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* 'for-linus' of git://github.com/richardweinberger/linux: (90 commits) um: fix ubd cow size um: Fix kmalloc argument order in um/vdso/vma.c um: switch to use of drivers/Kconfig UserModeLinux-HOWTO.txt: fix a typo UserModeLinux-HOWTO.txt: remove ^H characters um: we need sys/user.h only on i386 um: merge delay_{32,64}.c um: distribute exports to where exported stuff is defined um: kill system-um.h um: generic ftrace.h will do... um: segment.h is x86-only and needed only there um: asm/pda.h is not needed anymore um: hw_irq.h can go generic as well um: switch to generic-y um: clean Kconfig up a bit um: a couple of missing dependencies... um: kill useless argument of free_chan() and free_one_chan() um: unify ptrace_user.h um: unify KSTK_... um: fix gcov build breakage ...
391 lines
15 KiB
Plaintext
391 lines
15 KiB
Plaintext
config VT
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bool "Virtual terminal" if EXPERT
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depends on !S390 && !UML
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select INPUT
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default y
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---help---
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If you say Y here, you will get support for terminal devices with
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display and keyboard devices. These are called "virtual" because you
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can run several virtual terminals (also called virtual consoles) on
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one physical terminal. This is rather useful, for example one
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virtual terminal can collect system messages and warnings, another
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one can be used for a text-mode user session, and a third could run
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an X session, all in parallel. Switching between virtual terminals
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is done with certain key combinations, usually Alt-<function key>.
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The setterm command ("man setterm") can be used to change the
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properties (such as colors or beeping) of a virtual terminal. The
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man page console_codes(4) ("man console_codes") contains the special
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character sequences that can be used to change those properties
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directly. The fonts used on virtual terminals can be changed with
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the setfont ("man setfont") command and the key bindings are defined
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with the loadkeys ("man loadkeys") command.
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You need at least one virtual terminal device in order to make use
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of your keyboard and monitor. Therefore, only people configuring an
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embedded system would want to say N here in order to save some
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memory; the only way to log into such a system is then via a serial
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or network connection.
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If unsure, say Y, or else you won't be able to do much with your new
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shiny Linux system :-)
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config CONSOLE_TRANSLATIONS
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depends on VT
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default y
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bool "Enable character translations in console" if EXPERT
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---help---
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This enables support for font mapping and Unicode translation
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on virtual consoles.
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config VT_CONSOLE
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bool "Support for console on virtual terminal" if EXPERT
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depends on VT
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default y
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---help---
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The system console is the device which receives all kernel messages
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and warnings and which allows logins in single user mode. If you
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answer Y here, a virtual terminal (the device used to interact with
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a physical terminal) can be used as system console. This is the most
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common mode of operations, so you should say Y here unless you want
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the kernel messages be output only to a serial port (in which case
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you should say Y to "Console on serial port", below).
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If you do say Y here, by default the currently visible virtual
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terminal (/dev/tty0) will be used as system console. You can change
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that with a kernel command line option such as "console=tty3" which
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would use the third virtual terminal as system console. (Try "man
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bootparam" or see the documentation of your boot loader (lilo or
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loadlin) about how to pass options to the kernel at boot time.)
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If unsure, say Y.
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config VT_CONSOLE_SLEEP
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def_bool y
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depends on VT_CONSOLE && PM_SLEEP
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config HW_CONSOLE
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bool
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depends on VT && !UML
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default y
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config VT_HW_CONSOLE_BINDING
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bool "Support for binding and unbinding console drivers"
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depends on HW_CONSOLE
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default n
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---help---
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The virtual terminal is the device that interacts with the physical
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terminal through console drivers. On these systems, at least one
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console driver is loaded. In other configurations, additional console
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drivers may be enabled, such as the framebuffer console. If more than
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1 console driver is enabled, setting this to 'y' will allow you to
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select the console driver that will serve as the backend for the
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virtual terminals.
