Watchguard XTM 5 Series
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As requested here's the output of some commands. This is from 2.1Beta on my XTM5.
[2.1-BETA1][root@pfsense.localdomain]/root(2): sysctl hw hw.machine: i386 hw.model: Intel(R) Core(TM)2 Duo CPU E4500 @ 2.20GHz hw.ncpu: 2 hw.byteorder: 1234 hw.physmem: 1016168448 hw.usermem: 911572992 hw.pagesize: 4096 hw.floatingpoint: 1 hw.machine_arch: i386 hw.realmem: 1037697024 hw.amr.force_sg32: 0 hw.an.an_cache_iponly: 1 hw.an.an_cache_mcastonly: 0 hw.an.an_cache_mode: dbm hw.an.an_dump: off hw.ata.setmax: 0 hw.ata.wc: 0 hw.ata.atapi_dma: 0 hw.ata.ata_dma_check_80pin: 1 hw.ata.ata_dma: 0 hw.ath.bstuck: 4 hw.ath.txbuf: 200 hw.ath.rxbuf: 40 hw.ath.anical: 100 hw.ath.resetcal: 1200 hw.ath.shortcal: 100 hw.ath.longcal: 30 hw.bce.rx_ticks: 18 hw.bce.rx_ticks_int: 18 hw.bce.rx_quick_cons_trip: 6 hw.bce.rx_quick_cons_trip_int: 6 hw.bce.tx_ticks: 80 hw.bce.tx_ticks_int: 80 hw.bce.tx_quick_cons_trip: 20 hw.bce.tx_quick_cons_trip_int: 20 hw.bce.loose_rx_mtu: 0 hw.bce.hdr_split: 1 hw.bce.tx_pages: 2 hw.bce.rx_pages: 2 hw.bce.msi_enable: 1 hw.bce.tso_enable: 1 hw.bce.verbose: 1 hw.bge.allow_asf: 0 hw.bt848.slow_msp_audio: -1 hw.bt848.format: -1 hw.bt848.reverse_mute: -1 hw.bt848.tuner: -1 hw.bt848.card: -1 hw.bwn.wme: 1 hw.bwn.usedma: 1 hw.bwn.hwpctl: 0 hw.bwn.bluetooth: 1 hw.bwn.bfp: 0 hw.cardbus.cis_debug: 0 hw.cardbus.debug: 0 hw.cxgb.nfilters: -1 hw.cxgb.use_16k_clusters: -1 hw.cxgb.force_fw_update: 0 hw.cxgb.multiq: 1 hw.cxgb.ofld_disable: 0 hw.cxgb.msi_allowed: 2 hw.cxgb.tx_reclaim_threshold: 32 hw.cxgb.tx_coalesce_enable_stop: 256 hw.cxgb.tx_coalesce_enable_start: 512 hw.cxgb.tx_coalesce_force: 0 hw.cxgb.txq_mr_size: 1024 hw.em.eee_setting: 0 hw.em.rx_process_limit: 100 hw.em.enable_msix: 1 hw.em.sbp: 0 hw.em.smart_pwr_down: 0 hw.em.txd: 1024 hw.em.rxd: 1024 hw.em.rx_abs_int_delay: 66 hw.em.tx_abs_int_delay: 66 hw.em.rx_int_delay: 0 hw.em.tx_int_delay: 66 hw.igb.rx_process_limit: 100 hw.igb.num_queues: 0 hw.igb.header_split: 0 hw.igb.max_interrupt_rate: 8000 hw.igb.enable_msix: 1 hw.igb.enable_aim: 1 hw.igb.txd: 1024 hw.igb.rxd: 1024 hw.firewire.hold_count: 0 hw.firewire.try_bmr: 1 hw.firewire.fwmem.speed: 2 hw.firewire.fwmem.eui64_lo: 0 hw.firewire.fwmem.eui64_hi: 0 hw.firewire.phydma_enable: 1 hw.firewire.nocyclemaster: 0 hw.firewire.fwe.rx_queue_len: 128 hw.firewire.fwe.tx_speed: 2 hw.firewire.fwe.stream_ch: 1 hw.firewire.sbp.tags: 0 hw.firewire.sbp.use_doorbell: 0 hw.firewire.sbp.scan_delay: 500 hw.firewire.sbp.login_delay: 1000 hw.firewire.sbp.exclusive_login: 1 hw.firewire.sbp.max_speed: -1 hw.firewire.sbp.auto_login: 1 hw.hifn.maxbatch: 1 hw.hifn.debug: 0 hw.malo.txbuf: 256 hw.malo.rxquota: 256 hw.malo.rxbuf: 256 hw.malo.txcoalesce: 8 hw.malo.pci.msi_disable: 0 hw.mfi.detect_jbod_change: 1 hw.mfi.max_cmds: 128 hw.mfi.event_class: 0 hw.mfi.event_locale: 65535 hw.mfi.msi: 1 hw.mwl.rxdmalow: 3 hw.mwl.rxquota: 640 hw.mwl.txcoalesce: 8 hw.mwl.txbuf: 256 hw.mwl.rxbuf: 640 hw.mwl.rxdesc: 256 hw.pccard.cis_debug: 0 hw.pccard.debug: 0 hw.cbb.debug: 0 hw.cbb.start_32_io: 4096 hw.cbb.start_16_io: 256 hw.cbb.start_memory: 2281701376 hw.pcic.pd6722_vsense: 1 hw.pcic.intr_mask: 57016 hw.pci.usb_early_takeover: 1 hw.pci.honor_msi_blacklist: 1 hw.pci.enable_msix: 1 hw.pci.enable_msi: 1 hw.pci.do_power_resume: 1 hw.pci.do_power_nodriver: 0 hw.pci.enable_io_modes: 1 hw.pci.default_vgapci_unit: -1 hw.pci.host_mem_start: 2147483648 hw.pci.mcfg: 1 hw.pci.irq_override_mask: 57080 hw.safe.rngmaxalarm: 8 hw.safe.rngbufsize: 16 hw.safe.rnginterval: 1 hw.usb.no_shutdown_wait: 0 hw.usb.no_boot_wait: 0 hw.usb.debug: 0 hw.usb.usb_lang_mask: 255 hw.usb.usb_lang_id: 9 hw.usb.template: 0 hw.usb.power_timeout: 30 hw.usb.no_pf: 1 hw.usb.no_cs_fail: 0 hw.usb.uath.regdomain: 0 hw.usb.uath.countrycode: 0 hw.usb.urtw.preamble_mode: 2 hw.usb.ucom.cons_baud: 9600 hw.usb.ucom.cons_subunit: 0 hw.usb.ucom.cons_unit: -1 hw.wi.debug: 0 hw.wi.txerate: 0 hw.intr_storm_threshold: 1000 hw.pagesizes: 4096 0 hw.availpages: 248088 hw.bus.devctl_queue: 1000 hw.bus.devctl_disable: 