# # NOTES -- Lines that can be cut/pasted into kernel and hints configs. # # This file contains machine dependent kernel configuration notes. For # machine independent notes, look in /sys/conf/NOTES. # # $FreeBSD$ # # # This directive is mandatory; it defines the architecture to be # configured for; in this case, the 386 family based IBM-PC and # compatibles. # machine i386 # # We want LINT to cover profiling as well. profile 2 ##################################################################### # SMP OPTIONS: # # The apic device enables the use of the I/O APIC for interrupt delivery. # The apic device can be used in both UP and SMP kernels, but is required # for SMP kernels. Thus, the apic device is not strictly an SMP option, # but it is a prerequisite for SMP. # # Notes: # # Be sure to disable 'cpu I386_CPU' for SMP kernels. # # By default, mixed mode is used to route IRQ0 from the AT timer via # the 8259A master PIC through the ExtINT pin on the first I/O APIC. # This can be disabled via the NO_MIXED_MODE option. In that case, # IRQ0 will be routed via an intpin on the first I/O APIC. Not all # motherboards hook IRQ0 up to the first I/O APIC even though their # MP table or MADT may claim to do so. That is why mixed mode is # enabled by default. # # HTT CPUs should only be used if they are enabled in the BIOS. For # the ACPI case, ACPI only correctly tells us about any HTT CPUs if # they are enabled. However, most HTT systems do not list HTT CPUs # in the MP Table if they are enabled, thus we guess at the HTT CPUs # for the MP Table case. However, we shouldn't try to guess and use # these CPUs if HTTT is disabled. Thus, HTT guessing is only enabled # for the MP Table if the user explicitly asks for it via the # MPTABLE_FORCE_HTT option. Do NOT use this option if you have HTT # disabled in your BIOS. # # Mandatory: device apic # I/O apic # Optional: options MPTABLE_FORCE_HTT # Enable HTT CPUs with the MP Table options NO_MIXED_MODE # Disable use of mixed mode ##################################################################### # CPU OPTIONS # # You must specify at least one CPU (the one you intend to run on); # deleting the specification for CPUs you don't need to use may make # parts of the system run faster. # I386_CPU is mutually exclusive with the other CPU types. # #cpu I386_CPU cpu I486_CPU cpu I586_CPU # aka Pentium(tm) cpu I686_CPU # aka Pentium Pro(tm) # # Options for CPU features. # # CPU_ATHLON_SSE_HACK tries to enable SSE instructions when the BIOS has # forgotten to enable them. # # CPU_BLUELIGHTNING_3X enables triple-clock mode on IBM Blue Lightning # CPU if CPU supports it. The default is double-clock mode on # BlueLightning CPU box. # # CPU_BLUELIGHTNING_FPU_OP_CACHE enables FPU operand cache on IBM # BlueLightning CPU. It works only with Cyrix FPU, and this option # should not be used with Intel FPU. # # CPU_BTB_EN enables branch target buffer on Cyrix 5x86 (NOTE 1). # # CPU_CYRIX_NO_LOCK enables weak locking for the entire address space # of Cyrix 6x86 and 6x86MX CPUs by setting the NO_LOCK bit of CCR1. # Otherwise, the NO_LOCK bit of CCR1 is cleared. (NOTE 3) # # CPU_DIRECT_MAPPED_CACHE sets L1 cache of Cyrix 486DLC CPU in direct # mapped mode. Default is 2-way set associative mode. # # CPU_DISABLE_5X86_LSSER disables load store serialize (i.e., enables # reorder). This option should not be used if you use memory mapped # I/O device(s). # # CPU_DISABLE_CMPXCHG disables the CMPXCHG instruction on > i386 IA32 # machines. VmWare seems to emulate this instruction poorly, causing # the guest OS to run very slowly. Enabling this with an SMP kernel # will cause the kernel to be unusable. # # CPU_DISABLE_SSE explicitly prevents I686_CPU from turning on SSE. # # CPU_ELAN enables support for AMDs ElanSC520 CPU. # CPU_ELAN_PPS enables precision timestamp code. # CPU_ELAN_XTAL sets the clock crystal frequency in Hz. # # CPU_ENABLE_LONGRUN enables support for Transmeta Crusoe LongRun # technology which allows to restrict power consumption of the CPU by # using group of hw.crusoe.