1.1 hardware settings v2
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System Administration
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Key Knowledge Areas
1.Enable and disable integrated peripherals. 2.Configure systems with or without external peripherals such as keyboards. 3.Differentiate between the various types of mass storage devices. 4.Set the correct hardware ID for different devices, especially the boot device. 5.Know the differences between coldplug and hotplug devices. 6.Determine hardware resources for devices. 7.Tools and utilities to list various hardware information (e.g. lsusb, lspci, etc.) 8.Tools and utilities to manipulate USB devices 9.Conceptual understanding of sysfs, udev, hald, dbus
System Architecture
Determine and configure hardware settings
Terms and Utilities
/sys /proc/dev modprobe lsmod lspci lsusb
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BIOS settings
• Motherboard• CPU• RAM• Expansion slots
http://en.kioskea.net/contents/377-motherboard
Core Components
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BIOS settings
• Hard drive• Removable media drives• Power supply• Case
• Keyboard• Mouse• Monitor/Video• Sound• Printer
http://en.kioskea.net/contents/385-hard-drive
Core Components
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BIOS settings
A modern personal computer (or PC) system consists of a central processing unit(CPU) for performing calculations, along with some memory for storing the data that the processor is using.
To make such a device useful, we attach peripheral devices, such as keyboards, mice, displays, hard drives, CD or DVD drives, printers, scanners, and network cards, which allow us to enter, store, print, display, and transmit data.
The memory used by the processor is called Random Access Memory (RAM). In a typical PC, this memory is volatile, meaning that it requires power to keep its data. Turn off the PC and the memory is wiped clean.
When we turn off a PC, we turn it into a collection of hardware components that will do nothing until reprogrammed.
This reprogramming occurs when we turn on the machine; the process is called bootstrapping or booting the computer.
System and BIOS overview
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BIOS settings
The process of booting involves loading an operating system from an externalstorage device, such as a floppy disk, CD, DVD, hard drive, or memory key.
The program that does this initial loading is permanently stored in the computer and is called the Basic Input Output System (BIOS).
The BIOS is stored in non-volatile memory called Read Only Memory (ROM).
Bootstrap process and BIOS
Updating the BIOS meant replacing the ROM chip. Later, Electrically Erasable Programmable Read Only Memories (EEPROMs) were used. EEPROMs allowed BIOS upgrade in field with a diskette instead of special tools.
Today you will more often find a form of non-volatile memory -Flash memory, which is also used in digital cameras and memory keys. Flash memory also permits BIOS upgrades in the field.
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BIOS settings
Besides controlling initial bootup of a PC, today's BIOS programs usually permit a user to set or verify several configuration options on a system.
These include verifying installed features such as RAM, hard drive, optical drive, keyboard, mouse, and possibly onboard display, sound and network connections.
The user may enable or disable some features.
Bootstrap process and BIOS
Accessing the BIOS setup usually requires a keyboard attached to the system.
When a system is powered on a Power On Self Test or POST is performed.
On some systems you will be briefly prompted to press a particular key to enter setup otherwise normal bootup takes over.
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BIOS settings
BIOSEx. BIOS Setup
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BIOS settings
1. CMOS memory chip for BIOS settings (Complementary Metal Oxide Semiconductor).2. ROM chip containing the BIOS code3. Battery CMOS settings are not lost when the power goes off.
BIOS architecture
In recent times, the BIOS has been relegated to a more limited set of functions:•Power on self test. (P.O.S.T.) This includes testing the memory (although the test is not exhaustive).
•Putting the hardware in a sane an predictable state
(set display card's video; timing parameters to use text mode; setting power manag; initialising hd dsks)
• Chipset specific configuration for your machine (configuring the PCI bus and builtin peripherals)
• Loading the operating system from the disk (from floppy disk, IDE disk, SCSI, network ...)
• Providing basic I/O (keyboard, floppy, hard disk, CDROM).
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BIOS settings
The method of entering the BIOS setup program varies from BIOS manufacturer.Various computer vendors use different methods.
You should be able to enter the BIOS by pressing one of the following key combinations before, during or after the P.O.S.T. (usually after):
BIOS architecture
Del, F2, Ctrl+Alt+Esc, Ctrl+Alt+S, Ctrl+Alt+Ins, Ctrl+Alt+Del (reboot on most PC's), F1, F3, F10, Fn+F1 (laptop), Esc.
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Buses, ports, IRQs, and DMA
Peripheral devices, including those that may be built in to the system board,communicate with the CPU over a bus.
PCI and ISA buses /proc/{ioports,interrupts,dma,pci}
Common bus type is the Peripheral Component Interconnect or PCI bus Which superseded earlier Industry Standard Architecture or ISA bus.
ISA bus - AT bus after the IBM PC-AT first used in 1984. During transition from ISA to PCI bus, systems included both buses with slots.
ISA bus supports 8-bit and 16-bit cards, PCI bus support 32-bit and 64-bit devices.
Systems include Accelerated Graphics Port or AGP slot special slot based on the PCI 2.1 bus optimized for high bandwidth for graphics cards.
replaced by PCI Express or PCI-E bus which addresses limitations of original PCI design.
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Buses, ports, IRQs, and DMA
When Linux is running, there are a number of commands to determine what the BIOS has been doing to your hardware.
PCI and ISA buses /proc/{ioports,interrupts,dma,pci}
The /proc file system contains a number of virtual files which show the state of your hardware.
This is not a real filesystem on disk, but a "pseudo file system" which provides information about the running system.
the file /proc/pci contains information about the devices on the system's PCI bus.
Older versions of Linux kernel use /proc/pci to list devices plugged into the PCI bus.
Current versions use /sbin/lspci.
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Buses, ports, IRQs, and DMA/proc/pci
yourname@yourcomp~> cat /proc/pci
PCI devices found:Bus 0, device 0, function 0:Host bridge: Intel Corp. 82845G/GL [Brookdale-G] Chipset Host Bridge(rev 1).Prefetchable 32 bit memory at 0xd0000000 [0xdfffffff].Bus 0, device 2, function 0:VGA compatible controller: Intel Corp. 82845G/GL [Brookdale-G] ChipsetIntegrated Graphics Device (rev 1).IRQ 11.Prefetchable 32 bit memory at 0x88000000 [0x8fffffff].Non-prefetchable 32 bit memory at 0x80000000 [0x8007ffff].Bus 0, device 29, function 0:USB Controller: Intel Corp. 82801DB USB (Hub #1) (rev 1).IRQ 11.I/O at 0x1800 [0x181f]....//...Bus 2, device 8, function 0:Ethernet controller: Intel Corp. 82801BD PRO/100 VE (LOM) EthernetController (rev 129).IRQ 9.Master Capable. Latency=66. Min Gnt=8.Max Lat=56.Non-prefetchable 32 bit memory at 0xc0100000 [0xc0100fff].I/O at 0x2000 [0x203f].
Ex:
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Buses, ports, IRQs, and DMA/sbin/lspci
yourname@yourcomp~> /sbin/lspci
00:00.0 Host bridge: VIA Technologies, Inc. VT8501 [Apollo MVP4] (rev 03)00:01.0 PCI bridge: VIA Technologies, Inc. VT8501 [Apollo MVP4 AGP]00:07.0 ISA bridge: VIA Technologies, Inc. VT82C686 [Apollo Super South] (rev 19)00:07.1 IDE interface: VIA Technologies, Inc. VT82C586B PIPC Bus Master IDE (rev 06)00:07.2 USB Controller: VIA Technologies, Inc. USB (rev 0a)00:07.4 Non-VGA unclassified device: VIA Technologies, Inc. VT82C686 [Apollo SuperACPI] (rev 20)00:07.5 Multimedia audio controller: VIA Technologies, Inc. VT82C686 AC97 AudioController (rev 21)00:0a.0 CardBus bridge: O2 Micro, Inc. OZ6832/6833 Cardbus Controller (rev 34)00:0a.1 CardBus bridge: O2 Micro, Inc. OZ6832/6833 Cardbus Controller (rev 34)01:00.0 VGA compatible controller: Trident Microsystems CyberBlade/i7d (rev 5c)
Ex:
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Buses, ports, IRQs, and DMA
When CPU needs to communicate with peripheral device it does through IO port or sometimes just simply port.
