/* $OpenBSD: main.c,v 1.41 2006/04/10 14:38:59 jaredy Exp $ */ /* $OpenBSD: tty.c,v 1.9 2006/03/14 22:08:01 deraadt Exp $ */ /* $OpenBSD: io.c,v 1.22 2006/03/17 16:30:13 millert Exp $ */ /* $OpenBSD: table.c,v 1.12 2005/12/11 20:31:21 otto Exp $ */ #define EXTERN #include "sh.h" __RCSID("$MirOS: src/bin/mksh/main.c,v 1.48 2006/08/24 20:32:53 tg Exp $"); extern char **environ; static void reclaim(void); static void remove_temps(struct temp *); static const char initifs[] = "IFS= \t\n"; static const char initsubs[] = "${PS2=> } ${PS3=#? } ${PS4=+ }"; static const char *initcoms[] = { "typeset", "-r", initvsn, NULL, "typeset", "-x", "SHELL", "PATH", "HOME", NULL, "typeset", "-i", "PPID", "OPTIND=1", NULL, "eval", "typeset -i RANDOM SECONDS=\"${SECONDS-0}\" TMOUT=\"${TMOUT-0}\"", NULL, "alias", /* Standard ksh aliases */ "hash=alias -t", /* not "alias -t --": hash -r needs to work */ "type=whence -v", "stop=kill -STOP", "suspend=kill -STOP $$", "autoload=typeset -fu", "functions=typeset -f", "history=fc -l", "integer=typeset -i", "nohup=nohup ", "local=typeset", "r=fc -e -", /* Aliases that are builtin commands in at&t */ "login=exec login", NULL, /* this is what at&t ksh seems to track, with the addition of emacs */ "alias", "-tU", "cat", "cc", "chmod", "cp", "date", "ed", "emacs", "grep", "ls", "make", "mv", "pr", "rm", "sed", "sh", "vi", "who", NULL, NULL }; static int initio_done; int main(int argc, char *argv[]) { int i; int argi; Source *s; struct block *l; int restricted, errexit; char **wp; struct env env; pid_t ppid; struct tbl *vp; struct stat s_stdin; /* make sure argv[] is sane */ if (!*argv) { static const char *empty_argv[] = { "mksh", NULL }; argv = (char **)empty_argv; argc = 1; } kshname = *argv; ainit(&aperm); /* initialize permanent Area */ /* set up base environment */ memset(&env, 0, sizeof(env)); env.type = E_NONE; ainit(&env.area); e = &env; newblock(); /* set up global l->vars and l->funs */ /* Do this first so output routines (eg, errorf, shellf) can work */ initio(); argi = parse_args(argv, OF_FIRSTTIME, NULL); if (argi < 0) exit(1); initvar(); initctypes(); inittraps(); coproc_init(); /* set up variable and command dictionaries */ ktinit(&taliases, APERM, 0); ktinit(&aliases, APERM, 0); ktinit(&homedirs, APERM, 0); /* define shell keywords */ initkeywords(); /* define built-in commands */ ktinit(&builtins, APERM, 64); /* must be 2^n (currently 40 builtins) */ for (i = 0; shbuiltins[i].name != NULL; i++) builtin(shbuiltins[i].name, shbuiltins[i].func); for (i = 0; kshbuiltins[i].name != NULL; i++) builtin(kshbuiltins[i].name, kshbuiltins[i].func); init_histvec(); def_path = _PATH_DEFPATH; #ifdef _CS_PATH { size_t len; char *new; if ((len = confstr(_CS_PATH, NULL, 0)) > 0) { confstr(_CS_PATH, new = alloc(len + 1, APERM), len + 1); def_path = new; } } #endif /* Set PATH to def_path (will set the path global variable). * (import of environment below will probably change this setting). */ vp = global("PATH"); /* setstr can't fail here */ setstr(vp, def_path, KSH_RETURN_ERROR); /* Turn on nohup by default for now - will change to off * by default once people