* sysctls. # # CPU_ENABLE_SSE enables SSE/MMX2 instructions support. This is default # on I686_CPU and above. # # CPU_ENABLE_TCC enables Thermal Control Circuitry (TCC) found in some # Pentium(tm) 4 and (possibly) later CPUs. When enabled and detected, # TCC supports restricting power consumption using the hw.p4tcc.* # sysctls. This operates independently of SpeedStep and is useful on # systems where other mechanisms such as apm(4) or acpi(4) don't work. # # CPU_FASTER_5X86_FPU enables faster FPU exception handler. # # CPU_GEODE is for the SC1100 Geode embedded processor. This option # is necessary because the i8254 timecounter is toast. # # CPU_I486_ON_386 enables CPU cache on i486 based CPU upgrade products # for i386 machines. # # CPU_IORT defines I/O clock delay time (NOTE 1). Default values of # I/O clock delay time on Cyrix 5x86 and 6x86 are 0 and 7,respectively # (no clock delay). # # CPU_L2_LATENCY specifies the L2 cache latency value. This option is used # only when CPU_PPRO2CELERON is defined and Mendocino Celeron is detected. # The default value is 5. # # CPU_LOOP_EN prevents flushing the prefetch buffer if the destination # of a jump is already present in the prefetch buffer on Cyrix 5x86(NOTE # 1). # # CPU_PPRO2CELERON enables L2 cache of Mendocino Celeron CPUs. This option # is useful when you use Socket 8 to Socket 370 converter, because most Pentium # Pro BIOSs do not enable L2 cache of Mendocino Celeron CPUs. # # CPU_RSTK_EN enables return stack on Cyrix 5x86 (NOTE 1). # # CPU_SOEKRIS enables support www.soekris.com hardware. # # CPU_SUSP_HLT enables suspend on HALT. If this option is set, CPU # enters suspend mode following execution of HALT instruction. # # CPU_UPGRADE_HW_CACHE eliminates unneeded cache flush instruction(s). # # CPU_WT_ALLOC enables write allocation on Cyrix 6x86/6x86MX and AMD # K5/K6/K6-2 CPUs. # # CYRIX_CACHE_WORKS enables CPU cache on Cyrix 486 CPUs with cache # flush at hold state. # # CYRIX_CACHE_REALLY_WORKS enables (1) CPU cache on Cyrix 486 CPUs # without cache flush at hold state, and (2) write-back CPU cache on # Cyrix 6x86 whose revision < 2.7 (NOTE 2). # # NO_F00F_HACK disables the hack that prevents Pentiums (and ONLY # Pentiums) from locking up when a LOCK CMPXCHG8B instruction is # executed. This option is only needed if I586_CPU is also defined, # and should be included for any non-Pentium CPU that defines it. # # NO_MEMORY_HOLE is an optimisation for systems with AMD K6 processors # which indicates that the 15-16MB range is *definitely* not being # occupied by an ISA memory hole. # # NOTE 1: The options, CPU_BTB_EN, CPU_LOOP_EN, CPU_IORT, # CPU_LOOP_EN and CPU_RSTK_EN should not be used because of CPU bugs. # These options may crash your system. # # NOTE 2: If CYRIX_CACHE_REALLY_WORKS is not set, CPU cache is enabled # in write-through mode when revision < 2.7. If revision of Cyrix # 6x86 >= 2.7, CPU cache is always enabled in write-back mode. # # NOTE 3: This option may cause failures for software that requires # locked cycles in order to operate correctly. # options CPU_ATHLON_SSE_HACK options CPU_BLUELIGHTNING_3X options CPU_BLUELIGHTNING_FPU_OP_CACHE options CPU_BTB_EN options CPU_DIRECT_MAPPED_CACHE options CPU_DISABLE_5X86_LSSER options CPU_DISABLE_CMPXCHG #options CPU_DISABLE_SSE options CPU_ELAN options CPU_ELAN_PPS options CPU_ELAN_XTAL=32768000 options CPU_ENABLE_LONGRUN options CPU_ENABLE_SSE options CPU_ENABLE_TCC options CPU_FASTER_5X86_FPU options CPU_GEODE options CPU_I486_ON_386 options CPU_IORT options CPU_L2_LATENCY=5 options CPU_LOOP_EN options CPU_PPRO2CELERON options CPU_RSTK_EN options CPU_SOEKRIS options CPU_SUSP_HLT options CPU_UPGRADE_HW_CACHE options CPU_WT_ALLOC options CYRIX_CACHE_WORKS options CYRIX_CACHE_REALLY_WORKS #options NO_F00F_HACK # Debug options options NPX_DEBUG # enable npx debugging # # PERFMON causes the driver for Pentium/Pentium Pro performance counters # to be compiled. See perfmon(4) for more information. # options PERFMON ##################################################################### # NETWORKING OPTIONS # # DEVICE_POLLING adds support for mixed