void *git_cache_try_store(git_cache *cache, void *entry)
{
uint32_t hash;
const git_oid *oid;
cache_node *node = NULL;
oid = &((git_cached_obj*)entry)->oid;
memcpy(&hash, oid->id, sizeof(hash));
node = &cache->nodes[hash & cache->size_mask];
/* increase the refcount on this object, because
* the cache now owns it */
git_cached_obj_incref(entry);
git_mutex_lock(&node->lock);
if (node->ptr == NULL) {
node->ptr = entry;
} else if (git_cached_obj_compare(node->ptr, oid) == 0) {
git_cached_obj_decref(entry, cache->free_obj);
entry = node->ptr;
} else {
git_cached_obj_decref(node->ptr, cache->free_obj);
node->ptr = entry;
}
/* increase the refcount again, because we are
* returning it to the user */
git_cached_obj_incref(entry);
git_mutex_unlock(&node->lock);
return entry;
}
int git_attr_file__parse_buffer(
git_repository *repo, git_attr_file *attrs, const char *data)
{
int error = 0;
const char *scan = data, *context = NULL;
git_attr_rule *rule = NULL;
/* if subdir file path, convert context for file paths */
if (attrs->entry &&
git_path_root(attrs->entry->path) < 0 &&
!git__suffixcmp(attrs->entry->path, "/" GIT_ATTR_FILE))
context = attrs->entry->path;
if (git_mutex_lock(&attrs->lock) < 0) {
giterr_set(GITERR_OS, "Failed to lock attribute file");
return -1;
}
while (!error && *scan) {
/* allocate rule if needed */
if (!rule && !(rule = git__calloc(1, sizeof(*rule)))) {
error = -1;
break;
}
rule->match.flags =
GIT_ATTR_FNMATCH_ALLOWNEG | GIT_ATTR_FNMATCH_ALLOWMACRO;
/* parse the next "pattern attr attr attr" line */
if (!(error = git_attr_fnmatch__parse(
&rule->match, &attrs->pool, context, &scan)) &&
!(error = git_attr_assignment__parse(
repo, &attrs->pool, &rule->assigns, &scan)))
{
if (rule->match.flags & GIT_ATTR_FNMATCH_MACRO)
/* TODO: warning if macro found in file below repo root */
error = git_attr_cache__insert_macro(repo, rule);
else
error = git_vector_insert(&attrs->rules, rule);
}
/* if the rule wasn't a pattern, on to the next */
if (error < 0) {
git_attr_rule__clear(rule); /* reset rule contents */
if (error == GIT_ENOTFOUND)
error = 0;
} else {
rule = NULL; /* vector now "owns" the rule */
}
}
git_mutex_unlock(&attrs->lock);
git_attr_rule__free(rule);
return error;
}
static void attr_file_free(git_attr_file *file)
{
bool unlock = !git_mutex_lock(&file->lock);
git_attr_file__clear_rules(file, false);
git_pool_clear(&file->pool);
if (unlock)
git_mutex_unlock(&file->lock);
git_mutex_free(&file->lock);
git__memzero(file, sizeof(*file));
git__free(file);
}
void openssl_locking_function(int mode, int n, const char *file, int line)
{
int lock;
GIT_UNUSED(file);
GIT_UNUSED(line);
lock = mode & CRYPTO_LOCK;
if (lock) {
git_mutex_lock(&openssl_locks[n]);
} else {
git_mutex_unlock(&openssl_locks[n]);
}
}
int git_attr_file__clear_rules(git_attr_file *file, bool need_lock)
{
unsigned int i;
git_attr_rule *rule;
if (need_lock && git_mutex_lock(&file->lock) < 0) {
giterr_set(GITERR_OS, "Failed to lock attribute file");
return -1;
}
git_vector_foreach(&file->rules, i, rule)
git_attr_rule__free(rule);
git_vector_free(&file->rules);
if (need_lock)
git_mutex_unlock(&file->lock);
return 0;
}
void *git_cache_get(git_cache *cache, const git_oid *oid)
{
uint32_t hash;
cache_node *node = NULL;
void *result = NULL;
memcpy(&hash, oid->id, sizeof(hash));
node = &cache->nodes[hash & cache->size_mask];
git_mutex_lock(&node->lock);
{
if (node->ptr && git_cached_obj_compare(node->ptr, oid) == 0) {
git_cached_obj_incref(node->ptr);
result = node->ptr;
}
}
git_mutex_unlock(&node->lock);
return result;
}
GIT_INLINE(void) attr_cache_unlock(git_attr_cache *cache)
{
GIT_UNUSED(cache); /* avoid warning if threading is off */
git_mutex_unlock(&cache->lock);
}