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425 lines
14 KiB
Plaintext
425 lines
14 KiB
Plaintext
Downloaded from http://www.lafn.org/~dave/linux/Serial-Programming-HOWTO.txt
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Seems to be somewhat old, but contains useful bits for getty.c hacking
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============================================================================
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The Linux Serial Programming HOWTO, Part 1 of 2
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By Vernon C. Hoxie
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v2.0 10 September 1999
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This document describes how to program communications with devices
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over a serial port on a Linux box.
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______________________________________________________________________
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Table of Contents
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1. Copyright
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2. Introduction
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3. Opening
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4. Commands
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5. Changing Baud Rates
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6. Additional Control Calls
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6.1 Sending a "break".
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6.2 Hardware flow control.
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6.3 Flushing I/O buffers.
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7. Modem control
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8. Process Groups
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8.1 Sessions
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8.2 Process Groups
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8.3 Controlling Terminal
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8.3.1 Get the foreground group process id.
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8.3.2 Set the foreground process group id of a terminal.
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8.3.3 Get process group id.
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9. Lockfiles
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10. Additional Information
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11. Feedback
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______________________________________________________________________
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1. Copyright
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The Linux Serial-Programming-HOWTO is copyright (C) 1997 by Vernon
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Hoxie. Linux HOWTO documents may be reproduced and distributed in
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whole or in part, in any medium physical or electronic, as long as
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this copyright notice is retained on all copies. Commercial
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redistribution is allowed and encouraged; however, the author would
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like to be notified of any such distributions.
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All translations, derivative works, or aggregate works incorporating
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this Linux HOWTO document must be covered under this copyright notice.
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That is, you may not produce a derivative work from this HOWTO and
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impose additional restrictions on its distribution.
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This version is a complete rewrite of the previous Serial-Programming-
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HOWTO by Peter H. Baumann, <mailto:Peter.Baumann@dlr.de>
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2. Introduction
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This HOWTO will attempt to give hints about how to write a program
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which needs to access a serial port. Its principal focus will be on
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the Linux implementation and what the meaning of the various library
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functions available.
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Someone asked about which of several sequences of operations was
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right. There is no absolute right way to accomplish an outcome. The
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options available are too numerous. If your sequences produces the
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desired results, then that is the right way for you. Another
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programmer may select another set of options and get the same results.
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His method is right for him.
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Neither of these methods may operate properly with some other
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implementation of UNIX. It is strange that many of the concepts which
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were implemented in the SYSV version have been dumped. Because UNIX
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was developed by AT&T and much code has been generated on those
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concepts, the AT&T version should be the standard to which others
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should emulate.
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Now the standard is POSIX.
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It was once stated that the popularity of UNIX and C was that they
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were created by programmers for programmers. Not by scholars who
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insist on purity of style in deference to results and simplicity of
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use. Not by committees with people who have diverse personal or
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proprietary agenda. Now ANSI and POSIX have strayed from those
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original clear and simply concepts.
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3. Opening
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The various serial devices are opened just as any other file.
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Although, the fopen(3) command may be used, the plain open(2) is
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preferred. This call returns the file descriptor which is required
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for the various commands that configure the interface.
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Open(2) has the format:
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#include <fcntl.h>
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int open(char *path, int flags, [int mode]);
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In addition to the obvious O_RDWR, O_WRONLY and O_RDONLY, two
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additional flags are available. These are O_NONBLOCK and O_NOCTTY.
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Other flags listed in the open(2) manual page are not applicable to
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serial devices.
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Normally, a serial device opens in "blocking" mode. This means that
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the open() will not return until the Carrier Detect line from the port
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is active, e.g. modem, is active. When opened with the O_NONBLOCK
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flag set, the open() will return immediately regardless of the status
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of the DCD line. The "blocking" mode also affects the read() call.
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The fcntl(2) command can be used to change the O_NONBLOCK flag anytime
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after the device has been opened.
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The device driver and the data passing through it are controlled
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according to settings in the struct termios. This structure is
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defined in "/usr/include/termios.h". In the Linux tree, further
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reference is made to "/usr/include/asm/termbits.h".
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In blocking mode, a read(2) will block until data is available or a
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signal is received. It is still subject to state of the ICANON flag.
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When the termios.c_lflag ICANON bit is set, input data is collected
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into strings until a NL, EOF or EOL character is received. You can
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define these in the termios.c_cc[] array. Also, ERASE and KILL
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characters will operate on the incoming data before it is delivered to
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the user.
