fs. */
if (! (ub->fs->access_ctx && ub->fs->access_ctx->username))
return SVN_FS__ERR_NO_USER(ub->fs);
/* And that username better be the same as the lock's owner. */
if (strcmp(ub->fs->access_ctx->username, lock->owner) != 0)
return SVN_FS__ERR_LOCK_OWNER_MISMATCH
(ub->fs, ub->fs->access_ctx->username, lock->owner);
}
/* Remove lock and lock token files. */
return delete_lock(ub->fs, lock, pool);
}
�
/*** Public API implementations ***/
svn_error_t *
svn_fs_fs__lock(svn_lock_t **lock_p,
svn_fs_t *fs,
const char *path,
const char *token,
const char *comment,
svn_boolean_t is_dav_comment,
apr_time_t expiration_date,
svn_revnum_t current_rev,
svn_boolean_t steal_lock,
apr_pool_t *pool)
{
struct lock_baton lb;
SVN_ERR(svn_fs__check_fs(fs, TRUE));
path = svn_fs__canonicalize_abspath(path, pool);
lb.lock_p = lock_p;
lb.fs = fs;
lb.path = path;
lb.token = token;
lb.comment = comment;
lb.is_dav_comment = is_dav_comment;
lb.expiration_date = expiration_date;
lb.current_rev = current_rev;
lb.steal_lock = steal_lock;
lb.pool = pool;
return svn_fs_fs__with_write_lock(fs, lock_body, &lb, pool);
}
svn_error_t *
svn_fs_fs__generate_lock_token(const char **token,
svn_fs_t *fs,
apr_pool_t *pool)
{
SVN_ERR(svn_fs__check_fs(fs, TRUE));
/* Notice that 'fs' is currently unused. But perhaps someday, we'll
want to use the fs UUID + some incremented number? For now, we
generate a URI that matches the DAV RFC. We could change this to
some other URI scheme someday, if we wish. */
*token = apr_pstrcat(pool, "opaquelocktoken:",
svn_uuid_generate(pool), NULL);
return SVN_NO_ERROR;
}
svn_error_t *
svn_fs_fs__unlock(svn_fs_t *fs,
const char *path,
const char *token,
svn_boolean_t break_lock,
apr_pool_t *pool)
{
struct unlock_baton ub;
SVN_ERR(svn_fs__check_fs(fs, TRUE));
path = svn_fs__canonicalize_abspath(path, pool);
ub.fs = fs;
ub.path = path;
ub.token = token;
ub.break_lock = break_lock;
return svn_fs_fs__with_write_lock(fs, unlock_body, &ub, pool);
}
svn_error_t *
svn_fs_fs__get_lock(svn_lock_t **lock_p,
svn_fs_t *fs,
const char *path,
apr_pool_t *pool)
{
SVN_ERR(svn_fs__check_fs(fs, TRUE));
path = svn_fs__canonicalize_abspath(path, pool);
return get_lock_helper(fs, lock_p, path, FALSE, pool);
}
svn_error_t *
svn_fs_fs__get_locks(svn_fs_t *fs,
const char *path,
svn_fs_get_locks_callback_t get_locks_func,
void *get_locks_baton,
apr_pool_t *pool)
{
const char *digest_path;
SVN_ERR(svn_fs__check_fs(fs, TRUE));
path = svn_fs__canonicalize_abspath(path, pool);
/* Get the top digest path in our tree of interest, and then walk it. */
digest_path = digest_path_from_path(fs, path, pool);
return walk_digest_files(fs, digest_path, get_locks_func,
get_locks_baton, FALSE, pool);
}