0 hw.nve_pollinterval: 0 hw.busdma.total_bpages: 513 hw.busdma.zone0.total_bpages: 513 hw.busdma.zone0.free_bpages: 513 hw.busdma.zone0.reserved_bpages: 0 hw.busdma.zone0.active_bpages: 0 hw.busdma.zone0.total_bounced: 63 hw.busdma.zone0.total_deferred: 0 hw.busdma.zone0.lowaddr: 0xffffffff hw.busdma.zone0.alignment: 4096 hw.clockrate: 2194 hw.via_feature_xcrypt: 0 hw.via_feature_rng: 0 hw.instruction_sse: 1 hw.apic.enable_extint: 0 hw.mca.erratum383: 0 hw.mca.amd10h_L1TP: 1 hw.mca.enabled: 1 hw.mca.count: 0 hw.mca.interval: 3600 hw.mca.force_scan: 0 hw.acpi.supported_sleep_state: S1 S3 S4 S5 hw.acpi.power_button_state: S5 hw.acpi.sleep_button_state: S1 hw.acpi.lid_switch_state: NONE hw.acpi.standby_state: S1 hw.acpi.suspend_state: S3 hw.acpi.sleep_delay: 1 hw.acpi.s4bios: 0 hw.acpi.verbose: 0 hw.acpi.disable_on_reboot: 0 hw.acpi.handle_reboot: 0 hw.acpi.reset_video: 0 hw.acpi.cpu.cx_lowest: C1
[2.1-BETA1][root@pfsense.localdomain]/root(11): flashrom -V flashrom v0.9.5.2-r1515 on FreeBSD 8.3-RELEASE-p6 (i386), built with libpci 3.1.9, GCC 4.2.1 20070719 [FreeBSD], little endian flashrom is free software, get the source code at http://www.flashrom.org Calibrating delay loop... OS timer resolution is 4 usecs, 2194M loops per second, 10 myus = 14 us, 100 myus = 104 us, 1000 myus = 1006 us, 10000 myus = 10008 us, 16 myus = 20 us, OK. Initializing internal programmer No coreboot table found. DMI string system-manufacturer: "To Be Filled By O.E.M." DMI string system-product-name: "To Be Filled By O.E.M." DMI string system-version: "To Be Filled By O.E.M." DMI string baseboard-manufacturer: "To be filled by O.E.M." DMI string baseboard-product-name: "To be filled by O.E.M." DMI string baseboard-version: "To be filled by O.E.M." DMI string chassis-type: "Desktop" Found chipset "Intel ICH7/ICH7R" with PCI ID 8086:27b8\. Enabling flash write... 0xfff80000/0xffb80000 FWH IDSEL: 0x0 0xfff00000/0xffb00000 FWH IDSEL: 0x0 0xffe80000/0xffa80000 FWH IDSEL: 0x1 0xffe00000/0xffa00000 FWH IDSEL: 0x1 0xffd80000/0xff980000 FWH IDSEL: 0x2 0xffd00000/0xff900000 FWH IDSEL: 0x2 0xffc80000/0xff880000 FWH IDSEL: 0x3 0xffc00000/0xff800000 FWH IDSEL: 0x3 0xff700000/0xff300000 FWH IDSEL: 0x4 0xff600000/0xff200000 FWH IDSEL: 0x5 0xff500000/0xff100000 FWH IDSEL: 0x6 0xff400000/0xff000000 FWH IDSEL: 0x7 0xfff80000/0xffb80000 FWH decode enabled 0xfff00000/0xffb00000 FWH decode enabled 0xffe80000/0xffa80000 FWH decode disabled 0xffe00000/0xffa00000 FWH decode disabled 0xffd80000/0xff980000 FWH decode disabled 0xffd00000/0xff900000 FWH decode disabled 0xffc80000/0xff880000 FWH decode disabled 0xffc00000/0xff800000 FWH decode disabled 0xff700000/0xff300000 FWH decode disabled 0xff600000/0xff200000 FWH decode disabled 0xff500000/0xff100000 FWH decode disabled 0xff400000/0xff000000 FWH decode disabled Maximum FWH chip size: 0x100000 bytes BIOS Lock Enable: disabled, BIOS Write Enable: disabled, BIOS_CNTL is 0x0 Root Complex Register Block address = 0xfed1c000 GCS = 0x460: BIOS Interface Lock-Down: disabled, Boot BIOS Straps: 0x1 (SPI) Top Swap : not enabled SPIBAR = 0xfed1c000 + 0x3020 0x00: 0x0004 (SPIS) 0x02: 0x4140 (SPIC) 0x04: 0x00000000 (SPIA) 0x08: 0x1014ffff (SPID0) 0x0c: 0xffffffff (SPID0+4) 0x10: 0xffffffff (SPID1) 0x14: 0xffffffff (SPID1+4) 0x18: 0x00000000 (SPID2) 0x1c: 0x00000000 (SPID2+4) 0x20: 0x00000000 (SPID3) 0x24: 0x00000000 (SPID3+4) 0x28: 0x00000000 (SPID4) 0x2c: 0x00000000 (SPID4+4) 0x30: 0x00000000 (SPID5) 0x34: 0x00000000 (SPID5+4) 0x38: 0x00000000 (SPID6) 0x3c: 0x00000000 (SPID6+4) 0x40: 0x00000000 (SPID7) 0x44: 0x00000000 (SPID7+4) 0x50: 0x00000000 (BBAR) 0x54: 0x0006 (PREOP) 0x56: 0x543b (OPTYPE) 0x58: 0x05d80302 (OPMENU) 0x5c: 0x0006019f (OPMENU+4) 0x60: 0x00000000 (PBR0) 0x64: 0x00000000 (PBR1) 0x68: 0x00000000 (PBR2) Programming OPCODES... program_opcodes: preop=5006 optype=463b opmenu=05d80302c79f0190 done SPI Read Configuration: prefetching disabled, caching enabled, OK. The following protocols are supported: SPI. Probing for AMIC