f0957ccae4
This is the gsoc-2011 project to clean up and backport multibyte support from other nvi forks in a form we can use. USE_WIDECHAR is on unless building for the rescue crunchgen. This should allow editing in the native locale encoding. USE_ICONV depends on make.conf having 'WITH_ICONV=YES' for now. This adds the ability to do things like edit a KOI8-R file while having $LANG set to (say) en_US.UTF-8. iconv is used to transcode the characters for display. Other points: * It uses gencat and catopen/etc instead of homegrown msg catalog stuff. * A lot of stuff has been trimmed out, eg: the perl and tcl bindings which we could never use in base anyway. * It uses ncursesw when in widechar mode. This could be interesting. GSoC info: http://www.google-melange.com/gsoc/proposal/review/google/gsoc2011/zy/1 Repo at: https://github.com/lichray/nvi2 Obtained from: Zhihao Yuan <lichray@gmail.com>
175 lines
9.1 KiB
Plaintext
175 lines
9.1 KiB
Plaintext
# $Id: README.signal,v 10.1 1995/06/23 10:28:17 bostic Exp $
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There are six (normally) asynchronous actions about which vi cares:
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SIGHUP, SIGINT, SIGQUIT, SIGTERM, SIGTSTP and SIGWINCH.
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The assumptions:
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1: The DB routines are not reentrant.
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2: The curses routines may not be reentrant.
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3: Neither DB nor curses will restart system calls.
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XXX
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Note, most C library functions don't restart system calls. So, we should
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*probably* start blocking around any imported function that we don't know
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doesn't make a system call. This is going to be a genuine annoyance...
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SIGHUP, SIGTERM
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Used for file recovery. The DB routines can't be reentered, nor
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can they handle interrupted system calls, so the vi routines that
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call DB block signals. This means that DB routines could be
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called at interrupt time, if necessary.
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SIGQUIT
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Disabled by the signal initialization routines. Historically, ^\
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switched vi into ex mode, and we continue that practice.
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SIGWINCH:
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The interrupt routine sets a global bit which is checked by the
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key-read routine, so there are no reentrancy issues. This means
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that the screen will not resize until vi runs out of keys, but
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that doesn't seem like a problem.
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SIGINT and SIGTSTP are a much more difficult issue to resolve. Vi has
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to permit the user to interrupt long-running operations. Generally, a
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search, substitution or read/write is done on a large file, or, the user
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creates a key mapping with an infinite loop. This problem will become
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worse as more complex semantics are added to vi, especially things like
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making it a pure text widget. There are four major solutions on the table,
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each of which have minor permutations.
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1: Run in raw mode.
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The up side is that there's no asynchronous behavior to worry about,
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and obviously no reentrancy problems. The down side is that it's easy
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to misinterpret characters (e.g. :w big_file^Mi^V^C is going to look
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like an interrupt) and it's easy to get into places where we won't see
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interrupt characters (e.g. ":map a ixx^[hxxaXXX" infinitely loops in
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historic implementations of vi). Periodically reading the terminal
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input buffer might solve the latter problem, but it's not going to be
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pretty.
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Also, we're going to be checking for ^C's and ^Z's both, all over
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the place -- I hate to litter the source code with that. For example,
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the historic version of vi didn't permit you to suspend the screen if
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you were on the colon command line. This isn't right. ^Z isn't a vi
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command, it's a terminal event. (Dammit.)
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2: Run in cbreak mode. There are two problems in this area. First, the
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current curses implementations (both System V and Berkeley) don't give
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you clean cbreak modes. For example, the IEXTEN bit is left on, turning
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on DISCARD and LNEXT. To clarify, what vi WANTS is 8-bit clean, with
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the exception that flow control and signals are turned on, and curses
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cbreak mode doesn't give you this.
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We can either set raw mode and twiddle the tty, or cbreak mode and
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twiddle the tty. I chose to use raw mode, on the grounds that raw
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mode is better defined and I'm less likely to be surprised by a curses
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implementation down the road. The twiddling consists of setting ISIG,
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IXON/IXOFF, and disabling some of the interrupt characters (see the
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comments in cl_init.c). This is all found in historic System V (SVID
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3) and POSIX 1003.1-1992, so it should be fairly portable.
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The second problem is that vi permits you to enter literal signal
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characters, e.g. ^V^C. There are two possible solutions. First, you
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can turn off signals when you get a ^V, but that means that a network
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packet containing ^V and ^C will lose, since the ^C may take effect
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before vi reads the ^V. (This is particularly problematic if you're
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talking over a protocol that recognizes signals locally and sends OOB
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packets when it sees them.) Second, you can turn the ^C into a literal
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character in vi, but that means that there's a race between entering
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^V<character>^C, i.e. the sequence may end up being ^V^C<character>.
