Mike and others, did anyone even try to run veritysetup tests? We have verity-compat-test in our testsuite, is has even basic FEC tests included. We just added userspace verification of FEC RS codes to compare if kernel behaves the same. I tried to apply three last dm-verity patches from your tree to Linus mainline. It does even pass the *first* line of the test script and blocks the kernel forever... (Running on 32bit Intel VM.) *NACK* to the last two dm-verity patches. (The "validate hashes once" is ok, despite I really do not like this approach...) And comments from Eric are very valid as well, I think all this need to be fixed before it can go to mainline. Thanks, Milan On 03/27/2018 08:55 AM, Eric Biggers wrote: > [+Cc linux-crypto] > > Hi Yael, > > On Sun, Mar 25, 2018 at 07:41:30PM +0100, Yael Chemla wrote: >> Allow parallel processing of bio blocks by moving to async. completion >> handling. This allows for better resource utilization of both HW and >> software based hash tfm and therefore better performance in many cases, >> depending on the specific tfm in use. >> >> Tested on ARM32 (zynq board) and ARM64 (Juno board). >> Time of cat command was measured on a filesystem with various file sizes. >> 12% performance improvement when HW based hash was used (ccree driver). >> SW based hash showed less than 1% improvement. >> CPU utilization when HW based hash was used presented 10% less context >> switch, 4% less cycles and 7% less instructions. No difference in >> CPU utilization noticed with SW based hash. >> >> Signed-off-by: Yael Chemla <yael.chemla@xxxxxxxxxxxx> > > Okay, I definitely would like to see dm-verity better support hardware crypto > accelerators, but these patches were painful to read. > > There are lots of smaller bugs, but the high-level problem which you need to > address first is that on every bio you are always allocating all the extra > memory to hold a hash request and scatterlist for every data block. This will > not only hurt performance when the hashing is done in software (I'm skeptical > that your performance numbers are representative of that case), but it will also > fall apart under memory pressure. We are trying to get low-end Android devices > to start using dm-verity, and such devices often have only 1 GB or even only 512 > MB of RAM, so memory allocations are at increased risk of failing. In fact I'm > pretty sure you didn't do any proper stress testing of these patches, since the > first thing they do for every bio is try to allocate a physically contiguous > array that is nearly as long as the full bio data itself (n_blocks * > sizeof(struct dm_verity_req_data) = n_blocks * 3264, at least on a 64-bit > platform, mostly due to the 'struct dm_verity_fec_io'), so potentially up to > about 1 MB; that's going to fail a lot even on systems with gigabytes of RAM... > > (You also need to verify that your new code is compatible with the forward error > correction feature, with the "ignore_zero_blocks" option, and with the new > "check_at_most_once" option. From my reading of the code, all of those seemed > broken; the dm_verity_fec_io structures, for example, weren't even being > initialized...) > > I think you need to take a close look at how dm-crypt handles async crypto > implementations, since it seems to do it properly without hurting the common > case where the crypto happens synchronously. What it does, is it reserves space > in the per-bio data for a single cipher request. Then, *only* if the cipher > implementation actually processes the request asynchronously (as indicated by > -EINPROGRESS being returned) is a new cipher request allocated dynamically, > using a mempool (not kmalloc, which is prone to fail). Note that unlike your > patches it also properly handles the case where the hardware crypto queue is > full, as indicated by the cipher implementation returning -EBUSY; in that case, > dm-crypt waits to start another request until there is space in the queue. > > I think it would be possible to adapt dm-crypt's solution to dm-verity. > > Thanks, > > Eric -- dm-devel mailing list dm-devel@xxxxxxxxxx https://www.redhat.com/mailman/listinfo/dm-devel