A25L05PT, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L05PU, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L10PT, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L10PU, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L20PT, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L20PU, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L40PT, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L40PU, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L80P, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L16PT, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L16PU, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L512, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L010, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L020, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L040, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L080, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L016, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25L032, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for AMIC A25LQ032, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF021, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF041A, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF081, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF081A, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF161, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF321, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF321A, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DF641(A), 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25DQ161, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25F512B, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25FS010, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT25FS040, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT26DF041, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT26DF081A, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT26DF161, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT26DF161A, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT26F004, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45CS1282, 16896 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB011D, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB021D, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB041D, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB081D, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB161D, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB321C, 4224 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB321D, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel AT45DB642D, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for EMST F25L008A, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B05, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B05T, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B10, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B10T, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B20, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B20T, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B40, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B40T, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B80, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B80T, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B16T, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B32, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B32T, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B64, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25B64T, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25F05, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25F10, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25F20, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25F40, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25F80, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25F16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25F32, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25Q40, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25Q80(A), 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25Q16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25Q32(A/B), 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25Q64, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25Q128, 16384 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon EN25QH16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L512, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L1005, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L2005, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L4005, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L8005, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L1605, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L1635D, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L1635E, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L3205, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L3235D, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L6405, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix MX25L12805, 16384 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Numonyx M25PE10, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Numonyx M25PE20, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Numonyx M25PE40, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Numonyx M25PE80, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Numonyx M25PE16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for PMC Pm25LV010, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for PMC Pm25LV016B, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for PMC Pm25LV020, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for PMC Pm25LV040, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for PMC Pm25LV080B, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for PMC Pm25LV512, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Sanyo LF25FW203A, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Spansion S25FL004A, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Spansion S25FL008A, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Spansion S25FL016A, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Spansion S25FL032A, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Spansion S25FL064A, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for SST SST25LF040A, 512 kB: program_opcodes: preop=5006 optype=462b opmenu=05ab0302c79f0190 on-the-fly OPCODE (0xAB) re-programmed, op-pos=2 probe_spi_res2: id1 0x13, id2 0x13 Probing for SST SST25LF080A, 1024 kB: probe_spi_res2: id1 0x13, id2 0x13 Probing for SST SST25VF010, 128 kB: probe_spi_rems: id1 0xff, id2 0xff Probing for SST SST25VF016B, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for SST SST25VF032B, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for SST SST25VF064C, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for SST SST25VF040, 512 kB: probe_spi_rems: id1 0xff, id2 0xff Probing for SST SST25VF040B, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for SST SST25VF040B.REMS, 512 kB: probe_spi_rems: id1 0xff, id2 0xff Probing for SST SST25VF080B, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P05-A, 64 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P05, 64 kB: Ignoring RES in favour of RDID. Probing for ST M25P10-A, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P10, 128 kB: Ignoring RES in favour of RDID. Probing for ST M25P20, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P40, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P40-old, 512 kB: Ignoring RES in favour of RDID. Probing for ST M25P80, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Chip status register is 00 Chip status register: Status Register Write Disable (SRWD) is not set Chip status register: Bit 6 is not set Chip status register: Bit 5 / Block Protect 3 (BP3) is not set Chip status register: Bit 4 / Block Protect 2 (BP2) is not set Chip status register: Bit 3 / Block Protect 1 (BP1) is not set Chip status register: Bit 2 / Block Protect 0 (BP0) is not set Chip status register: Write