On 7/19/2018 9:50 AM, Max Gurtovoy wrote: > > > On 7/18/2018 10:29 PM, Steve Wise wrote: >> >>> >>> On 7/18/2018 2:38 PM, Sagi Grimberg wrote: >>>> >>>>>> IMO we must fulfil the user wish to connect to N queues and not >>>>>> reduce >>>>>> it because of affinity overlaps. So in order to push Leon's patch we >>>>>> must also fix the blk_mq_rdma_map_queues to do a best effort >>> mapping >>>>>> according the affinity and map the rest in naive way (in that way we >>>>>> will *always* map all the queues). >>>>> >>>>> That is what I would expect also. For example, in my node, where >>>>> there are >>>>> 16 cpus, and 2 numa nodes, I observe much better nvmf IOPS >>> performance by >>>>> setting up my 16 driver completion event queues such that each is >>>>> bound to a >>>>> node-local cpu. So I end up with each nodel-local cpu having 2 >>>>> queues >>>>> bound >>>>> to it. W/O adding support in iw_cxgb4 for ib_get_vector_affinity(), >>>>> this >>>>> works fine. I assumed adding ib_get_vector_affinity() would allow >>>>> this to >>>>> all "just work" by default, but I'm running into this connection >>>>> failure >>>>> issue. >>>>> >>>>> I don't understand exactly what the blk_mq layer is trying to do, >>>>> but I >>>>> assume it has ingress event queues and processing that it trying >>>>> to align >>>>> with the drivers ingress cq event handling, so everybody stays on the >>>>> same >>>>> cpu (or at least node). But something else is going on. Is there >>>>> documentation on how this works somewhere? >>>> >>>> Does this (untested) patch help? >>> >>> I'm not sure (I'll test it tomorrow) because the issue is the unmapped >>> queues and not the cpus. >>> for example, if the affinity of q=6 and q=12 returned the same cpumask >>> than q=6 will not be mapped and will fail to connect. >>> >> >> Attached is a patch that applies cleanly for me. It has problems if >> vectors have affinity to more than 1 cpu: >> >> [ 2031.988881] iw_cxgb4: comp_vector 0, irq 203 mask 0xff00 >> [ 2031.994706] iw_cxgb4: comp_vector 1, irq 204 mask 0xff00 >> [ 2032.000348] iw_cxgb4: comp_vector 2, irq 205 mask 0xff00 >> [ 2032.005992] iw_cxgb4: comp_vector 3, irq 206 mask 0xff00 >> [ 2032.011629] iw_cxgb4: comp_vector 4, irq 207 mask 0xff00 >> [ 2032.017271] iw_cxgb4: comp_vector 5, irq 208 mask 0xff00 >> [ 2032.022901] iw_cxgb4: comp_vector 6, irq 209 mask 0xff00 >> [ 2032.028514] iw_cxgb4: comp_vector 7, irq 210 mask 0xff00 >> [ 2032.034110] iw_cxgb4: comp_vector 8, irq 211 mask 0xff00 >> [ 2032.039677] iw_cxgb4: comp_vector 9, irq 212 mask 0xff00 >> [ 2032.045244] iw_cxgb4: comp_vector 10, irq 213 mask 0xff00 >> [ 2032.050889] iw_cxgb4: comp_vector 11, irq 214 mask 0xff00 >> [ 2032.056531] iw_cxgb4: comp_vector 12, irq 215 mask 0xff00 >> [ 2032.062174] iw_cxgb4: comp_vector 13, irq 216 mask 0xff00 >> [ 2032.067817] iw_cxgb4: comp_vector 14, irq 217 mask 0xff00 >> [ 2032.073457] iw_cxgb4: comp_vector 15, irq 218 mask 0xff00 >> [ 2032.079102] blk_mq_rdma_map_queues: set->mq_map[0] queue 0 vector 0 >> [ 2032.085621] blk_mq_rdma_map_queues: set->mq_map[1] queue 1 vector 1 >> [ 2032.092139] blk_mq_rdma_map_queues: set->mq_map[2] queue 2 vector 2 >> [ 2032.098658] blk_mq_rdma_map_queues: set->mq_map[3] queue 3 vector 3 >> [ 2032.105177] blk_mq_rdma_map_queues: set->mq_map[4] queue 4 vector 4 >> [ 2032.111689] blk_mq_rdma_map_queues: set->mq_map[5] queue 5 vector 5 >> [ 2032.118208] blk_mq_rdma_map_queues: set->mq_map[6] queue 6 vector 6 >> [ 2032.124728] blk_mq_rdma_map_queues: set->mq_map[7] queue 7 vector 7 >> [ 2032.131246] blk_mq_rdma_map_queues: set->mq_map[8] queue 15 vector 15 >> [ 2032.137938] blk_mq_rdma_map_queues: set->mq_map[9] queue 15 vector 15 >> [ 2032.144629] blk_mq_rdma_map_queues: set->mq_map[10] queue 15 >> vector 15 >> [ 2032.151401] blk_mq_rdma_map_queues: set->mq_map[11] queue 15 >> vector 15 >> [ 2032.158172] blk_mq_rdma_map_queues: set->mq_map[12] queue 15 >> vector 15 >> [ 2032.164940] blk_mq_rdma_map_queues: set->mq_map[13] queue 15 >> vector 15 >> [ 2032.171709] blk_mq_rdma_map_queues: set->mq_map[14] queue 15 >> vector 15 >> [ 2032.178477] blk_mq_rdma_map_queues: set->mq_map[15] queue 15 >> vector 15 >> [ 2032.187409] nvme nvme0: Connect command failed, error wo/DNR bit: >> -16402 >> [ 2032.194376] nvme nvme0: failed to connect queue: 9 ret=-18 > > queue 9 is not mapped (overlap). > please try the bellow: > This seems to work. Here are three mapping cases: each vector on its own cpu, each vector on 1 cpu within the local numa node, and each vector having all cpus in its numa node. The 2nd mapping looks kinda funny, but I think it achieved what you wanted? And all the cases resulted in successful connections. #### each vector on its own cpu: [ 3844.756229] iw_cxgb4: comp_vector 0, irq 203 mask 0x100 [ 3844.762104] iw_cxgb4: comp_vector 1, irq 204 mask 0x200 [ 3844.767896] iw_cxgb4: comp_vector 2, irq 205 mask 0x400 [ 3844.773663] iw_cxgb4: comp_vector 3, irq 206 mask 0x800 [ 3844.779405] iw_cxgb4: comp_vector 4, irq 207 mask 0x1000 [ 3844.785231] iw_cxgb4: comp_vector 5, irq 208 mask 0x2000 [ 3844.791043] iw_cxgb4: comp_vector 6, irq 209 mask 0x4000 [ 3844.796835] iw_cxgb4: comp_vector 7, irq 210 mask 0x8000 [ 3844.802619] iw_cxgb4: comp_vector 8, irq 211 mask 0x1 [ 3844.808133] iw_cxgb4: comp_vector 9, irq 212 mask 0x2 [ 3844.813643] iw_cxgb4: comp_vector 10, irq 213 mask 0x4 [ 3844.819235] iw_cxgb4: comp_vector 11, irq 214 mask 0x8 [ 3844.824817] iw_cxgb4: comp_vector 12, irq 215 mask 0x10 [ 3844.830486] iw_cxgb4: comp_vector 13, irq 216 mask 0x20 [ 3844.836148] iw_cxgb4: comp_vector 14, irq 217 mask 0x40 [ 3844.841804] iw_cxgb4: comp_vector 