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Moved Install.notes -> README, as ratified at the core meeting of April 13th. Submitted by: Gene Stark <gene@starkhome.cs.sunysb.edu>
223 lines
9.6 KiB
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223 lines
9.6 KiB
Plaintext
Installation Notes for X-10 software
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Eugene W. Stark (stark@cs.sunysb.edu)
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October 30, 1993
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The TW523 is a carrier-current modem for home control/automation purposes.
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It is made by:
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X-10 Inc.
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185A LeGrand Ave.
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Northvale, NJ 07647
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USA
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(201) 784-9700 or 1-800-526-0027
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X-10 Home Controls Inc.
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1200 Aerowood Drive, Unit 20
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Mississauga, Ontario
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(416) 624-4446 or 1-800-387-3346
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The TW523 is designed for communications using the X-10 protocol,
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which is compatible with a number of home control systems, including
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Radio Shack "Plug 'n Power(tm)" and Stanley "Lightmaker(tm)."
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I bought my TW523 from:
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Home Control Concepts
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9353-C Activity Road
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San Diego, CA 92126
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(619) 693-8887
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They supplied me with the TW523 (which has an RJ-11 four-wire modular
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telephone connector), a modular cable, an RJ-11 to DB-25 connector with
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internal wiring, documentation from X-10 on the TW523 (very good),
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an instruction manual by Home Control Concepts (not very informative),
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and a floppy disk containing binary object code of some demonstration/test
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programs and of a C function library suitable for controlling the TW523
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by an IBM PC under MS-DOS (not useful to me other than to verify that
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the unit worked). I suggest saving money and buying the bare TW523
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rather than the TW523 development kit (what I bought), because if you
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are running 386BSD you don't really care about the DOS binaries.
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For details on the X-10 protocol itself, refer to the documentation from
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X-10 Inc.
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The interface to the TW-523 consists of four wires on the RJ-11 connector,
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which are jumpered to somewhat more wires on the DB-25 connector, which
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in turn is intended to plug into the PC parallel printer port. I dismantled
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the DB-25 connector to find out what they had done:
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Signal RJ-11 pin DB-25 pin(s) Parallel Port
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Transmit TX 4 (Y) 2, 4, 6, 8 Data out
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Receive RX 3 (G) 10, 14 -ACK, -AutoFeed
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Common 2 (R) 25 Common
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Zero crossing 1 (B) 17 -Select Input
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I use the TW-523 and this software in the USA with 120V/60Hz power.
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Phil Sampson (vk2jnt@gw.vk2jnt.ampr.org OR sampson@gidday.enet.dec.com)
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in Australia has reported success in using a TW-7223 (a local version
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of the TW-523) and Tandy modules with this software under 240V/50Hz power.
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For reasons explained in the comments in the driver, it will probably not
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work if you have three-phase power, but this is usually not the case for
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normal residences and offices.
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1. Installing the TW523 Device Driver
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I assume that you are running FreeBSD. If you are running some other
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system, you are more or less on your own, though I can try to help if you
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have problems.
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Check the configuration parameters at the beginning of the file
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/sys/i386/isa/tw.c
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Probably the only thing you might need to change is to change the
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definition of HALFCYCLE from 8333 to 10000 if you are using 50Hz power.
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The driver assumes that the TW523 device is connected to a parallel port.
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See the comments near the beginning of the file to find out where to
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get a TW523 if you don't have one, and how to make a cable for it to
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connect to your parallel port.
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Add a line like the following
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device tw0 at isa? port 0x278 tty irq 5 vector twintr
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to /sys/i386/conf/YOURSYSTEM, but make sure to change the I/O port and
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interrupt to match your hardware configuration.
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Cd to /sys/i386/conf and do "config YOURSYSTEM".
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Cd to /sys/compile/YOURSYSTEM and do "make depend", then "make".
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(If you have any troubles, I suggest starting fresh by doing a full
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"make clean; make depend; make".) Assuming the make works correctly, do
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mv /386bsd /386bsd.old
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mv 386bsd /386bsd
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(If you are not a trusting person, or you don't have any spare fixit
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floppies with working kernels lying around, don't do this without testing
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the kernel first by copying it to a fixit floppy and booting from that.)
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Reboot the system. You should see a line indicating that the TW523 has
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been configured as the system comes up. If you see this line, then probably
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everything is going to work OK, because the TW523 will only get configured
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if the driver is able to sync to the power line. If the TW523 is not plugged
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in, or the driver is not getting sync for some reason, then you won't see
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any message on bootup.
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NOTE: I have received a report that some multi IDE/SIO/PARALLEL cards
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"cheat" and use TTL outputs rather than pullup open collector outputs,
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and this can mess up the scheme by which sync gets to the driver.
