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Create Documentation/blockdev/ sub-directory and populate it. Populate the Documentation/serial/ sub-directory. Move MSI-HOWTO.txt to Documentation/PCI/. Move ioctl-number.txt to Documentation/ioctl/. Update all relevant 00-INDEX files. Update all relevant Kconfig files and source files. Signed-off-by: Randy Dunlap <randy.dunlap@oracle.com>
295 lines
11 KiB
Plaintext
295 lines
11 KiB
Plaintext
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sx.txt -- specialix SX/SI multiport serial driver readme.
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Copyright (C) 1997 Roger Wolff (R.E.Wolff@BitWizard.nl)
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Specialix pays for the development and support of this driver.
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Please DO contact support@specialix.co.uk if you require
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support.
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This driver was developed in the BitWizard linux device
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driver service. If you require a linux device driver for your
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product, please contact devices@BitWizard.nl for a quote.
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(History)
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There used to be an SI driver by Simon Allan. This is a complete
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rewrite from scratch. Just a few lines-of-code have been snatched.
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(Sources)
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Specialix document number 6210028: SX Host Card and Download Code
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Software Functional Specification.
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(Copying)
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License as
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published by the Free Software Foundation; either version 2 of
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the License, or (at your option) any later version.
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This program is distributed in the hope that it will be
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useful, but WITHOUT ANY WARRANTY; without even the implied
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warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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PURPOSE. See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public
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License along with this program; if not, write to the Free
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Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139,
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USA.
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(Addendum)
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I'd appreciate it that if you have fixes, that you send them
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to me first.
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Introduction
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============
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This file contains some random information, that I like to have online
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instead of in a manual that can get lost. Ever misplace your Linux
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kernel sources? And the manual of one of the boards in your computer?
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Theory of operation
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===================
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An important thing to know is that the driver itself doesn't have the
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firmware for the card. This means that you need the separate package
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"sx_firmware". For now you can get the source at
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ftp://ftp.bitwizard.nl/specialix/sx_firmware_<version>.tgz
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The firmware load needs a "misc" device, so you'll need to enable the
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"Support for user misc device modules" in your kernel configuration.
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The misc device needs to be called "/dev/specialix_sxctl". It needs
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misc major 10, and minor number 167 (assigned by HPA). The section
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on creating device files below also creates this device.
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After loading the sx.o module into your kernel, the driver will report
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the number of cards detected, but because it doesn't have any
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firmware, it will not be able to determine the number of ports. Only
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when you then run "sx_firmware" will the firmware be downloaded and
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the rest of the driver initialized. At that time the sx_firmware
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program will report the number of ports installed.
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In contrast with many other multi port serial cards, some of the data
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structures are only allocated when the card knows the number of ports
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that are connected. This means we won't waste memory for 120 port
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descriptor structures when you only have 8 ports. If you experience
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problems due to this, please report them: I haven't seen any.
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Interrupts
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==========
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A multi port serial card, would generate a horrendous amount of
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interrupts if it would interrupt the CPU for every received
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character. Even more than 10 years ago, the trick not to use
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interrupts but to poll the serial cards was invented.
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The SX card allow us to do this two ways. First the card limits its
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own interrupt rate to a rate that won't overwhelm the CPU. Secondly,
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we could forget about the cards interrupt completely and use the
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internal timer for this purpose.
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Polling the card can take up to a few percent of your CPU. Using the
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interrupts would be better if you have most of the ports idle. Using
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timer-based polling is better if your card almost always has work to
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do. You save the separate interrupt in that case.
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In any case, it doesn't really matter all that much.
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The most common problem with interrupts is that for ISA cards in a PCI
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system the BIOS has to be told to configure that interrupt as "legacy
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ISA". Otherwise the card can pull on the interrupt line all it wants
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but the CPU won't see this.
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If you can't get the interrupt to work, remember that polling mode is
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more efficient (provided you actually use the card intensively).
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Allowed Configurations
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======================
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Some configurations are disallowed. Even though at a glance they might
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seem to work, they are known to lockup the bus between the host card
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and the device concentrators. You should respect the drivers decision
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not to support certain configurations. It's there for a reason.
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Warning: Seriously technical stuff ahead. Executive summary: Don't use
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SX cards except configured at a 64k boundary. Skip the next paragraph.
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The SX cards can theoretically be placed at a 32k boundary. So for
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instance you can put an SX card at 0xc8000-0xd7fff. This is not a
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"recommended configuration". ISA cards have to tell the bus controller
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how they like their timing. Due to timing issues they have to do this
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based on which 64k window the address falls into. This means that the
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32k window below and above the SX card have to use exactly the same
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timing as the SX card. That reportedly works for other SX cards. But
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you're still left with two useless 32k windows that should not be used
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by anybody else.
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Configuring the driver
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======================
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PCI cards are always detected. The driver auto-probes for ISA cards at
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some sensible addresses. Please report if the auto-probe causes trouble
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in your system, or when a card isn't detected.
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I'm afraid I haven't implemented "kernel command line parameters" yet.
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This means that if the default doesn't work for you, you shouldn't use
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the compiled-into-the-kernel version of the driver. Use a module
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instead. If you convince me that you need this, I'll make it for
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you. Deal?
