[...] ---<<BOOT>>--- [...] Copyright (c) 04B8-B51F The FreeBSD Project. [...] Copyright (c) 1979, 1980, 1983, 1986, 1988, 1989, 1991, 1992, 1993, 1994 [...] The Regents of the University of California. All rights reserved. [...] FreeBSD is a registered trademark of The FreeBSD Foundation. [...] FreeBSD 12.2-RELEASE-p12 ec84e0c52a1(HEAD) TRUENAS amd64 [...] FreeBSD clang version 10.0.1 (XXX@XXX:llvm/llvm-project.git llvmorg-10.0.1-0-gef32c611aa2) [...] VT(efifb): resolution 800x600 [...] CPU: AMD Ryzen 5 3600 6-Core Processor (3600.07-MHz K8-class CPU) [...] Origin="AuthenticAMD" Id=0x870f10 Family=0x17 Model=0x71 Stepping=0 [...] Features=0x178bfbff<FPU,VME,DE,PSE,TSC,MSR,PAE,MCE,CX8,APIC,SEP,MTRR,PGE,MCA,CMOV,PAT,PSE36,CLFLUSH,MMX,FXSR,SSE,SSE2,HTT> [...] Features2=0x7ed8320b<SSE3,PCLMULQDQ,MON,SSSE3,FMA,CX16,SSE4.1,SSE4.2,MOVBE,POPCNT,AESNI,XSAVE,OSXSAVE,AVX,F16C,RDRAND> [...] AMD Features=0x2e500800<SYSCALL,NX,MMX+,FFXSR,Page1GB,RDTSCP,LM> [...] AMD Features2=0x75c237ff<LAHF,CMP,SVM,ExtAPIC,CR8,ABM,SSE4A,MAS,Prefetch,OSVW,IBS,SKINIT,WDT,TCE,Topology,PCXC,PNXC,DBE,PL2I,MWAITX,<b30>> [...] Structured Extended Features=0x219c91a9<FSGSBASE,BMI1,AVX2,SMEP,BMI2,PQM,PQE,RDSEED,ADX,SMAP,CLFLUSHOPT,CLWB,SHA> [...] Structured Extended Features2=0x400004<UMIP,RDPID> [...] XSAVE Features=0xf<XSAVEOPT,XSAVEC,XINUSE,XSAVES> [...] AMD Extended Feature Extensions ID EBX=0x10cb657<CLZERO,IRPerf,XSaveErPtr> [...] SVM: NP,NRIP,VClean,AFlush,DAssist,NAsids=32768 [...] TSC: P-state invariant, performance statistics [...] real memory = 68719476736 (65536 MB) [...] avail memory = 66610102272 (63524 MB) [...] Event timer "LAPIC" quality 600 [...] ACPI APIC Table: <ALASKA A M I > [...] FreeBSD/SMP: Multiprocessor System Detected: 12 CPUs [...] FreeBSD/SMP: 1 package(s) x 2 cache groups x 3 core(s) x 2 hardware threads [...] random: unblocking device. [...] ioapic0 <Version 2.1> irqs 0-23 on motherboard [...] ioapic1 <Version 2.1> irqs 24-55 on motherboard [...] Launching APs: 10 11 6 7 8 9 1 4 5 3 2 [...] Timecounter "TSC-low" frequency 1800036648 Hz quality 1000 [...] random: entropy device external interface [...] random: registering fast source Intel Secure Key RNG [...] random: fast provider: "Intel Secure Key RNG" [...] kbd1 at kbdmux0 [...] mlx5en: Mellanox Ethernet driver 3.5.2 (September 2019) [...] nexus0 [...] efirtc0: <EFI Realtime Clock> on motherboard [...] efirtc0: registered as a time-of-day clock, resolution 1.000000s [...] aesni0: <AES-CBC,AES-CCM,AES-GCM,AES-ICM,AES-XTS,SHA1,SHA256> on motherboard [...] padlock0: No ACE support. [...] cryptosoft0: <software crypto> on motherboard [...] acpi0: <ALASKA A M I > on motherboard [...] acpi0: Power Button (fixed) [...] cpu0: <ACPI CPU> on acpi0 [...] attimer0: <AT timer> port 0x40-0x43 irq 0 on acpi0 [...] Timecounter "i8254" frequency 1193182 Hz quality 0 [...] Event timer "i8254" frequency 1193182 Hz quality 100 [...] atrtc0: <AT realtime clock> port 0x70-0x71 on acpi0 [...] atrtc0: registered as a time-of-day clock, resolution 1.000000s [...] Event timer "RTC" frequency 32768 Hz quality 0 [...] hpet0: <High Precision Event Timer> iomem 0xfed00000-0xfed003ff irq 0,8 on acpi0 [...] Timecounter "HPET" frequency 14318180 Hz quality 950 [...] Event timer "HPET" frequency 14318180 Hz quality 350 [...] Event timer "HPET1" frequency 14318180 Hz quality 350 [...] Event timer "HPET2" frequency 14318180 Hz quality 350 [...] Timecounter "ACPI-fast" frequency 3579545 Hz quality 900 [...] acpi_timer0: <32-bit timer at 3.579545MHz> port 0x808-0x80b on acpi0 [...] pcib0: <ACPI Host-PCI bridge> port 0xcf8-0xcff on acpi0 [...] pci0: <ACPI PCI bus> on pcib0 [...] amdsmn0: <AMD Family 17h System Management Network> on hostb0 [...] amdtemp0: <AMD CPU On-Die Thermal Sensors> on hostb0 [...] pcib1: <ACPI PCI-PCI bridge> at device 1.2 on pci0 [...] pci1: <ACPI PCI bus> on pcib1 [...] pcib2: <ACPI PCI-PCI bridge> irq 28 at device 0.0 on pci1 [...] pci2: <ACPI PCI bus> on pcib2 [...] pcib3: <ACPI PCI-PCI bridge> at device 1.0 on pci2 [...] pci3: <ACPI PCI bus> on pcib3 [...] vgapci0: <VGA-compatible display> port 0xf000-0xf07f mem 0xf6000000-0xf6ffffff,0xe8000000-0xefffffff,0xf0000000-0xf1ffffff