When CPU wants to send data or control info to peripheral, it writes to a port.
When device has data or status ready for the CPU, the CPU reads the data or status from a port.
IO Ports /proc/{ioports,interrupts,dma,pci}
Most devices have more than one port associated with them, power of 2, as 8, 16 or 32. Data transfer is usually done a byte or two at a time.
Devices cannot share ports, so if you have ISA cards, you must ensure that each device has its own port or ports assigned. Originally, this was done using switches or jumpers on the card.
later ISA cards used a system called Plug and Play. PCI cards and later all have PnP configuration.
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Buses, ports, IRQs, and DMA
Within /proc file system, file /proc/ioports tells about IO ports available on system and in use by devices for which a kernel module is loaded.
If two devices use the same IO ports, then it is unlikely that they will work together. One of them needs to be reconfigured – either by changing jumper settings, plug and play settings, or reconfiguring internal peripherals.
IO Ports /proc/{ioports,interrupts,dma,pci}
Standard I/O Port Settings
1FO-1F8 - Hard Drive Controller, 16-bit ISA200-20F - Game Control210 - Game I/O220 - Soundcard278-27F - LPT22F8-2FF - COM2320-32F - Hard Drive Controller, 8-bit ISA378-37F - LPT13B0-3BF - Monochrome Graphics Adapter (MGA)3D0-3DF - Colour Graphics Adapter (CGA)3F0-3F7 - Floppy Controller3F8-3FF – COM1
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Buses, ports, IRQs, and DMA/proc/ioports
yourname@yourcomp~> cat /proc/ioports
0000-001f : dma10020-003f : pic10040-005f : timer0060-006f : keyboard0070-007f : rtc0080-008f : dma page reg00a0-00bf : pic200c0-00df : dma200f0-00ff : fpu0170-0177 : ide101f0-01f7 : ide003f8-03ff : serial(auto)0cf8-0cff : PCI conf11000-10ff : VIA Technologies, Inc. VT82C686 AC97 Audio Controller1000-10ff : via82cxxx_audio1400-141f : VIA Technologies, Inc. UHCI USB1400-141f : usb-uhci
Ex:
I/O port ranges are listed in hexadecimal. The kernel tracks their port numbers so that it can prevent unexpected interference in their operation (user space programs).
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Buses, ports, IRQs, and DMA
So how does the CPU know when the last output is finished or when data is waiting to be read?
Interrupts /proc/{ioports,interrupts,dma,pci}
this information is available in a status register which may be accessed by reading one (or more) of the IO ports associated with a device.
This as 2 problems:
1.CPU has to spend time checking the status
2.if the device has data coming from somewhere, such as an attached modem, the data must be read by the CPU in a timely fashion otherwise it might be overwritten by the next available data byte
The dual problems of not wasting unnecessary CPU cycles and ensuring that data isread or written in a timely fashion are addressed by the concept of interrupts.
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Buses, ports, IRQs, and DMA
Interrupts /proc/{ioports,interrupts,dma,pci}
Interrupts are also called Interrupt Requests or IRQs. When something happens in a device that CPU needs to know about, the device raises an interrupt and CPU temporarily stops whatever else it was doing to deal with the situation.
Standard IRQ Settings
IRQ 0 - System TimerIRQ 1 - KeyboardIRQ 2(9) - Video CardIRQ 3 - COM2, COM4IRQ 4 - COM1, COM3IRQ 5 - Available (LPT2 or Sound Card)IRQ 6 - Floppy Disk ControllerIRQ 7 - LPT1
Standard IRQ Settings
IRQ 8 - Real-Time ClockIRQ 9 - Redirected IRQ 2IRQ 10 - AvailableIRQ 11 - AvailableIRQ 12 - PS/2 MouseIRQ 13 - Math Co-ProcessorIRQ 14 - Hard Disk ControllerIRQ 15 – Available
Interrupt numbers are decimal in the range 0 through 15. Originally, each device had its own private IRQ
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Buses, ports, IRQs, and DMA/proc/interrupts
yourname@yourcomp~> cat /proc/interrupts
CPU00: 560557 XT-PIC timer1: 11392 XT-PIC keyboard2: 0 XT-PIC cascade5: 0 XT-PIC usb-uhci, via82cxxx8: 1 XT-PIC rtc10: 139 XT-PIC O2 Micro, Inc. 6832, O2 Micro, Inc.6832 (#2)12: 114626 XT-PIC PS/2 Mouse14: 37059 XT-PIC ide015: 1 XT-PIC ide1NMI: 0
Ex:
Today, devices share IRQs, so that when one interrupts the CPU, an interrupt handler checks to see if the interrupt is for it and, if not, passes it to the next handler in the chain.(whe must look in the bootstrap for the shared IRQs)
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Buses, ports, IRQs, and DMA
DMA /proc/{ioports,interrupts,dma,pci} Communication with peripheral devices through IO ports occurs a byte or two at a time. For a fast device, servicing interrupts that could be using a lot CPUs capability.
A faster method is to use Direct Memory Access or DMA.
Where a few IO instructions tell the device where in RAM to read or write data.
Then the DMA controller provides hardware management of the actual transfer ofdata between RAM and the peripheral device.
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Buses, ports, IRQs, and DMA/proc/dma
yourname@yourcomp~> cat /proc/dma
4: cascade
Ex:
Most devices will only request one of limited number of DMA channels when IO is actually happening. So the DMA File will frequently look empty.
(whe must look in the bootstrap for the request DMA)
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Buses, ports, IRQs, and DMA
boot messages viewMessages displayed during boot up correspond to kernel initializing the devices installed in the system. The messages are usually appended to var/log/messages, and can be displayed with dmesg after the system has booted up.
We can use the output to filter from the bootstrap messages about IRQs or DMA
dmesgyourname@yourcomp~> dmesg | grep -i irqPCI: Discovered primary peer bus 01 [IRQ]PCI: Using IRQ router PIIX [8086/24c0] at 00:1f.0PCI: Found IRQ 5 for device 00:1f.1PCI: Sharing IRQ 5 with 00:1d.2Serial driver version 5.05c (2001-07-08) with MANY_PORTS MULTIPORT … // …
Ex:
yourname@yourcomp~> dmesg | grep -i dmaide0: BM-DMA at 0x1860-0x1867, BIOS settings: hda:DMA, hdb:pioide1: BM-DMA at 0x1868-0x186f, BIOS settings: hdc:DMA, hdd:DMAhda: 312581808 sectors (160042 MB) w/8192KiB Cache,CHS=19457/255/63, UDMA(100)hdc: 398297088 sectors (203928 MB) w/7936KiB Cache,CHS=24792/255/63, UDMA(33)ehci-hcd 00:1d.7: enabled 64bit PCI DMA
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Plug and play
Early PCs allocated fixed port numbers and IRQs for particular devices, such askeyboard or parallel printer port. This made it difficult to add new devices or even run two devices of the same type such as two modems or two printers.
Plug and Play
The first serial port was usually called COM1 and the second COM2. Linux systems usually refer to these as ttyS0 and ttyS1. Some cards were configurable usually with hardware jumpers which allowed a modem to operate as COM1 or COM2.
As devices proliferated and the original space allocated for IO port addresses andIRQs became scarce, Plug and Play or PnP was developed.
The idea was to allow a device to tell the system how many and what kind of resources it needed and the BIOS to then tell the device which particular resources it should use.