interrupt-polling handling # of network device drivers, which has significant benefits in terms # of robustness to overloads and responsivity, as well as permitting # accurate scheduling of the CPU time between kernel network processing # and other activities. The drawback is a moderate (up to 1/HZ seconds) # potential increase in response times. # It is strongly recommended to use HZ=1000 or 2000 with DEVICE_POLLING # to achieve smoother behaviour. # Additionally, you can enable/disable polling at runtime with the # sysctl variable kern.polling.enable (defaults off), and select # the CPU fraction reserved to userland with the sysctl variable # kern.polling.user_frac (default 50, range 0..100). # # Not all device drivers support this mode of operation at the time of # this writing. See polling(4) for more details. options DEVICE_POLLING ##################################################################### # CLOCK OPTIONS # The following options are used for debugging clock behavior only, and # should not be used for production systems. # CLK_CALIBRATION_LOOP causes clock calibration to be run in a loop at # startup until the user presses a key. (The i8254 clock is always # calibrated relative to the RTC (mc146818a) and this option causes the # calibration to be repeated.) options CLK_CALIBRATION_LOOP # CLK_USE_I8254_CALIBRATION causes the calibrated frequency of the i8254 # clock to actually be used. options CLK_USE_I8254_CALIBRATION ##################################################################### # MISCELLANEOUS DEVICES AND OPTIONS device speaker #Play IBM BASIC-style noises out your speaker hint.speaker.0.at="isa" hint.speaker.0.port="0x61" device gzip #Exec gzipped a.out's. REQUIRES COMPAT_AOUT! device apm_saver # Requires APM ##################################################################### # HARDWARE BUS CONFIGURATION # # ISA bus # device isa # Required by npx(4) # # Options for `isa': # # AUTO_EOI_1 enables the `automatic EOI' feature for the master 8259A # interrupt controller. This saves about 0.7-1.25 usec for each interrupt. # This option breaks suspend/resume on some portables. # # AUTO_EOI_2 enables the `automatic EOI' feature for the slave 8259A # interrupt controller. This saves about 0.7-1.25 usec for each interrupt. # Automatic EOI is documented not to work for for the slave with the # original i8259A, but it works for some clones and some integrated # versions. # # MAXMEM specifies the amount of RAM on the machine; if this is not # specified, FreeBSD will first read the amount of memory from the CMOS # RAM, so the amount of memory will initially be limited to 64MB or 16MB # depending on the BIOS. If the BIOS reports 64MB, a memory probe will # then attempt to detect the installed amount of RAM. If this probe # fails to detect >64MB RAM you will have to use the MAXMEM option. # The amount is in kilobytes, so for a machine with 128MB of RAM, it would # be 131072 (128 * 1024). # # BROKEN_KEYBOARD_RESET disables the use of the keyboard controller to # reset the CPU for reboot. This is needed on some systems with broken # keyboard controllers. options AUTO_EOI_1 #options AUTO_EOI_2 options MAXMEM=(128*1024) #options BROKEN_KEYBOARD_RESET # # EISA bus # # The EISA bus device is `eisa'. It provides auto-detection and # configuration support for all devices on the EISA bus. device eisa # By default, only 10 EISA slots are probed, since the slot numbers # above clash with the configuration address space of the PCI subsystem, # and the EISA probe is not very smart about this. This is sufficient # for most machines, but in particular the HP NetServer LC series comes # with an onboard AIC7770 dual-channel SCSI controller on EISA slot #11, # thus you need to bump this figure to 12 for them. options EISA_SLOTS=12 # # MCA bus: # # The MCA bus device is `mca'. It provides auto-detection and # configuration support for all devices on the MCA bus. # No hints are required for MCA. device mca # # PCI bus & PCI options: # device pci # # AGP GART support device agp ##################################################################### # HARDWARE