Documentation/sx.txt - kernel/msm - Gitiles


       sx.txt  -- specialix SX/SI multiport serial driver readme.


       Copyright (C) 1997  Roger Wolff (R.E.Wolff@BitWizard.nl)

       Specialix pays for the development and support of this driver.
       Please DO contact support@specialix.co.uk if you require
       support.

       This driver was developed in the BitWizard linux device
       driver service. If you require a linux device driver for your
       product, please contact devices@BitWizard.nl for a quote.

       (History)
       There used to be an SI driver by Simon Allan. This is a complete
       rewrite  from scratch. Just a few lines-of-code have been snatched.

       (Sources)
       Specialix document number 6210028: SX Host Card and Download Code
       Software Functional Specification.

       (Copying)
       This program is free software; you can redistribute it and/or
       modify it under the terms of the GNU General Public License as
       published by the Free Software Foundation; either version 2 of
       the License, or (at your option) any later version.

       This program is distributed in the hope that it will be
       useful, but WITHOUT ANY WARRANTY; without even the implied
       warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
       PURPOSE.  See the GNU General Public License for more details.

       You should have received a copy of the GNU General Public
       License along with this program; if not, write to the Free
       Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139,
       USA.

       (Addendum)
       I'd appreciate it that if you have fixes, that you send them
       to me first.


 Introduction
 ============

 This file contains some random information, that I like to have online
 instead of in a manual that can get lost. Ever misplace your Linux
 kernel sources?  And the manual of one of the boards in your computer?


 Theory of operation
 ===================

 An important thing to know is that the driver itself doesn't have the
 firmware for the card. This means that you need the separate package
 "sx_firmware". For now you can get the source at

 	ftp://ftp.bitwizard.nl/specialix/sx_firmware_<version>.tgz

 The firmware load needs a "misc" device, so you'll need to enable the
 "Support for user misc device modules" in your kernel configuration.
 The misc device needs to be called "/dev/specialix_sxctl". It needs
 misc major 10, and minor number 167 (assigned by HPA). The section
 on creating device files below also creates this device.

 After loading the sx.o module into your kernel, the driver will report
 the number of cards detected, but because it doesn't have any
 firmware, it will not be able to determine the number of ports. Only
 when you then run "sx_firmware" will the firmware be downloaded and
 the rest of the driver initialized. At that time the sx_firmware
 program will report the number of ports installed.

 In contrast with many other multi port serial cards, some of the data
 structures are only allocated when the card knows the number of ports
 that are connected. This means we won't waste memory for 120 port
 descriptor structures when you only have 8 ports. If you experience
 problems due to this, please report them: I haven't seen any.


 Interrupts
 ==========

 A multi port serial card, would generate a horrendous amount of
 interrupts if it would interrupt the CPU for every received
 character. Even more than 10 years ago, the trick not to use
 interrupts but to poll the serial cards was invented.

 The SX card allow us to do this two ways. First the card limits its
 own interrupt rate to a rate that won't overwhelm the CPU. Secondly,
 we could forget about the cards interrupt completely and use the
 internal timer for this purpose.

 Polling the card can take up to a few percent of your CPU. Using the
 interrupts would be better if you have most of the ports idle. Using
 timer-based polling is better if your card almost always has work to
 do. You save the separate interrupt in that case.

 In any case, it doesn't really matter all that much.

 The most common problem with interrupts is that for ISA cards in a PCI
 system the BIOS has to be told to configure that interrupt as "legacy
 ISA". Otherwise the card can pull on the interrupt line all it wants
 but the CPU won't see this.

 If you can't get the interrupt to work, remember that polling mode is
 more efficient (provided you actually use the card intensively).


 Allowed Configurations
 ======================

 Some configurations are disallowed. Even though at a glance they might
 seem to work, they are known to lockup the bus between the host card
 and the device concentrators. You should respect the drivers decision
 not to support certain configurations. It's there for a reason.

 Warning: Seriously technical stuff ahead. Executive summary: Don't use
 SX cards except configured at a 64k boundary. Skip the next paragraph.