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Plug and play
This semi-automatic configuration was introduced with the IBM PS/2 which used a bus architecture called microchannel.
Later, the idea, and the plug and play name were used for ISA cards, particularly modems and sound cards which were popular add-on cards.
PCI and later buses advanced the idea and devices are inherently plug and play.
Plug and Play
In ISA Cards:Ports cannot be shared between two devices; each device must have its own port. The same applies for DMA channels, and in general cannot share IRQs
You may be able to resolve conflicts using tools to reassign some of the ports or IRQs on non-PnP devices in order to get a working system.
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Plug and play
Prior to the 2.4 kernel, package called isapnptools allows to configure PnP devices.
isapnp command interprets a config file (/etc/isapnp.conf) to config PnP devices. This is usually done during the Linux boot process.
pnpdump command scans PnP devices and dumps a list of resources in file that the PnP cards need or would prefer to use.
The format of the file output is suitable for use by the isapnp command, once you uncomment the actual commands that you wish to use. man pages for isapnp and pnpdump
Plug and Play
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Plug and play
pnpdumpyourname@yourcomp# /sbin/pnpdump > /etc/isapnp.confEx:
Sound Card Config
For Kernel 2.2 and before: Use isapnptools. pnpdump dumps all the possible combinations of the devices. You then edit the file it produces, and it becomes your /etc/isapnp.conf file.
Plug and Play
The resulting file contains commented lines. Remove comments
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Plug and play
Plug and Play
# Card 1: (serial identifier 48 00 1b e3 d6 e4 00 8c 0e)# Vendor Id CTL00e4, Serial Number 1827799, checksum 0x48.# Version 1.0, Vendor version 1.0# ANSI string -->Creative SB AWE64 PnP<--# Vendor defined tag: 73 02 45 20(CONFIGURE CTL00e4/1827799 (LD 0# ANSI string -->Audio<--(INT 0 (IRQ 9(MODE +E)))(DMA 0 (CHANNEL 3))(DMA 1 (CHANNEL 7))(IO 0 (SIZE 16) (BASE 0x0220))(IO 1 (SIZE 2) (BASE 0x0330))(IO 2 (SIZE 4) (BASE 0x0388))(NAME "CTL00e4/1827798[0]{Audio }")# End dependent functions(ACT Y)))
/etc/isapnp.confEx:
Parameters [sb io=0x220, irq=9, dma=3, dma16=7, mpu_io=0x330, midi=0x388] must be loaded to the sound card module in: /etc/modules.conf after viewed with modprobe cmdOnce /etc/isapnp.conf exists, you can configure the card(s) to the chosen settings by running isapnp, and then load the sound module with modprobe
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Plug and play
Since the 2.4 kernel, the module isapnp handles the configuration of ISA PNP PnP support has been integrated into the Linux kernel.
And the isapnptools package has become obsolete. It was removed in May 2002 from RedHat 7.3.
You can use the lspnp command (part of kernel-pcmcia-cs package) to display information about PnP devices.
You will find this information in the /proc file system if the BIOS found PnP devices during initialization.
The file /proc/bus/pnp will contain this information. not be present on a PCI-only system.
Plug and Play
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IDE Hard drives
BIOS is involved in the usage of IDE disks:
1.BIOS must load the essential parts of the operating system from the disk during booting.
2.BIOS must provide correct information about the installed media to the operating system. This information is the number of cylinders, heads and sectors on the disk.
•In the past these used to correspond to nº. spinning platters, nº. magnetic read-write heads and density of the magnetic media. •Although most hard disks have 1 read-write head, the nº. reported depends on the size of the disk.
BIOS and IDE drive sizes
In order to do the task of loading the operating system, the operating system loader has to request data from exact locations on the disk.
Interrupt 13h BIOS function to read a sector of data from disk is accessed via software interrupt, interrupt 13h (hexadecimal). To read from disk using interrupt 13h, you specify exact head, cylinder and sector numbers.
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IDE Hard drives
IDE drives are formatted into sectors, data units of 512 bytes.
A drive might contain multiple rotating disk platters, so the sectors are arranged in concentric circles with each circle called a cylinder.
Data from a particular platter is read or written by a head.
To find data in a particular sector, the disk moves the head assembly to the cylinder, selects the appropriate head and waits for the right sector to come under the head.
This is the disk geometry notion or CHS (Cylinder, Head and Sector) addressing.
disk geometry
Disk geometry refers to the logical dimensions of the disk – how many cylinders, heads and sectors the disk controller can access.
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IDE Hard drives
Early BIOS implemented a limit to the size permitted for each of C, H and S valuesand DOS, implemented a different limitation.
During the 1990s, Disk sizes quickly outstripped the artificial CHS limitations imposed by BIOS and DOS.
Several intermediate strategies involved translating real CHS values to "virtual" values that would meet the constraints, either in the BIOS itself or by means of low level software routines such as Ontrack's Disk Manager software.
BIOS and IDE drive sizes
Even without the artificial limits of BIOS or DOS, the CHS design allows for up to65536 cylinders, 16 heads, and 255 sectors/track.
This limits the capacity to 267386880 sectors, or approximately 137 GB.
Note: disk capacities, unlike some other PC values, are measured in powers of 10, 1GB=1,000,000,000 bytes.
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IDE Hard drives
The solution was to have the system ignore the geometry and leave that to the drive to figure out.
The system, instead of asking for a CHS value simply asks for a Logical Block Address or LBA and the drive electronics figure out which real sector to read or write.
The process was standardized in 1996 with the adoption of the ATA-2 standard (ANSI standard X3.279-1996, AT Attachment Interface with Extensions).
BIOS and IDE drive sizes
BIOS is needed to boot a system, so booting from a hard drive requires that the BIOS understand enough of the disk layout to locate and load the initial program that will then load the full operating system.
An older BIOS that does not understand LBA disks will probably be limited to booting from within the first 1024 cylinders of a disk, or at least the first 1024 cylinders as the BIOS understands the disk geometry!
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IDE Hard drives
Many Linux partitioning tools will warn you that a partition extends beyond the 1024 cylinder limit
BIOS and IDE drive sizes
Summary of limitsThe various modes of accessing a disk are subject to the following limitations:
Method Disk size limit Cylinders BitsNormal mode (CHS addressing) 504Mb 1024 24Interrupt 13h 8.4Gb 1024 24Large mode (ECHS addressing) 8.4Gb 16384 24ATA interface 128Gb - 28Interrupt 13h extended 9.4 x 1021 bytes - 32LBA mode 9.4 x 1021 bytes - 32
There’s kernel patchs to address disks with up to 48 /64 bits.
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AHCI (Advanced Host Controller Interface) application programming interface that defines one mode of operation for SATA.Read more: Difference Between AHCI and IDE | Difference Between | AHCI vs IDE http://www.differencebetween.net/technology/difference-between-ahci-and-ide/#ixzz1kaVH2SiX
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IDE Hard drives
Disk with 250 GB.
BIOS view of a large LBA disk
Ex.
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IDE Hard drives
To show the disk available on a Linux system use the hdparm -I /dev/hda command.
Linux and IDE drive sizes
hdparm/dev/hda:ATA device, with non-removable mediaModel Number: Maxtor 6Y250P0Serial Number: Y638VBWEFirmware Revision: YAR41BW0Standards:Supported: 7 6 5 4Likely used: 7Configuration:Logical max currentcylinders 16383 65535heads 16 1sectors/track 63 63--CHS current addressable sectors: 4128705LBA user addressable sectors: 268435455LBA48 user addressable sectors: 490234752device size with M = 1024*1024: 239372 MBytesdevice size with M = 1000*1000: 251000 MBytes (251 GB).. // ..
