* cl_lock::cll_guard, and will be automatically cleared by the sub-lock
* when the latter is destroyed. When a sub-lock is canceled, a
* reference to it is removed from the top-lock array, and top-lock is
- * moved into CLS_NEW state. It is guaranteed that all sub-locks exits
+ * moved into CLS_NEW state. It is guaranteed that all sub-locks exist
* while their top-lock is in CLS_HELD or CLS_CACHED states.
*
* - IO's are not reference counted.
*
* To implement a connection between top and sub entities, lov layer is split
* into two pieces: lov ("upper half"), and lovsub ("bottom half"), both
- * implementing full set of cl-interfaces. For example, top-object has clu and
+ * implementing full set of cl-interfaces. For example, top-object has vvp and
* lov layers, and it's sub-object has lovsub and osc layers. lovsub layer is
* used to track child-parent relationship.
*
struct cl_lock *lss_active;
};
+/**
+ * Describe the environment settings for sublocks.
+ */
+struct lov_sublock_env {
+ const struct lu_env *lse_env;
+ struct cl_io *lse_io;
+ struct lov_io_sub *lse_sub;
+};
+
struct lovsub_page {
struct cl_page_slice lsb_cl;
};
};
struct lov_session {
- struct lov_io ls_io;
+ struct lov_io ls_io;
+ struct lov_sublock_env ls_subenv;
};
/**
void lov_lock_unlink (const struct lu_env *env, struct lov_lock_link *link,
struct lovsub_lock *sub);
-void lov_sub_put (struct lov_io_sub *sub);
+struct lov_io_sub *lov_sub_get(const struct lu_env *env, struct lov_io *lio,
+ int stripe);
+void lov_sub_put (struct lov_io_sub *sub);
int lov_sublock_modify (const struct lu_env *env, struct lov_lock *lov,
struct lovsub_lock *sublock,
const struct cl_lock_descr *d, int idx);