 The SX cards can theoretically be placed at a 32k boundary. So for
 instance you can put an SX card at 0xc8000-0xd7fff. This is not a
 "recommended configuration". ISA cards have to tell the bus controller
 how they like their timing. Due to timing issues they have to do this
 based on which 64k window the address falls into. This means that the
 32k window below and above the SX card have to use exactly the same
 timing as the SX card. That reportedly works for other SX cards. But
 you're still left with two useless 32k windows that should not be used
 by anybody else.


 Configuring the driver
 ======================

 PCI cards are always detected. The driver auto-probes for ISA cards at
 some sensible addresses. Please report if the auto-probe causes trouble
 in your system, or when a card isn't detected.

 I'm afraid I haven't implemented "kernel command line parameters" yet.
 This means that if the default doesn't work for you, you shouldn't use
 the compiled-into-the-kernel version of the driver. Use a module
 instead.  If you convince me that you need this, I'll make it for
 you. Deal?

 I'm afraid that the module parameters are a bit clumsy. If you have a
 better idea, please tell me.

 You can specify several parameters:

 	sx_poll: number of jiffies between timer-based polls.

 		Set this to "0" to disable timer based polls.
                 Initialization of cards without a working interrupt
                 will fail.

 		Set this to "1" if you want a polling driver.
 		(on Intel: 100 polls per second). If you don't use
                 fast baud rates, you might consider a value like "5".
                 (If you don't know how to do the math, use 1).

 	sx_slowpoll: Number of jiffies between timer-based polls.
  		Set this to "100" to poll once a second.
 		This should get the card out of a stall if the driver
                 ever misses an interrupt. I've never seen this happen,
                 and if it does, that's a bug. Tell me.

 	sx_maxints: Number of interrupts to request from the card.
 		The card normally limits interrupts to about 100 per
 		second to offload the host CPU. You can increase this
 		number to reduce latency on the card a little.
 		Note that if you give a very high number you can overload
 		your CPU as well as the CPU on the host card. This setting
 		is inaccurate and not recommended for SI cards (But it
 		works).

 	sx_irqmask: The mask of allowable IRQs to use. I suggest you set
 		this to 0 (disable IRQs all together) and use polling if
 		the assignment of IRQs becomes problematic. This is defined
 		as the sum of (1 << irq) 's that you want to allow. So
 		sx_irqmask of 8 (1 << 3) specifies that only irq 3 may
 		be used by the SX driver. If you want to specify to the
 		driver: "Either irq 11 or 12 is ok for you to use", then
 		specify (1 << 11) | (1 << 12) = 0x1800 .

 	sx_debug: You can enable different sorts of debug traces with this.
 		At "-1" all debugging traces are active. You'll get several
 		times more debugging output than you'll get characters
 		transmitted.


 Baud rates
 ==========

 Theoretically new SXDCs should be capable of more than 460k
 baud. However the line drivers usually give up before that.  Also the
 CPU on the card may not be able to handle 8 channels going at full
 blast at that speed. Moreover, the buffers are not large enough to
 allow operation with 100 interrupts per second. You'll have to realize
 that the card has a 256 byte buffer, so you'll have to increase the
 number of interrupts per second if you have more than 256*100 bytes
 per second to transmit.  If you do any performance testing in this
 area, I'd be glad to hear from you...

 (Psst Linux users..... I think the Linux driver is more efficient than
 the driver for other OSes. If you can and want to benchmark them
 against each other, be my guest, and report your findings...... :-)


 Ports and devices
 =================

 Port 0 is the top connector on the module closest to the host
 card. Oh, the ports on the SXDCs and TAs are labelled from 1 to 8
 instead of from 0 to 7, as they are numbered by linux. I'm stubborn in
 this: I know for sure that I wouldn't be able to calculate which port
 is which anymore if I would change that....


 Devices:

 You should make the device files as follows:

 #!/bin/sh
 # (I recommend that you cut-and-paste this into a file and run that)
 cd /dev
 t=0
 mknod specialix_sxctl c 10 167
 while [ $t -lt 64 ]
   do
   echo -n "$t "
   mknod ttyX$t c 32 $t
   mknod cux$t  c 33 $t
   t=`expr $t + 1`
 done
 echo ""
 rm /etc/psdevtab
 ps > /dev/null


 This creates 64 devices. If you have more, increase the constant on
 the line with "while". The devices start at 0, as is customary on
 Linux. Specialix seems to like starting the numbering at 1.