Ex:
Note that CHS values limit addressing to 4,128,705 sectors and the LBA value is set to 268,435,455 sectors or 137GB. These values together imply that the real capacity is in the LBA48 value. This is 490,234,752 sectors or 251GB.
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IDE Hard drives
By default, a PC will boot from the first IDE drive in the system. systems have BIOS settings that will allow you to override this, but most will boot this way.
The system will first load a small piece of code from the master boot record and that will, in turn, provide information on which partition to boot. (Linux boot loaders)
Boot Order and MBR
Linux disk names
A important Linux file system, is the /dev filesystem. Like /proc, is a pseudo file system which describes the devices that are or could be on a Linux system.
Within /dev filesystem there are entries as /dev/hda, /dev/hda5, /dev/sda, /dev/sdb1, etc. There are entries for other device types, and disks they start with: /dev/hd or /dev/sd.
Devices that start with /dev/hd, such as /dev/hda or /dev/hda5 refer to IDE drives.
The 1st drive on 1st IDE controller is /dev/hda, the 2nd drive on 1st IDE controller is /dev/hdb;The 1st drive on 2st IDE controller is /dev/hdc, the 2nd drive on 2st IDE controller is /dev/hdd;
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IDE Hard drives/dev/hd? and /dev/sd? entries
yourname@yourcomp~> ls /dev/hd?
/dev/hda /dev/hdd /dev/hdg /dev/hdj /dev/hdm /dev/hdp /dev/hds/dev/hdb /dev/hde /dev/hdh /dev/hdk /dev/hdn /dev/hdq /dev/hdt/dev/hdc /dev/hdf /dev/hdi /dev/hdl /dev/hdo /dev/hdr
Ex:
yourname@yourcomp~> ls /dev/hd?
/dev/sda /dev/sde /dev/sdi /dev/sdm /dev/sdq /dev/sdu /dev/sdy/dev/sdb /dev/sdf /dev/sdj /dev/sdn /dev/sdr /dev/sdv /dev/sdz/dev/sdc /dev/sdg /dev/sdk /dev/sdo /dev/sds /dev/sdw/dev/sdd /dev/sdh /dev/sdl /dev/sdp /dev/sdt /dev/sdx
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IDE Hard drives
System has 2 IDE drives (hda and hdc) and a DVD-RW drive (hdd). No hdb, indicating that there is no second drive on the first IDE controller. Drive hdc is actually a container (or extended partition) for the logical partitions - Primary partition (hdc1) 4 logical partitions (hdc5, hdc6, hdc7, and hdc8).An IDE drive can have up to four primary partitions and an unlimited number of logical partitions .
Hard drives found during bootup
yourname@yourcomp~> dmesg | grep "[hs]d[a-z]"
Kernel command line: ro root=LABEL=RHEL3 hdd=ide-scsiide_setup: hdd=ide-scsiide0: BM-DMA at 0x1860-0x1867, BIOS settings: hda:DMA, hdb:pioide1: BM-DMA at 0x1868-0x186f, BIOS settings: hdc:DMA, hdd:DMAhda: WDC WD1600JB-00EVA0, ATA DISK drivehdc: Maxtor 6Y200P0, ATA DISK drivehdd: SONY DVD RW DRU-700A, ATAPI CD/DVD-ROM drivehda: attached ide-disk driver.hda: host protected area => 1hda: 312581808 sectors (160042 MB) w/8192KiB Cache,CHS=19457/255/63, UDMA(100)hdc: attached ide-disk driver.hdc: host protected area => 1hdc: 398297088 sectors (203928 MB) w/7936KiB Cache,CHS=24792/255/63, UDMA(33)hda: hda1 hda2 hda3 hda4 < hda5 hda6 hda7 hda8 hda9 hda10 hda11 >hdc: hdc1 < hdc5 hdc6 hdc7 hdc8 >hdd: attached ide-scsi driver.
Ex:
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IDE Hard drives
Historically, devices such as sda and sdb were SCSI disks. From 2.4 kernel, IDE CD and DVD devices were usually handled through SCSI emulation. Device often appeared in /dev as something like /dev/cdrom which was a symbolic link to the SCSI emulated device.
Hard drives found during bootup
yourname@yourcomp~> dmesg | grep "[hs]d[a-z]"
Kernel command line: ro root=LABEL=RHEL3 hdd=ide-scsiide_setup: hdd=ide-scsiide0: BM-DMA at 0x1860-0x1867, BIOS settings: hda:DMA, hdb:pioide1: BM-DMA at 0x1868-0x186f, BIOS settings: hdc:DMA, hdd:DMAhda: WDC WD1600JB-00EVA0, ATA DISK drivehdc: Maxtor 6Y200P0, ATA DISK drivehdd: SONY DVD RW DRU-700A, ATAPI CD/DVD-ROM drive..// ..hdd: attached ide-scsi driver.
Ex:
yourname@yourcomp~> ls -l /dev/cdromlrwxrwxrwx 1 root root 9 Jan 11 17:15 /dev/cdrom -> /dev/scd0
Ex:
Ex. show that /dev/cdrom is link to /dev/scd0 rather than to /dev/hdd as might have been expected.•Kernel parameter hdd=ide-scsi is the indicator that the ide-scsi driver was attached for hdd in scd
Today, both USB and SATA storage devices appear as sd, rather than hd, devices.
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Legacy peripherals
Peripherals such as serial or parallel ports that are usually integrated into a motherboard, and have seen some standard IO port and IRQ assignments.
Serial ports, in particular, have been used for connecting a variety of devices and they have a history of being hard to configure.
Legacy peripherals
With IEEE 1394 (Firewire) and USB devices, automatic configuration and hot plugging replaced ensuring correct serial or parallel port configuration.
A Legacy-free system does not support the standard serial or parallel ports. Neither does it support floppy drive or PS/2 connected keyboard or mouse.
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Legacy peripherals
The legacy serial ports are known as COM1 through COM4.
A system with a single serial port (originally 25-pin DB25 conn but now commonly a 9-pin DB9 conn) it will use default base address and IRQ for COM1 = IO port 3F8 and IRQ 4.
Serial ports (COMn)
Serial Ports Standard IO port addresses and IRQs:
Name Address IRQ Linux deviceCOM1 3F8-3FF 4 /dev/ttyS0COM2 2F8-2FF 3 /dev/ttyS1COM3 3E8-3EF 4 /dev/ttyS2COM4 2E8-2EF 3 /dev/ttyS3
Notice COM1 and COM3 share IRQ 4 and COM2 and COM4 share IRQ 3.Unless the driver and the device can actually share interrupt, or a device does not use interrupts, this means that systems will use only COM1 and COM2.
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Legacy peripherals
The legacy parallel ports are known as LPT1 through LPT4Usually only two are present.
A system with single parallel port will use default base address and IRQ for LPT1 = IO port 378 and IRQ 7.
Parallel ports (LPTn)
Parallel Ports Standard IO port addresses and IRQs:
Name Address IRQ Linux deviceLPT1 378-37F 7 /dev/lp0LPT2 278-27F 5 /dev/lp1LPT* 3BC-3BE /dev/lp2
Note that IO ports 3BC-3BE were originally used on a Hercules graphics adapter that also had a parallel port. Many BIOS systems will assign this range to LPT1 and then the other two ranges would become LPT2 and LPT3 respectively instead of LPT1 and LPT2
Many systems do not use interrupts for printers, so the IRQ may or may not actually be used. It is also common to share IRQ7 for sound (Sound Blaster compatible).
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Legacy peripherals
The parallel ports were originally used for printing with data flowing to the printer and a few lines reserved for reporting status.
Later, the parallel port was used for attaching other devices (CD-ROMs, tape drives), so the output-only nature of the data flow changed to a bidirectional data flow.