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In non-canonical mode, incoming data is quantified by use of the
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c_cc[VMIN and c_cc[VTIME] values in termios.c_cc[].
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Some programmers use the select() call to detect the completion of a
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read(). This is not the best way of checking for incoming data.
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Select() is part of the SOCKETS scheme and too complex for most
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applications.
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A full explanation of the fields of the termios structure is contained
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in termios(7) of the Users Manual. A version is included in Part 2 of
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this HOWTO document.
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4. Commands
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Changes to the struct termios are made by retrieving the current
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settings, making the desired changes and transmitting the modified
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structure back to the kernel.
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The historic means of communicating with the kernel was by use of the
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ioctl(fd, COMMAND, arg) system call. Then the purists in the
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computer industry decided that this was not genetically consistent.
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Their argument was that the argument changed its stripes. Sometimes
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it was an int, sometimes it was a pointer to int and other times it
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was a pointer to struct termios. Then there were those times it was
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empty or NULL. These variations are dependent upon the COMMAND.
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As a alternative, the tc* series of functions were concocted.
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These are:
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int tcgetattr(int filedes, struct termios *termios_p);
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int tcsetattr(int filedes, int optional_actions,
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const struct termios *termios_p);
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instead of:
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int ioctl(int filedes, int command,
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struct termios *termios_p);
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where command is TCGETS or one of TCSETS, TCSETSW or TCSETSF.
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The TCSETS command is comparable to the TCSANOW optional_action for
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the tc* version. These direct the kernel to adopt the changes
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immediately. Other pairs are:
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command optional_action Meaning
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TCSETSW TCSADRAIN Change after all output has drained.
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TCSETSF TCSAFLUSH Change after all output has drained
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then discard any input characters
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not read.
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Since the return code from either the ioctl(2) or the tcsetattr(2)
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commands only indicate that the command was processed by the kernel.
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These do not indicate whether or not the changes were actually
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accomplished. Either of these commands should be followed by a call
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to:
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ioctl(fd, TCGETS, &new_termios);
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or:
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tcgetattr(fd, &new_termios);
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A user function which makes changes to the termios structure should
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define two struct termios variables. One of these variables should
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contain the desired configuration. The other should contain a copy of
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the kernels version. Then after the desired configuration has been
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sent to the kernel, another call should be made to retrieve the
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kernels version. Then the two compared.
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Here is an example of how to add RTS/CTS flow control:
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struct termios my_termios;
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struct termios new_termios;
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tcgetattr(fd, &my_termios);
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my_termios.c_flag |= CRTSCTS;
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tcsetattr(fd, TCSANOW, &my_termios);
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tcgetattr(fd, &new_termios);
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if (memcmp(my_termios, new_termios,
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sizeof(my_termios)) != 0) {
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/* do some error handling */
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}
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5. Changing Baud Rates
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With Linux, the baud rate can be changed using a technique similar to
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add/delete RTS/CTS.
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struct termios my_termios;
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struct termios new_termios;
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tcgetattr(fd, &my_termios);
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my_termios.c_flag &= ~CBAUD;
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my_termios.c_flag |= B19200;
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tcsetattr(fd, TCSANOW, &my_termios);
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tcgetattr(fd, &new_termios);
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if (memcmp(my_termios, new_termios,
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sizeof(my_termios)) != 0) {
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/* do some error handling */
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}
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POSIX adds another method. They define:
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speed_t cfgetispeed(const struct termios *termios_p);
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speed_t cfgetospeed(const struct termios *termios_p);
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library calls to extract the current input or output speed from the
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struct termios pointed to with *termio_p. This is a variable defined
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in the calling process. In practice, the data contained in this
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termios, should be obtained by the tcgetattr() call or an ioctl() call
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using the TCGETS command.
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The companion library calls are:
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int cfsetispeed(struct termios *termios_p, speed_t speed);
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int cfsetospeed(struct termios *termios_p, speed_t speed);
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which are used to change the value of the baud rate in the locally
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defined *termios_p. Following either of these calls, either a call to
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tcsetattr() or ioctl() with one of TCSETS, TCSETSW or TCSETSF as the
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command to transmit the change to the kernel.
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The cf* commands are preferred for portability. Some weird Unices use
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a considerably different format of termios.
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Most implementations of Linux use only the input speed for both input
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and output. These functions are defined in the application program by
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reference to <termios.h>. In reality, they are in
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/usr/include/asm/termbits.h.
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6. Additional Control Calls
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6.1. Sending a "break".