Enable Latch (WEL) is not set Chip status register: Write In Progress (WIP/BUSY) is not set Found ST flash chip "M25P80" (1024 kB, SPI) at physical address 0xfff00000. Probing for ST M25P16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P32, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P64, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25P128, 16384 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25PX16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25PX32, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST M25PX64, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25Q80, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25Q16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25Q32, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25Q64, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25Q128, 16384 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25X10, 128 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25X20, 256 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25X40, 512 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25X80, 1024 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25X16, 2048 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25X32, 4096 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Winbond W25X64, 8192 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Unknown SFDP-capable chip, 0 kB: program_opcodes: preop=5006 optype=462b opmenu=055a0302c79f0190 on-the-fly OPCODE (0x5A) re-programmed, op-pos=2 No SFDP signature found. Probing for AMIC unknown AMIC SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Atmel unknown Atmel SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Eon unknown Eon SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Macronix unknown Macronix SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for PMC unknown PMC SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for SST unknown SST SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for ST unknown ST SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Sanyo unknown Sanyo SPI chip, 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Generic unknown SPI chip (RDID), 0 kB: probe_spi_rdid_generic: id1 0x20, id2 0x2014 Probing for Generic unknown SPI chip (REMS), 0 kB: probe_spi_rems: id1 0xff, id2 0xff Found ST flash chip "M25P80" (1024 kB, SPI). No operations were specified. Restoring MMIO space at 0x2822f070 Restoring MMIO space at 0x2822f07c Restoring MMIO space at 0x2822f078 Restoring MMIO space at 0x2822f076 Restoring MMIO space at 0x2822f074 Restoring PCI config space for 00:1f:0 reg 0xdc
Steve
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Hello all,
I'm a relative n00b to the forum but have been playing with PFSense for a little over a year. I was running a Firebox X700 with PFSense running perfectly mostly thanks to all the hard work of all you fine folks, StephenW in particular. I outgrew the X700 and decided it was time to step up my PFSense hardware. So after some good forum reading I decided an economical upgrade was the XTM 5 series and purchased an XTM 505 on eBay.
Install was pretty basic. I actually flashed 2 CF cards one with 2.0.3 i386 and one with 2.0.3 x64 so I can be a guinea pig with testing 64 bit drivers and code. Slid the card in the CF slot and it booted up relatively quickly. As StephenW mentions the default Firebox serial settings are 115200 8 n 1 which you'll need set if you want to get to the BIOS (although there isn't much point as it's mostly read only). After that PFSense defaults back to 9600 8 n 1 so you'll have to change your serial settings back to finish configuring PFSense. I had a strange issue with type not transferring properly where each time I typed at about every 5th-6th key I would press was incorrect. It wasn't so bad that I couldn't delete the incorrect characters and get the WAN and LAN ports configured and IP'd. Probably a fault DB9-RJ45 cable but it was a new leftover cable from a Cisco install. Only mention this to see if it's common with anyone else.
