Bart Van Assche <Bart.VanAssche@xxxxxxxxxxx> writes: Hi Bart, > A quote from SBC: "An OPTIMAL UNMAP GRANULARITY field set to a > non-zero value indicates the optimal granularity in logical blocks for > unmap requests (e.g., an UNMAP command or a WRITE SAME (16) command > with the UNMAP bit set to one). An unmap request with a number of > logical blocks that is not a multiple of this value may result in > unmap operations on fewer LBAs than requested." Indeed. Fewer LBAs than requested may be *unmapped*. That does not imply that they are not *written*. > This means that just like the start and end of a discard must be > aligned on a discard_granularity boundary, WRITE SAME commands with > the UNMAP bit set must also respect that granularity. I think this > means that either __blkdev_issue_zeroout() has to be modified such > that it rejects unaligned REQ_OP_WRITE_ZEROES operations or that > blk_bio_write_same_split() has to be modified such that it generates > REQ_OP_WRITEs for the unaligned start and tail. No, that's not correct. SBC states: "a) if the Data-Out Buffer of the WRITE SAME command is the same as the logical block data returned by a read operation from that LBA while in the unmapped state, then: 1) the device server performs the actions described in table 6 [unmap]; and 2) if an unmap operation is not performed in step 1), then the device server shall perform the specified write operation to that LBA;" I.e. With WRITE SAME it is the responsibility of the device server to write any LBAs described by the command that were not successfully unmapped. -- Martin K. Petersen Oracle Linux Engineering -- dm-devel mailing list dm-devel@xxxxxxxxxx https://www.redhat.com/mailman/listinfo/dm-devel