contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag age 30/30
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40/40
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag age 30/30 sticky
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40/40 sticky
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag age 30/30 sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40/40 sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1/32 port 80 tcp round-robin frag age 30/30 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40/40 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag age 30/30
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40/40
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag age 30/30 sticky
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40/40 sticky
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag age 30/30 sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40/40 sticky mssclamp 1000
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1/128 port 80 tcp round-robin frag age 30/30 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40/40 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/expected/in5:rdr le0 from 0/0 to 9.8.7.6/32 port = 8888 -> 1.1.1.1/32 port 888 tcp round-robin
contrib/netbsd-tests/ipf/expected/in5:rdr le0 from 0/0 to 9.8.7.6/32 port = 8888 -> 1.1.1.1,1.1.1.2 port 888 tcp round-robin
contrib/netbsd-tests/ipf/expected/in5:rdr le0 from 0/0 to 9.8.7.6/32 port = 8888 -> 1.1.1.1/32 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in5:rdr le0 from 0/0 to 9.8.7.6/32 port = 8888 -> 1.1.1.1,1.1.1.2 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in5:rdr le0 from 0/0 to 9.8.7.6/32 port = 8888 -> 1.1.1.1/32 port 888 tcp round-robin frag age 30/30
contrib/netbsd-tests/ipf/expected/in5:rdr le0 from 0/0 to 9.8.7.6/32 port = 8888 -> 1.1.1.1,1.1.1.2 port 888 tcp round-robin frag age 40/40
contrib/netbsd-tests/ipf/expected/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1/128 port 888 tcp round-robin
contrib/netbsd-tests/ipf/expected/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1,1:1:1::2 port 888 tcp round-robin
contrib/netbsd-tests/ipf/expected/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1/128 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1,1:1:1::2 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/expected/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1/128 port 888 tcp round-robin frag age 30/30
contrib/netbsd-tests/ipf/expected/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1,1:1:1::2 port 888 tcp round-robin frag age 40/40
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag age 30
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag age 30 sticky
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40 sticky
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag age 30 sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40 sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1 port 80 tcp round-robin frag age 30 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in2:rdr le0 9.8.7.6/32 port 80 -> 1.1.1.1,1.1.1.2 port 80 tcp round-robin frag age 40 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag age 30
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag sticky
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag age 30 sticky
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40 sticky
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag age 30 sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40 sticky mssclamp 1000
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1 port 80 tcp round-robin frag age 30 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in2_6:rdr le0 inet6 9:8:7::6/128 port 80 -> 1:1:1::1,1:1:1::2 port 80 tcp round-robin frag age 40 sticky mssclamp 1000 tag nattagcacheline
contrib/netbsd-tests/ipf/regress/in5:rdr le0 from any to 9.8.7.6/32 port = 8888 -> 1.1.1.1 port 888 tcp round-robin
contrib/netbsd-tests/ipf/regress/in5:rdr le0 from any to 9.8.7.6/32 port = 8888 -> 1.1.1.1,1.1.1.2 port 888 tcp round-robin
contrib/netbsd-tests/ipf/regress/in5:rdr le0 from any to 9.8.7.6/32 port = 8888 -> 1.1.1.1 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in5:rdr le0 from any to 9.8.7.6/32 port = 8888 -> 1.1.1.1,1.1.1.2 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in5:rdr le0 from any to 9.8.7.6/32 port = 8888 -> 1.1.1.1 port 888 tcp round-robin frag age 30
contrib/netbsd-tests/ipf/regress/in5:rdr le0 from any to 9.8.7.6/32 port = 8888 -> 1.1.1.1,1.1.1.2 port 888 tcp round-robin frag age 40
contrib/netbsd-tests/ipf/regress/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1 port 888 tcp round-robin
contrib/netbsd-tests/ipf/regress/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1,1:1:1::2 port 888 tcp round-robin