For now I'm running 32 bit as I am using it as my primary router/firewall at home. So after hooking it up and logging in I was able to get the LCD working by installing LCDProc Dev and using the following settings:
Com Port: Parallel Port 1 (/dev/lpt0)
Display Size: 2 rows 20 columns
Driver: Watchguard Firebox with SDEC (x86 only)
Refresh Frequency: 5 seconds
Rest is defaultAs mentioned earlier the keys work but the mapping is off. Any ideas on how to remedy this? Would it be a simple modification to /usr/local/etc/LCDD.conf ?
Once I get the keymapping working and StephenW complete the WGXepc update for the XTM 5 series this thing will be perfectly adapted to PFSense; aside from the incompatible Cavium Nitrox CN1605.
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FMertz,
Looking at dmidecode, it appears StephenW's and my UUID: 00020003-0004-0005-0006-000700080009 match. Could this be used as a unique identifier?
Anyone else with an XTM 5 series care to comment/check on this?
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Like I say I think fmertz already implemented all of this. See:
http://forum.pfsense.org/index.php/topic,44034.msg276249.html#msg276249Try that and see what happens.
Steve
Edit: Yep all looks to be there.
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I finally got around to updating WGXepc to include the code for the XTM5. It turned out to be rather more difficult than I'd imagined.
Anyway get it here or here(Oops the topic was locked!).Whilst investigating the SuperIO chip I found it was controlling the fans so I added code for that too. By default the fans are connected to the system_fan output which is set to run in 'Thermal Cruise' mode. The target temperature register is set to 0x37, I've yet to work out what that translates to but it must be quite high since the fans always run slow. They ramp down to a minimum speed but that is conveniently controllable. I have included code to set that in WGXepc. :) Obviously be careful messing about with the cooling but it shouldn't be possible to cause any problems as the fans will just ramp up if it gets hot. Unfortunately there is a quirk with setting the minimum value to a speed that is greater than the current fan speed. The only way I could get this to take effect was to switch to manual mode and then back to Thermal Cruise which causes the fans to goto max and then ramp back down. Not the end of the world but slightly annoying (to me at least!). It may also be possible to set the target temperature. Th diagnostic LEDs are probably also connected via the SuperIO but I haven't thought of a good use for them yet. ;)
Steve
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Investigating the XTM8 box caused me to re-investigate the various bios editing tools available and I have now found that newer versions of amibcp are able to correctly edit the SuperIO tables without corrupting the bios in the process. So now we can have the bios correctly configure the SIO chip for gpio use and set the arm/disarm LED to red at boot, which seems like the way it should have been all along.
Flashing the bios is always a risk and I have bricked my own box doing it many times! However it was always due to a corrupt bios file rather than the flashing process itself and it is possible to recover from a bad flash (see earlier posts here). So the modified bios file is here. Flash at your own risk!
Modifications are:
Bios setup menus are unlocked and some aditional menus are unhidden.
LCD now reports 'pfSense V1.8' at boot time.
Speedstep is unlocked and enabled if you have a compatible CPU.
Arm/Disarm LED is now red from boot.Probably the safest way to get this file, least chance of corruption, is to fetch it straight to the box.
[2.1-BETA1][root@pfsense.localdomain]/tmp(10): fetch https://sites.google.com/site/pfsensefirebox/home/xtm5_83.rom xtm5_83.rom 100% of 1024 kB 1957 kBps
You can then also check its MD5 sum is correct:
[2.1-BETA1][root@pfsense.localdomain]/tmp(11): md5 xtm5_83.rom MD5 (xtm5_83.rom) = e75bc93ca2db547a3facb8d611f0d441
Then write it with flashrom from there:
[2.1-BETA1][root@pfsense.localdomain]/tmp(13): flashrom -w xtm5_83.rom flashrom v0.9.5.2-r1515 on FreeBSD 8.3-RELEASE-p8 (i386), built with libpci 3.1.9, GCC 4.2.1 20070719 [FreeBSD], little endian flashrom is free software, get the source code at http://www.flashrom.org Calibrating delay loop... OK. Found chipset "Intel ICH7/ICH7R". Enabling flash write... OK. Found ST flash chip "M25P80" (1024 kB, SPI) at physical address 0xfff00000. Flash image seems to be a legacy BIOS. Disabling coreboot-related checks. Reading old flash chip contents... done. Erasing and writing flash chip... Erase/write done. Verifying flash... VERIFIED.
