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|CAMDEBUG||This option compiles in all the CAM debugging printf code. This will not actually cause any debugging information to be printed out when included by itself. See below for details.|
|CAM_MAX_HIGHPOWER=4||This sets the maximum allowable number of concurrent "high power" commands. A "high power" command is a command that takes more electrical power than most to complete. An example of this is the SCSI START UNIT command. Starting a disk often takes significantly more electrical power than normal operation. This option allows the user to specify how many concurrent high power commands may be outstanding without overloading the power supply on his computer.|
|This eliminates text descriptions of each SCSI Additional Sense Code and Additional Sense Code Qualifier pair. Since this is a fairly large text database, eliminating it reduces the size of the kernel somewhat. This is primarily necessary for boot floppies and other low disk space or low memory space environments. In most cases, though, this should be enabled, since it speeds the interpretation of SCSI error messages. Do not let the "kernel bloat" zealots get to you -- leave the sense descriptions in your kernel!|
|SCSI_NO_OP_STRINGS||This disables text descriptions of each SCSI opcode. This option, like the sense string option above, is primarily useful for environments like a boot floppy where kernel size is critical. Enabling this option for normal use is not recommended, since it slows debugging of SCSI problems.|
|SCSI_DELAY=8000||This is the SCSI "bus settle delay." In CAM, it is specified in milliseconds, not seconds like the old SCSI layer used to do. When the kernel boots, it sends a bus reset to each SCSI bus to tell each device to reset itself to a default set of transfer negotiations and other settings. Most SCSI devices need some amount of time to recover from a bus reset. Newer disks may need as little as 100ms, while old, slow devices may need much longer. If the SCSI_DELAY is not specified, it defaults to 2 seconds. The minimum allowable value for SCSI_DELAY is "100", or 100ms. One special case is that if the SCSI_DELAY is set to 0, that will be taken to mean the "lowest possible value." In that case, the SCSI_DELAY will be reset to 100ms.|
All devices and buses support dynamic allocation so that an upper number of devices and controllers does not need to be configured; device da will suffice for any number of disk drivers.
The devices are either wired so they appear as a particular device unit or counted so that they appear as the next available unused unit.
Units are wired down by setting kernel environment hints. This is usually done either interactively from the loader(8), or automatically via the /boot/device.hints file. The basic syntax is:
Individual CAM bus numbers can be wired down to specific controllers with a config line similar to the following:
This assigns CAM bus number 0 to the ahd1 driver instance. For controllers supporting more than one bus, a particular bus can be assigned as follows:
This assigns CAM bus 0 to the bus 1 instance on ahc1. Peripheral drivers can be wired to a specific bus, target, and lun as so:
hint.da.0.at="scbus0" hint.da.0.target="0" hint.da.0.unit="0"
This assigns da0 to target 0, unit (lun) 0 of scbus 0. Omitting the target or unit hints will instruct CAM to treat them as wildcards and use the first respective counted instances. These examples can be combined together to allow a peripheral device to be wired to any particular controller, bus, target, and/or unit instance.
This also works with nvme(4) drives as well.
hint.nvme.4.at="pci7:0:0" hint.scbus.10.at="nvme4" hint.nda.10.at="scbus10" hint.nda.10.target="1" hint.nda.10.unit="12" hint.nda.11.at="scbus10" hint.nda.11.target="1" hint.nda.11.unit="2"
This assigns the NVMe card living at PCI bus 7 to scbus 10 (in PCIe, slot and function are rarely used and usually 0). The target for nda(4) devices is always 1. The unit is the namespace identifier from the drive. The namespace id 1 is exported as nda10 and namespace id 2 is exported as nda11.
When you have a mixture of wired down and counted devices then the counting begins with the first non-wired down unit for a particular type. That is, if you have a disk wired down as device da1, then the first non-wired disk shall come on line as da2.
|CAM_DEBUG_INFO||This flag enables general informational printfs for the device or devices in question.|
|CAM_DEBUG_TRACE||This flag enables function-level command flow tracing i.e., kernel printfs will happen at the entrance and exit of various functions.|
|This flag enables debugging output internal to various functions.|
|CAM_DEBUG_CDB||This flag will cause the kernel to print out all ATA and SCSI commands sent to a particular device or devices.|
|CAM_DEBUG_XPT||This flag will enable command scheduler tracing.|
|CAM_DEBUG_PERIPH||This flag will enable peripheral drivers messages.|
|CAM_DEBUG_PROBE||This flag will enable devices probe process tracing.|
Some of these flags, most notably CAM_DEBUG_TRACE and CAM_DEBUG_SUBTRACE, will produce kernel printfs in EXTREME numbers.
Users can enable debugging from their kernel config file, by using the following kernel config options:
|CAMDEBUG||This builds into the kernel all possible CAM debugging.|
|This allows to specify support for which debugging flags described above should be built into the kernel. Flags may be ORed together if the user wishes to see printfs for multiple debugging levels.|
|CAM_DEBUG_FLAGS||This allows to set the various debugging flags from a kernel config file.|
|CAM_DEBUG_BUS||Specify a bus to debug. To debug all buses, set this to -1.|
|CAM_DEBUG_TARGET||Specify a target to debug. To debug all targets, set this to -1.|
|CAM_DEBUG_LUN||Specify a lun to debug. To debug all luns, set this to -1.|
|CAM (4)||December 20, 2017|
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