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I'm afraid that the module parameters are a bit clumsy. If you have a
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better idea, please tell me.
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You can specify several parameters:
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sx_poll: number of jiffies between timer-based polls.
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Set this to "0" to disable timer based polls.
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Initialization of cards without a working interrupt
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will fail.
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Set this to "1" if you want a polling driver.
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(on Intel: 100 polls per second). If you don't use
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fast baud rates, you might consider a value like "5".
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(If you don't know how to do the math, use 1).
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sx_slowpoll: Number of jiffies between timer-based polls.
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Set this to "100" to poll once a second.
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This should get the card out of a stall if the driver
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ever misses an interrupt. I've never seen this happen,
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and if it does, that's a bug. Tell me.
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sx_maxints: Number of interrupts to request from the card.
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The card normally limits interrupts to about 100 per
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second to offload the host CPU. You can increase this
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number to reduce latency on the card a little.
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Note that if you give a very high number you can overload
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your CPU as well as the CPU on the host card. This setting
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is inaccurate and not recommended for SI cards (But it
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works).
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sx_irqmask: The mask of allowable IRQs to use. I suggest you set
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this to 0 (disable IRQs all together) and use polling if
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the assignment of IRQs becomes problematic. This is defined
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as the sum of (1 << irq) 's that you want to allow. So
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sx_irqmask of 8 (1 << 3) specifies that only irq 3 may
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be used by the SX driver. If you want to specify to the
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driver: "Either irq 11 or 12 is ok for you to use", then
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specify (1 << 11) | (1 << 12) = 0x1800 .
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sx_debug: You can enable different sorts of debug traces with this.
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At "-1" all debugging traces are active. You'll get several
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times more debugging output than you'll get characters
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transmitted.
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Baud rates
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==========
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Theoretically new SXDCs should be capable of more than 460k
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baud. However the line drivers usually give up before that. Also the
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CPU on the card may not be able to handle 8 channels going at full
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blast at that speed. Moreover, the buffers are not large enough to
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allow operation with 100 interrupts per second. You'll have to realize
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that the card has a 256 byte buffer, so you'll have to increase the
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number of interrupts per second if you have more than 256*100 bytes
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per second to transmit. If you do any performance testing in this
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area, I'd be glad to hear from you...
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(Psst Linux users..... I think the Linux driver is more efficient than
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the driver for other OSes. If you can and want to benchmark them
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against each other, be my guest, and report your findings...... :-)
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Ports and devices
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=================
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Port 0 is the top connector on the module closest to the host
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card. Oh, the ports on the SXDCs and TAs are labelled from 1 to 8
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instead of from 0 to 7, as they are numbered by linux. I'm stubborn in
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this: I know for sure that I wouldn't be able to calculate which port
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is which anymore if I would change that....
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Devices:
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You should make the device files as follows:
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#!/bin/sh
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# (I recommend that you cut-and-paste this into a file and run that)
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cd /dev
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t=0
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mknod specialix_sxctl c 10 167
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while [ $t -lt 64 ]
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do
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echo -n "$t "
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mknod ttyX$t c 32 $t
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mknod cux$t c 33 $t
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t=`expr $t + 1`
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done
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echo ""
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rm /etc/psdevtab
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ps > /dev/null
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This creates 64 devices. If you have more, increase the constant on
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the line with "while". The devices start at 0, as is customary on
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Linux. Specialix seems to like starting the numbering at 1.
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If your system doesn't come with these devices pre-installed, bug your
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linux-vendor about this. They should have these devices
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"pre-installed" before the new millennium. The "ps" stuff at the end
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is to "tell" ps that the new devices exist.
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Officially the maximum number of cards per computer is 4. This driver
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however supports as many cards in one machine as you want. You'll run
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out of interrupts after a few, but you can switch to polled operation
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then. At about 256 ports (More than 8 cards), we run out of minor
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device numbers. Sorry. I suggest you buy a second computer.... (Or
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switch to RIO).
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------------------------------------------------------------------------
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Fixed bugs and restrictions:
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- Hangup processing.
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-- Done.
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- the write path in generic_serial (lockup / oops).
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-- Done (Ugly: not the way I want it. Copied from serial.c).
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- write buffer isn't flushed at close.
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-- Done. I still seem to lose a few chars at close.
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Sorry. I think that this is a firmware issue. (-> Specialix)
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- drain hardware before changing termios
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- Change debug on the fly.
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- ISA free irq -1. (no firmware loaded).
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- adding c8000 as a probe address. Added warning.
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- Add a RAMtest for the RAM on the card.c
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- Crash when opening a port "way" of the number of allowed ports.
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(for example opening port 60 when there are only 24 ports attached)
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- Sometimes the use-count strays a bit. After a few hours of
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testing the use count is sometimes "3". If you are not like
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me and can remember what you did to get it that way, I'd
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appreciate an Email. Possibly fixed. Tell me if anyone still
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sees this.
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- TAs don't work right if you don't connect all the modem control
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signals. SXDCs do. T225 firmware problem -> Specialix.
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(Mostly fixed now, I think. Tell me if you encounter this!)
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Bugs & restrictions:
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- Arbitrary baud rates. Requires firmware update. (-> Specialix)
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- Low latency (mostly firmware, -> Specialix)
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