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See <file:Documentation/console/console.txt> for more
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information. For framebuffer console users, please refer to
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<file:Documentation/fb/fbcon.txt>.
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config UNIX98_PTYS
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bool "Unix98 PTY support" if EXPERT
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default y
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---help---
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A pseudo terminal (PTY) is a software device consisting of two
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halves: a master and a slave. The slave device behaves identical to
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a physical terminal; the master device is used by a process to
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read data from and write data to the slave, thereby emulating a
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terminal. Typical programs for the master side are telnet servers
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and xterms.
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Linux has traditionally used the BSD-like names /dev/ptyxx for
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masters and /dev/ttyxx for slaves of pseudo terminals. This scheme
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has a number of problems. The GNU C library glibc 2.1 and later,
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however, supports the Unix98 naming standard: in order to acquire a
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pseudo terminal, a process opens /dev/ptmx; the number of the pseudo
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terminal is then made available to the process and the pseudo
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terminal slave can be accessed as /dev/pts/<number>. What was
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traditionally /dev/ttyp2 will then be /dev/pts/2, for example.
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All modern Linux systems use the Unix98 ptys. Say Y unless
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you're on an embedded system and want to conserve memory.
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config DEVPTS_MULTIPLE_INSTANCES
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bool "Support multiple instances of devpts"
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depends on UNIX98_PTYS
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default n
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---help---
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Enable support for multiple instances of devpts filesystem.
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If you want to have isolated PTY namespaces (eg: in containers),
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say Y here. Otherwise, say N. If enabled, each mount of devpts
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filesystem with the '-o newinstance' option will create an
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independent PTY namespace.
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config LEGACY_PTYS
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bool "Legacy (BSD) PTY support"
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default y
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---help---
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A pseudo terminal (PTY) is a software device consisting of two
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halves: a master and a slave. The slave device behaves identical to
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a physical terminal; the master device is used by a process to
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read data from and write data to the slave, thereby emulating a
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terminal. Typical programs for the master side are telnet servers
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and xterms.
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Linux has traditionally used the BSD-like names /dev/ptyxx
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for masters and /dev/ttyxx for slaves of pseudo
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terminals. This scheme has a number of problems, including
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security. This option enables these legacy devices; on most
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systems, it is safe to say N.
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config LEGACY_PTY_COUNT
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int "Maximum number of legacy PTY in use"
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depends on LEGACY_PTYS
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range 0 256
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default "256"
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---help---
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The maximum number of legacy PTYs that can be used at any one time.
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The default is 256, and should be more than enough. Embedded
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systems may want to reduce this to save memory.
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When not in use, each legacy PTY occupies 12 bytes on 32-bit
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architectures and 24 bytes on 64-bit architectures.
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config BFIN_JTAG_COMM
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tristate "Blackfin JTAG Communication"
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depends on BLACKFIN
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help
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Add support for emulating a TTY device over the Blackfin JTAG.
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To compile this driver as a module, choose M here: the
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module will be called bfin_jtag_comm.
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config BFIN_JTAG_COMM_CONSOLE
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bool "Console on Blackfin JTAG"
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depends on BFIN_JTAG_COMM=y
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config SERIAL_NONSTANDARD
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bool "Non-standard serial port support"
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depends on HAS_IOMEM
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---help---
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Say Y here if you have any non-standard serial boards -- boards
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which aren't supported using the standard "dumb" serial driver.
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This includes intelligent serial boards such as Cyclades,
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Digiboards, etc. These are usually used for systems that need many
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serial ports because they serve many terminals or dial-in
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connections.
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Note that the answer to this question won't directly affect the
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kernel: saying N will just cause the configurator to skip all
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the questions about non-standard serial boards.
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Most people can say N here.
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config ROCKETPORT
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tristate "Comtrol RocketPort support"
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depends on SERIAL_NONSTANDARD && (ISA || EISA || PCI)
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help
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This driver supports Comtrol RocketPort and RocketModem PCI boards.