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If you are having trouble getting the driver to work, you might want to
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look into this possibility.
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In directory /dev, execute the command
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MAKEDEV tw0
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2. Installing the X-10 Daemon
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Go to the xten source directory (probably /usr/src/contrib/xten).
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Check over the file "paths.h", if desired, to make sure that the entries
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are reasonable for your system. On my system, I have a special UID "xten"
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for the daemon. If you want to do this, too, you will have to add this UID
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to your /etc/master.passwd in the usual way. Otherwise, use "root" or
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"daemon" or something. You should change the ownership of /dev/tw0 to
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match this UID, so that the daemon will be able to access the TW-523.
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Edit the file Makefile.inc in the source directory to specify this UID:
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xtenuser= xten
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Then run "make". If everything is OK, run
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make install
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This should install the daemon "xtend" and the command "xten".
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Make sure the directory /var/spool/xten exists and is owned by the UID
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you selected above. This directory is used by the daemon for its log and
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device status files. When it is run, the daemon will also create a socket
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/var/run/tw523 and it will put its pid in /var/run/xtend.pid so that it can
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be signalled from shell scripts.
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Add the following lines to your /etc/rc.local file:
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if [ -x /usr/libexec/xtend ]; then
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echo -n ' xtend'; /usr/libexec/xtend
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fi
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This will cause the X-10 daemon to be invoked automatically when you boot
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the system. To test the installation, you can either reboot now, or
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you can just run "xtend" by hand. The daemon should start up, and it should
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create files in /var/spool/xten. Check the file /var/spool/xten/Log to
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make sure that the daemon started up without any errors.
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Now you are ready to start trying X-10 commands. Try doing
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xten A 1 Off
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xten A 1 On 1 Dim:10
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etc. The "xten" program expects a house code as its first argument, then
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a series of key codes, which are either unit names ("1" through "16") or
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else are command names. You can find the list of command names by looking
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at the table in the file "xten.c". Each key code can optionally be followed
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by a colon : then a number specifying the number of times that command is
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to be transmitted without gaps between packets. The default is 2, and this
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is the normal case, but some commands like Bright and Dim are designed to
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be transmitted with counts other than 2. See the X-10 documentation for
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more detail.
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The "xten" program works by connecting to "xtend" through a socket, and
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asking that the X-10 codes be transmitted over the TW523. All activity
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on the TW523 is logged by the daemon in /var/spool/xten/Log. The daemon
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also attempts to track the state of all devices. (Of course, most X-10
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devices do not transmit when they are operated manually, so if somebody
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operates a device manually there is no way the X-10 daemon will know
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about it.)
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3. Low-level Programming of the TW523 Driver
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Normally, you would never operate the TW523 directly, rather you would
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use the shell command "xten" or you would connect to "xtend" through its
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socket. However, if you don't want to run "xtend", you can manipulate
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the TW523 directly through the device /dev/tw0. Have a look at the
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xtend code for a programming example.
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The driver supports read(), write(), and select() system calls.
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The driver allows multiple processes to read and write simultaneously,
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but there is probably not much sense in having more than one reader or more
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than one writer at a time, and in fact there may currently be a race
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condition in the driver if two processes try to transmit simultaneously
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(due to unsynchronized access to the sc_pkt structure in tw_sc).
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Transmission is done by calling write() to send three byte packets of data.
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The first byte contains a four bit house code (0=A to 15=P). The second byte
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contains five bit unit/key code (0=unit 1 to 15=unit 16, 16=All Units Off
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to 31 = Status Request). The third byte specifies the number of times the
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packet is to be transmitted without any gaps between successive transmissions.
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Normally this is 2, as per the X-10 documentation, but sometimes (e.g. for
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bright and dim codes) it can be another value. Each call to write can specify
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an arbitrary number of data bytes, but at most one packet will actually be
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processed in any call. Any incomplete packet is buffered until a subsequent
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call to write() provides data to complete it. Successive calls to write()
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leave a three-cycle gap between transmissions, per the X-10 documentation.
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The driver transmits each bit only once per half cycle, not three times as
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the X-10 documentation states, because the TW523 only provides sync on
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each power line zero crossing. So, the driver will probably not work
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properly if you have three-phase service. Most residences use a two-wire
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system, for which the driver does work.
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Reception is done using read(). The driver produces a series of three
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character packets. In each packet, the first character consists of flags,
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the second character is a four bit house code (0-15), and the third character
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is a five bit key/function code (0-31). The flags are the following:
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#define TW_RCV_LOCAL 1 /* The packet arrived during a local transmission */
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#define TW_RCV_ERROR 2 /* An invalid/corrupted packet was received */
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The select() system call can be used in the usual way to determine if there
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is data ready for reading.
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Happy Controlling!
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Gene Stark
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stark@cs.sunysb.edu
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