Parallel ports (LPTn)
Current standard applicable to parallel ports is:IEEE Std. 1284-1994 Standard Signaling Method for a Bi-Directional Parallel Peripheral Interface for Personal Computers, defined by 5 signaling modes in BIOS with the common: bi-directional, EPP, ECP and EPP and ECP
•Bi-directional;•EPP (Enhanced Parallel Port) designed for CD-ROMs and Tape drives that require large amounts of data to flow in either direction. •ECP (Enhanced Capabilities Port) designed for use with printers
The default BIOS choice is likely to be ECP.
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Legacy peripherals
If the system has a legacy floppy disk controller, it will use ports 3F0-3F7.
Floppy disk port
The keyboard/mouse controller uses ports 0060 and 0064 for legacy keyboards andmice. That is, those connected by a round PS2 connector.
Keyboard and mouse
Many systems will generate a Power-On-Self-Test (POST) error if a keyboard is not attached. Most machines have BIOS options to allow clean startup without keyboard or mouse.
You may need a customized boot disk or CD to perform a Linux system install
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Servers frequently run without keyboard (or mouse). Management is performed over network using web admin tools, or cmdline interface (telnet or ssh).
Installation on keyboardless system is accomplished using a terminal (or terminal emulator) attached through a serial port. Or, emulate a serial connection over a LAN.
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Modems and sound cards
Modem stands for modulator/demodulator (Modulation) Modem converts binary information to analogue signals(Demodulation) Modem decodes analogue signals into binary
binary signals are given by the computer, and analogue signals fly over the telephone lines.
Modems
In the early days of PCs, modems were external devices attached to a serial port.Later, modems were implemented on cards installed inside the computer.
Another cost reduction occurred when:Some functions done by a modem where transferred to software in the PC.
This modems where called:softmodem, HCF modem, HSP modem, HSF modem, controllerless modem, other terms.
Those modems were designed to reduce cost of systems which ran MS Windows. The term winmodem is used for such devices.Although Winmodem® is a registered trademark of U.S. Robotics, who manufactured several modems under that name.
You will generally have to load a kernel module to make a Winmodem work. This may require some research and recompiling the Linux kernel.
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Modems and sound cards
Most external modems internal modems will work under Linux without problem.
Some of the modems that require software assistance from the PC operating system will also work with Linux.
Software-assisted modems that work under Linux are often called linmodems and there is a site dedicated to these (linmodems.org).
The first step should be to check linmodems site and download the latest version of the scanModem tool. This will tell you about available drivers for your modem.
Modems
Modems discussed are asynchronous modems.Another class of modems, are called synchronous modems (HDLC, SDLC, BSC, ISDN)
•Asynchronous Transmission is concerned with transmitting individual bytes of information •Synchronous Communications is concerned with transmitting whole blocks of information
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Modems and sound cards
Modems
Most Linux communications occurs using the Internet Protocol or IPSo a Linux system will need to run IP over asynchronous line which was not originally designed for block protocols such as IP.
The first method of doing this was called Serial Line Interface Protocol or SLIP. A variant using compressed headers is called CSLIP.
Now, Internet Service Providers (ISPs) support dialup connections using Point-to-Point Protocol or PPP.
The Linux Networking-HOWTO and The Network Administrators' Guide from Linux Documentation Project provide info on SLIP, CSLIP, PPP configuration.Using tools as kppp program gui for ppp or wvdial for dialconn or general configs with the system-config-network tool.
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Modems and sound cards
Modems
When communicating using modem, there are a number of settings that you mayneed to make on your Linux system, and tell Linux where the RS232 port is.
Set the speed of communications between your system and the modem. (usually higher than nominal line speed and set to the maximum supported by the serial port chipset and the modem)
To set/view modem parameters used by the serial driver is with the setserial program.
yourname@yourcomp~# setserial /dev/ttyS0/dev/ttyS0, UART: 16550A, Port: 0x03f8, IRQ: 4[root@attic4 ~]# setserial -G /dev/ttyS0/dev/ttyS0 uart 16550A port 0x03f8 irq 4 baud_base 115200 spd_normal skip_test
Ex:
setserial does not probe the hardware. It tells serial driver what parameters to useunless using the parameters -autoconfig and -auto_irq. (ask kernel to probe hardware).
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Modems and sound cards
Sound cards
Creative Labs Sound Blaster sound cards have set industry standards. Even though other brands of excellent exist, many of these provide compatibility mode for one or more of the Sound Blaster series.
•The original Sound Blaster card was an 8-bit card that worked in the original IBM PC. •Later 16-bit models for the PC-AT and compatibles used the 16-bit PC-AT or ISA bus. •Today, these cards use PCI bus or provide a sound chip compatibility onboard. •Sound devices may also be attached through USB connections.
Ports used by an ISA bus Sound Blaster card are 0220-022F.base addresses of 240, 260 or 280 were also configurable.
IRQ is usually configurable, with common choices 2, 5, 7, or 10. The default setting is to use IRQ 5. Cards could usually be configured to use alternate DMA channels too.
Sound cards had interface to attach a MIDI Device (Musical Instrument Digital Interface). This interface emulates the Roland MPU-401.Standard ports used by the MPU-401 ISA interface are 0200-020F.
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Modems and sound cards
Sound cards
Configuring Linux sound support
Since 2.4 and 2.6 kernels have sound support for a wide variety of sound devicesbuilt in to the kernel, usually as modules.
Like other devices, use isapnp.conf with pnpdump cmd for ISA devices, or lspci cmd for PCI devices to display information about the device.
yourname@yourcomp~# lspci | grep aud00:1f.5 Multimedia audio controller: Intel Corporation 82801DB/DBL/DBM(ICH4/ICH4-L/ICH4-M) AC'97 Audio Controller (rev 01)
Ex:
BUT Kernel modules are the preferred way to provide support for devices.
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Modems and sound cards
Configuration Exemple for Kernel 2.2 and before :
• Find values I/O, IRQ, DMA. Free values by by checking /proc/ioports, /proc/interrupts and /proc/dma.• Use pnpdump to dump all possible combinations of the devices. • Edit the file produced by removing comments, and it becomes your /etc/isapnp.conf file.
yourname@yourcomp# /sbin/pnpdump > /etc/isapnp.confEx 1:
# Card 1: (serial identifier 48 00 1b e3 d6 e4 00 8c 0e)# Vendor Id CTL00e4, Serial Number 1827799, checksum 0x48.# Version 1.0, Vendor version 1.0# ANSI string -->Creative SB AWE64 PnP<--# Vendor defined tag: 73 02 45 20(CONFIGURE CTL00e4/1827799 (LD 0# ANSI string -->Audio<--(INT 0 (IRQ 9(MODE +E)))(DMA 0 (CHANNEL 3))(DMA 1 (CHANNEL 7))(IO 0 (SIZE 16) (BASE 0x0220))(IO 1 (SIZE 2) (BASE 0x0330))(IO 2 (SIZE 4) (BASE 0x0388))(NAME "CTL00e4/1827798[0]{Audio }")# End dependent functions(ACT Y)))
/etc/isapnp.conf
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Modems and sound cards
Configuration Exemple for Kernel 2.2 and before :
Ex 2:
... // ...# Vendor defined tag: 73 02 45 20(CONFIGURE CTL00e4/1827799 (LD 0# ANSI string -->Audio<--(INT 0 (IRQ 9(MODE +E)))(DMA 0 (CHANNEL 3))(DMA 1 (CHANNEL 7))(IO 0 (SIZE 16) (BASE 0x0220))(IO 1 (SIZE 2) (BASE 0x0330))(IO 2 (SIZE 4) (BASE 0x0388))(NAME "CTL00e4/1827798[0]{Audio }")# End dependent functions(ACT Y)))
/etc/isapnp.conf File
• Use command modprobe to see parameters to load on the sound card module
• [options sb io=0x220, irq=9, dma=3, dma16=7, mpu_io=0x330, midi=0x388] must be loaded the sound card module in: /etc/modules.conf
modprobe sb io=0x220, irq=9, dma=3, dma16=7, mpu_io=0x330, midi=0x388
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Modems and sound cards
Configuration Exemple for Kernel 2.2 and before :
Ex 3:
# /sbin/isapnp /etc/isapnp.conf# modprobe sb
• Once /etc/isapnp.conf exists, you can configure the card(s) to the chosen settings by running isapnp, and then load the sound module modprobe sb
Since the 2.4 kernel, the module isapnp handles the configuration of ISA PNP PnP support has been integrated into the Linux kernel and the isapnptools package has become obsolete. It was removed in May 2002 from RedHat 7.3.