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int ioctl(fd, TCSBRK, int arg);
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int tcsendbreak(fd, int arg);
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Send a break: Here the action differs between the conventional
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ioctl() call and the POSIX call. For the conventional call, an arg of
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'0' sets the break control line of the UART for 0.25 seconds. For the
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POSIX command, the break line is set for arg times 0.1 seconds.
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6.2. Hardware flow control.
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int ioctl(fd, TCXONC, int action);
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int tcflow(fd, int action);
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The action flags are:
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o TCOOFF 0 suspend output
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o TCOON 1 restart output
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o TCIOFF 2 transmit STOP character to suspend input
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o TCION 3 transmit START character to restart input
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6.3. Flushing I/O buffers.
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int ioctl(fd, TCFLSH, queue_selector);
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int tcflush(fd, queue_selector);
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The queue_selector flags are:
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o TCIFLUSH 0 flush any data not yet read from the input buffer
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o TCOFLUSH 1 flush any data written to the output buffer but not
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yet transmitted
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o TCIOFLUSH 2 flush both buffers
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7. Modem control
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The hardware modem control lines can be monitored or modified by the
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ioctl(2) system call. A set of comparable tc* calls apparently do not
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exist. The form of this call is:
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int ioctl(fd, COMMAND, (int *)flags);
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The COMMANDS and their action are:
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o TIOCMBIS turn on control lines depending upon which bits are set
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in flags.
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o TIOCMBIC turn off control lines depending upon which bits are
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unset in flags.
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o TIOCMGET the appropriate bits are set in flags according to the
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current status
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o TIOCMSET the state of the UART is changed according to which bits
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are set/unset in 'flags'
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The bit pattern of flags refer to the following control lines:
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o TIOCM_LE Line enable
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o TIOCM_DTR Data Terminal Ready
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o TIOCM_RTS Request to send
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o TIOCM_ST Secondary transmit
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o TIOCM_SR Secondary receive
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o TIOCM_CTS Clear to send
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o TIOCM_CAR Carrier detect
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o TIOCM_RNG Ring
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o TIOCM_DSR Data set ready
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It should be noted that some of these bits are controlled by the modem
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and the UART cannot change them but their status can be sensed by
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TIOCMGET. Also, most Personal Computers do not provide hardware for
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secondary transmit and receive.
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There are also a pair of ioctl() to monitor these lines. They are
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undocumented as far as I have learned. The commands are TIOCMIWAIT
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and TCIOGICOUNT. They also differ between versions of the Linux
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kernel.
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See the lines.c file in my "serial_suite" for an example of how these
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can be used see <ftp://scicom.alphacd.com/pub/linux/serial_suite>
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8. Process Groups
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8.1. Sessions
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8.2. Process Groups
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Any newly created process inherits the Process Group of its creator.
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The Process Group leader has the same PID as PGID.
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8.3. Controlling Terminal
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There are a series of ioctl(2) and tc*(2) calls which can be used to
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monitor or to change the process group to which the device is
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attached.
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8.3.1. Get the foreground group process id.
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If there is no foreground group, a number not representing an existing
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process group is returned. On error, a -1 is returned and errno is
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set.
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int ioctl(fd, TIOCGPGRP, (pid_t *)pid);
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int tcgetpgrp(fd, (pid_t *)pid);
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8.3.2. Set the foreground process group id of a terminal.
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The fd must be the controlling terminal and be associated with the
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session of the calling process.
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int ioctl(fd, TIOCSPGRP, (pid_t *)pid);
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int tcsetpgrp(fd, (pid_t *)pid);
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8.3.3. Get process group id.
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int ioctl(fd, TIOCGPGRP, &(pid_t)pid);
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int tcgetpgrp(fd, &(pid_t)pid);
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9. Lockfiles
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Any process which accesses a serial device should first check for the
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existence of lock file for the desired device. If such a lock lock
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file exists, this means that the device may be in use by another
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process.
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Check my "libdevlocks-x.x.tgz" at
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<ftp://scicom.alphacdc.com/pub/linux> for an example of how these lock
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files should be utilized.
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10. Additional Information
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Check out my "serial_suite.tgz" for more information about programming
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the serial ports at <mailto:vern@zebra.alphacdc.com>. There some
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examples and some blurbs about setting up modems and comments about
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some general considerations.
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11. Feedback
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Please send me any corrections, questions, comments, suggestions, or
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additional material. I would like to improve this HOWTO! Tell me
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exactly what you don't understand, or what could be clearer. You can
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reach me at <mailto:vern@zebra.alphacdc.com> via email. Please
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include the version number of the Serial-Programming-HOWTO when
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writing.
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