On Mon, Apr 12, 2021 at 5:55 AM Damien Le Moal <Damien.LeMoal@xxxxxxx> wrote: > > On 2021/04/07 20:33, Selva Jove wrote: > > Initially I started moving the dm-kcopyd interface to the block layer > > as a generic interface. > > Once I dig deeper in dm-kcopyd code, I figured that dm-kcopyd is > > tightly coupled with dm_io() > > > > To move dm-kcopyd to block layer, it would also require dm_io code to > > be moved to block layer. > > It would cause havoc in dm layer, as it is the backbone of the > > dm-layer and needs complete > > rewriting of dm-layer. Do you see any other way of doing this without > > having to move dm_io code > > or to have redundant code ? > > Right. Missed that. So reusing dm-kcopyd and making it a common interface will > take some more efforts. OK, then. For the first round of commits, let's forget > about this. But I still think that your emulation could be a lot better than a > loop doing blocking writes after blocking reads. > Current implementation issues read asynchronously and once all the reads are completed, then the write is issued as whole to reduce the IO traffic in the queue. I agree that things can be better. Will explore another approach of sending writes immediately once reads are completed and with plugging to increase the chances of merging. > [...] > >>> +int blkdev_issue_copy(struct block_device *src_bdev, int nr_srcs, > >>> + struct range_entry *src_rlist, struct block_device *dest_bdev, > >>> + sector_t dest, gfp_t gfp_mask, int flags) > >>> +{ > >>> + struct request_queue *q = bdev_get_queue(src_bdev); > >>> + struct request_queue *dest_q = bdev_get_queue(dest_bdev); > >>> + struct blk_copy_payload *payload; > >>> + sector_t bs_mask, copy_size; > >>> + int ret; > >>> + > >>> + ret = blk_prepare_payload(src_bdev, nr_srcs, src_rlist, gfp_mask, > >>> + &payload, ©_size); > >>> + if (ret) > >>> + return ret; > >>> + > >>> + bs_mask = (bdev_logical_block_size(dest_bdev) >> 9) - 1; > >>> + if (dest & bs_mask) { > >>> + return -EINVAL; > >>> + goto out; > >>> + } > >>> + > >>> + if (q == dest_q && q->limits.copy_offload) { > >>> + ret = blk_copy_offload(src_bdev, payload, dest, gfp_mask); > >>> + if (ret) > >>> + goto out; > >>> + } else if (flags & BLKDEV_COPY_NOEMULATION) { > >> > >> Why ? whoever calls blkdev_issue_copy() wants a copy to be done. Why would that > >> user say "Fail on me if the device does not support copy" ??? This is a weird > >> interface in my opinion. > >> > > > > BLKDEV_COPY_NOEMULATION flag was introduced to allow blkdev_issue_copy() callers > > to use their native copying method instead of the emulated copy that I > > added. This way we > > ensure that dm uses the hw-assisted copy and if that is not present, > > it falls back to existing > > copy method. > > > > The other users who don't have their native emulation can use this > > emulated-copy implementation. > > I do not understand. Emulation or not should be entirely driven by the device > reporting support for simple copy (or not). It does not matter which component > is issuing the simple copy call: an FS to a real device, and FS to a DM device > or a DM target driver. If the underlying device reported support for simple > copy, use that. Otherwise, emulate with read/write. What am I missing here ? > blkdev_issue_copy() api will generally complete the copy-operation, either by using offloaded-copy or by using emulated-copy. The caller of the api is not required to figure the type of support. However, it can opt out of emulated-copy by specifying the flag BLKDEV_NOEMULATION. This is helpful for the case when the caller already has got a sophisticated emulation (e.g. dm-kcopyd users). > > [...] > >>> @@ -565,6 +569,12 @@ int blk_stack_limits(struct queue_limits *t, struct queue_limits *b, > >>> if (b->chunk_sectors) > >>> t->chunk_sectors = gcd(t->chunk_sectors, b->chunk_sectors); > >>> > >>> + /* simple copy not supported in stacked devices */ > >>> + t->copy_offload = 0; > >>> + t->max_copy_sectors = 0; > >>> + t->max_copy_range_sectors = 0; > >>> + t->max_copy_nr_ranges = 0; > >> > >> You do not need this. Limits not explicitely initialized are 0 already. > >> But I do not see why you can't support copy on stacked devices. That should be > >> feasible taking the min() for each of the above limit. > >> > > > > Disabling stacked device support was feedback from v2. > > > > https://patchwork.kernel.org/project/linux-block/patch/20201204094659.12732-2-selvakuma.s1@xxxxxxxxxxx/ > > Right. But the initialization to 0 is still not needed. The fields are already > initialized to 0. > > > -- > Damien Le Moal > Western Digital Research -- dm-devel mailing list dm-devel@xxxxxxxxxx https://listman.redhat.com/mailman/listinfo/dm-devel