DEVICE CONFIGURATION # To include support for VGA VESA video modes options VESA # Turn on extra debugging checks and output for VESA support. options VESA_DEBUG # The pcvt console driver (vt220 compatible). device vt hint.vt.0.at="isa" options XSERVER # support for running an X server on vt options FAT_CURSOR # start with block cursor # This PCVT option is for keyboards such as those used on really old ThinkPads options PCVT_SCANSET=2 # Other PCVT options are documented in pcvt(4). options PCVT_24LINESDEF options PCVT_CTRL_ALT_DEL options PCVT_META_ESC options PCVT_NSCREENS=9 options PCVT_PRETTYSCRNS options PCVT_SCREENSAVER options PCVT_USEKBDSEC options PCVT_VT220KEYB options PCVT_GREENSAVER # # The Numeric Processing eXtension driver. In addition to this, you # may configure a math emulator (see above). If your machine has a # hardware FPU and the kernel configuration includes the npx device # *and* a math emulator compiled into the kernel, the hardware FPU # will be used, unless it is found to be broken or unless "flags" to # npx0 includes "0x08", which requests preference for the emulator. device npx hint.npx.0.flags="0x0" hint.npx.0.irq="13" # # `flags' for npx0: # 0x01 don't use the npx registers to optimize bcopy. # 0x02 don't use the npx registers to optimize bzero. # 0x04 don't use the npx registers to optimize copyin or copyout. # 0x08 use emulator even if hardware FPU is available. # The npx registers are normally used to optimize copying and zeroing when # all of the following conditions are satisfied: # I586_CPU is an option # the cpu is an i586 (perhaps not a Pentium) # the probe for npx0 succeeds # INT 16 exception handling works. # Then copying and zeroing using the npx registers is normally 30-100% faster. # The flags can be used to control cases where it doesn't work or is slower. # Setting them at boot time using userconfig works right (the optimizations # are not used until later in the bootstrap when npx0 is attached). # Flag 0x08 automatically disables the i586 optimized routines. # # # Optional devices: # # 3Dfx Voodoo Graphics, Voodoo II /dev/3dfx CDEV support. This will create # the /dev/3dfx0 device to work with glide implementations. This should get # linked to /dev/3dfx and /dev/voodoo. Note that this is not the same as # the tdfx DRI module from XFree86 and is completely unrelated. # # To enable Linuxulator support, one must also include COMPAT_LINUX in the # config as well, or you will not have the dependencies. The other option # is to load both as modules. device tdfx # Enable 3Dfx Voodoo support options TDFX_LINUX # Enable Linuxulator support # # ACPI support using the Intel ACPI Component Architecture reference # implementation. # # ACPI_DEBUG enables the use of the debug.acpi.level and debug.acpi.layer # kernel environment variables to select initial debugging levels for the # Intel ACPICA code. (Note that the Intel code must also have USE_DEBUGGER # defined when it is built). # # ACPI_MAX_THREADS sets the number of task threads started. # # ACPI_NO_SEMAPHORES makes the AcpiOs*Semaphore routines a no-op. # # ACPICA_PEDANTIC enables strict checking of AML. Our default is to # relax these checks to allow code generated by the Microsoft compiler # to still execute. # # Note that building ACPI into the kernel is deprecated; the module is # normally loaded automatically by the loader. device acpi options ACPI_DEBUG options ACPI_MAX_THREADS=1 #!options ACPI_NO_SEMAPHORES #!options ACPICA_PEDANTIC # ACPI Asus Extras (LCD backlight/brightness, video output, etc.) device acpi_asus # ACPI Toshiba Extras (LCD backlight/brightness, video output, etc.) device acpi_toshiba # ACPI Video Extensions (LCD backlight/brightness, video output, etc.) device acpi_video # DRM options: # mgadrm: AGP Matrox G200, G400, G450, G550 # r128drm: ATI Rage 128 # radeondrm: ATI Radeon up to 9000/9100 # sisdrm: SiS 300/305,540,630 # tdfxdrm: 3dfx Voodoo 3/4/5 and Banshee # DRM_DEBUG: include debug printfs, very slow # # mga requires AGP in the kernel, and it is recommended # for AGP r128 and radeon