summaryrefslogtreecommitdiff
path: root/lib/random32.c
diff options
context:
space:
mode:
authorDavid S. Miller <davem@davemloft.net>2014-08-24 18:09:58 -0700
committerDavid S. Miller <davem@davemloft.net>2014-08-24 18:09:58 -0700
commitc1e60bd4fe65ede0c7567d22b1e92a07b75c370f (patch)
treeffcf7e1f7bddfa61924e258facdd367027573922 /lib/random32.c
parent8fc54f68919298ff9689d980efb495707ef43f30 (diff)
parent48a5fc773190bd5339869003fa65d38559bb8890 (diff)
Merge branch 'csums-next'
Tom Herbert says: ==================== net: Checksum offload changes - Part V I am working on overhauling RX checksum offload. Goals of this effort are: - Specify what exactly it means when driver returns CHECKSUM_UNNECESSARY - Preserve CHECKSUM_COMPLETE through encapsulation layers - Don't do skb_checksum more than once per packet - Unify GRO and non-GRO csum verification as much as possible - Unify the checksum functions (checksum_init) - Simplify code What is in this fifth patch set: - Added GRO checksum validation functions - Call the GRO validations functions from TCP and GRE gro_receive - Perform checksum verification in the UDP gro_receive path using GRO functions and add support for gro_receive in UDP6 Changes in V2: - Change ip_summed to CHECKSUM_UNNECESSARY instead of moving it to CHECKSUM_COMPLETE from GRO checksum validation. This avoids performance penalty in checksumming bytes which are before the header GRO is at. Please review carefully and test if possible, mucking with basic checksum functions is always a little precarious :-) ---- Test results with this patch set are below. I did not notice any performace regression. Tests run: TCP_STREAM: super_netperf with 200 streams TCP_RR: super_netperf with 200 streams and -r 1,1 Device bnx2x (10Gbps): No GRE RSS hash (RX interrupts occur on one core) UDP RSS port hashing enabled. * GRE with checksum with IPv4 encapsulated packets With fix: TCP_STREAM 9.91% CPU utilization 5163.78 Mbps TCP_RR 50.64% CPU utilization 219/347/502 90/95/99% latencies 834103 tps Without fix: TCP_STREAM 10.05% CPU utilization 5186.22 tps TCP_RR 49.70% CPU utilization 227/338/486 90/95/99% latencies 813450 tps * GRE without checksum with IPv4 encapsulated packets With fix: TCP_STREAM 10.18% CPU utilization 5159 Mbps TCP_RR 51.86% CPU utilization 214/325/471 90/95/99% latencies 865943 tps Without fix: TCP_STREAM 10.26% CPU utilization 5307.87 Mbps TCP_RR 50.59% CPU utilization 224/325/476 90/95/99% latencies 846429 tps *** Simulate device returns CHECKSUM_COMPLETE * VXLAN with checksum With fix: TCP_STREAM 13.03% CPU utilization 9093.9 Mbps TCP_RR 95.96% CPU utilization 161/259/474 90/95/99% latencies 1.14806e+06 tps Without fix: TCP_STREAM 13.59% CPU utilization 9093.97 Mbps TCP_RR 93.95% CPU utilization 160/259/484 90/95/99% latencies 1.10262e+06 tps * VXLAN without checksum With fix: TCP_STREAM 13.28% CPU utilization 9093.87 Mbps TCP_RR 95.04% CPU utilization 155/246/439 90/95/99% latencies 1.15e+06 tps Without fix: TCP_STREAM 13.37% CPU utilization 9178.45 Mbps TCP_RR 93.74% CPU utilization 161/257/469 90/95/99% latencies 1.1068e+06 Mbps ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
Diffstat (limited to 'lib/random32.c')
0 files changed, 0 insertions, 0 deletions