are aware of its existence * (at&t ksh does not have a nohup option - it always sends * the hup). */ Flag(FNOHUP) = 1; /* Turn on brace expansion by default. AT&T kshs that have * alternation always have it on. */ Flag(FBRACEEXPAND) = 1; /* Set edit mode to emacs by default, may be overridden * by the environment or the user. Also, we want tab completion * on in vi by default. */ change_flag(FEMACS, OF_SPECIAL, 1); Flag(FVITABCOMPLETE) = 1; /* import environment */ if (environ != NULL) for (wp = environ; *wp != NULL; wp++) typeset(*wp, IMPORT | EXPORT, 0, 0, 0); kshpid = procpid = getpid(); typeset(initifs, 0, 0, 0, 0); /* for security */ /* assign default shell variable values */ substitute(initsubs, 0); /* Figure out the current working directory and set $PWD */ { struct stat s_pwd, s_dot; struct tbl *pwd_v = global("PWD"); char *pwd = str_val(pwd_v); char *pwdx = pwd; /* Try to use existing $PWD if it is valid */ if (pwd[0] != '/' || stat(pwd, &s_pwd) < 0 || stat(".", &s_dot) < 0 || s_pwd.st_dev != s_dot.st_dev || s_pwd.st_ino != s_dot.st_ino) pwdx = NULL; set_current_wd(pwdx); if (current_wd[0]) simplify_path(current_wd); /* Only set pwd if we know where we are or if it had a * bogus value */ if (current_wd[0] || pwd != null) /* setstr can't fail here */ setstr(pwd_v, current_wd, KSH_RETURN_ERROR); } ppid = getppid(); #if !HAVE_ARC4RANDOM srand((*((long *)kshname)) ^ ((long)time(NULL) * kshpid * ppid)); #endif setint(global("PPID"), (long)ppid); /* execute initialisation statements */ for (wp = (char **)initcoms; *wp != NULL; wp++) { shcomexec(wp); for (; *wp != NULL; wp++) ; } ksheuid = geteuid(); kshuid = getuid(); kshegid = getegid(); kshgid = getgid(); safe_prompt = ksheuid ? "$ " : "# "; vp = global("PS1"); /* Set PS1 if unset or we are root and prompt doesn't contain a # */ if (!(vp->flag & ISSET) || (!ksheuid && !strchr(str_val(vp), '#'))) /* setstr can't fail here */ setstr(vp, safe_prompt, KSH_RETURN_ERROR); /* Set this before parsing arguments */ Flag(FPRIVILEGED) = kshuid != ksheuid || kshgid != kshegid; /* this to note if monitor is set on command line (see below) */ Flag(FMONITOR) = 127; argi = parse_args(argv, OF_CMDLINE, NULL); if (argi < 0) exit(1); if (Flag(FCOMMAND)) { s = pushs(SSTRING, ATEMP); if (!(s->start = s->str = argv[argi++])) errorf("-c requires an argument"); if (argv[argi]) kshname = argv[argi++]; } else if (argi < argc && !Flag(FSTDIN)) { s = pushs(SFILE, ATEMP); s->file = kshname = argv[argi++]; s->u.shf = shf_open(s->file, O_RDONLY, 0, SHF_MAPHI | SHF_CLEXEC); if (s->u.shf == NULL) { exstat = 127; /* POSIX */ errorf("%s: %s", s->file, strerror(errno)); } } else { Flag(FSTDIN) = 1; s = pushs(SSTDIN, ATEMP); s->file = ""; s->u.shf = shf_fdopen(0, SHF_RD | can_seek(0), NULL); if (isatty(0) && isatty(2)) { Flag(FTALKING) = Flag(FTALKING_I) = 1; /* The following only if isatty(0) */ s->flags |= SF_TTY; s->u.shf->flags |= SHF_INTERRUPT; s->file = NULL; } } /* This bizarreness is mandated by POSIX */ if (fstat(0, &s_stdin) >= 0 && S_ISCHR(s_stdin.st_mode) && Flag(FTALKING)) reset_nonblock(0); /* initialize job control */ i = Flag(FMONITOR) != 