15, irq 218 mask 0x80 [ 3844.847456] blk_mq_rdma_map_queues: set->mq_map[0] queue 8 vector 8 [ 3844.847457] blk_mq_rdma_map_queues: set->mq_map[1] queue 9 vector 9 [ 3844.847457] blk_mq_rdma_map_queues: set->mq_map[2] queue 10 vector 10 [ 3844.847458] blk_mq_rdma_map_queues: set->mq_map[3] queue 11 vector 11 [ 3844.847459] blk_mq_rdma_map_queues: set->mq_map[4] queue 12 vector 12 [ 3844.847459] blk_mq_rdma_map_queues: set->mq_map[5] queue 13 vector 13 [ 3844.847460] blk_mq_rdma_map_queues: set->mq_map[6] queue 14 vector 14 [ 3844.847461] blk_mq_rdma_map_queues: set->mq_map[7] queue 15 vector 15 [ 3844.847462] blk_mq_rdma_map_queues: set->mq_map[8] queue 0 vector 0 [ 3844.847462] blk_mq_rdma_map_queues: set->mq_map[9] queue 1 vector 1 [ 3844.847463] blk_mq_rdma_map_queues: set->mq_map[10] queue 2 vector 2 [ 3844.847463] blk_mq_rdma_map_queues: set->mq_map[11] queue 3 vector 3 [ 3844.847464] blk_mq_rdma_map_queues: set->mq_map[12] queue 4 vector 4 [ 3844.847465] blk_mq_rdma_map_queues: set->mq_map[13] queue 5 vector 5 [ 3844.847465] blk_mq_rdma_map_queues: set->mq_map[14] queue 6 vector 6 [ 3844.847466] blk_mq_rdma_map_queues: set->mq_map[15] queue 7 vector 7 #### each vector on 1 cpu in is numa node [ 3932.840244] iw_cxgb4: comp_vector 0, irq 203 mask 0x400 [ 3932.846018] iw_cxgb4: comp_vector 1, irq 204 mask 0x800 [ 3932.851687] iw_cxgb4: comp_vector 2, irq 205 mask 0x1000 [ 3932.857428] iw_cxgb4: comp_vector 3, irq 206 mask 0x2000 [ 3932.863160] iw_cxgb4: comp_vector 4, irq 207 mask 0x4000 [ 3932.868882] iw_cxgb4: comp_vector 5, irq 208 mask 0x8000 [ 3932.874594] iw_cxgb4: comp_vector 6, irq 209 mask 0x100 [ 3932.880213] iw_cxgb4: comp_vector 7, irq 210 mask 0x200 [ 3932.885831] iw_cxgb4: comp_vector 8, irq 211 mask 0x400 [ 3932.891440] iw_cxgb4: comp_vector 9, irq 212 mask 0x800 [ 3932.897043] iw_cxgb4: comp_vector 10, irq 213 mask 0x1000 [ 3932.902812] iw_cxgb4: comp_vector 11, irq 214 mask 0x2000 [ 3932.908580] iw_cxgb4: comp_vector 12, irq 215 mask 0x4000 [ 3932.914338] iw_cxgb4: comp_vector 13, irq 216 mask 0x8000 [ 3932.920096] iw_cxgb4: comp_vector 14, irq 217 mask 0x100 [ 3932.925756] iw_cxgb4: comp_vector 15, irq 218 mask 0x200 [ 3932.931413] blk_mq_rdma_map_queues: set->mq_map[0] queue 8 vector 8 [ 3932.931414] blk_mq_rdma_map_queues: set->mq_map[1] queue 9 vector 9 [ 3932.931415] blk_mq_rdma_map_queues: set->mq_map[2] queue 10 vector 10 [ 3932.931416] blk_mq_rdma_map_queues: set->mq_map[3] queue 11 vector 11 [ 3932.931416] blk_mq_rdma_map_queues: set->mq_map[4] queue 12 vector 12 [ 3932.931417] blk_mq_rdma_map_queues: set->mq_map[5] queue 13 vector 13 [ 3932.931418] blk_mq_rdma_map_queues: set->mq_map[6] queue 14 vector 14 [ 3932.931418] blk_mq_rdma_map_queues: set->mq_map[7] queue 15 vector 15 [ 3932.931419] blk_mq_rdma_map_queues: set->mq_map[8] queue 