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199 lines
9.6 KiB
Text
199 lines
9.6 KiB
Text
/*-
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* Copyright (c) 1990, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* This code is derived from software contributed to Berkeley by
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* Edward Wang at The University of California, Berkeley.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Berkeley and its contributors.
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* 4. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)README 8.1 (Berkeley) 6/6/93
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*/
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Compilation notes:
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Compiler options:
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BYTE_ORDER (used only in ww.h)
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It should already be defined in machine/endian.h.
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The code knows about BIG_ENDIAN, LITTLE_ENDIAN, and PDP_ENDIAN.
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It only cares about byte order in words, so PDP_ENDIAN
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is the same as LITTLE_ENDIAN.
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OLD_TTY
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If you don't have Posix termios, then define this.
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VMIN_BUG
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Even if you have Posix termios, define this if the MIN and TIME
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feature in noncanonical mode doesn't work correctly.
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Ok, there's another one, STR_DEBUG. It turns on consistency checks
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in the string allocator. It's been left on since performace doesn't
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seem to suffer. There's an abort() somewhere when an inconsistency
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is found. It hasn't happened in years.
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The file local.h contains locally tunable constants.
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The makefile used to be updated with mkmf; it has been changed
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at various times to use cpp -M and, currently, mkdep. The only library
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it needs is termcap.
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Window, as is, only runs on 4.3 (or later) machines.
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On 4.2 machines, at least these modifications must be done:
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delete uses of window size ioctls: TIOCGWINSZ, TIOCSWINSZ,
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struct winsize
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add to ww.h
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typedef int fd_set;
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#define FD_ZERO(s) (*(s) = 0)
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#define FD_SET(b, s) (*(s) |= 1 << (b))
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#define FD_ISSET(b, s) (*(s) & 1 << (b))
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add to ww.h
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#define sigmask(s) (1 << (s) - 1)
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A few notes about the internals:
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The window package. Windows are opened by calling wwopen().
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Wwwrite() is the primitive for writing to windows. Wwputc(), wwputs(),
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and wwprintf() are also supported. Some of the outputs to windows are
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delayed. Wwupdate() updates the terminal to match the internal screen
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buffer. Wwspawn() spawns a child process on the other end of a window,
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with its environment tailored to the window. Visible windows are
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doubly linked in the order of their overlap. Wwadd() inserts a window
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into the list at a given place. Wwdelete() deletes it. Windows not in
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the list are not visible, though wwwrite() still works. Window was
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written before the days of X and Sunview, so some of the terminology
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is not standard.
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Most functions return -1 on error. Wwopen() returns the null
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pointer. An error number is saved in wwerrno. Wwerror() returns an
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error string based on wwerrno suitable for printing.
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The terminal drivers perform all output to the physical terminal,
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including special functions like character and line insertion and
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deletion. The window package keeps a list of known terminals. At
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initialization time, the terminal type is matched against the list to
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find the right terminal driver to use. The last driver, the generic
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driver, matches all terminals and uses the termcap database. The
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interface between the window package the terminal driver is the `tt'
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structure. It contains pointers to functions to perform special
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functions and terminal output, as well as flags about the
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characteristics of the terminal. Most of these ideas are borrowed
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from the Maryland window package, which in turn is based on Goslin's
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Emacs.
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The IO system is semi-synchronous. Terminal input is signal
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driven, and everything else is done synchronously with a single
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select(). It is roughly event-driven, though not in a clean way.
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Normally, in both conversation mode and command mode, window
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sleeps in a select() in wwiomux() waiting for data from the
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pseudo-terminals. At the same time, terminal input causes SIGIO which
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is caught by wwrint(). The select() returns when at least one of the
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pseudo-terminals becomes ready for reading.
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Wwrint() is the interrupt handler for tty input. It reads input
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into a linear buffer accessed through four pointers:
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+-------+--------------+----------------+
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| empty | data | empty |
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+-------+--------------+----------------+
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^ ^ ^ ^
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| | | |
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wwib wwibp wwibq wwibe
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Wwrint() appends characters at the end and increments wwibq (*wwibq++
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= c), and characters are taken off the buffer at wwibp using the
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wwgetc() and wwpeekc() macros. As is the convention in C, wwibq
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and wwibe point to one position beyond the end. In addition,
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wwrint() will do a longjmp(wwjmpbuf) if wwsetjmp is true. This is
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used by wwiomux() to interrupt the select() which would otherwise
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resume after the interrupt. (Actually, I hear this is not true,
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but the longjmp feature is used to avoid a race condition as well.
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Anyway, it means I didn't have to depend on a feature in a
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daily-changing kernel, but that's another story.) The macro
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wwinterrupt() returns true if the input buffer is non-empty.
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Wwupdate(), wwwrite(), and wwiomux() check this condition and will
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return at the first convenient opportunity when it becomes true.
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In the case of wwwrite(), the flag ww_nointr in the window structure
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overrides this. This feature allows the user to interrupt lengthy
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outputs safely. The structure of the input buffer is designed to
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avoid race conditions without blocking interrupts.
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Actually, wwsetjmp and wwinterrupt() are part of a software
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interrupt scheme used by the two interrupt catchers wwrint() and
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wwchild(). Asserting the interrupt lets the synchronous parts of
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the program know that there's an interesting asynchronous condition
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(i.e., got a keyboard character, or a child process died) that they
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might want to process before anything else. The synchronous routines
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can check for this condition with wwinterrupt() or by arranging
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that a longjmp() be done.
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Wwiomux() copies pseudo-terminal output into their corresponding
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windows. Without anything to do, it blocks in a select(), waiting for
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read ready on pseudo-terminals. Reads are done into per-window buffers
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in the window structures. When there is at least one buffer non-empty,
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wwiomux() finds the top most of these windows and writes it using
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wwwrite(). Then the process is repeated. A non-blocking select() is
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done after a wwwrite() to pick up any output that may have come in
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during the write, which may take a long time. Specifically, we use
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this to stop output or flush buffer when a pseudo-terminal tells us to
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(we use pty packet mode). The select() blocks only when all of the
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windows' buffers are empty. A wwupdate() is done prior to this, which
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is the only time the screen is guaranteed to be completely up to date.
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Wwiomux() loops until wwinterrupt() becomes true.
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The top level routine for all this is mloop(). In conversation
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mode, it simply calls wwiomux(), which only returns when input is
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available. The input buffer is then written to the pseudo-terminal of
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the current window. If the escape character is found in the input,
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command mode is entered. Otherwise, the process is repeated. In
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command mode, control is transferred to docmd() which returns only when
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conversation mode is reentered. Docmd() and other command processing
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routines typically wait for input in a loop:
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while (wwpeekc() < 0)
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wwiomux();
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When the loop terminates, wwgetc() is used to read the input buffer.
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Output to the physical terminal is handled by the lowest level
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routines of the window package, in the files ttoutput.c and tt.h. The
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standard IO package is not used, to get better control over buffering
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and to use non-blocking reads in wwrint(). The buffer size is set to
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approximately one second of output time, based on the baudrate.
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The result of all this complexity is faster response time,
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especially in output stopping and flushing. Wwwrite() checks
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wwinterrupt() after every line. It also calls wwupdate() for each line
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it writes. The output buffer is limited to one second of output time.
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Thus, there is usually only a delay of one to two lines plus one second
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after a ^C or ^S. Also, commands that produce lengthy output can be
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aborted without actually showing all of it on the terminal. (Try the
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'?' command followed by escape immediately.)
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