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Also, the second solution doesn't work for flow control characters, as
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they aren't delivered to the program as signals.
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Generally, this is what historic vi did. (It didn't have the curses
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problems because it didn't use curses.) It entered signals following
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^V characters into the input stream, (which is why there's no way to
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enter a literal flow control character).
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3: Run in mostly raw mode; turn signals on when doing an operation the
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user might want to interrupt, but leave them off most of the time.
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This works well for things like file reads and writes. This doesn't
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work well for trying to detect infinite maps. The problem is that
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you can write the code so that you don't have to turn on interrupts
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per keystroke, but the code isn't pretty and it's hard to make sure
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that an optimization doesn't cover up an infinite loop. This also
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requires interaction or state between the vi parser and the key
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reading routines, as an infinite loop may still be returning keys
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to the parser.
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Also, if the user inserts an interrupt into the tty queue while the
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interrupts are turned off, the key won't be treated as an interrupt,
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and requiring the user to pound the keyboard to catch an interrupt
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window is nasty.
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4: Run in mostly raw mode, leaving signals on all of the time. Done
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by setting raw mode, and twiddling the tty's termios ISIG bit.
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This works well for the interrupt cases, because the code only has
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to check to see if the interrupt flag has been set, and can otherwise
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ignore signals. It's also less likely that we'll miss a case, and we
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don't have to worry about synchronizing between the vi parser and the
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key read routines.
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The down side is that we have to turn signals off if the user wants
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to enter a literal character (e.g. ^V^C). If the user enters the
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combination fast enough, or as part of a single network packet,
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the text input routines will treat it as a signal instead of as a
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literal character. To some extent, we have this problem already,
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since we turn off flow control so that the user can enter literal
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XON/XOFF characters.
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This is probably the easiest to code, and provides the smoothest
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programming interface.
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There are a couple of other problems to consider.
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First, System V's curses doesn't handle SIGTSTP correctly. If you use the
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newterm() interface, the TSTP signal will leave you in raw mode, and the
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final endwin() will leave you in the correct shell mode. If you use the
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initscr() interface, the TSTP signal will return you to the correct shell
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mode, but the final endwin() will leave you in raw mode. There you have
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it: proof that drug testing is not making any significant headway in the
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computer industry. The 4BSD curses is deficient in that it does not have
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an interface to the terminal keypad. So, regardless, we have to do our
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own SIGTSTP handling.
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The problem with this is that if we do our own SIGTSTP handling, in either
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models #3 or #4, we're going to have to call curses routines at interrupt
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time, which means that we might be reentering curses, which is something we
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don't want to do.
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Second, SIGTSTP has its own little problems. It's broadcast to the entire
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process group, not sent to a single process. The scenario goes something
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like this: the shell execs the mail program, which execs vi. The user hits
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^Z, and all three programs get the signal, in some random order. The mail
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program goes to sleep immediately (since it probably didn't have a SIGTSTP
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handler in place). The shell gets a SIGCHLD, does a wait, and finds out
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that the only child in its foreground process group (of which it's aware)
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is asleep. It then optionally resets the terminal (because the modes aren't
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how it left them), and starts prompting the user for input. The problem is
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that somewhere in the middle of all of this, vi is resetting the terminal,
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and getting ready to send a SIGTSTP to the process group in order to put
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itself to sleep. There's a solution to all of this: when vi starts, it puts
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itself into its own process group, and then only it (and possible child
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processes) receive the SIGTSTP. This permits it to clean up the terminal
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and switch back to the original process group, where it sends that process
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group a SIGTSTP, putting everyone to sleep and waking the shell.
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Third, handing SIGTSTP asynchronously is further complicated by the child
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processes vi may fork off. If vi calls ex, ex resets the terminal and
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starts running some filter, and SIGTSTP stops them both, vi has to know
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when it restarts that it can't repaint the screen until ex's child has
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finished running. This is solveable, but it's annoying.
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Well, somebody had to make a decision, and this is the way it's going to be
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(unless I get talked out of it). SIGINT is handled asynchronously, so
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that we can pretty much guarantee that the user can interrupt any operation
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at any time. SIGTSTP is handled synchronously, so that we don't have to
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reenter curses and so that we don't have to play the process group games.
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^Z is recognized in the standard text input and command modes. (^Z should
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also be recognized during operations that may potentially take a long time.
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The simplest solution is probably to twiddle the tty, install a handler for
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SIGTSTP, and then restore normal tty modes when the operation is complete.)
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