contrib/netbsd-tests/ipf/regress/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1,1:1:1::2 port 888 tcp round-robin frag
contrib/netbsd-tests/ipf/regress/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1 port 888 tcp round-robin frag age 30
contrib/netbsd-tests/ipf/regress/in5_6:rdr le0 inet6 from any to 9:8:7::6/128 port = 8888 -> 1:1:1::1,1:1:1::2 port 888 tcp round-robin frag age 40
contrib/netbsd-tests/ipf/regress/ni17.nat:rdr le0 0/0 port 80 -> 10.1.1.252 port 3128 tcp round-robin
contrib/netbsd-tests/ipf/regress/ni17.nat:rdr le0 0/0 port 80 -> 10.1.2.252 port 3128 tcp round-robin
contrib/netbsd-tests/ipf/regress/ni17.nat:rdr le0 0/0 port 80 -> 10.1.3.252 port 3128 tcp round-robin sticky
contrib/netbsd-tests/ipf/regress/ni17.nat:rdr le0 0/0 port 80 -> 10.1.1.253,10.1.2.253 port 3128 tcp round-robin sticky
sbin/pfctl/tests/files/pf0089.ok:pass in on lo1000001 inet proto tcp from any to 10.0.0.1 port = ssh flags S/SA keep state (source-track rule, max-src-conn 10, max-src-conn-rate 3/99, src.track 99)
sbin/pfctl/tests/files/pf0089.ok:pass in on lo1000001 inet proto tcp from any to 10.0.0.3 port = ssh flags S/SA keep state (source-track rule, max-src-conn-rate 3/99, src.track 99)
sbin/pfctl/tests/files/pf0089.ok:pass in on lo1000000 inet proto tcp from any to 10.0.0.1 port = http flags S/SA modulate state (source-track rule, max-src-conn 100, max-src-conn-rate 10/5, overload <bad> flush, src.track 5)
sbin/pfctl/tests/files/pf0089.ok:pass in on lo1000000 inet proto tcp from any to 10.0.0.1 port = 8080 flags S/SA synproxy state (source-track rule, max-src-conn 1000, max-src-conn-rate 1000/5, overload <bad> flush global, src.track 5)
sbin/pfctl/tests/files/pf0097.in:#pass out on em0 inet proto tcp from any to any port 220:230 divert-reply
share/dtrace/tcpconn:tcp:kernel::accept-refused
share/dtrace/tcptrack:tcp:kernel::accept-refused
share/dtrace/tcptrack:tcp:kernel::connect-refused
share/i18n/esdb/CP/CP.alias:870 ebcdic-cp-roece
share/man/man4/dtrace_sched.4:global variable contains the cpuid of the CPU on which the currently-running
sys/dev/ofw/ofwpci.c: if (OF_getencprop(node, "bus-range", busrange, sizeof(busrange)) != 8)
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_STALL_SEQ_0 0x560418UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_STALL_SEQ_1 0x56041cUL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_STALL_SEQ_2 0x560420UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_STALL_SEQ_3 0x560424UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_STALL_SEQ_4 0x560428UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_STALL_SEQ_5 0x56042cUL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_SET_STALL_SEQ_0 0x560430UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall in case of 2 consecutive accesses to the same set (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y to the same set; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_SET_STALL_SEQ_1 0x560434UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall in case of 2 consecutive accesses to the same set (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y to the same set; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_SET_STALL_SEQ_2 0x560438UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall in case of 2 consecutive accesses to the same set (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y to the same set; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_SET_STALL_SEQ_3 0x56043cUL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall in case of 2 consecutive accesses to the same set (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y to the same set; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_SET_STALL_SEQ_4 0x560440UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall in case of 2 consecutive accesses to the same set (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y to the same set; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/qlnx/qlnxe/reg_addr.h:#define PTU_REG_ATC_SET_STALL_SEQ_5 0x560444UL //Access:RW DataWidth:0x6 // Indicates the B2B event sequnece which will cause stall in case of 2 consecutive accesses to the same set (on the second event). The order of the vectors is 0-Mlkp;1-Plkp;2-Ireq;3-Tcpl;4-SPA-Done;5-Rcpl. The order of the bits inside the vector is the same. Stall is taking place when there is a sequence of two events X and than Y to the same set; and atc_stall_seq[X][Y] is set to 1. Comment for E2: stall is not available for lookups due to the bounded latency restriction.
sys/dev/xdma/xdma.c: if (OF_getencprop(node, "memory-region", (void *)&mem_handle,
sys/dev/xdma/xdma_iommu.c: if (OF_getencprop(node, "va-region", (void *)&mem_handle,