6 vector 6 [ 3932.931420] blk_mq_rdma_map_queues: set->mq_map[9] queue 7 vector 7 [ 3932.931420] blk_mq_rdma_map_queues: set->mq_map[10] queue 0 vector 0 [ 3932.931421] blk_mq_rdma_map_queues: set->mq_map[11] queue 1 vector 1 [ 3932.931422] blk_mq_rdma_map_queues: set->mq_map[12] queue 2 vector 2 [ 3932.931423] blk_mq_rdma_map_queues: set->mq_map[13] queue 3 vector 3 [ 3932.931423] blk_mq_rdma_map_queues: set->mq_map[14] queue 4 vector 4 [ 3932.931425] blk_mq_rdma_map_queues: set->mq_map[15] queue 5 vector 5 ### each vector having all cpus in its numa node [ 4047.308234] iw_cxgb4: comp_vector 0, irq 203 mask 0xff00 [ 4047.314042] iw_cxgb4: comp_vector 1, irq 204 mask 0xff00 [ 4047.319745] iw_cxgb4: comp_vector 2, irq 205 mask 0xff00 [ 4047.325417] iw_cxgb4: comp_vector 3, irq 206 mask 0xff00 [ 4047.331062] iw_cxgb4: comp_vector 4, irq 207 mask 0xff00 [ 4047.336703] iw_cxgb4: comp_vector 5, irq 208 mask 0xff00 [ 4047.342329] iw_cxgb4: comp_vector 6, irq 209 mask 0xff00 [ 4047.347953] iw_cxgb4: comp_vector 7, irq 210 mask 0xff00 [ 4047.353578] iw_cxgb4: comp_vector 8, irq 211 mask 0xff00 [ 4047.359204] iw_cxgb4: comp_vector 9, irq 212 mask 0xff00 [ 4047.364829] iw_cxgb4: comp_vector 10, irq 213 mask 0xff00 [ 4047.370544] iw_cxgb4: comp_vector 11, irq 214 mask 0xff00 [ 4047.376264] iw_cxgb4: comp_vector 12, irq 215 mask 0xff00 [ 4047.381983] iw_cxgb4: comp_vector 13, irq 216 mask 0xff00 [ 4047.387695] iw_cxgb4: comp_vector 14, irq 217 mask 0xff00 [ 4047.393406] iw_cxgb4: comp_vector 15, irq 218 mask 0xff00 [ 4047.399118] blk_mq_rdma_map_queues: set->mq_map[0] queue 8 vector 8 [ 4047.399119] blk_mq_rdma_map_queues: set->mq_map[1] queue 9 vector 9 [ 4047.399120] blk_mq_rdma_map_queues: set->mq_map[2] queue 10 vector 10 [ 4047.399121] blk_mq_rdma_map_queues: set->mq_map[3] queue 11 vector 11 [ 4047.399121] blk_mq_rdma_map_queues: set->mq_map[4] queue 12 vector 12 [ 4047.399122] blk_mq_rdma_map_queues: set->mq_map[5] queue 13 vector 13 [ 4047.399123] blk_mq_rdma_map_queues: set->mq_map[6] queue 14 vector 14 [ 4047.399123] blk_mq_rdma_map_queues: set->mq_map[7] queue 15 vector 15 [ 4047.399124] blk_mq_rdma_map_queues: set->mq_map[8] queue 0 vector 0 [ 4047.399125] blk_mq_rdma_map_queues: set->mq_map[9] queue 1 vector 1 [ 4047.399125] blk_mq_rdma_map_queues: set->mq_map[10] queue 2 vector 2 [ 4047.399126] blk_mq_rdma_map_queues: set->mq_map[11] queue 3 vector 3 [ 4047.399127] blk_mq_rdma_map_queues: set->mq_map[12] queue 4 vector 4 [ 4047.399127] blk_mq_rdma_map_queues: set->mq_map[13] queue 5 vector 5 [ 4047.399128] blk_mq_rdma_map_queues: set->mq_map[14] queue 6 vector 6 [ 4047.399128] blk_mq_rdma_map_queues: set->mq_map[15] queue 7 vector 7 -- To unsubscribe from this list: send the line "unsubscribe linux-rdma" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html