On Thu, Feb 25, 2016 at 5:33 PM, Haggai Eran <haggaie@xxxxxxxxxxxx> wrote: >>>> +retry: >>>> + spin_lock(&cg->rpool_list_lock); >>>> + rpool = find_cg_rpool_locked(cg, device); >>>> + if (!rpool) { >>>> + spin_unlock(&cg->rpool_list_lock); >>>> + ret = alloc_cg_rpool(cg, device); >>>> + if (ret) >>>> + goto err; >>>> + else >>>> + goto retry; >>> Instead of retrying after allocation of a new rpool, why not just return the >>> newly allocated rpool (or the existing one) from alloc_cg_rpool? >> >> It can be done, but locking semantics just becomes difficult to >> review/maintain with that where alloc_cg_rpool will unlock and lock >> conditionally later on. > Maybe I'm missing something, but couldn't you simply lock rpool_list_lock > inside alloc_cg_rpool()? It already does that around its call to > find_cg_rpool_locked() and the insertion to cg_list. No. ref_count and usage counters are updated at level where lock is taken in charge_cg_resource(). If I move locking rpool_list_lock inside alloc_cg_rpool, unlocking will continue outside, alloc_cg_rpool() when its found or allocated. As you acknowledged in below comment that this makes confusing to lock/unlock from different context, I think current implementation achieves both. (a) take lock from single context (b) keep functionality of find and alloc in two separate individual functions > >> This path will be hit anyway on first allocation typically. Once >> application is warm up, it will be unlikely to enter here. >> I should change if(!rpool) to if (unlikely(!rpool)). > Theoretically the new allocated rpool can be released again by the time you > get to the second call to find_cg_rpool_locked(). > Thats ok, because if that occurs find_cg_rpool_locked() won't find the entry and will try to allocate again. Things work fine in that case. > I thought that was about functions that only locked the lock, called the > find function, and released the lock. What I'm suggesting is to have one > function that does "lock + find + allocate if needed + unlock", I had similar function in past which does, "lock + find + allocate if needed + + inc_ref_cnt + unlock", (get_cg_rpool) update usage_counter atomically, because other thread/process might update too. check atomic_dec_cnt - on reaching zero, "lock + del_entry + unlock + free". Tejun asked to simplify this to, "lock + find + allocate if needed + inc_ref_cnt_without_atomic" + unlock". which I did in this patch v6. > and another > function that does (under caller's lock) "check ref count + check max count + > release rpool". This can be done. Have one dumb basic question for thiat. Can we call kfree() with spin_lock held? All these years I tend to avoid doing so. -- To unsubscribe from this list: send the line "unsubscribe linux-doc" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html