irq 29 at device 0.0 on pci3 [...] vgapci0: Boot video device [...] pci3: <multimedia, HDA> at device 0.1 (no driver attached) [...] pcib4: <ACPI PCI-PCI bridge> at device 5.0 on pci2 [...] pci4: <ACPI PCI bus> on pcib4 [...] igb0: <Intel(R) I211 (Copper)> port 0xe000-0xe01f mem 0xf7600000-0xf761ffff,0xf7620000-0xf7623fff irq 29 at device 0.0 on pci4 [...] igb0: NVM V0.4 imgtype1 [...] igb0: Using 1024 TX descriptors and 1024 RX descriptors [...] igb0: Using 2 RX queues 2 TX queues [...] igb0: Using MSI-X interrupts with 3 vectors [...] igb0: Ethernet address: ... [...] pcib5: <ACPI PCI-PCI bridge> irq 28 at device 8.0 on pci2 [...] pci5: <ACPI PCI bus> on pcib5 [...] pci5: <unknown> at device 0.0 (no driver attached) [...] xhci0: <XHCI (generic) USB 3.0 controller> mem 0xf7300000-0xf73fffff irq 28 at device 0.1 on pci5 [...] xhci0: 64 bytes context size, 64-bit DMA [...] usbus0 on xhci0 [...] usbus0: 5.0Gbps Super Speed USB v3.0 [...] xhci1: <XHCI (generic) USB 3.0 controller> mem 0xf7200000-0xf72fffff irq 30 at device 0.3 on pci5 [...] xhci1: 64 bytes context size, 64-bit DMA [...] xhci1: Unable to map MSI-X table [...] usbus1 on xhci1 [...] usbus1: 5.0Gbps Super Speed USB v3.0 [...] pcib6: <PCI-PCI bridge> irq 29 at device 9.0 on pci2 [...] pci6: <PCI bus> on pcib6 [...] ahci0: <AMD KERNCZ AHCI SATA controller> mem 0xf7500000-0xf75007ff irq 29 at device 0.0 on pci6 [...] ahci0: AHCI v1.31 with 4 6Gbps ports, Port Multiplier supported with FBS [...] ahcich1: <AHCI channel> at channel 1 on ahci0 [...] ahcich2: <AHCI channel> at channel 2 on ahci0 [...] ahcich3: <AHCI channel> at channel 3 on ahci0 [...] ahcich7: <AHCI channel> at channel 7 on ahci0 [...] pcib7: <PCI-PCI bridge> irq 30 at device 10.0 on pci2 [...] pci7: <PCI bus> on pcib7 [...] ahci1: <AMD KERNCZ AHCI SATA controller> mem 0xf7400000-0xf74007ff irq 30 at device 0.0 on pci7 [...] ahci1: AHCI v1.31 with 3 6Gbps ports, Port Multiplier supported with FBS [...] ahcich8: <AHCI channel> at channel 0 on ahci1 [...] ahcich12: <AHCI channel> at channel 4 on ahci1 [...] ahcich13: <AHCI channel> at channel 5 on ahci1 [...] pcib8: <ACPI PCI-PCI bridge> at device 7.1 on pci0 [...] pci8: <ACPI PCI bus> on pcib8 [...] pci8: <unknown> at device 0.0 (no driver attached) [...] pcib9: <ACPI PCI-PCI bridge> at device 8.1 on pci0 [...] pci9: <ACPI PCI bus> on pcib9 [...] pci9: <unknown> at device 0.0 (no driver attached) [...] pci9: <encrypt/decrypt> at device 0.1 (no driver attached) [...] xhci2: <XHCI (generic) USB 3.0 controller> mem 0xf7800000-0xf78fffff irq 39 at device 0.3 on pci9 [...] xhci2: 64 bytes context size, 64-bit DMA [...] xhci2: Unable to map MSI-X table [...] usbus2 on xhci2 [...] usbus2: 5.0Gbps Super Speed USB v3.0 [...] pci9: <multimedia, HDA> at device 0.4 (no driver attached) [...] pcib10: <ACPI PCI-PCI bridge> at device 8.2 on pci0 [...] pci10: <ACPI PCI bus> on pcib10 [...] ahci2: <AMD KERNCZ AHCI SATA controller> mem 0xf7c00000-0xf7c007ff irq 41 at device 0.0 on pci10 [...] ahci2: AHCI v1.31 with 1 6Gbps ports, Port Multiplier supported with FBS [...] ahcich14: <AHCI channel> at channel 0 on ahci2 [...] pcib11: <ACPI PCI-PCI bridge> at device 8.3 on pci0 [...] pci11: <ACPI PCI bus> on pcib11 [...] ahci3: <AMD KERNCZ AHCI SATA controller> mem 0xf7b00000-0xf7b007ff irq 45 at device 0.0 on pci11 [...] ahci3: AHCI v1.31 with 1 6Gbps ports, Port Multiplier supported with FBS [...] ahcich15: <AHCI channel> at channel 0 on ahci3 [...] isab0: <PCI-ISA bridge> at device 20.3 on pci0 [...] isa0: <ISA bus> on isab0 [...] acpi_button0: <Power Button> on acpi0 [...] uart2: <16x50 with 256 byte FIFO> iomem 0xfedc9000-0xfedc9fff,0xfedc7000-0xfedc7fff irq 3 on acpi0 [...] uart3: <16x50 with 256 byte FIFO> iomem 0xfedca000-0xfedcafff,0xfedc8000-0xfedc8fff irq 4 on acpi0 [...] uart4: <16x50 with 256 byte FIFO> iomem 0xfedce000-0xfedcefff,0xfedcc000-0xfedccfff irq 3 on acpi0 [...] uart5: <16x50 with 256 byte FIFO> iomem 0xfedcf000-0xfedcffff,0xfedcd000-0xfedcdfff irq 4 on acpi0 [...] uart0: <16550 or compatible> port 0x3f8-0x3ff irq 4 flags 0x10 on acpi0 [...] amdsbwd0: <AMD FCH Rev 41h+ Watchdog Timer> at iomem 