127; Flag(FMONITOR) = 0; j_init(i); /* Do this after j_init(), as tty_fd is not initialized 'til then */ if (Flag(FTALKING)) x_init(); l = e->loc; l->argv = &argv[argi - 1]; l->argc = argc - argi; l->argv[0] = (char *)kshname; getopts_reset(1); /* Disable during .profile/ENV reading */ restricted = Flag(FRESTRICTED); Flag(FRESTRICTED) = 0; errexit = Flag(FERREXIT); Flag(FERREXIT) = 0; /* Do this before profile/$ENV so that if it causes problems in them, * user will know why things broke. */ if (!current_wd[0] && Flag(FTALKING)) warningf(false, "Cannot determine current working directory"); if (Flag(FLOGIN)) { include(KSH_SYSTEM_PROFILE, 0, NULL, 1); if (!Flag(FPRIVILEGED)) include(substitute("$HOME/.profile", 0), 0, NULL, 1); } if (Flag(FPRIVILEGED)) include("/etc/suid_profile", 0, NULL, 1); else if (Flag(FTALKING)) { char *env_file; /* include $ENV */ env_file = substitute(substitute("${ENV:-~/.mkshrc}", 0), DOTILDE); if (*env_file != '\0') include(env_file, 0, NULL, 1); } if (restricted) { static const char *const restr_com[] = { "typeset", "-r", "PATH", "ENV", "SHELL", NULL }; shcomexec((char **)restr_com); /* After typeset command... */ Flag(FRESTRICTED) = 1; } if (errexit) Flag(FERREXIT) = 1; if (Flag(FTALKING)) { hist_init(s); alarm_init(); } else Flag(FTRACKALL) = 1; /* set after ENV */ shell(s, true); /* doesn't return */ return 0; } int include(const char *name, int argc, char **argv, int intr_ok) { Source *volatile s = NULL; struct shf *shf; char **volatile old_argv; volatile int old_argc; int i; shf = shf_open(name, O_RDONLY, 0, SHF_MAPHI | SHF_CLEXEC); if (shf == NULL) return -1; if (argv) { old_argv = e->loc->argv; old_argc = e->loc->argc; } else { old_argv = NULL; old_argc = 0; } newenv(E_INCL); i = sigsetjmp(e->jbuf, 0); if (i) { quitenv(s ? s->u.shf : NULL); if (old_argv) { e->loc->argv = old_argv; e->loc->argc = old_argc; } switch (i) { case LRETURN: case LERROR: return exstat & 0xff; /* see below */ case LINTR: /* intr_ok is set if we are including .profile or $ENV. * If user ^Cs out, we don't want to kill the shell... */ if (intr_ok && (exstat - 128) != SIGTERM) return 1; /* FALLTHRU */ case LEXIT: case LLEAVE: case LSHELL: unwind(i); /* NOTREACHED */ default: internal_errorf(1, "include: %d", i); /* NOTREACHED */ } } if (argv) { e->loc->argv = argv; e->loc->argc = argc; } s = pushs(SFILE, ATEMP); s->u.shf = shf; s->file = str_save(name, ATEMP); i = shell(s, false); quitenv(s->u.shf); if (old_argv) { e->loc->argv = old_argv; e->loc->argc = old_argc; } return i & 0xff; /* & 0xff to ensure value not -1 */ } int command(const char *comm) { Source *s; s = pushs(SSTRING, ATEMP); s->start = s->str = comm; return shell(s, false); } /* * run the commands from the input source, returning status. */ int shell(Source * volatile s, volatile int toplevel) { struct op *t; volatile int wastty = s->flags & SF_TTY; volatile int attempts = 13; volatile int interactive = Flag(FTALKING) && toplevel; Source *volatile old_source = source; int i; newenv(E_PARSE); if (interactive) really_exit = 0; i = sigsetjmp(e->jbuf, 0); if (i) { switch (i) { case LINTR: /* we get here if SIGINT