It may be necessary to reset the CMOS with the on board jumper to get access to the bios menus. My box has been unlocked for so long I can't remember if I had to and I have no easy way to test. ::)
Steve
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Bravo as always Stephen. I will definitely take a look at this when I get ready to swap out the processor as speedstep is a much needed feature. Till then I'll stick with your new release of WGXepc.
Any subtle differences in the hardware between the XTM5 and XTM8? My understanding is that the hardware was the same and the different versions referenced unlocked features by license for the Watchguard software. Curious.
Thanks!
Modifications are:
Bios setup menus are unlocked and some aditional menus are unhidden.
LCD now reports 'pfSense V1.8' at boot time.
Speedstep is unlocked and enabled if you have a compatible CPU.
Arm/Disarm LED is now red from boot.Probably the safest way to get this file, least chance of corruption, is to fetch it straight to the box.
[2.1-BETA1][root@pfsense.localdomain]/tmp(10): fetch https://sites.google.com/site/pfsensefirebox/home/xtm5_83.rom xtm5_83.rom 100% of 1024 kB 1957 kBps
You can then also check its MD5 sum is correct:
[2.1-BETA1][root@pfsense.localdomain]/tmp(11): md5 xtm5_83.rom MD5 (xtm5_83.rom) = e75bc93ca2db547a3facb8d611f0d441
Then write it with flashrom from there:
[2.1-BETA1][root@pfsense.localdomain]/tmp(13): flashrom -w xtm5_83.rom flashrom v0.9.5.2-r1515 on FreeBSD 8.3-RELEASE-p8 (i386), built with libpci 3.1.9, GCC 4.2.1 20070719 [FreeBSD], little endian flashrom is free software, get the source code at http://www.flashrom.org Calibrating delay loop... OK. Found chipset "Intel ICH7/ICH7R". Enabling flash write... OK. Found ST flash chip "M25P80" (1024 kB, SPI) at physical address 0xfff00000. Flash image seems to be a legacy BIOS. Disabling coreboot-related checks. Reading old flash chip contents... done. Erasing and writing flash chip... Erase/write done. Verifying flash... VERIFIED.
It may be necessary to reset the CMOS with the on board jumper to get access to the bios menus. My box has been unlocked for so long I can't remember if I had to and I have no easy way to test. ::)
Steve
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The XTM5 and XTM8 are very different. Different box, different mother board.
To get Speedstep sort-of working I had to use a modified DSDT file. However even when I had it seemingly functioning I could see any effects on either power consumption or heat. I put it down to the board/CPU supporting higher C states which reduce power anyway.
Steve
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Just ordered an XTM 505 off ebay and I'm excited to try out pfSense on it. Has anyone successfully booted from or attached a USB drive or HDD yet? Also, has anyone tried stephenw10's firmware update?
Thanks!
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Hmm, interesting, it looks like I never tried it after unlocking the BIOS. It's definitely not possible to boot from USB without altering some bios settings and to do that you need to flash the unlocked version. That obviously carries some risk but I'm quite confident that image I linked to is not corrupt. I uploaded it, downloaded it again and re-flashed it to my box without issue. Just make sure the MD5 sum is correct.
Steve
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From my experience with the XTM8 (810), you can't boot anything from the usb ports - I tried!
I imagine the XTM505 will be the same - bios locked down and restricted as to what can be used - ie mouse and keyboard is pretty much as far as the bios will get you - until you unlock it.