0xfed80b00-0xfed80b03,0xfed80b04-0xfed80b07 on isa0 [...] amdsbwd0: watchdog hardware is disabled [...] device_attach: amdsbwd0 attach returned 6 [...] atkbdc0: <Keyboard controller (i8042)> at port 0x60,0x64 on isa0 [...] atkbd0: <AT Keyboard> irq 1 on atkbdc0 [...] kbd0 at atkbd0 [...] atkbd0: [GIANT-LOCKED] [...] hwpstate0: <Cool`n'Quiet 2.0> on cpu0 [...] Timecounters tick every 1.000 msec [...] ZFS filesystem version: 5 [...] ZFS storage pool version: features support (5000) [...] ipfw2 (+ipv6) initialized, divert enabled, nat enabled, default to accept, logging disabled [...] ugen2.1: <0x1022 XHCI root HUB> at usbus2 [...] uhub0: <0x1022 XHCI root HUB, class 9/0, rev 3.00/1.00, addr 1> on usbus2 [...] Trying to mount root from zfs:freenas-boot/ROOT/12.0-U8 []... [...] Root mount waiting for: usbus0 usbus1 CAM usbus2 [...] ugen0.1: <0x1022 XHCI root HUB> at usbus0 [...] uhub1: <0x1022 XHCI root HUB, class 9/0, rev 3.00/1.00, addr 1> on usbus0 [...] ugen1.1: <0x1022 XHCI root HUB> at usbus1 [...] uhub2: <0x1022 XHCI root HUB, class 9/0, rev 3.00/1.00, addr 1> on usbus1 [...] ada0 at ahcich1 bus 0 scbus0 target 0 lun 0 [...] ada0: <TOSHIBA DT01ACA200 MX4OABB0> ATA8-ACS SATA 3.x device [...] ada0: Serial Number... [...] ada0: 600.000MB/s transfers (SATA 3.x, UDMA6, PIO 8192bytes) [...] ada0: Command Queueing enabled [...] ada0: 1907729MB (3907029168 512 byte sectors) [...] ada1 at ahcich2 bus 0 scbus1 target 0 lun 0 [...] ada1: <WDC WD80EFAX-68LHPN0 83.H0A83> ACS-2 ATA SATA 3.x device [...] ada1: Serial Number... [...] ada1: 600.000MB/s transfers (SATA 3.x, UDMA6, PIO 8192bytes) [...] ada1: Command Queueing enabled [...] ada1: 7630885MB (15628053168 512 byte sectors) [...] ada2 at ahcich3 bus 0 scbus2 target 0 lun 0 [...] ada2: <TOSHIBA DT01ACA200 MX4OABB0> ATA8-ACS SATA 3.x device [...] ada2: Serial Number... [...] ada2: 600.000MB/s transfers (SATA 3.x, UDMA6, PIO 8192bytes) [...] ada2: Command Queueing enabled [...] ada2: 1907729MB (3907029168 512 byte sectors) [...] ada3 at ahcich7 bus 0 scbus3 target 0 lun 0 [...] ada3: <SATA SSD SBFMBB.3> ACS-4 ATA SATA 3.x device [...] ada3: Serial Number... [...] ada3: 600.000MB/s transfers (SATA 3.x, UDMA6, PIO 8192bytes) [...] ada3: Command Queueing enabled [...] ada3: 488386MB (1000215216 512 byte sectors) [...] ada4 at ahcich8 bus 0 scbus4 target 0 lun 0 [...] ada4: <WDC WD20EFRX-68EUZN0 82.00A82> ACS-2 ATA SATA 3.x device [...] ada4: Serial Number... [...] ada4: 600.000MB/s transfers (SATA 3.x, UDMA6, PIO 8192bytes) [...] ada4: Command Queueing enabled [...] ada4: 1907729MB (3907029168 512 byte sectors) [...] ada4: quirks=0x1<4K> [...] ada5 at ahcich12 bus 0 scbus5 target 0 lun 0 [...] ada5: <TOSHIBA HDWF180 GX0B> ACS-3 ATA SATA 3.x device [...] ada5: Serial Number... [...] ada5: 600.000MB/s transfers (SATA 3.x, UDMA5, PIO 8192bytes) [...] ada5: Command Queueing enabled [...] ada5: 7630885MB (15628053168 512 byte sectors) [...] ada6 at ahcich13 bus 0 scbus6 target 0 lun 0 [...] ada6: <WDC WD20EFRX-68EUZN0 80.00A80> ACS-2 ATA SATA 3.x device [...] ada6: Serial Number... [...] ada6: 600.000MB/s transfers (SATA 3.x, UDMA6, PIO 8192bytes) [...] ada6: Command Queueing enabled [...] ada6: 1907729MB (3907029168 512 byte sectors) [...] ada6: quirks=0x1<4K> [...] uhub0: 8 ports with 8 removable, self powered [...] uhub1: 10 ports with 10 removable, self powered [...] uhub2: 10 ports with 10 removable, self powered [...] intsmb0: <AMD FCH SMBus Controller> at device 20.0 on pci0 [...] smbus0: <System Management Bus> on intsmb0 [...] lo0: link state changed to UP [...] igb0: link state changed to UP [...] GEOM_MIRROR: Device mirror/swap0 launched (2/2). [...] GEOM_MIRROR: Device mirror/swap1 launched (2/2). [...] GEOM_MIRROR: Device mirror/swap2 launched (2/2). [...] GEOM_ELI: Device mirror/swap0.eli created. [...] GEOM_ELI: Encryption: AES-XTS 128 [...] GEOM_ELI: Crypto: hardware [...] GEOM_ELI: Device mirror/swap1.eli created. [...] GEOM_ELI: Encryption: AES-XTS 128 [...] GEOM_ELI: Crypto: hardware [...] GEOM_ELI: Device mirror/swap2.eli created. [...] GEOM_ELI: Encryption: AES-XTS 128 [...] GEOM_ELI: Crypto: hardware [...] hwpmc: SOFT/16/64/0x67<INT,USR,SYS,REA,WRI> TSC/1/64/0x20<REA> K8/16/48/0x1ff<INT,USR,SYS,EDG,THR,REA,WRI,INV,QUA> [...] igb0: link state changed to DOWN [...] CPU: AMD Ryzen 5 3600 6-Core Processor (3600.07-MHz K8-class CPU) [...] Origin="AuthenticAMD" Id=0x870f10 Family=0x17 Model=0x71 Stepping=0 [...] Features=0x178bfbff<FPU,VME,DE,PSE,TSC,MSR,PAE,MCE,CX8,APIC,SEP,MTRR,PGE,MCA,CMOV,PAT,PSE36,CLFLUSH,MMX,FXSR,SSE,SSE2,HTT> [...] Features2=0x7ed8320b<SSE3,PCLMULQDQ,MON,SSSE3,FMA,CX16,SSE4.1,SSE4.2,MOVBE,POPCNT,AESNI,XSAVE,OSXSAVE,AVX,F16C,RDRAND> [...] AMD Features=0x2e500800<SYSCALL,NX,MMX+,FFXSR,Page1GB,RDTSCP,LM> [...] AMD Features2=0x75c237ff<LAHF,CMP,SVM,ExtAPIC,CR8,ABM,SSE4A,MAS,Prefetch,OSVW,IBS,SKINIT,WDT,TCE,Topology,PCXC,PNXC,DBE,PL2I,MWAITX,<b30>> [...] Structured Extended Features=0x219c91a9<FSGSBASE,BMI1,AVX2,SMEP,BMI2,PQM,PQE,RDSEED,ADX,SMAP,CLFLUSHOPT,CLWB,SHA> [...] Structured Extended Features2=0x400004<UMIP,RDPID> [...] XSAVE Features=0xf<XSAVEOPT,XSAVEC,XINUSE,XSAVES> [...] AMD Extended Feature Extensions ID EBX=0x10cb657<CLZERO,IRPerf,XSaveErPtr> [...] SVM: NP,NRIP,VClean,AFlush,DAssist,NAsids=32768 [...] TSC: P-state invariant, performance statistics [...] Security policy loaded: MAC/ntpd (mac_ntpd) [...] bridge0: Ethernet address: ... [...] igb0: link state changed to UP [...] bridge0: link state changed to UP [...] igb0: link state changed to DOWN [...] igb0: promiscuous mode enabled [...] epair0a: Ethernet address: ... [...] epair0b: Ethernet address: ... [...] epair0a: link state changed to UP [...] epair0b: link state changed to UP [...] epair0a: changing name to 'vnet0.1' [...] vnet0.1: promiscuous mode enabled [...] lo0: link state changed to UP [...] igb0: link state changed to UP [...] epair1a: Ethernet address: ... [...] epair1b: Ethernet address: ... [...] epair1a: link state changed to UP [...] epair1b: link state changed to UP [...] epair1a: changing name to 'vnet0.2' [...] epair1b: changing name to 'epair0b' [...] vnet0.2: promiscuous mode enabled [...] lo0: link state changed to UP [...] igb0: link state changed to DOWN [...] igb0: link state changed to UP [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] vnet0.1: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair0a: Ethernet address: ... [...] epair0b: Ethernet address: ... [...] epair0a: link state changed to UP [...] epair0b: link state changed to UP [...] epair0a: changing name to 'vnet0.3' [...] vnet0.3: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.2: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair1a: Ethernet address: ... [...] epair1b: Ethernet address: ... [...] epair1a: link state changed to UP [...] epair1b: link state changed to UP [...] epair1a: changing name to 'vnet0.4' [...] epair1b: changing name to 'epair0b' [...] vnet0.4: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] in6_purgeaddr: err=65, destination address delete failed [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.5' [...] epair2b: changing name to 'epair0b' [...] vnet0.5: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.5: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.6' [...] epair2b: changing name to 'epair0b' [...] vnet0.6: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.6: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.7' [...] epair2b: changing name to 'epair0b' [...] vnet0.7: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] vnet0.7: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.8' [...] epair2b: changing name to 'epair0b' [...] vnet0.8: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] Limiting closed port RST response from 229 to 200 packets/sec [...] Limiting closed port RST response from 247 to 200 packets/sec [...] Limiting closed port RST response from 242 to 200 packets/sec [...] Limiting closed port RST response from 269 to 200 packets/sec [...] Limiting closed port RST response from 298 to 200 packets/sec [...] Limiting closed port RST response from 301 to 200 packets/sec [...] Limiting closed port RST response from 299 to 200 packets/sec [...] Limiting closed port RST response from 322 to 200 packets/sec [...] Limiting closed port RST response from 352 to 200 packets/sec [...] Limiting