 If your system doesn't come with these devices pre-installed, bug your
 linux-vendor about this. They should have these devices
 "pre-installed" before the new millennium. The "ps" stuff at the end
 is to "tell" ps that the new devices exist.

 Officially the maximum number of cards per computer is 4. This driver
 however supports as many cards in one machine as you want. You'll run
 out of interrupts after a few, but you can switch to polled operation
 then. At about 256 ports (More than 8 cards), we run out of minor
 device numbers. Sorry. I suggest you buy a second computer.... (Or
 switch to RIO).

 ------------------------------------------------------------------------


   Fixed bugs and restrictions:
 	- Hangup processing.
 	  -- Done.

 	- the write path in generic_serial (lockup / oops).
 	  -- Done (Ugly: not the way I want it. Copied from serial.c).

         - write buffer isn't flushed at close.
 	  -- Done. I still seem to lose a few chars at close.
 	     Sorry. I think that this is a firmware issue. (-> Specialix)

 	- drain hardware before  changing termios
 	- Change debug on the fly.
 	- ISA free irq -1. (no firmware loaded).
 	- adding c8000 as a probe address. Added warning.
 	- Add a RAMtest for the RAM on the card.c
         - Crash when opening a port "way" of the number of allowed ports.
           (for example opening port 60 when there are only 24 ports attached)
 	- Sometimes the use-count strays a bit. After a few hours of
           testing the use count is sometimes "3". If you are not like
           me and can remember what you did to get it that way, I'd
           appreciate an Email. Possibly fixed. Tell me if anyone still
           sees this.
 	- TAs don't work right if you don't connect all the modem control
 	  signals. SXDCs do. T225 firmware problem -> Specialix.
 	  (Mostly fixed now, I think. Tell me if you encounter this!)

   Bugs & restrictions:

 	- Arbitrary baud rates. Requires firmware update. (-> Specialix)

 	- Low latency (mostly firmware, -> Specialix)

	sx.txt -- specialix SX/SI multiport serial driver readme.



	Copyright (C) 1997 Roger Wolff (R.E.Wolff@BitWizard.nl)

	Specialix pays for the development and support of this driver.
	Please DO contact support@specialix.co.uk if you require
	support.

	This driver was developed in the BitWizard linux device
	driver service. If you require a linux device driver for your
	product, please contact devices@BitWizard.nl for a quote.

	(History)
	There used to be an SI driver by Simon Allan. This is a complete
	rewrite from scratch. Just a few lines-of-code have been snatched.

	(Sources)
	Specialix document number 6210028: SX Host Card and Download Code
	Software Functional Specification.

	(Copying)
	This program is free software; you can redistribute it and/or
	modify it under the terms of the GNU General Public License as
	published by the Free Software Foundation; either version 2 of
	the License, or (at your option) any later version.

	This program is distributed in the hope that it will be
	useful, but WITHOUT ANY WARRANTY; without even the implied
	warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
	PURPOSE. See the GNU General Public License for more details.

	You should have received a copy of the GNU General Public
	License along with this program; if not, write to the Free
	Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139,
	USA.

	(Addendum)
	I'd appreciate it that if you have fixes, that you send them
	to me first.


	Introduction
	============

	This file contains some random information, that I like to have online
	instead of in a manual that can get lost. Ever misplace your Linux
	kernel sources? And the manual of one of the boards in your computer?


	Theory of operation
	===================

	An important thing to know is that the driver itself doesn't have the
	firmware for the card. This means that you need the separate package
	"sx_firmware". For now you can get the source at

	ftp://ftp.bitwizard.nl/specialix/sx_firmware_<version>.tgz

	The firmware load needs a "misc" device, so you'll need to enable the
	"Support for user misc device modules" in your kernel configuration.
	The misc device needs to be called "/dev/specialix_sxctl". It needs
	misc major 10, and minor number 167 (assigned by HPA). The section
	on creating device files below also creates this device.