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Modems and sound cards
Sound cards
sndconfig is the console based RedHat sound configuration tool. Automatically sets ISA PnP sound cards by configuring them to default settings as given by pnpdump. It is not included on a default installation
Sound support on < 2.4 is provided by Open Sound System (OSS) Free drivers. Many systems today use the Advanced Linux sound architecture or ALSA drivers.
sndconfig utility was created by Red Hat to assist in configuring ISA PnP sound cards. It also works with PCI sound cards.
This utility may be present on systems that do not use the ALSA drivers.Modern module support has made it unnecessary.
The utility will probe for sound cards, lay a test sound of Linus Torvalds speaking, and then update the /etc/modules.conf file (or /etc/modules).
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Modems and sound cards
Sound cards
Sndconfig configuration tool.
Ex:
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Modems and sound cards
Sound cards
Sndconfig configuration tool.
Ex:
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Modems and sound cards
Sound cards
Kernel modules, the preferred support for devices. Are modules that need only to be loaded for the devices and may be unloaded and reloaded without rebooting the system.
yourname@yourcomp~# cat /etc/modprobe.confalias eth0 e100alias snd-card-0 snd-intel8x0install snd-intel8x0 /sbin/modprobe --ignore-install snd-intel8x0 &&\/usr/sbin/alsactl restore >/dev/null 2>&1 || :remove snd-intel8x0 { /usr/sbin/alsactl store >/dev/null 2>&1 || : ; }; \/sbin/modprobe -r --ignore-remove snd-intel8x0alias usb-controller ehci-hcdalias usb-controller1 uhci-hcd
< Kernel 2.4 Kernel module configuration information is stored in:/etc/modules.conf> Kernel 2.6 Kernel module system was redesigned and information is stored in:/etc/modprobe.confIn either case, lsmod cmd formats contents of /proc/modules and display status of loaded modules.
/etc/modprobe.conf (2.6 kernel)Ex:
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Modems and sound cards
Sound cards
Ex:
yourname@yourcomp~# lsmod |egrep '(snd)|(Module)'Module Size Used bysnd_intel8x0 34689 1snd_ac97_codec 75961 1 snd_intel8x0snd_seq_dummy 3653 0snd_seq_oss 37057 0snd_seq_midi_event 9153 1 snd_seq_osssnd_seq 62289 5 snd_seq_dummy,snd_seq_oss,snd_seq_midi_eventsnd_seq_device 8781 3 snd_seq_dummy,snd_seq_oss,snd_seqsnd_pcm_oss 51185 0snd_mixer_oss 17857 1 snd_pcm_osssnd_pcm 100169 3 snd_intel8x0,snd_ac97_codec,snd_pcm_osssnd_timer 33605 2 snd_seq,snd_pcmsnd 57157 11 snd_intel8x0,snd_ac97_codec,snd_seq_oss,snd_seq,snd_seq_device,snd_pcm_oss,snd_mixer_oss,snd_pcm,snd_timersoundcore 10913 1 sndsnd_page_alloc 9669 2 snd_intel8x0,snd_pcm
Sound related output from lsmod (2.6 kernel)
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SCSI devices
SCSI overview
SCSI - Small Computer System Interfaceinterface designed for connecting streaming devices(tapes and block storage devices as disks, CD-ROMs, and DVDs). Also used for scanners and printers.
SCSI was designed to allow multiple devices on the bus. One device called the controller has responsibility for managing the bus.
SCSI devices may be either internal or external.
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There are 3 major releases of SCSI standards from the American National Standards Institute (ANSI).
http://www.scsilibrary.com/
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SCSI devices
SCSI-1
original standard (X3.131-1986), now usually called SCSI-1.
Supported up to 8 devices on a cable and uses passive termination.This standard has now been withdrawn
interface of 8 bits parallel with maximum speed of 5 MBps (megabytes/sec).
SCSI standard was designed for disks, very flexible and used for other devices, scanners and slower devices such as Zip.
Originally FConnection used a 50 connector cable with Centronics connector, later with a 50-pin D-shell connector, similar to a DB-25 RS-232 serial connector
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http://www.scsi4me.com/scsi-connectors.htm
http://www.scsilibrary.com/cable.html
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SCSI devices
SCSI-2
ANSI standard X3.131-1994 in 1994.
speed of the bus to 10MBps and introduced wide/16-bit data transfers. (16-bit bus running at 10MBps can transfer 20MBps of data).
50-connector cable was used for 8-bit - narrow SCSI devices, 68-connector cable was used for 16-bit - wide SCSI devices.
SCSI-2 introduced differential signaling to improve quality at higher speeds. called High Voltage Differential or HVD signaling - HVD has active termination requirements.
Its possible to mix 8-bit and 16-bit devices.SCSI-2 supports up to 16 devices on a cable and 8 may be narrow.
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SCSI devices
SCSI-2
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SCSI devices
SCSI-2
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SCSI devices
SCSI-3
ANSI standard X3.270-1996 known as SCSI-3 Architecture Model or SAM. (Earlier SCSI standards are now in the SCSI Parallel Interface or SPI standards)
Speed - 16-bit devices with 320MBps data transfers at bus speed of 160MBps.
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new connector: Single Connector Attachment or SCA SCA is an 80-pin connector only used for wide (16-bit) devices.
There are two versions of connector: SCA-1 and SCA-2, is used in most systems. There are Single-Ended (SE) and Low Voltage Differential (LVD) types of the SCA.
SCA has only one plug which carries data and power - allows devices to be safely hot-plugged . Server Racks; RAID storage systems; Network Attached Storage.
SCSI-3 introduced Fiber Channel SCSI with support to 126 devices per bus
With connection of fiber channel links - 1GBps or 2GBps for distances to several kilometers.
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SCSI devices
SCSI-3
66
Ex: http://www.pcguide.com/ref/hdd/if/scsi/cablesSCA-c.html
http://open-source-experiments.blogspot.com/2008/04/birds-eye-view-of-end-configuration.html
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SCSI devices
SCSI termination
SCSI bus requires each end of the bus to be terminated.use the appropriate type of terminator for your bus; passive, HVD or LVD.
•If mixing wide and narrow devices the termination for narrow devices may occur in a different place to the termination for wide devices. •If controller is controlling only an internal bus or only an external bus, it will provide termination, automatically or via BIOS configuration.•If controller is controlling both internal and an external segment, normally will not provide termination.
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Termination could be via switch, jumper. Usually a terminator
block plugged into the cable.
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SCSI devices
SCSI termination
68
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SCSI devices
SCSI Ids
Every device, and the controller, have ID, represented by a number. Controller is generally assigned ID 7.
•Narrow (8-bit) SCSI - ID numbers range from 0 to 7. •Wide SCSI adds numbers 8 through 15. Narrow devices only use ID numbers 0 through 7 - Wide devices may use 0 through 15.
•ID are set via jumpers, switches or software.
•Devices with Single Connector Attachment (SCA) have auto ID assignedas these devices may be hot-plugged.