not caught or ignored */ case LERROR: case LSHELL: if (interactive) { if (i == LINTR) shellf(newline); /* Reset any eof that was read as part of a * multiline command. */ if (Flag(FIGNOREEOF) && s->type == SEOF && wastty) s->type = SSTDIN; /* Used by exit command to get back to * top level shell. Kind of strange since * interactive is set if we are reading from * a tty, but to have stopped jobs, one only * needs FMONITOR set (not FTALKING/SF_TTY)... */ /* toss any input we have so far */ s->start = s->str = null; break; } /* FALLTHRU */ case LEXIT: case LLEAVE: case LRETURN: source = old_source; quitenv(NULL); unwind(i); /* keep on going */ /* NOTREACHED */ default: source = old_source; quitenv(NULL); internal_errorf(1, "shell: %d", i); /* NOTREACHED */ } } while (1) { if (trap) runtraps(0); if (s->next == NULL) { if (Flag(FVERBOSE)) s->flags |= SF_ECHO; else s->flags &= ~SF_ECHO; } if (interactive) { j_notify(); set_prompt(PS1, s); } t = compile(s); if (t != NULL && t->type == TEOF) { if (wastty && Flag(FIGNOREEOF) && --attempts > 0) { shellf("Use 'exit' to leave ksh\n"); s->type = SSTDIN; } else if (wastty && !really_exit && j_stopped_running()) { really_exit = 1; s->type = SSTDIN; } else { /* this for POSIX which says EXIT traps * shall be taken in the environment * immediately after the last command * executed. */ if (toplevel) unwind(LEXIT); break; } } if (t && (!Flag(FNOEXEC) || (s->flags & SF_TTY))) exstat = execute(t, 0); if (t != NULL && t->type != TEOF && interactive && really_exit) really_exit = 0; reclaim(); } quitenv(NULL); source = old_source; return exstat; } /* return to closest error handler or shell(), exit if none found */ void unwind(int i) { /* ordering for EXIT vs ERR is a bit odd (this is what at&t ksh does) */ if (i == LEXIT || (Flag(FERREXIT) && (i == LERROR || i == LINTR) && sigtraps[SIGEXIT_].trap)) { runtrap(&sigtraps[SIGEXIT_]); i = LLEAVE; } else if (Flag(FERREXIT) && (i == LERROR || i == LINTR)) { runtrap(&sigtraps[SIGERR_]); i = LLEAVE; } while (1) { switch (e->type) { case E_PARSE: case E_FUNC: case E_INCL: case E_LOOP: case E_ERRH: siglongjmp(e->jbuf, i); /* NOTREACHED */ case E_NONE: if (i == LINTR) e->flags |= EF_FAKE_SIGDIE; /* FALLTHRU */ default: quitenv(NULL); } } } void newenv(int type) { struct env *ep; ep = (struct env *) alloc(sizeof(*ep), ATEMP); ep->type = type; ep->flags = 0; ainit(&ep->area); ep->loc = e->loc; ep->savefd = NULL; ep->oenv = e; ep->temps = NULL; e = ep; } void quitenv(struct shf *shf) { struct env *ep = e; int fd; if (ep->oenv && ep->oenv->loc != ep->loc) popblock(); if (ep->savefd != NULL) { for (fd = 0; fd < NUFILE; fd++) /* if ep->savefd[fd] < 0, means fd was closed */ if (ep->savefd[fd]) restfd(fd, ep->savefd[fd]); if (ep->savefd[2]) /* Clear any write errors */ shf_reopen(2, SHF_WR, shl_out); } /* Bottom of the stack. * Either main shell is exiting or cleanup_parents_env() was called. */ if (ep->oenv == NULL) { if (ep->type == E_NONE) { /* Main shell exiting? */ if (Flag(FTALKING)) hist_finish(); j_exit(); if (ep->flags & EF_FAKE_SIGDIE) { int sig = exstat - 128; /* ham up our death a bit (at&t ksh * only