Current Path : /usr/src/contrib/nvi/cl/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/nvi/cl/cl_main.c |
/*- * Copyright (c) 1993, 1994 * The Regents of the University of California. All rights reserved. * Copyright (c) 1993, 1994, 1995, 1996 * Keith Bostic. All rights reserved. * * See the LICENSE file for redistribution information. */ #include "config.h" #ifndef lint static const char sccsid[] = "@(#)cl_main.c 10.36 (Berkeley) 10/14/96"; #endif /* not lint */ #include <sys/types.h> #include <sys/queue.h> #include <bitstring.h> #include <curses.h> #include <errno.h> #include <fcntl.h> #include <signal.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <termios.h> #include <unistd.h> #include "../common/common.h" #ifdef RUNNING_IP #include "../ip/ip.h" #endif #include "cl.h" #include "pathnames.h" GS *__global_list; /* GLOBAL: List of screens. */ sigset_t __sigblockset; /* GLOBAL: Blocked signals. */ static void cl_func_std __P((GS *)); static CL_PRIVATE *cl_init __P((GS *)); static GS *gs_init __P((char *)); static void perr __P((char *, char *)); static int setsig __P((int, struct sigaction *, void (*)(int))); static void sig_end __P((GS *)); static void term_init __P((char *, char *)); /* * main -- * This is the main loop for the standalone curses editor. */ int main(argc, argv) int argc; char *argv[]; { static int reenter; CL_PRIVATE *clp; GS *gp; size_t rows, cols; int rval; char *ip_arg, **p_av, **t_av, *ttype; /* If loaded at 0 and jumping through a NULL pointer, stop. */ if (reenter++) abort(); /* Create and initialize the global structure. */ __global_list = gp = gs_init(argv[0]); /* * Strip out any arguments that vi isn't going to understand. There's * no way to portably call getopt twice, so arguments parsed here must * be removed from the argument list. */ #ifdef RUNNING_IP ip_arg = NULL; for (p_av = t_av = argv;;) { if (*t_av == NULL) { *p_av = NULL; break; } if (!strcmp(*t_av, "--")) { while ((*p_av++ = *t_av++) != NULL); break; } if (!memcmp(*t_av, "-I", sizeof("-I") - 1)) { if (t_av[0][2] != '\0') { ip_arg = t_av[0] + 2; ++t_av; --argc; continue; } if (t_av[1] != NULL) { ip_arg = t_av[1]; t_av += 2; argc -= 2; continue; } } *p_av++ = *t_av++; } /* * If we're being called as an editor library, we're done here, we * get loaded with the curses screen, we don't share much code. */ if (ip_arg != NULL) exit (ip_main(argc, argv, gp, ip_arg)); #else ip_arg = argv[0]; #endif /* Create and initialize the CL_PRIVATE structure. */ clp = cl_init(gp); /* * Initialize the terminal information. * * We have to know what terminal it is from the start, since we may * have to use termcap/terminfo to find out how big the screen is. */ if ((ttype = getenv("TERM")) == NULL) ttype = "unknown"; term_init(gp->progname, ttype); /* Add the terminal type to the global structure. */ if ((OG_D_STR(gp, GO_TERM) = OG_STR(gp, GO_TERM) = strdup(ttype)) == NULL) perr(gp->progname, NULL); /* Figure out how big the screen is. */ if (cl_ssize(NULL, 0, &rows, &cols, NULL)) exit (1); /* Add the rows and columns to the global structure. */ OG_VAL(gp, GO_LINES) = OG_D_VAL(gp, GO_LINES) = rows; OG_VAL(gp, GO_COLUMNS) = OG_D_VAL(gp, GO_COLUMNS) = cols; /* Ex wants stdout to be buffered. */ (void)setvbuf(stdout, NULL, _IOFBF, 0); /* Start catching signals. */ if (sig_init(gp, NULL)) exit (1); /* Run ex/vi. */ rval = editor(gp, argc, argv); /* Clean up signals. */ sig_end(gp); /* Clean up the terminal. */ (void)cl_quit(gp); /* * XXX * Reset the O_MESG option. */ if (clp->tgw != TGW_UNKNOWN) (void)cl_omesg(NULL, clp, clp->tgw == TGW_SET); /* * XXX * Reset the X11 xterm icon/window name. */ if (F_ISSET(clp, CL_RENAME)) { (void)printf(XTERM_RENAME, ttype); (void)fflush(stdout); } /* If a killer signal arrived, pretend we just got it. */ if (clp->killersig) { (void)signal(clp->killersig, SIG_DFL); (void)kill(getpid(), clp->killersig); /* NOTREACHED */ } /* Free the global and CL private areas. */ #if defined(DEBUG) || defined(PURIFY) || defined(LIBRARY) free(clp); free(gp); #endif exit (rval); } /* * gs_init -- * Create and partially initialize the GS structure. */ static GS * gs_init(name) char *name; { CL_PRIVATE *clp; GS *gp; char *p; /* Figure out what our name is. */ if ((p = strrchr(name, '/')) != NULL) name = p + 1; /* Allocate the global structure. */ CALLOC_NOMSG(NULL, gp, GS *, 1, sizeof(GS)); if (gp == NULL) perr(name, NULL); gp->progname = name; return (gp); } /* * cl_init -- * Create and partially initialize the CL structure. */ static CL_PRIVATE * cl_init(gp) GS *gp; { CL_PRIVATE *clp; int fd; /* Allocate the CL private structure. */ CALLOC_NOMSG(NULL, clp, CL_PRIVATE *, 1, sizeof(CL_PRIVATE)); if (clp == NULL) perr(gp->progname, NULL); gp->cl_private = clp; /* * Set the CL_STDIN_TTY flag. It's purpose is to avoid setting * and resetting the tty if the input isn't from there. We also * use the same test to determine if we're running a script or * not. */ if (isatty(STDIN_FILENO)) F_SET(clp, CL_STDIN_TTY); else F_SET(gp, G_SCRIPTED); /* * We expect that if we've lost our controlling terminal that the * open() (but not the tcgetattr()) will fail. */ if (F_ISSET(clp, CL_STDIN_TTY)) { if (tcgetattr(STDIN_FILENO, &clp->orig) == -1) goto tcfail; } else if ((fd = open(_PATH_TTY, O_RDONLY, 0)) != -1) { if (tcgetattr(fd, &clp->orig) == -1) { tcfail: perr(gp->progname, "tcgetattr"); exit (1); } (void)close(fd); } /* Initialize the list of curses functions. */ cl_func_std(gp); return (clp); } /* * term_init -- * Initialize terminal information. */ static void term_init(name, ttype) char *name, *ttype; { int err; /* Set up the terminal database information. */ setupterm(ttype, STDOUT_FILENO, &err); switch (err) { case -1: (void)fprintf(stderr, "%s: No terminal database found\n", name); exit (1); case 0: (void)fprintf(stderr, "%s: %s: unknown terminal type\n", name, ttype); exit (1); } } #define GLOBAL_CLP \ CL_PRIVATE *clp = GCLP(__global_list); static void h_hup(signo) int signo; { GLOBAL_CLP; F_SET(clp, CL_SIGHUP); clp->killersig = SIGHUP; } static void h_int(signo) int signo; { GLOBAL_CLP; F_SET(clp, CL_SIGINT); } static void h_term(signo) int signo; { GLOBAL_CLP; F_SET(clp, CL_SIGTERM); clp->killersig = SIGTERM; } static void h_winch(signo) int signo; { GLOBAL_CLP; F_SET(clp, CL_SIGWINCH); } #undef GLOBAL_CLP /* * sig_init -- * Initialize signals. * * PUBLIC: int sig_init __P((GS *, SCR *)); */ int sig_init(gp, sp) GS *gp; SCR *sp; { CL_PRIVATE *clp; clp = GCLP(gp); if (sp == NULL) { (void)sigemptyset(&__sigblockset); if (sigaddset(&__sigblockset, SIGHUP) || setsig(SIGHUP, &clp->oact[INDX_HUP], h_hup) || sigaddset(&__sigblockset, SIGINT) || setsig(SIGINT, &clp->oact[INDX_INT], h_int) || sigaddset(&__sigblockset, SIGTERM) || setsig(SIGTERM, &clp->oact[INDX_TERM], h_term) #ifdef SIGWINCH || sigaddset(&__sigblockset, SIGWINCH) || setsig(SIGWINCH, &clp->oact[INDX_WINCH], h_winch) #endif ) { perr(gp->progname, NULL); return (1); } } else if (setsig(SIGHUP, NULL, h_hup) || setsig(SIGINT, NULL, h_int) || setsig(SIGTERM, NULL, h_term) #ifdef SIGWINCH || setsig(SIGWINCH, NULL, h_winch) #endif ) { msgq(sp, M_SYSERR, "signal-reset"); } return (0); } /* * setsig -- * Set a signal handler. */ static int setsig(signo, oactp, handler) int signo; struct sigaction *oactp; void (*handler) __P((int)); { struct sigaction act; /* * Use sigaction(2), not signal(3), since we don't always want to * restart system calls. The example is when waiting for a command * mode keystroke and SIGWINCH arrives. Besides, you can't portably * restart system calls (thanks, POSIX!). On the other hand, you * can't portably NOT restart system calls (thanks, Sun!). SunOS * used SA_INTERRUPT as their extension to NOT restart read calls. * We sure hope nobody else used it for anything else. Mom told me * there'd be days like this. She just never told me that there'd * be so many. */ act.sa_handler = handler; sigemptyset(&act.sa_mask); #ifdef SA_INTERRUPT act.sa_flags = SA_INTERRUPT; #else act.sa_flags = 0; #endif return (sigaction(signo, &act, oactp)); } /* * sig_end -- * End signal setup. */ static void sig_end(gp) GS *gp; { CL_PRIVATE *clp; clp = GCLP(gp); (void)sigaction(SIGHUP, NULL, &clp->oact[INDX_HUP]); (void)sigaction(SIGINT, NULL, &clp->oact[INDX_INT]); (void)sigaction(SIGTERM, NULL, &clp->oact[INDX_TERM]); #ifdef SIGWINCH (void)sigaction(SIGWINCH, NULL, &clp->oact[INDX_WINCH]); #endif } /* * cl_func_std -- * Initialize the standard curses functions. */ static void cl_func_std(gp) GS *gp; { gp->scr_addstr = cl_addstr; gp->scr_attr = cl_attr; gp->scr_baud = cl_baud; gp->scr_bell = cl_bell; gp->scr_busy = NULL; gp->scr_clrtoeol = cl_clrtoeol; gp->scr_cursor = cl_cursor; gp->scr_deleteln = cl_deleteln; gp->scr_event = cl_event; gp->scr_ex_adjust = cl_ex_adjust; gp->scr_fmap = cl_fmap; gp->scr_insertln = cl_insertln; gp->scr_keyval = cl_keyval; gp->scr_move = cl_move; gp->scr_msg = NULL; gp->scr_optchange = cl_optchange; gp->scr_refresh = cl_refresh; gp->scr_rename = cl_rename; gp->scr_screen = cl_screen; gp->scr_suspend = cl_suspend; gp->scr_usage = cl_usage; } /* * perr -- * Print system error. */ static void perr(name, msg) char *name, *msg; { (void)fprintf(stderr, "%s:", name); if (msg != NULL) (void)fprintf(stderr, "%s:", msg); (void)fprintf(stderr, "%s\n", strerror(errno)); exit(1); }