	After loading the sx.o module into your kernel, the driver will report
	the number of cards detected, but because it doesn't have any
	firmware, it will not be able to determine the number of ports. Only
	when you then run "sx_firmware" will the firmware be downloaded and
	the rest of the driver initialized. At that time the sx_firmware
	program will report the number of ports installed.

	In contrast with many other multi port serial cards, some of the data
	structures are only allocated when the card knows the number of ports
	that are connected. This means we won't waste memory for 120 port
	descriptor structures when you only have 8 ports. If you experience
	problems due to this, please report them: I haven't seen any.


	Interrupts
	==========

	A multi port serial card, would generate a horrendous amount of
	interrupts if it would interrupt the CPU for every received
	character. Even more than 10 years ago, the trick not to use
	interrupts but to poll the serial cards was invented.

	The SX card allow us to do this two ways. First the card limits its
	own interrupt rate to a rate that won't overwhelm the CPU. Secondly,
	we could forget about the cards interrupt completely and use the
	internal timer for this purpose.

	Polling the card can take up to a few percent of your CPU. Using the
	interrupts would be better if you have most of the ports idle. Using
	timer-based polling is better if your card almost always has work to
	do. You save the separate interrupt in that case.

	In any case, it doesn't really matter all that much.

	The most common problem with interrupts is that for ISA cards in a PCI
	system the BIOS has to be told to configure that interrupt as "legacy
	ISA". Otherwise the card can pull on the interrupt line all it wants
	but the CPU won't see this.

	If you can't get the interrupt to work, remember that polling mode is
	more efficient (provided you actually use the card intensively).


	Allowed Configurations
	======================

	Some configurations are disallowed. Even though at a glance they might
	seem to work, they are known to lockup the bus between the host card
	and the device concentrators. You should respect the drivers decision
	not to support certain configurations. It's there for a reason.

	Warning: Seriously technical stuff ahead. Executive summary: Don't use
	SX cards except configured at a 64k boundary. Skip the next paragraph.

	The SX cards can theoretically be placed at a 32k boundary. So for
	instance you can put an SX card at 0xc8000-0xd7fff. This is not a
	"recommended configuration". ISA cards have to tell the bus controller
	how they like their timing. Due to timing issues they have to do this
	based on which 64k window the address falls into. This means that the
	32k window below and above the SX card have to use exactly the same
	timing as the SX card. That reportedly works for other SX cards. But
	you're still left with two useless 32k windows that should not be used
	by anybody else.


	Configuring the driver
	======================

	PCI cards are always detected. The driver auto-probes for ISA cards at
	some sensible addresses. Please report if the auto-probe causes trouble
	in your system, or when a card isn't detected.

	I'm afraid I haven't implemented "kernel command line parameters" yet.
	This means that if the default doesn't work for you, you shouldn't use
	the compiled-into-the-kernel version of the driver. Use a module
	instead. If you convince me that you need this, I'll make it for
	you. Deal?

	I'm afraid that the module parameters are a bit clumsy. If you have a
	better idea, please tell me.

	You can specify several parameters:

	sx_poll: number of jiffies between timer-based polls.

	Set this to "0" to disable timer based polls.
	Initialization of cards without a working interrupt
	will fail.

	Set this to "1" if you want a polling driver.
	(on Intel: 100 polls per second). If you don't use
	fast baud rates, you might consider a value like "5".
	(If you don't know how to do the math, use 1).

	sx_slowpoll: Number of jiffies between timer-based polls.
	Set this to "100" to poll once a second.
	This should get the card out of a stall if the driver
	ever misses an interrupt. I've never seen this happen,
	and if it does, that's a bug. Tell me.

	sx_maxints: Number of interrupts to request from the card.
	The card normally limits interrupts to about 100 per
	second to offload the host CPU. You can increase this
	number to reduce latency on the card a little.
	Note that if you give a very high number you can overload
	your CPU as well as the CPU on the host card. This setting
	is inaccurate and not recommended for SI cards (But it
	works).

	sx_irqmask: The mask of allowable IRQs to use. I suggest you set
	this to 0 (disable IRQs all together) and use polling if
	the assignment of IRQs becomes problematic. This is defined
	as the sum of (1 << irq) 's that you want to allow. So
	sx_irqmask of 8 (1 << 3) specifies that only irq 3 may
	be used by the SX driver. If you want to specify to the
	driver: "Either irq 11 or 12 is ok for you to use", then
	specify (1 << 11) \| (1 << 12) = 0x1800 .

	sx_debug: You can enable different sorts of debug traces with this.
	At "-1" all debugging traces are active. You'll get several
	times more debugging output than you'll get characters
	transmitted.