seems to do this for SIGTERM) * Don't do it for SIGQUIT, since we'd * dump a core.. */ if ((sig == SIGINT || sig == SIGTERM) && getpgrp() == kshpid) { setsig(&sigtraps[sig], SIG_DFL, SS_RESTORE_CURR | SS_FORCE); kill(0, sig); } } } if (shf) shf_close(shf); reclaim(); exit(exstat); } if (shf) shf_close(shf); reclaim(); e = e->oenv; afree(ep, ATEMP); } /* Called after a fork to cleanup stuff left over from parents environment */ void cleanup_parents_env(void) { struct env *ep; int fd; /* Don't clean up temporary files - parent will probably need them. * Also, can't easily reclaim memory since variables, etc. could be * anywhere. */ /* close all file descriptors hiding in savefd */ for (ep = e; ep; ep = ep->oenv) { if (ep->savefd) { for (fd = 0; fd < NUFILE; fd++) if (ep->savefd[fd] > 0) close(ep->savefd[fd]); afree(ep->savefd, &ep->area); ep->savefd = NULL; } } e->oenv = NULL; } /* Called just before an execve cleanup stuff temporary files */ void cleanup_proc_env(void) { struct env *ep; for (ep = e; ep; ep = ep->oenv) remove_temps(ep->temps); } /* remove temp files and free ATEMP Area */ static void reclaim(void) { remove_temps(e->temps); e->temps = NULL; afreeall(&e->area); } static void remove_temps(struct temp *tp) { for (; tp != NULL; tp = tp->next) if (tp->pid == procpid) { unlink(tp->name); } } /* Initialize tty_fd. Used for saving/reseting tty modes upon * foreground job completion and for setting up tty process group. */ void tty_init(int init_ttystate) { int do_close = 1; int tfd; if (tty_fd >= 0) { close(tty_fd); tty_fd = -1; } tty_devtty = 1; if ((tfd = open("/dev/tty", O_RDWR, 0)) < 0) { tty_devtty = 0; warningf(false, "No controlling tty (open /dev/tty: %s)", strerror(errno)); } if (tfd < 0) { do_close = 0; if (isatty(0)) tfd = 0; else if (isatty(2)) tfd = 2; else { warningf(false, "Can't find tty file descriptor"); return; } } if ((tty_fd = fcntl(tfd, F_DUPFD, FDBASE)) < 0) { warningf(false, "j_ttyinit: dup of tty fd failed: %s", strerror(errno)); } else if (fcntl(tty_fd, F_SETFD, FD_CLOEXEC) < 0) { warningf(false, "j_ttyinit: can't set close-on-exec flag: %s", strerror(errno)); close(tty_fd); tty_fd = -1; } else if (init_ttystate) tcgetattr(tty_fd, &tty_state); if (do_close) close(tfd); } void tty_close(void) { if (tty_fd >= 0) { close(tty_fd); tty_fd = -1; } } /* A shell error occurred (eg, syntax error, etc.) */ void errorf(const char *fmt, ...) { va_list va; shl_stdout_ok = 0; /* debugging: note that stdout not valid */ exstat = 1; if (*fmt) { error_prefix(true); va_start(va, fmt); shf_vfprintf(shl_out, fmt, va); va_end(va); shf_putchar('\n', shl_out); } shf_flush(shl_out); unwind(LERROR); } /* like errorf(), but no unwind is done */ void warningf(int fileline, const char *fmt, ...) { va_list va; error_prefix(fileline); va_start(va, fmt); shf_vfprintf(shl_out, fmt, va); va_end(va); shf_putchar('\n', shl_out); shf_flush(shl_out); } /* Used by built-in utilities to prefix shell and utility name to message * (also unwinds environments for special builtins). */ void bi_errorf(const char *fmt, ...) { va_list va; shl_stdout_ok = 0; /* debugging: note that stdout not