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SCSI devices
SCSI Ids Priority
70
Devices on SCSI bus have priority. •Narrow devices: 0 (lowest) - 7 (highest) controller at address7 = highest priority. •Wide SCSI: 8 (lowest) - 15 (highest), with 15 having lower priority than 0.
Priority sequence is: 8, 9, 10, 11, 12, 13, 14, 15, 0, 1, 2, 3, 4, 5, 6, 7. devices that cannot tolerate delays (DVD recorders) must have high priority IDs
•RAID controllers may present a single ID to the bus but may incorporate several disks. •SCSI addressing also as a Logical Unit Number or LUN. Tapes and single disk drives do not report a LUN or report an LUN of 0.
SCSI adapter supports more than one SCSI cable or channel, there may be multiple SCSI adapters in a system.
Full ID of a device consists of:- Adapter number - Channel number - Device ID - LUN.
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SCSI devices
Linux names and files for SCSI devices
71
To a IDE controller that supports one or two hard drives. Linux assigns names to IDE devices, as /dev/hda and /dev/hdc.
With SCSI there’s a mix of hard drives, tapes, CD and DVD drives. Linux will assign device names as devices are detected during boot.
• 1st hard drive on 1st channel of 1st adapter will become /dev/sda, 2nd /dev/sdb, … • 1st tape drive will be /dev/st0, 2nd /dev/st1, ... • 1st CD will be /dev/sr0 or /dev/scd0 , 2nd /dev/sr1 or /dev/scd1, …Devices using SCSI emulation, such as USB storage devices and (prior to the 2.6 kernel) IDE CD or DVD drives will also be
allocated names in this namespace.
Important:Numbering is redone at each boot. If you add or remove a SCSI hard drive or device, then all drives or devices will have different device names next time you boot.
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SCSI devices
Linux names and files for SCSI devices
72
An example of Linux SCSI device name is /dev/sda, (first SCSI hard disk)Name Meaning Usage
sd SCSI disk fdisk, mount and hdparm
sr or scd SCSI CD ROM Audio data CD ROMs
st SCSI tape tar, cpio, and mt (magnetic tape) for control
sg SCSI generic scanners (SANE), CD writers (cdrecord, cdrdao) and reading audio CD's digitally Character interface (cdda2wav, cdparanoia)
kernel supplies to the SCSI adapter:
•host – SCSI adapter number: SCSI adapter is a host on SCSI bus. The numbers start at 0 and are allocated arbitarily.
•bus – Channel number: A single SCSI adapter may have a number of SCSI buses attached.
•target – id number: Which remote host on the SCSI bus is being addressed.
•lun – Logical Unit Number: Which of the devices attached to the remote host is being addressed.
Sometimes bus 1, target 3 and lun 40 is written as “1,3,0”.
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SCSI devices
SCSI devices Info in Linux
73
In directory /proc/scsi you will find useful information about the SCSI subsystem./proc/scsi/scsi lists attached SCSI devices.
Ex: yourname@yourcomp~# cat /proc/scsi/scsiAttached devices:Host: scsi0 Channel: 00 Id: 00 Lun: 00Vendor: IBM Model: DGHS09U Rev: 03E0Type: Direct-Access ANSI SCSI revision: 03Host: scsi0 Channel: 00 Id: 06 Lun: 00Vendor: PIONEER Model: CD-ROM DR-U06S Rev: 1.04Type: CD-ROM ANSI SCSI revision: 02
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SCSI devices
SCSI devices Info in Linux
74
Some distros have an entry for SCSI adapter (or the SCSI Driver) in /proc.driver name Ex. /proc/scsi/aic7xxx/0.
digit is the bus number - For some drivers parameters can be set to this file.
Ex: yourname@yourcomp~# cat /proc/scsi/aic7xxx/0Adaptec AIC7xxx driver version: 5.1.19/3.2.4Compile Options:TCQ Enabled By Default : DisabledAIC7XXX_PROC_STATS : DisabledAIC7XXX_RESET_DELAY : 5Adapter Configuration:SCSI Adapter: Adaptec AHA-294X Ultra SCSI host adapterUltra Wide ControllerPCI MMAPed I/O Base: 0xeb001000Adapter SEEPROM Config: SEEPROM found and used.Adaptec SCSI BIOS: EnabledIRQ: 10SCBs: Active 0, Max Active 2,Allocated 15, HW 16, Page 255Interrupts: 160328...// ...
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SCSI devices
SCSI devices Info in Linux
75
To know which SCSI device corresponds /dev/sda, use the scsi_info command.
Ex: yourname@yourcomp~# scsi_info /dev/sdaSCSI_ID="0,0,0"MODEL="IBM-PSG DPSS-336950M F"FW_REV="S94S"
Some systems use scsiinfo cmd. Or use sg driver. (SCSI Generic)
Using sg driver, there’s information under the /proc/scsi/sg.will be devices like /dev/sg0, /dev/sg1, /dev/sg2 ...
The generic devices correspond to other devices (hard disk = /dev/sda; tape = /dev/st0…)
View ‘man scsiinfo’
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SCSI devices
SCSI devices Info in Linux
76
Ex:
yourname@yourcomp~# sg_map/dev/sg0 /dev/scd0/dev/sg1 /dev/sda/dev/sg2 /dev/sdb
sg3-utils package: utilities for manipulating the SCSI subsystem. sg_map cmd - map between sg name and another device name if exists.
system with IDE optical drive that uses SCSI emulation and two USB drives:
The sg utility corresponding to scsi_info is sginfo. sginfo interrogates device for information while scsiinfo will use the retained info in /proc/scsi/scsi.
Ex: yourname@yourcomp~# sginfo /dev/scd0INQUIRY response (cmd: 0x12)---------------------------Device Type 5Vendor: SONYProduct: DVD RW DRU-700ARevision level: VY08
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SCSI devices
SCSI BIOS and boot sequence
77
•Support for SCSI is normally accessible in BIOS boot order Setup (default boot device).•Permitting SCSI cards to invoke the configuration of the subsystem controlled by the card.
BIOS boot sequence with Adaptec SCSI card:Ex:
Press <Ctrl><A> for SCSISelect(TM) Utility!
SCSI Bus Interface DefinitionsHost Adapter SCSI ID: 7SCSI Parity Checking: EnabledHost Adapter SCSI Termination: AutomaticBoot Device OptionsBoot SCSI ID: 0Boot LUN Number: 0
SCSI BIOS configuration Screen:
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USB devices
USB overview
78
In 1994 Compaq, Intel, Microsoft and NEC designed the Universal Serial Bus (USB) with the goal of providing a single, simple bus for attachment of peripherals.
allows devices to be hot-plugged and uses standard connectors for connecting devices. keyboards, mice, printers, scanners, hard drives, flash memory drives, cameras, modems, eth adapters, speakers...
USB is a hierarchical bus and it is controlled by one host.•A computer system may provide one or more controllers or hubs.
to which either a USB device or another (external) hub may be connected.
•A hub can support up to 7 devices, some or all may be additional hubs.
•The hub in the system is called root hub. Each star topology supports to 127 hubs or devices (USB v1).
Frequently, we speak of a USB ports which refers to the USB capability in a computer and the connecting socket rather than the internal port addresses used by the device
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USB devices
USB specification
79
USB specification 1.0, 1.1 support speeds up to 12Mbps.Devices are low speed, such as printers, mice, keyboards, scanners, and modems.
USB cable is a thin, 4-wire cable with two signal lines plus power and ground.
USB devices/hubs may draw power from USB bus or may be self powered (low power devices)
USB specification 2.0 supports speeds up to 480Mbps. Adequate for hard drives and external CD or DVD drives.
http://www.usb.org/developers/docs/http://en.wikipedia.org/wiki/Universal_Serial_Bus
USB specification 3.0 supports speeds up to 5 Gbit/s (625 MB/s) SuperSpeed Adequate to all device classes.