cards. device mgadrm device "r128drm" device radeondrm device sisdrm device tdfxdrm options DRM_DEBUG # M-systems DiskOnchip products see src/sys/contrib/dev/fla/README device fla hint.fla.0.at="isa" # # mse: Logitech and ATI InPort bus mouse ports device mse hint.mse.0.at="isa" hint.mse.0.port="0x23c" hint.mse.0.irq="5" # # Network interfaces: # # ar: Arnet SYNC/570i hdlc sync 2/4 port V.35/X.21 serial driver # (requires sppp) # arl: Aironet Arlan 655 wireless adapters. # ath: Atheros a/b/g WiFi adapters (requires ath_hal and wlan) # cp: Cronyx Tau-PCI sync single/dual/four port # V.35/RS-232/RS-530/RS-449/X.21/G.703/E1/E3/T3/STS-1 # serial adaptor (requires sppp (default), or NETGRAPH if # NETGRAPH_CRONYX is configured) # ctau: Cronyx Tau sync dual port V.35/RS-232/RS-530/RS-449/X.21/G.703/E1 # serial adaptor (requires sppp (default), or NETGRAPH if # NETGRAPH_CRONYX is configured) # cx: Cronyx Sigma multiport sync/async adapter (requires sppp (default), # or NETGRAPH if NETGRAPH_CRONYX is configured) # ed: Western Digital and SMC 80xx; Novell NE1000 and NE2000; 3Com 3C503 # HP PC Lan+, various PC Card devices (refer to etc/defaults/pccard.conf) # (requires miibus) # el: 3Com 3C501 (slow!) # ie: AT&T StarLAN 10 and EN100; 3Com 3C507; unknown NI5210; # Intel EtherExpress # lnc: Lance/PCnet cards (Isolan, Novell NE2100, NE32-VL, AMD Am7990 and # Am79C960) # oltr: Olicom ISA token-ring adapters OC-3115, OC-3117, OC-3118 and OC-3133. # Olicom PCI token-ring adapters OC-3136, OC-3137, OC-3139, OC-3140, # OC-3141, OC-3540 and OC-3250. # sbni: Granch SBNI12-xx ISA and PCI adapters # sr: RISCom/N2 hdlc sync 1/2 port V.35/X.21 serial driver (requires sppp) # wl: Lucent Wavelan (ISA card only). # Order for ISA/EISA devices is important here device ar hint.ar.0.at="isa" hint.ar.0.port="0x300" hint.ar.0.irq="10" hint.ar.0.maddr="0xd0000" device arl hint.arl.0.at="isa" hint.arl.0.irq="9" hint.arl.0.maddr="0xd0000" device cp device ctau hint.ctau.0.at="isa" hint.ctau.0.port="0x240" hint.ctau.0.irq="15" hint.ctau.0.drq="7" device cx hint.cx.0.at="isa" hint.cx.0.port="0x240" hint.cx.0.irq="15" hint.cx.0.drq="7" #options NETGRAPH_CRONYX # Enable NETGRAPH support for Cronyx adapter(s) device ed #options ED_NO_MIIBUS # Disable ed miibus support hint.ed.0.at="isa" hint.ed.0.port="0x280" hint.ed.0.irq="5" hint.ed.0.maddr="0xd8000" device el 1 hint.el.0.at="isa" hint.el.0.port="0x300" hint.el.0.irq="9" device ie # Hints only required for Starlan hint.ie.2.at="isa" hint.ie.2.port="0x300" hint.ie.2.irq="5" hint.ie.2.maddr="0xd0000" device lnc hint.lnc.0.at="isa" hint.lnc.0.port="0x280" hint.lnc.0.irq="10" hint.lnc.0.drq="0" device sbni hint.sbni.0.at="isa" hint.sbni.0.port="0x210" hint.sbni.0.irq="0xefdead" hint.sbni.0.flags="0" device sr hint.sr.0.at="isa" hint.sr.0.port="0x300" hint.sr.0.irq="5" hint.sr.0.maddr="0xd0000" device oltr hint.oltr.0.at="isa" device wl hint.wl.0.at="isa" hint.wl.0.port="0x300" options WLCACHE # enables the signal-strength cache options WLDEBUG # enables verbose debugging output device ath device ath_hal # Atheros HAL (includes binary component) #device wlan # 802.11 layer # # ATA raid adapters # device pst # # 3ware 9000 series PATA/SATA RAID controller driver and options. # The driver is implemented as a SIM, and so, needs the CAM infrastructure. # options TWA_DEBUG # 0-10; 10 prints the most messages. options TWA_FLASH_FIRMWARE # firmware image bundled when defined. device twa # 3ware 9000 series PATA/SATA RAID # # SCSI host adapters: # # ncv: NCR 53C500 based SCSI host adapters. # nsp: Workbit Ninja SCSI-3 based PC Card SCSI host adapters. # stg: TMC 18C30, 18C50 based SCSI host adapters. device ncv device nsp device stg hint.stg.0.at="isa" hint.stg.0.port="0x140" hint.stg.0.port="11" # # Adaptec FSA RAID controllers, including integrated DELL controllers, # the Dell PERC 2/QC and the HP NetRAID-4M device aac device aacp # SCSI Passthrough interface (optional, CAM required) # # IBM (now Adaptec) ServeRAID controllers device ips # # SafeNet crypto driver: can be moved to the MI NOTES as soon as # it's tested on