valid */ exstat = 1; if (*fmt) { error_prefix(true); /* not set when main() calls parse_args() */ if (builtin_argv0) shf_fprintf(shl_out, "%s: ", builtin_argv0); va_start(va, fmt); shf_vfprintf(shl_out, fmt, va); va_end(va); shf_putchar('\n', shl_out); } shf_flush(shl_out); /* POSIX special builtins and ksh special builtins cause * non-interactive shells to exit. * XXX odd use of KEEPASN; also may not want LERROR here */ if (builtin_flag & SPEC_BI) { builtin_argv0 = NULL; unwind(LERROR); } } /* Called when something that shouldn't happen does */ void internal_errorf(int jump, const char *fmt, ...) { va_list va; error_prefix(true); shf_fprintf(shl_out, "internal error: "); va_start(va, fmt); shf_vfprintf(shl_out, fmt, va); va_end(va); shf_putchar('\n', shl_out); shf_flush(shl_out); if (jump) unwind(LERROR); } /* used by error reporting functions to print "ksh: .kshrc[25]: " */ void error_prefix(int fileline) { /* Avoid foo: foo[2]: ... */ if (!fileline || !source || !source->file || strcmp(source->file, kshname) != 0) shf_fprintf(shl_out, "%s: ", kshname + (*kshname == '-')); if (fileline && source && source->file != NULL) { shf_fprintf(shl_out, "%s[%d]: ", source->file, source->errline > 0 ? source->errline : source->line); source->errline = 0; } } /* printf to shl_out (stderr) with flush */ void shellf(const char *fmt, ...) { va_list va; if (!initio_done) /* shl_out may not be set up yet... */ return; va_start(va, fmt); shf_vfprintf(shl_out, fmt, va); va_end(va); shf_flush(shl_out); } /* printf to shl_stdout (stdout) */ void shprintf(const char *fmt, ...) { va_list va; if (!shl_stdout_ok) internal_errorf(1, "shl_stdout not valid"); va_start(va, fmt); shf_vfprintf(shl_stdout, fmt, va); va_end(va); } /* test if we can seek backwards fd (returns 0 or SHF_UNBUF) */ int can_seek(int fd) { struct stat statb; return fstat(fd, &statb) == 0 && !S_ISREG(statb.st_mode) ? SHF_UNBUF : 0; } struct shf shf_iob[3]; void initio(void) { shf_fdopen(1, SHF_WR, shl_stdout); /* force buffer allocation */ shf_fdopen(2, SHF_WR, shl_out); shf_fdopen(2, SHF_WR, shl_spare); /* force buffer allocation */ initio_done = 1; } /* A dup2() with error checking */ int ksh_dup2(int ofd, int nfd, int errok) { int ret = dup2(ofd, nfd); if (ret < 0 && errno != EBADF && !errok) errorf("too many files open in shell"); return ret; } /* * move fd from user space (0<=fd<10) to shell space (fd>=10), * set close-on-exec flag. */ int savefd(int fd) { int nfd; if (fd < FDBASE) { nfd = fcntl(fd, F_DUPFD, FDBASE); if (nfd < 0) { if (errno == EBADF) return -1; else errorf("too many files open in shell"); } } else nfd = fd; fcntl(nfd, F_SETFD, FD_CLOEXEC); return nfd; } void restfd(int fd, int ofd) { if (fd == 2) shf_flush(&shf_iob[fd]); if (ofd < 0) /* original fd closed */ close(fd); else if (fd != ofd) { ksh_dup2(ofd, fd, true); /* XXX: what to do if this fails? */ close(ofd); } } void openpipe(int *pv) { int lpv[2]; if (pipe(lpv) < 0) errorf("can't create pipe - try again"); pv[0] = savefd(lpv[0]); if (pv[0] != lpv[0]) close(lpv[0]); pv[1] = savefd(lpv[1]); if (pv[1] != lpv[1]) close(lpv[1]); } void closepipe(int *pv) { close(pv[0]); close(pv[1]); } /* Called by iosetup() (deals with 2>&4, etc.), c_read, c_print to turn * a string (the X in 2>&X, read -uX, print -uX) into a file descriptor. */ int check_fd(char *name, int mode, const char **emsgp) { int fd, fl; if (isdigit((unsigned char)name[0]) && !name[1]) { fd = name[0] - '0'; if ((fl = fcntl(fd = name[0] - '0', F_GETFL, 0)) < 0) { if (emsgp) *emsgp = "bad file descriptor"; return -1; } fl &= O_ACCMODE; /* X_OK is a kludge to disable this check for dups (x<&1): * historical shells never did this check (XXX don't know what * posix has to say). */ if (!(mode & X_OK) && fl != O_RDWR && (((mode & R_OK) && fl != O_RDONLY) || ((mode & W_OK) && fl != O_WRONLY))) { if (emsgp) *emsgp = (fl == O_WRONLY) ? "fd not open for reading" : "fd not open for writing"; return -1; } return fd; } else if (name[0] == 'p' && !name[1]) return coproc_getfd(mode, emsgp); if (emsgp) *emsgp = "illegal file descriptor name"; return -1; } /* Called once from main */ void coproc_init(void) { coproc.read = coproc.readw = coproc.write = -1; coproc.njobs = 0; coproc.id = 0; } /* Called by c_read() when eof is read - close fd if it is the co-process fd */ void coproc_read_close(int fd) { if (coproc.read >= 0 && fd == coproc.read) { coproc_readw_close(fd); close(coproc.read); coproc.read = -1; } } /* Called by c_read() and by iosetup() to close the other side of the * read pipe, so reads will actually terminate. */ void coproc_readw_close(int fd) { if (coproc.readw >= 0 && coproc.read >= 0 && fd == coproc.read) { close(coproc.readw); coproc.readw = -1; } } /* Called by c_print when a write to a fd fails with EPIPE and by iosetup * when co-process input is dup'd */ void coproc_write_close(int fd) { if (coproc.write >= 0 && fd == coproc.write) { close(coproc.write); coproc.write = -1; } } /* Called to check for existence of/value of the co-process file descriptor. * (Used by check_fd() and by c_read/c_print to deal with -p option). */ int coproc_getfd(int mode, const char **emsgp) { int fd = (mode & R_OK) ? coproc.read : coproc.write; if (fd >= 0) return fd; if (emsgp) *emsgp = "no coprocess"; return -1; } /* called to close file descriptors related to the coprocess (if any) * Should be called with SIGCHLD blocked. */ void coproc_cleanup(int reuse) { /* This to allow co-processes to share output pipe */ if (!reuse || coproc.readw < 0 || coproc.read < 0) { if (coproc.read >= 0) { close(coproc.read); coproc.read = -1; } if (coproc.readw >= 0) { close(coproc.readw); coproc.readw = -1; } } if (coproc.write >= 0) { close(coproc.write); coproc.write = -1; } } struct temp * maketemp(Area *ap, Temp_type type, struct temp **tlist) { struct temp *tp; int len; int fd; char *pathname; const char *dir; dir = tmpdir ? tmpdir : "/tmp"; len = strlen(dir) + 6 + 10 + 1; tp = (struct temp *) alloc(sizeof(struct temp) + len, ap); tp->name = pathname = (char *)&tp[1]; tp->shf = NULL; tp->type = type; shf_snprintf(pathname, len, "%s/mksh.XXXXXXXXXX", dir); if ((fd = mkstemp(pathname)) >= 0) tp->shf = shf_fdopen(fd, SHF_WR, NULL); tp->pid = procpid; tp->next = *tlist; *tlist = tp; return tp; } #define