My XTM8 is currently out of action - deffo be careful flashing the bios ;)
Eamon
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StephenW10,
A little late of a response but yea duh about the hardware differences… I was thinking XTM5 series: 515, 505 etc which are all the same hardware. I can't keep up with all the Watchguard models you are working on. :P
Also, after trying LCDProc-Dev (latest package) it seems the key mapping was not integrated into the latest dev package as my key mapping are still off. I'll post in the appropriate thread about this as well but wanted to reference it here, this being the official thread for XTM5 devices. Also, Stephen, could you enlighten me on the shellcmd you use to start/restart the LCDProc service? Thanks.
LCDProc-Dev Thread:http://forum.pfsense.org/index.php/topic,44034.msg349010.html#msg349010
iolaus,
With all due respect to StephenW10 and thanks for his hard work, there isn't much to gain from unlocking the bios.I would echo Eams warning in that you do not want to flash your bios unless you know 100% that you will benefit from the features. If you want to tinker, I would suggest only doing so if you are not really relying on the hardware and can afford to brick it. You will need to have a level of comfort/experience with modifying hardware/bios as you may need to create a serial jumper soldered to the board to unbrick it or reflash the serial flash device (at least this was my understanding from reading through StephenW10s posts. Please correct me if I'm wrong).
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I will be using my XTM505 in my local network so I'll definitely have to be careful not to brick it. I had hoped to try out Snort but I'm wondering if I have to worry about the finite write capabilities of the CF card. If so, is it possible to install additional storage (SSD or larger USB Flash), perhaps as secondary storage, without unlocking the BIOS?
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I had the same issue and question but the answer for me was much simpler/easier than having to install secondary storage. Instead I used the SHELLCMD package to mount an NFS Share at post boot and then setup logs to write to the share. A much more elegant solution, especially if you hope to use any other software (Splunk etc) to parse your log files.
Hope that helps.
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I have to agree, general policy for flashing your bios should always be don't do it unless it offers something you need. That might go double for some hacked bios you downloaded from a forum! ;)
That said I have flashed it many times succefully, I'd have no hesitation flashing a new box if I found one for the right price. The problems Eamon had with the XTM8 were mostly due to a bios chip that wasn't correctly handled by flashrom. It was doubly unfortunate because it reported no errors and seemed to be functioning correctly.The XTM5 has provision for an internal HD by way of a power connector on the PSU and sata connectors on the board. I can't remember if the standard bios has HD auto detection enabled. :-\
Steve
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Hi, i can confirm that the bios from stephenw10 (xtm5_83.rom) works like a charm on my XTM 510. If i remind correctly, i boot pfsense on it and downloaded the bios direct to the XTM510 in a shell.
After flashing i was wondering that the bios was still locked, but i read that the cmos have to reset. I removed the power cord and the battery, drink a coffee, and anything was fine with unlocked bios.Thanks to stephenw10!
Now i try my luck with a XTM810 to boot a other system as Watchguards XTM OS.
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Some updates:
I've got my XTM 505 up and running. I replaced the CPU with a Core2Duo E4500, replaced the RAM with a couple 1GB sticks I had lying around, and installed a 2.5" HD which I also had lying around.
I mounted the HD to a modified Intel 2.5" to 3.5" converter cage. The cage is mounted to the XTM 505 right behind the LCD on risers.
The XTM successfully finds the SATA HD without any BIOS modification and I have SHELLCMD mounting it at boot time.
Pictures:
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Nice! :)
I would recommend removing the VPN accelerator card. It's just using power and isn't doing anything useful, unfortunately.Steve
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Any one have any luck locating or compiling a suitable driver for the
Cavium card? I believe a Linux one exists but no luck with BSD. -
I believe it's closed source driver in Linux or at least you have to sign an NDA before they'll give you access to the SDK. No driver like that would ever make it into FreeBSD so it would have to be reverse engineered. Not an easy task.
Steve