a big-endian machine # device safe # SafeNet 1141 options SAFE_DEBUG # enable debugging support: hw.safe.debug options SAFE_RNDTEST # enable rndtest support ##################################################################### # # Miscellaneous hardware: # # apm: Laptop Advanced Power Management (experimental) # pmtimer: Timer device driver for power management events (APM or ACPI) # cy: Cyclades serial driver # digi: Digiboard driver # spic: Sony Programmable I/O controller (VAIO notebooks) # Notes on APM # The flags takes the following meaning for apm0: # 0x0020 Statclock is broken. # Notes on the Specialix SI/XIO driver: # The host card is memory, not IO mapped. # The Rev 1 host cards use a 64K chunk, on a 32K boundary. # The Rev 2 host cards use a 32K chunk, on a 32K boundary. # The cards can use an IRQ of 11, 12 or 15. # Notes on the Sony Programmable I/O controller # This is a temporary driver that should someday be replaced by something # that hooks into the ACPI layer. The device is hooked to the PIIX4's # General Device 10 decoder, which means you have to fiddle with PCI # registers to map it in, even though it is otherwise treated here as # an ISA device. At the moment, the driver polls, although the device # is capable of generating interrupts. It largely undocumented. # The port location in the hint is where you WANT the device to be # mapped. 0x10a0 seems to be traditional. At the moment the jogdial # is the only thing truly supported, but apparently a fair percentage # of the Vaio extra features are controlled by this device. device apm hint.apm.0.flags="0x20" device pmtimer # Adjust system timer at wakeup time device cy options CY_PCI_FASTINTR # Use with cy_pci unless irq is shared hint.cy.0.at="isa" hint.cy.0.irq="10" hint.cy.0.maddr="0xd4000" hint.cy.0.msize="0x2000" device digi hint.digi.0.at="isa" hint.digi.0.port="0x104" hint.digi.0.maddr="0xd0000" # BIOS & FEP/OS components of device digi. device digi_CX device digi_CX_PCI device digi_EPCX device digi_EPCX_PCI device digi_Xe device digi_Xem device digi_Xr device spic hint.spic.0.at="isa" hint.spic.0.port="0x10a0" # sx device is i386 and pc98 only at the moment. device sx options SX_DEBUG # HOT1 Xilinx 6200 card (http://www.vcc.com/) device xrpu # # Laptop/Notebook options: # # See also: # apm under `Miscellaneous hardware' # above. # For older notebooks that signal a powerfail condition (external # power supply dropped, or battery state low) by issuing an NMI: options POWERFAIL_NMI # make it beep instead of panicing # # I2C Bus # # Philips i2c bus support is provided by the `iicbus' device. # # Supported interfaces: # pcf Philips PCF8584 ISA-bus controller # device pcf hint.pcf.0.at="isa" hint.pcf.0.port="0x320" hint.pcf.0.irq="5" #--------------------------------------------------------------------------- # ISDN4BSD # # See /usr/share/examples/isdn/ROADMAP for an introduction to isdn4bsd. # # i4b passive ISDN cards support contains the following hardware drivers: # # isic - Siemens/Infineon ISDN ISAC/HSCX/IPAC chipset driver # iwic - Winbond W6692 PCI bus ISDN S/T interface controller # ifpi - AVM Fritz!Card PCI driver # ifpi2 - AVM Fritz!Card PCI version 2 driver # ihfc - Cologne Chip HFC ISA/ISA-PnP chipset driver # ifpnp - AVM Fritz!Card PnP driver # itjc - Siemens ISAC / TJNet Tiger300/320 chipset # # i4b active ISDN cards support contains the following hardware drivers: # # iavc - AVM B1 PCI, AVM B1 ISA, AVM T1 # # Note that the ``options'' (if given) and ``device'' lines must BOTH # be uncommented to enable support for a given card ! # # In addition to a hardware driver (and probably an option) the mandatory # ISDN protocol stack devices and the mandatory support device must be # enabled as well as one or more devices from the optional devices section. # #--------------------------------------------------------------------------- # isic driver (Siemens/Infineon chipsets) # device isic # # ISA bus non-PnP Cards: # ---------------------- # # Teles S0/8 or Niccy 1008 options TEL_S0_8 hint.isic.0.at="isa" hint.isic.0.maddr="0xd0000" hint.isic.0.irq="5" hint.isic.0.flags="1" # # Teles