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USB devices
USB layered system.
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1. Bus Interface layer
Provides physical, signaling, and packet connectivity data transfer between host and devices.
2. Device layer
Used by system to do generic USB operations with device on the bus. allows host to determine characteristics of device (device class, vendor name, device name, power requirements, device speed).
3. Function layer
Provides additional capabilities specific to the device.software layers permit use device-specific functions.
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USB devices
Linux USB module support
81
USB is well supported in Linux. Much development occurred in 2.6 kernel.Because of the hot-pluggable nature of USB, support is usually through kernel modules which can be loaded or unloaded as necessary.
Linux systems founds the USB existence, with lspci command.
Ex: yourname@yourcomp~# lspci | grep -i usb00:1d.0 USB Controller: Intel Corporation 82801DB/DBL/DBM(ICH4/ICH4-L/ICH4-M) USB UHCI Controller #1 (rev 01)00:1d.1 USB Controller: Intel Corporation 82801DB/DBL/DBM(ICH4/ICH4-L/ICH4-M) USB UHCI Controller #2 (rev 01)00:1d.2 USB Controller: Intel Corporation 82801DB/DBL/DBM(ICH4/ICH4-L/ICH4-M) USB UHCI Controller #3 (rev 01)00:1d.7 USB Controller: Intel Corporation 82801DB/DBM(ICH4/ICH4-M) USB2 EHCI Controller (rev 01)
Indication of: AHCI (Advanced Host Controller Interface) is for app programming interface that defines operation for SATA apposed to the IDE controller.http://en.wikipedia.org/wiki/Advanced_Host_Controller_Interface In Linux kernel since v2.6.19.
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USB devices
USB chipsets and drivers
82
There are 2 USB host controller available.Supported by 2 kernel modules available.
Common Drivers:
1. usb-ohci.o – Open Host Controller Interface (OHCI by Compaq)used by Nvidia chipset
2. usb-uhci.o – Universal Host Controller Interface (UHCI by Intel) used by Intel chipset, VIA chipset (simpler hardware, more complex software, higher CPU load).
Driver Chipset
OHCI Compaq, iMacs, PowerBooks, SiS, ALi chipsetsUHCI Intel, VIA chipsetsJE Alternate to UHCI for 2.4 kernels. (If UHCI doesn’t work, and have Intel/VIA chipset, try JE)
EHCI USB 2.0 Support - requires one of UHCI, OHCI or JE
http://www.linuxjournal.com/article/8093
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USB devices
USB chipsets and drivers
83
To determine usb controller driver in a particular computer, again use lspci
Ex: yourname@yourcomp~# lspci | grep -i usb00:07.2 USB Controller: VIA Technologies, Inc. USB (rev 0a) (prog-if 00 [UHCI])Subsystem: VIA Technologies, Inc. (Wrong ID) USB Controller
For module config files modules.conf (kernel 2.4) ; /etc/modprobe.conf (kernel2.6) or newer /proc/modules use lsmod to view modules loaded associated with USB
Ex: yourname@yourcomp~# lsmod | egrep 'usb|hci|hid|mouse|Module'Module Size Used by Not taintedusbserial 23420 0 (autoclean) (unused)mousedev 5524 1hid 22244 0 (unused)input 5888 0 [keybdev mousedev hid]ehci-hcd 20008 0 (unused)usb-uhci 25740 0 (unused)usbcore 77376 1 [usbserial hid ehci-hcd usb-uhci]
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USB devices
Displaying USB information
84
Info of USB devices attached to the system is found in /proc/bus/usb (some Karnels).USB identifies themselves on bus by vendor, and by USB class (mouse, keyboard)
Ex: yourname@yourcomp~# cat /proc/bus/usb/devicesT: Bus=04 Lev=00 Prnt=00 Port=00 Cnt=00 Dev#= 1 Spd=480 MxCh= 6B: Alloc= 0/800 us ( 0%), #Int= 0, #Iso= 0D: Ver= 2.00 Cls=09(hub ) Sub=00 Prot=01 MxPS= 8 #Cfgs= 1P: Vendor=0000 ProdID=0000 Rev= 2.04S: Manufacturer=Linux 2.4.21-32.0.1.EL ehci-hcdS: Product=Intel Corp. 82801DB USB2S: SerialNumber=00:1d.7C:* #Ifs= 1 Cfg#= 1 Atr=40 MxPwr= 0mAI: If#= 0 Alt= 0 #EPs= 1 Cls=09(hub ) Sub=00 Prot=00 Driver=hubE: Ad=81(I) Atr=03(Int.) MxPS= 2 Ivl=256msT: Bus=03 Lev=00 Prnt=00 Port=00 Cnt=00 Dev#= 1 Spd=12 MxCh= 2B: Alloc= 0/900 us ( 0%), #Int= 0, #Iso= 0D: Ver= 1.00 Cls=09(hub ) Sub=00 Prot=00 MxPS= 8 #Cfgs= 1P: Vendor=0000 ProdID=0000 Rev= 0.00S: Product=USB UHCI Root HubS: SerialNumber=1840C:* #Ifs= 1 Cfg#= 1 Atr=40 MxPwr= 0mAI: If#= 0 Alt= 0 #EPs= 1 Cls=09(hub ) Sub=00 Prot=00 Driver=hubE: Ad=81(I) Atr=03(Int.) MxPS= 8 Ivl=255ms.. // ..
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USB devices
Displaying USB information
85
Best option to file /proc/bus/usb is lsusb cmd. With –t giving attachment hierarchy
Ex:
yourname@yourcomp~# lsusb -s 001:007 -v | head -11Bus 001 Device 007: ID 04a5:20b0 Acer Peripherals Inc. S2W3300U/4300UDevice Descriptor:bLength 18bDescriptorType 1bcdUSB 1.00bDeviceClass 255 Vendor Specific ClassbDeviceSubClass 255 Vendor Specific SubclassbDeviceProtocol 255 Vendor Specific ProtocolbMaxPacketSize0 8idVendor 0x04a5 Acer Peripherals Inc.idProduct 0x20b0 S2W 3300U/4300UbcdDevice 1.20iManufacturer 1 ColoriProduct 2 FlatbedScanner 23
yourname@yourcomp~# lsusbBus 002 Device 001: ID 0000:0000Bus 001 Device 001: ID 0000:0000Bus 001 Device 007: ID 04a5:20b0 Acer Peripherals Inc. S2W3300U/4300U
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RAID Levels
RAID information
86
0 (Spanning): Drives simply combined, one after another, to form one large, continuous storage space. No performance or reliability advantages. Used to get large amounts of storage space for cheap.
0 (Striping): Drives are combined into one large storage space, but the data is split up and striped across the disks. Provides improved read and write performance throughparallel operations. Still no reliability benefit.
1 (Mirroring): Each drive in the set is a complete copy of the data. Read performance benefit through parallel read operations. Exceptional reliability benefit through redundancy. Storage limited to size of smallest member.
5 (Stripe w/ parity): Most common. Similar to Striped RAID 0, but adds parity information, allowing for improved reliability. Minimum 3 members to operate, but can tolerate a drive failure without data loss. Improved performance through parallel operations.
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RAID Levels
RAID information
87
6 (Stripe w/ double parity): Same as RAID5, but with doubled parity information, tolerating up to two drive failures in set. Levels should combine (nested) to get best of different levels: 01, 10, 15, 50, 51, 16, 60, 61
Nested levels are expensive to implement, but can provide extremely high reliability and performance numbers.
Common nested levels include...
10 (Stripe Set across mirrors): A set that stripes data across two or more RAID1 mirrors.
50 (Striped Stripe with Parity Set): Data is striped across two or more RAID5 sets.
51 (Mirrored Strip with Parity Set): Data is mirrored across two or more RAID5 sets.
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Fim de sessão88
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