closed port RST response from 360 to 200 packets/sec [...] Limiting closed port RST response from 368 to 200 packets/sec [...] Limiting closed port RST response from 328 to 200 packets/sec [...] Limiting closed port RST response from 361 to 200 packets/sec [...] Limiting closed port RST response from 413 to 200 packets/sec [...] Limiting closed port RST response from 360 to 200 packets/sec [...] Limiting closed port RST response from 383 to 200 packets/sec [...] Limiting closed port RST response from 452 to 200 packets/sec [...] Limiting closed port RST response from 361 to 200 packets/sec [...] Limiting closed port RST response from 460 to 200 packets/sec [...] Limiting closed port RST response from 447 to 200 packets/sec [...] Limiting closed port RST response from 430 to 200 packets/sec [...] Limiting closed port RST response from 475 to 200 packets/sec [...] Limiting closed port RST response from 424 to 200 packets/sec [...] Limiting closed port RST response from 471 to 200 packets/sec [...] Limiting closed port RST response from 456 to 200 packets/sec [...] Limiting closed port RST response from 490 to 200 packets/sec [...] Limiting closed port RST response from 457 to 200 packets/sec [...] Limiting closed port RST response from 503 to 200 packets/sec [...] Limiting closed port RST response from 435 to 200 packets/sec [...] Limiting closed port RST response from 489 to 200 packets/sec [...] Limiting closed port RST response from 449 to 200 packets/sec [...] Limiting closed port RST response from 487 to 200 packets/sec [...] Limiting closed port RST response from 475 to 200 packets/sec [...] Limiting closed port RST response from 548 to 200 packets/sec [...] Limiting closed port RST response from 431 to 200 packets/sec [...] Limiting closed port RST response from 543 to 200 packets/sec [...] Limiting closed port RST response from 501 to 200 packets/sec [...] Limiting closed port RST response from 471 to 200 packets/sec [...] Limiting closed port RST response from 512 to 200 packets/sec [...] Limiting closed port RST response from 576 to 200 packets/sec [...] Limiting closed port RST response from 491 to 200 packets/sec [...] Limiting closed port RST response from 534 to 200 packets/sec [...] Limiting closed port RST response from 554 to 200 packets/sec [...] Limiting closed port RST response from 442 to 200 packets/sec [...] Limiting closed port RST response from 553 to 200 packets/sec [...] Limiting closed port RST response from 517 to 200 packets/sec [...] Limiting closed port RST response from 498 to 200 packets/sec [...] Limiting closed port RST response from 536 to 200 packets/sec [...] Limiting closed port RST response from 514 to 200 packets/sec [...] Limiting closed port RST response from 521 to 200 packets/sec [...] Limiting closed port RST response from 575 to 200 packets/sec [...] Limiting closed port RST response from 507 to 200 packets/sec [...] Limiting closed port RST response from 559 to 200 packets/sec [...] Limiting closed port RST response from 529 to 200 packets/sec [...] Limiting closed port RST response from 545 to 200 packets/sec [...] Limiting closed port RST response from 564 to 200 packets/sec [...] Limiting closed port RST response from 478 to 200 packets/sec [...] Limiting closed port RST response from 585 to 200 packets/sec [...] Limiting closed port RST response from 533 to 200 packets/sec [...] Limiting closed port RST response from 548 to 200 packets/sec [...] Limiting closed port RST response from 578 to 200 packets/sec [...] Limiting closed port RST response from 509 to 200 packets/sec [...] Limiting closed port RST response from 566 to 200 packets/sec [...] Limiting closed port RST response from 656 to 200 packets/sec [...] Limiting closed port RST response from 585 to 200 packets/sec [...] Limiting closed port RST response from 365 to 200 packets/sec [...] Limiting closed port RST response from 536 to 200 packets/sec [...] Limiting closed port RST response from 452 to 200 packets/sec [...] Limiting closed port RST response from 509 to 200 packets/sec [...] Limiting closed port RST response from 604 to 200 packets/sec [...] Limiting closed port RST response