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These boards provide 2, 4, 8, 16, or 32 high-speed serial ports or
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modems. For information about the RocketPort/RocketModem boards
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and this driver read <file:Documentation/serial/rocket.txt>.
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To compile this driver as a module, choose M here: the
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module will be called rocket.
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If you want to compile this driver into the kernel, say Y here. If
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you don't have a Comtrol RocketPort/RocketModem card installed, say N.
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config CYCLADES
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tristate "Cyclades async mux support"
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depends on SERIAL_NONSTANDARD && (PCI || ISA)
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select FW_LOADER
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---help---
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This driver supports Cyclades Z and Y multiserial boards.
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You would need something like this to connect more than two modems to
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your Linux box, for instance in order to become a dial-in server.
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For information about the Cyclades-Z card, read
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<file:Documentation/serial/README.cycladesZ>.
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To compile this driver as a module, choose M here: the
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module will be called cyclades.
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If you haven't heard about it, it's safe to say N.
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config CYZ_INTR
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bool "Cyclades-Z interrupt mode operation (EXPERIMENTAL)"
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depends on EXPERIMENTAL && CYCLADES
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help
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The Cyclades-Z family of multiport cards allows 2 (two) driver op
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modes: polling and interrupt. In polling mode, the driver will check
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the status of the Cyclades-Z ports every certain amount of time
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(which is called polling cycle and is configurable). In interrupt
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mode, it will use an interrupt line (IRQ) in order to check the
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status of the Cyclades-Z ports. The default op mode is polling. If
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unsure, say N.
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config MOXA_INTELLIO
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tristate "Moxa Intellio support"
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depends on SERIAL_NONSTANDARD && (ISA || EISA || PCI)
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select FW_LOADER
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help
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Say Y here if you have a Moxa Intellio multiport serial card.
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To compile this driver as a module, choose M here: the
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module will be called moxa.
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config MOXA_SMARTIO
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tristate "Moxa SmartIO support v. 2.0"
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depends on SERIAL_NONSTANDARD && (PCI || EISA || ISA)
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help
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Say Y here if you have a Moxa SmartIO multiport serial card and/or
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want to help develop a new version of this driver.
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This is upgraded (1.9.1) driver from original Moxa drivers with
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changes finally resulting in PCI probing.
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This driver can also be built as a module. The module will be called
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mxser. If you want to do that, say M here.
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config SYNCLINK
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tristate "Microgate SyncLink card support"
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depends on SERIAL_NONSTANDARD && PCI && ISA_DMA_API
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help
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Provides support for the SyncLink ISA and PCI multiprotocol serial
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adapters. These adapters support asynchronous and HDLC bit
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synchronous communication up to 10Mbps (PCI adapter).
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This driver can only be built as a module ( = code which can be
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inserted in and removed from the running kernel whenever you want).
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The module will be called synclink. If you want to do that, say M
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here.
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config SYNCLINKMP
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tristate "SyncLink Multiport support"
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depends on SERIAL_NONSTANDARD && PCI
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help
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Enable support for the SyncLink Multiport (2 or 4 ports)
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serial adapter, running asynchronous and HDLC communications up
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to 2.048Mbps. Each ports is independently selectable for
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RS-232, V.35, RS-449, RS-530, and X.21
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This driver may be built as a module ( = code which can be
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inserted in and removed from the running kernel whenever you want).
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The module will be called synclinkmp. If you want to do that, say M
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here.
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config SYNCLINK_GT
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tristate "SyncLink GT/AC support"
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depends on SERIAL_NONSTANDARD && PCI
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help
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Support for SyncLink GT and SyncLink AC families of
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synchronous and asynchronous serial adapters
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manufactured by Microgate Systems, Ltd. (www.microgate.com)
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config NOZOMI
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tristate "HSDPA Broadband Wireless Data Card - Globe Trotter"
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depends on PCI && EXPERIMENTAL
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help
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If you have a HSDPA driver Broadband Wireless Data Card -
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Globe Trotter PCMCIA card, say Y here.