	Baud rates
	==========

	Theoretically new SXDCs should be capable of more than 460k
	baud. However the line drivers usually give up before that. Also the
	CPU on the card may not be able to handle 8 channels going at full
	blast at that speed. Moreover, the buffers are not large enough to
	allow operation with 100 interrupts per second. You'll have to realize
	that the card has a 256 byte buffer, so you'll have to increase the
	number of interrupts per second if you have more than 256*100 bytes
	per second to transmit. If you do any performance testing in this
	area, I'd be glad to hear from you...

	(Psst Linux users..... I think the Linux driver is more efficient than
	the driver for other OSes. If you can and want to benchmark them
	against each other, be my guest, and report your findings...... :-)


	Ports and devices
	=================

	Port 0 is the top connector on the module closest to the host
	card. Oh, the ports on the SXDCs and TAs are labelled from 1 to 8
	instead of from 0 to 7, as they are numbered by linux. I'm stubborn in
	this: I know for sure that I wouldn't be able to calculate which port
	is which anymore if I would change that....


	Devices:

	You should make the device files as follows:

	#!/bin/sh
	# (I recommend that you cut-and-paste this into a file and run that)
	cd /dev
	t=0
	mknod specialix_sxctl c 10 167
	while [ $t -lt 64 ]
	do
	echo -n "$t "
	mknod ttyX$t c 32 $t
	mknod cux$t c 33 $t
	t=`expr $t + 1`
	done
	echo ""
	rm /etc/psdevtab
	ps > /dev/null


	This creates 64 devices. If you have more, increase the constant on
	the line with "while". The devices start at 0, as is customary on
	Linux. Specialix seems to like starting the numbering at 1.

	If your system doesn't come with these devices pre-installed, bug your
	linux-vendor about this. They should have these devices
	"pre-installed" before the new millennium. The "ps" stuff at the end
	is to "tell" ps that the new devices exist.

	Officially the maximum number of cards per computer is 4. This driver
	however supports as many cards in one machine as you want. You'll run
	out of interrupts after a few, but you can switch to polled operation
	then. At about 256 ports (More than 8 cards), we run out of minor
	device numbers. Sorry. I suggest you buy a second computer.... (Or
	switch to RIO).

	------------------------------------------------------------------------


	Fixed bugs and restrictions:
	- Hangup processing.
	-- Done.

	- the write path in generic_serial (lockup / oops).
	-- Done (Ugly: not the way I want it. Copied from serial.c).

	- write buffer isn't flushed at close.
	-- Done. I still seem to lose a few chars at close.
	Sorry. I think that this is a firmware issue. (-> Specialix)

	- drain hardware before changing termios
	- Change debug on the fly.
	- ISA free irq -1. (no firmware loaded).
	- adding c8000 as a probe address. Added warning.
	- Add a RAMtest for the RAM on the card.c
	- Crash when opening a port "way" of the number of allowed ports.
	(for example opening port 60 when there are only 24 ports attached)
	- Sometimes the use-count strays a bit. After a few hours of
	testing the use count is sometimes "3". If you are not like
	me and can remember what you did to get it that way, I'd
	appreciate an Email. Possibly fixed. Tell me if anyone still
	sees this.
	- TAs don't work right if you don't connect all the modem control
	signals. SXDCs do. T225 firmware problem -> Specialix.
	(Mostly fixed now, I think. Tell me if you encounter this!)

	Bugs & restrictions:

	- Arbitrary baud rates. Requires firmware update. (-> Specialix)

	- Low latency (mostly firmware, -> Specialix)