S0/16 or Creatix ISDN-S0 or Niccy 1016 options TEL_S0_16 hint.isic.0.at="isa" hint.isic.0.port="0xd80" hint.isic.0.maddr="0xd0000" hint.isic.0.irq="5" hint.isic.0.flags="2" # # Teles S0/16.3 options TEL_S0_16_3 hint.isic.0.at="isa" hint.isic.0.port="0xd80" hint.isic.0.irq="5" hint.isic.0.flags="3" # # AVM A1 or AVM Fritz!Card options AVM_A1 hint.isic.0.at="isa" hint.isic.0.port="0x340" hint.isic.0.irq="5" hint.isic.0.flags="4" # # USRobotics Sportster ISDN TA intern options USR_STI hint.isic.0.at="isa" hint.isic.0.port="0x268" hint.isic.0.irq="5" hint.isic.0.flags="7" # # ITK ix1 Micro ( < V.3, non-PnP version ) options ITKIX1 hint.isic.0.at="isa" hint.isic.0.port="0x398" hint.isic.0.irq="10" hint.isic.0.flags="18" # # ELSA PCC-16 options ELSA_PCC16 hint.isic.0.at="isa" hint.isic.0.port="0x360" hint.isic.0.irq="10" hint.isic.0.flags="20" # # ISA bus PnP Cards: # ------------------ # # Teles S0/16.3 PnP options TEL_S0_16_3_P # # Creatix ISDN-S0 P&P options CRTX_S0_P # # Dr. Neuhaus Niccy Go@ options DRN_NGO # # Sedlbauer Win Speed options SEDLBAUER # # Dynalink IS64PH options DYNALINK # # ELSA QuickStep 1000pro ISA options ELSA_QS1ISA # # Siemens I-Surf 2.0 options SIEMENS_ISURF2 # # Asuscom ISDNlink 128K ISA options ASUSCOM_IPAC # # Eicon Diehl DIVA 2.0 and 2.02 options EICON_DIVA # # Compaq Microcom 610 ISDN card (Compaq series PSB2222I) options COMPAQ_M610 # # PCI bus Cards: # -------------- # # ELSA MicroLink ISDN/PCI (same as ELSA QuickStep 1000pro PCI) options ELSA_QS1PCI # #--------------------------------------------------------------------------- # ifpnp driver for AVM Fritz!Card PnP # # AVM Fritz!Card PnP device ifpnp # #--------------------------------------------------------------------------- # ihfc driver for Cologne Chip ISA chipsets (experimental!) # # Teles 16.3c ISA PnP # AcerISDN P10 ISA PnP # TELEINT ISDN SPEED No.1 device ihfc # #--------------------------------------------------------------------------- # ifpi driver for AVM Fritz!Card PCI # # AVM Fritz!Card PCI device ifpi # #--------------------------------------------------------------------------- # ifpi2 driver for AVM Fritz!Card PCI version 2 # # AVM Fritz!Card PCI version 2 device "ifpi2" # #--------------------------------------------------------------------------- # iwic driver for Winbond W6692 chipset # # ASUSCOM P-IN100-ST-D (and other Winbond W6692 based cards) device iwic # #--------------------------------------------------------------------------- # itjc driver for Siemens ISAC / TJNet Tiger300/320 chipset # # Traverse Technologies NETjet-S # Teles PCI-TJ device itjc # #--------------------------------------------------------------------------- # iavc driver (AVM active cards, needs i4bcapi driver!) # device iavc # # AVM B1 ISA bus (PnP mode not supported!) # ---------------------------------------- hint.iavc.0.at="isa" hint.iavc.0.port="0x150" hint.iavc.0.irq="5" # #--------------------------------------------------------------------------- # ISDN Protocol Stack - mandatory for all hardware drivers # # Q.921 / layer 2 - i4b passive cards D channel handling device "i4bq921" # # Q.931 / layer 3 - i4b passive cards D channel handling device "i4bq931" # # layer 4 - i4b common passive and active card handling device "i4b" # #--------------------------------------------------------------------------- # ISDN devices - mandatory for all hardware drivers # # userland driver to do ISDN tracing (for passive cards only) device "i4btrc" 4 # # userland driver to control the whole thing device "i4bctl" # #--------------------------------------------------------------------------- # ISDN devices - optional # # userland driver for access to raw B channel device "i4brbch" 4 # # userland driver for telephony device "i4btel" 2 # # network driver for IP over raw HDLC ISDN device "i4bipr" 4 # enable VJ header compression detection for ipr i/f options IPR_VJ # enable logging of the first n IP packets to isdnd (n=32 here) options IPR_LOG=32 # # network driver for sync PPP over ISDN; requires an equivalent # number of sppp