INIT_TBLS 8 /* initial table size (power of 2) */ static void texpand(struct table *, int); static int tnamecmp(void *, void *); unsigned int hash(const char *n) { unsigned int h = 0; while (*n != '\0') h = 2*h + *n++; return h * 32821; /* scatter bits */ } void ktinit(struct table *tp, Area *ap, int tsize) { tp->areap = ap; tp->tbls = NULL; tp->size = tp->nfree = 0; if (tsize) texpand(tp, tsize); } static void texpand(struct table *tp, int nsize) { int i; struct tbl *tblp, **p; struct tbl **ntblp, **otblp = tp->tbls; int osize = tp->size; ntblp = (struct tbl **)alloc(sizeofN(struct tbl *, nsize), tp->areap); for (i = 0; i < nsize; i++) ntblp[i] = NULL; tp->size = nsize; tp->nfree = 8 * nsize / 10; /* table can get 80% full */ tp->tbls = ntblp; if (otblp == NULL) return; for (i = 0; i < osize; i++) if ((tblp = otblp[i]) != NULL) { if ((tblp->flag & DEFINED)) { for (p = &ntblp[hash(tblp->name) & (tp->size - 1)]; *p != NULL; p--) if (p == ntblp) /* wrap */ p += tp->size; *p = tblp; tp->nfree--; } else if (!(tblp->flag & FINUSE)) { afree((void *)tblp, tp->areap); } } afree((void *)otblp, tp->areap); } /* table */ /* name to enter */ /* hash(n) */ struct tbl * ktsearch(struct table *tp, const char *n, unsigned int h) { struct tbl **pp, *p; if (tp->size == 0) return NULL; /* search for name in hashed table */ for (pp = &tp->tbls[h & (tp->size - 1)]; (p = *pp) != NULL; pp--) { if (*p->name == *n && strcmp(p->name, n) == 0 && (p->flag & DEFINED)) return p; if (pp == tp->tbls) /* wrap */ pp += tp->size; } return NULL; } /* table */ /* name to enter */ /* hash(n) */ struct tbl * ktenter(struct table *tp, const char *n, unsigned int h) { struct tbl **pp, *p; int len; if (tp->size == 0) texpand(tp, INIT_TBLS); Search: /* search for name in hashed table */ for (pp = &tp->tbls[h & (tp->size - 1)]; (p = *pp) != NULL; pp--) { if (*p->name == *n && strcmp(p->name, n) == 0) return p; /* found */ if (pp == tp->tbls) /* wrap */ pp += tp->size; } if (tp->nfree <= 0) { /* too full */ texpand(tp, 2 * tp->size); goto Search; } /* create new tbl entry */ len = strlen(n) + 1; p = (struct tbl *)alloc(offsetof(struct tbl, name[0])+len, tp->areap); p->flag = 0; p->type = 0; p->areap = tp->areap; p->u2.field = 0; p->u.array = NULL; memcpy(p->name, n, len); /* enter in tp->tbls */ tp->nfree--; *pp = p; return p; } void ktdelete(struct tbl *p) { p->flag = 0; } void ktwalk(struct tstate *ts, struct table *tp) { ts->left = tp->size; ts->next = tp->tbls; } struct tbl * ktnext(struct tstate *ts) { while (--ts->left >= 0) { struct tbl *p = *ts->next++; if (p != NULL && (p->flag & DEFINED)) return p; } return NULL; } static int tnamecmp(void *p1, void *p2) { return strcmp(((struct tbl *)p1)->name, ((struct tbl *)p2)->name); } struct tbl ** ktsort(struct table *tp) { int i; struct tbl **p, **sp, **dp; p = (struct tbl **)alloc(sizeofN(struct tbl *, tp->size + 1), ATEMP); sp = tp->tbls; /* source */ dp = p; /* dest */ for (i = 0; i < tp->size; i++) if ((*dp = *sp++) != NULL && (((*dp)->flag & DEFINED) || ((*dp)->flag & ARRAY))) dp++; i = dp - p; qsortp((void **)p, (size_t)i, tnamecmp); p[i] = NULL; return p; }