from 441 to 200 packets/sec [...] Limiting closed port RST response from 487 to 200 packets/sec [...] Limiting closed port RST response from 573 to 200 packets/sec [...] Limiting closed port RST response from 358 to 200 packets/sec [...] Limiting closed port RST response from 480 to 200 packets/sec [...] Limiting closed port RST response from 538 to 200 packets/sec [...] Limiting closed port RST response from 466 to 200 packets/sec [...] Limiting closed port RST response from 676 to 200 packets/sec [...] Limiting closed port RST response from 546 to 200 packets/sec [...] Limiting closed port RST response from 590 to 200 packets/sec [...] Limiting closed port RST response from 589 to 200 packets/sec [...] Limiting closed port RST response from 584 to 200 packets/sec [...] Limiting closed port RST response from 550 to 200 packets/sec [...] Limiting closed port RST response from 445 to 200 packets/sec [...] Limiting closed port RST response from 602 to 200 packets/sec [...] Limiting closed port RST response from 575 to 200 packets/sec [...] Limiting closed port RST response from 628 to 200 packets/sec [...] Limiting closed port RST response from 511 to 200 packets/sec [...] Limiting closed port RST response from 621 to 200 packets/sec [...] Limiting closed port RST response from 446 to 200 packets/sec [...] Limiting closed port RST response from 535 to 200 packets/sec [...] Limiting closed port RST response from 452 to 200 packets/sec [...] Limiting closed port RST response from 411 to 200 packets/sec [...] Limiting closed port RST response from 631 to 200 packets/sec [...] Limiting closed port RST response from 454 to 200 packets/sec [...] Limiting closed port RST response from 619 to 200 packets/sec [...] Limiting closed port RST response from 640 to 200 packets/sec [...] Limiting closed port RST response from 454 to 200 packets/sec [...] Limiting closed port RST response from 674 to 200 packets/sec [...] Limiting closed port RST response from 662 to 200 packets/sec [...] Limiting closed port RST response from 633 to 200 packets/sec [...] Limiting closed port RST response from 475 to 200 packets/sec [...] Limiting closed port RST response from 644 to 200 packets/sec [...] Limiting closed port RST response from 620 to 200 packets/sec [...] Limiting closed port RST response from 503 to 200 packets/sec [...] Limiting closed port RST response from 601 to 200 packets/sec [...] Limiting closed port RST response from 579 to 200 packets/sec [...] Limiting closed port RST response from 563 to 200 packets/sec [...] Limiting closed port RST response from 513 to 200 packets/sec [...] Limiting closed port RST response from 579 to 200 packets/sec [...] Limiting closed port RST response from 605 to 200 packets/sec [...] Limiting closed port RST response from 592 to 200 packets/sec [...] Limiting closed port RST response from 498 to 200 packets/sec [...] Limiting closed port RST response from 673 to 200 packets/sec [...] Limiting closed port RST response from 588 to 200 packets/sec [...] Limiting closed port RST response from 441 to 200 packets/sec [...] Limiting closed port RST response from 582 to 200 packets/sec [...] Limiting closed port RST response from 613 to 200 packets/sec [...] Limiting closed port RST response from 667 to 200 packets/sec [...] Limiting closed port RST response from 413 to 200 packets/sec [...] Limiting closed port RST response from 651 to 200 packets/sec [...] Limiting closed port RST response from 612 to 200 packets/sec [...] Limiting closed port RST response from 500 to 200 packets/sec [...] Limiting closed port RST response from 577 to 200 packets/sec [...] Limiting closed port RST response from 541 to 200 packets/sec [...] Limiting closed port RST response from 635 to 200 packets/sec [...] Limiting closed port RST response from 525 to 200 packets/sec [...] Limiting closed port RST response from 529 to 200 packets/sec [...] Limiting closed port RST response from 575 to 200 packets/sec [...] Limiting closed port RST response from 612 to 200 packets/sec [...] Limiting closed port RST response from 499 to 200 packets/sec [...] Limiting closed port RST response from 516 to 200 packets/sec [...] Limiting closed port RST response from 599 to 200 packets/sec [...] Limiting closed port RST response from 609 to 200 packets/sec [...] Limiting closed port RST response from 491 to 200 packets/sec [...] Limiting closed port RST response from 530 to 200 packets/sec [...] Limiting closed port RST response from 627 to 200 packets/sec [...] Limiting closed port RST response from 566 to 200 packets/sec [...] Limiting closed port RST response from 535 to 200 packets/sec [...] Limiting closed port RST response from 549 to 200 packets/sec [...] Limiting closed port RST response from 552 to 200 packets/sec [...] Limiting closed port RST response from 625 to 200 packets/sec [...] Limiting closed port RST response from 518 to 200 packets/sec [...] Limiting closed port RST response from 534 to 200 packets/sec [...] Limiting closed port RST response from 603 to 200 packets/sec [...] Limiting closed port RST response from 621 to 200 packets/sec [...] Limiting closed port RST response from 478 to 200 packets/sec [...] Limiting closed port RST response from 610 to 200 packets/sec [...] Limiting closed port RST response from 547 to 200 packets/sec [...] Limiting closed port RST response from 606 to 200 packets/sec [...] Limiting closed port RST response from 513 to 200 packets/sec [...] Limiting closed port RST response from 589 to 200 packets/sec [...] Limiting closed port RST response from 575 to 200 packets/sec [...] Limiting closed port RST response from 602 to 200 packets/sec [...] Limiting closed port RST response from 565 to 200 packets/sec [...] Limiting closed port RST response from 557 to 200 packets/sec [...] Limiting closed port RST response from 563 to 200 packets/sec [...] Limiting closed port RST response from 594 to 200 packets/sec [...] Limiting closed port RST response from 537 to 200 packets/sec [...] Limiting closed port RST response from 517 to 200 packets/sec [...] Limiting closed port RST response from 555 to 200 packets/sec [...] Limiting closed port RST response from 587 to 200 packets/sec [...] Limiting closed port RST response from 542 to 200 packets/sec [...] Limiting closed port RST response from 541 to 200 packets/sec [...] Limiting closed port RST response from 634 to 200 packets/sec [...] Limiting closed port RST response from 568 to 200 packets/sec [...] Limiting closed port RST response from 441 to 200 packets/sec [...] Limiting closed port RST response from 662 to 200 packets/sec [...] Limiting closed port RST response from 524 to 200 packets/sec [...] Limiting closed port RST response from 512 to 200 packets/sec [...] Limiting closed port RST response from 551 to 200 packets/sec [...] Limiting closed port RST response from 210 to 200 packets/sec [...] Limiting closed port RST response from 340 to 200 packets/sec [...] Limiting closed port RST response from 668 to 200 packets/sec [...] Limiting closed port RST response from 479 to 200 packets/sec [...] Limiting closed port RST response from 355 to 200 packets/sec [...] Limiting closed port RST response from 526 to 200 packets/sec [...] vnet0.8: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.9' [...] epair2b: changing name to 'epair0b' [...] vnet0.9: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.9: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.10' [...] epair2b: changing name to 'epair0b' [...] vnet0.10: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] vnet0.10: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.11' [...] epair2b: changing name to 'epair0b' [...] vnet0.11: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.11: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.12' [...] epair2b: changing name to 'epair0b' [...] vnet0.12: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.12: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.13' [...] epair2b: changing name to 'epair0b' [...] vnet0.13: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.13: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.14' [...] epair2b: changing name to 'epair0b' [...] vnet0.14: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.14: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.15' [...] epair2b: changing name to 'epair0b' [...] vnet0.15: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.15: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.16' [...] epair2b: changing name to 'epair0b' [...] vnet0.16: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.16: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.17' [...] epair2b: changing name to 'epair0b' [...] vnet0.17: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.17: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.18' [...] epair2b: changing name to 'epair0b' [...] igb0: link state changed to DOWN [...] lo0: link state changed to UP [...] vnet0.18: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] igb0: link state changed to UP [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.19' [...] epair2b: changing name to 'epair0b' [...] lo0: link state changed to UP [...] vnet0.19: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.20' [...] epair2b: changing name to 'epair0b' [...] lo0: link state changed to UP [...] vnet0.20: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.21' [...] epair2b: changing name to 'epair0b' [...] vnet0.21: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.21: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.22' [...] epair2b: changing name to 'epair0b' [...] vnet0.22: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.22: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.23' [...] epair2b: changing name to 'epair0b' [...] vnet0.23: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] vnet0.23: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.24' [...] epair2b: changing name to 'epair0b' [...] vnet0.24: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.24: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.25' [...] epair2b: changing name to 'epair0b' [...] vnet0.25: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.25: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.26' [...] epair2b: changing name to 'epair0b' [...] vnet0.26: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] vnet0.26: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.27' [...] epair2b: changing name to 'epair0b' [...] vnet0.27: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.27: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] in6_purgeaddr: err=65, destination address delete failed [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.28' [...] epair2b: changing name to 'epair0b' [...] vnet0.28: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.4: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair1a: Ethernet address: ... [...] epair1b: Ethernet address: ... [...] epair1a: link state changed to UP [...] epair1b: link state changed to UP [...] epair1a: changing name to 'vnet0.29' [...] epair1b: changing name to 'epair0b' [...] vnet0.29: promiscuous mode enabled [...] lo0: link state changed to UP [...] vnet0.3: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair0a: Ethernet address: ... [...] epair0b: Ethernet address: ... [...] epair0a: link state changed to UP [...] epair0b: link state changed to UP [...] epair0a: changing name to 'vnet0.30' [...] vnet0.30: promiscuous mode enabled [...] lo0: link state changed to UP [...] epair3a: Ethernet address: ... [...] epair3b: Ethernet address: ... [...] epair3a: link state changed to UP [...] epair3b: link state changed to UP [...] epair3a: changing name to 'vnet0.31' [...] epair3b: changing name to 'epair0b' [...] vnet0.31: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] vnet0.28: link state changed to DOWN [...] epair0b: link state changed to DOWN [...] epair2a: Ethernet address: ... [...] epair2b: Ethernet address: ... [...] epair2a: link state changed to UP [...] epair2b: link state changed to UP [...] epair2a: changing name to 'vnet0.32' [...] epair2b: changing name to 'epair0b' [...] vnet0.32: promiscuous mode enabled [...] lo0: link state changed to UP [...] in6_purgeaddr: err=65, destination address delete failed [...] in6_purgeaddr: err=65, destination address delete failed [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0 [...] arp: XXX.XXX.XXX.XXX moved from XXX to XXX on igb0