1Partial Parity Log 2 3Partial Parity Log (PPL) is a feature available for RAID5 arrays. The issue 4addressed by PPL is that after a dirty shutdown, parity of a particular stripe 5may become inconsistent with data on other member disks. If the array is also 6in degraded state, there is no way to recalculate parity, because one of the 7disks is missing. This can lead to silent data corruption when rebuilding the 8array or using it is as degraded - data calculated from parity for array blocks 9that have not been touched by a write request during the unclean shutdown can 10be incorrect. Such condition is known as the RAID5 Write Hole. Because of 11this, md by default does not allow starting a dirty degraded array. 12 13Partial parity for a write operation is the XOR of stripe data chunks not 14modified by this write. It is just enough data needed for recovering from the 15write hole. XORing partial parity with the modified chunks produces parity for 16the stripe, consistent with its state before the write operation, regardless of 17which chunk writes have completed. If one of the not modified data disks of 18this stripe is missing, this updated parity can be used to recover its 19contents. PPL recovery is also performed when starting an array after an 20unclean shutdown and all disks are available, eliminating the need to resync 21the array. Because of this, using write-intent bitmap and PPL together is not 22supported. 23 24When handling a write request PPL writes partial parity before new data and 25parity are dispatched to disks. PPL is a distributed log - it is stored on 26array member drives in the metadata area, on the parity drive of a particular 27stripe. It does not require a dedicated journaling drive. Write performance is 28reduced by up to 30%-40% but it scales with the number of drives in the array 29and the journaling drive does not become a bottleneck or a single point of 30failure. 31 32Unlike raid5-cache, the other solution in md for closing the write hole, PPL is 33not a true journal. It does not protect from losing in-flight data, only from 34silent data corruption. If a dirty disk of a stripe is lost, no PPL recovery is 35performed for this stripe (parity is not updated). So it is possible to have 36arbitrary data in the written part of a stripe if that disk is lost. In such 37case the behavior is the same as in plain raid5. 38 39PPL is available for md version-1 metadata and external (specifically IMSM) 40metadata arrays. It can be enabled using mdadm option --consistency-policy=ppl. 41 42There is a limitation of maximum 64 disks in the array for PPL. It allows to 43keep data structures and implementation simple. RAID5 arrays with so many disks 44are not likely due to high risk of multiple disks failure. Such restriction 45should not be a real life limitation. 46