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To compile this driver as a module, choose M here, the module
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will be called nozomi.
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config ISI
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tristate "Multi-Tech multiport card support (EXPERIMENTAL)"
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depends on SERIAL_NONSTANDARD && PCI
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select FW_LOADER
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help
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This is a driver for the Multi-Tech cards which provide several
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serial ports. The driver is experimental and can currently only be
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built as a module. The module will be called isicom.
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If you want to do that, choose M here.
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config N_HDLC
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tristate "HDLC line discipline support"
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depends on SERIAL_NONSTANDARD
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help
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Allows synchronous HDLC communications with tty device drivers that
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support synchronous HDLC such as the Microgate SyncLink adapter.
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This driver can be built as a module ( = code which can be
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inserted in and removed from the running kernel whenever you want).
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The module will be called n_hdlc. If you want to do that, say M
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here.
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config N_GSM
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tristate "GSM MUX line discipline support (EXPERIMENTAL)"
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depends on EXPERIMENTAL
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depends on NET
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help
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This line discipline provides support for the GSM MUX protocol and
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presents the mux as a set of 61 individual tty devices.
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config TRACE_ROUTER
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tristate "Trace data router for MIPI P1149.7 cJTAG standard"
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depends on TRACE_SINK
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default n
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help
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The trace router uses the Linux tty line discipline framework to
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route trace data coming from a tty port (say UART for example) to
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the trace sink line discipline driver and to another tty port (say
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USB). This is part of a solution for the MIPI P1149.7, compact JTAG,
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standard, which is for debugging mobile devices. The PTI driver in
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drivers/misc/pti.c defines the majority of this MIPI solution.
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You should select this driver if the target kernel is meant for
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a mobile device containing a modem. Then you will need to select
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"Trace data sink for MIPI P1149.7 cJTAG standard" line discipline
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driver.
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config TRACE_SINK
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tristate "Trace data sink for MIPI P1149.7 cJTAG standard"
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default n
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help
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The trace sink uses the Linux line discipline framework to receive
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trace data coming from the trace router line discipline driver
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to a user-defined tty port target, like USB.
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This is to provide a way to extract modem trace data on
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devices that do not have a PTI HW module, or just need modem
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trace data to come out of a different HW output port.
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This is part of a solution for the P1149.7, compact JTAG, standard.
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If you select this option, you need to select
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"Trace data router for MIPI P1149.7 cJTAG standard".
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config PPC_EPAPR_HV_BYTECHAN
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tristate "ePAPR hypervisor byte channel driver"
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depends on PPC
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help
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This driver creates /dev entries for each ePAPR hypervisor byte
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channel, thereby allowing applications to communicate with byte
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channels as if they were serial ports.
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config PPC_EARLY_DEBUG_EHV_BC
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bool "Early console (udbg) support for ePAPR hypervisors"
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depends on PPC_EPAPR_HV_BYTECHAN
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help
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Select this option to enable early console (a.k.a. "udbg") support
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via an ePAPR byte channel. You also need to choose the byte channel
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handle below.
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config PPC_EARLY_DEBUG_EHV_BC_HANDLE
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int "Byte channel handle for early console (udbg)"
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depends on PPC_EARLY_DEBUG_EHV_BC
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default 0
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help
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If you want early console (udbg) output through a byte channel,
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specify the handle of the byte channel to use.
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For this to work, the byte channel driver must be compiled
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in-kernel, not as a module.
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Note that only one early console driver can be enabled, so don't
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enable any others if you enable this one.
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If the number you specify is not a valid byte channel handle, then
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there simply will be no early console output. This is true also
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if you don't boot under a hypervisor at all.
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