device to be configured device "i4bisppp" 4 # # B-channel interface to the netgraph subsystem device "i4bing" 2 # # CAPI driver needed for active ISDN cards (see iavc driver above) device "i4bcapi" # #--------------------------------------------------------------------------- # # System Management Bus (SMB) # options ENABLE_ALART # Control alarm on Intel intpm driver # # Set the number of PV entries per process. Increasing this can # stop panics related to heavy use of shared memory. However, that can # (combined with large amounts of physical memory) cause panics at # boot time due the kernel running out of VM space. # # If you're tweaking this, you might also want to increase the sysctls # "vm.v_free_min", "vm.v_free_reserved", and "vm.v_free_target". # # The value below is the one more than the default. # options PMAP_SHPGPERPROC=201 # # Change the size of the kernel virtual address space. Due to # constraints in loader(8) on i386, this must be a multiple of 4. # 256 = 1 GB of kernel address space. Increasing this also causes # a reduction of the address space in user processes. 512 splits # the 4GB cpu address space in half (2GB user, 2GB kernel). # options KVA_PAGES=260 ##################################################################### # ABI Emulation # Enable iBCS2 runtime support for SCO and ISC binaries options IBCS2 # Emulate spx device for client side of SVR3 local X interface options SPX_HACK # Enable Linux ABI emulation options COMPAT_LINUX # Enable i386 a.out binary support options COMPAT_AOUT # Enable the linux-like proc filesystem support (requires COMPAT_LINUX # and PSEUDOFS) options LINPROCFS # # SysVR4 ABI emulation # # The svr4 ABI emulator can be statically compiled into the kernel or loaded as # a KLD module. # The STREAMS network emulation code can also be compiled statically or as a # module. If loaded as a module, it must be loaded before the svr4 module # (the /usr/sbin/svr4 script does this for you). If compiling statically, # the `streams' device must be configured into any kernel which also # specifies COMPAT_SVR4. It is possible to have a statically-configured # STREAMS device and a dynamically loadable svr4 emulator; the /usr/sbin/svr4 # script understands that it doesn't need to load the `streams' module under # those circumstances. # Caveat: At this time, `options KTRACE' is required for the svr4 emulator # (whether static or dynamic). # options COMPAT_SVR4 # build emulator statically options DEBUG_SVR4 # enable verbose debugging device streams # STREAMS network driver (required for svr4). ##################################################################### # VM OPTIONS # Disable the 4 MByte page PSE CPU feature. The PSE feature allows the # kernel to use a 4 MByte pages to map the kernel instead of 4k pages. # This saves on the amount of memory needed for page tables needed to # map the kernel. You should only disable this feature as a temporary # workaround if you are having problems with it enabled. # #options DISABLE_PSE # Disable the global pages PGE CPU feature. The PGE feature allows pages # to be marked with the PG_G bit. TLB entries for these pages are not # flushed from the cache when %cr3 is reloaded. This can make context # switches less expensive. You should only disable this feature as a # temporary workaround if you are having problems with it enabled. # #options DISABLE_PG_G # KSTACK_PAGES is the number of memory pages to assign to the kernel # stack of each thread. options KSTACK_PAGES=3 ##################################################################### # More undocumented options for linting. # Note that documenting these are not considered an affront. options FB_INSTALL_CDEV # install a CDEV entry in /dev # PECOFF module (Win32 Execution Format) options PECOFF_SUPPORT options PECOFF_DEBUG options I4B_SMP_WORKAROUND options I586_PMC_GUPROF=0x70000 options KBDIO_DEBUG=2 options KBD_MAXRETRY=4 options KBD_MAXWAIT=6 options KBD_RESETDELAY=201 options PSM_DEBUG=1 options TIMER_FREQ=((14318182+6)/12) options VM_KMEM_SIZE options VM_KMEM_SIZE_MAX options VM_KMEM_SIZE_SCALE