/* $Header: /p/tcsh/cvsroot/tcsh/sh.err.c,v 3.48 2006/03/02 18:46:44 christos Exp $ */ /* * sh.err.c: Error printing routines. */ /*- * Copyright (c) 1980, 1991 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #define _h_sh_err /* Don't redefine the errors */ #include "sh.h" #include RCSID("$tcsh: sh.err.c,v 3.48 2006/03/02 18:46:44 christos Exp $") /* * C Shell */ #ifdef lint #undef va_arg #define va_arg(a, b) (a ? (b) 0 : (b) 0) #endif char *seterr = NULL; /* Holds last error if there was one */ #define ERR_FLAGS 0xf0000000 #define ERR_NAME 0x10000000 #define ERR_SILENT 0x20000000 #define ERR_OLD 0x40000000 #define ERR_SYNTAX 0 #define ERR_NOTALLOWED 1 #define ERR_WTOOLONG 2 #define ERR_LTOOLONG 3 #define ERR_DOLZERO 4 #define ERR_INCBR 5 #define ERR_EXPORD 6 #define ERR_BADMOD 7 #define ERR_SUBSCRIPT 8 #define ERR_BADNUM 9 #define ERR_NOMORE 10 #define ERR_FILENAME 11 #define ERR_GLOB 12 #define ERR_COMMAND 13 #define ERR_TOOFEW 14 #define ERR_TOOMANY 15 #define ERR_DANGER 16 #define ERR_EMPTYIF 17 #define ERR_IMPRTHEN 18 #define ERR_NOPAREN 19 #define ERR_NOTFOUND 20 #define ERR_MASK 21 #define ERR_LIMIT 22 #define ERR_TOOLARGE 23 #define ERR_SCALEF 24 #define ERR_UNDVAR 25 #define ERR_DEEP 26 #define ERR_BADSIG 27 #define ERR_UNKSIG 28 #define ERR_VARBEGIN 29 #define ERR_VARTOOLONG 30 #define ERR_VARALNUM 31 #define ERR_JOBCONTROL 32 #define ERR_EXPRESSION 33 #define ERR_NOHOMEDIR 34 #define ERR_CANTCHANGE 35 #define ERR_NULLCOM 36 #define ERR_ASSIGN 37 #define ERR_UNKNOWNOP 38 #define ERR_AMBIG 39 #define ERR_EXISTS 40 #define ERR_ARGC 41 #define ERR_INTR 42 #define ERR_RANGE 43 #define ERR_OVERFLOW 44 #define ERR_NOSUCHJOB 45 #define ERR_TERMINAL 46 #define ERR_NOTWHILE 47 #define ERR_NOPROC 48 #define ERR_NOMATCH 49 #define ERR_MISSING 50 #define ERR_UNMATCHED 51 #define ERR_NOMEM 52 #define ERR_PIPE 53 #define ERR_SYSTEM 54 #define ERR_STRING 55 #define ERR_JOBS 56 #define ERR_JOBARGS 57 #define ERR_JOBCUR 58 #define ERR_JOBPREV 59 #define ERR_JOBPAT 60 #define ERR_NESTING 61 #define ERR_JOBCTRLSUB 62 #define ERR_SYNC 63 #define ERR_STOPPED 64 #define ERR_NODIR 65 #define ERR_EMPTY 66 #define ERR_BADDIR 67 #define ERR_DIRUS 68 #define ERR_HFLAG 69 #define ERR_NOTLOGIN 70 #define ERR_DIV0 71 #define ERR_MOD0 72 #define ERR_BADSCALE 73 #define ERR_SUSPLOG 74 #define ERR_UNKUSER 75 #define ERR_NOHOME 76 #define ERR_HISTUS 77 #define ERR_SPDOLLT 78 #define ERR_NEWLINE 79 #define ERR_SPSTAR 80 #define ERR_DIGIT 81 #define ERR_VARILL 82 #define ERR_NLINDEX 83 #define ERR_EXPOVFL 84 #define ERR_VARSYN 85 #define ERR_BADBANG 86 #define ERR_NOSUBST 87 #define ERR_BADSUBST 88 #define ERR_LHS 89 #define ERR_RHSLONG 90 #define ERR_BADBANGMOD 91 #define ERR_MODFAIL 92 #define ERR_SUBOVFL 93 #define ERR_BADBANGARG 94 #define ERR_NOSEARCH 95 #define ERR_NOEVENT 96 #define ERR_TOOMANYRP 97 #define ERR_TOOMANYLP 98 #define ERR_BADPLP 99 #define ERR_MISRED 100 #define ERR_OUTRED 101 #define ERR_REDPAR 102 #define ERR_INRED 103 #define ERR_BADPLPS 104 #define ERR_ALIASLOOP 105 #define ERR_NOWATCH 106 #define ERR_NOSCHED 107 #define ERR_SCHEDUSAGE 108 #define ERR_SCHEDEV 109 #define ERR_SCHEDCOM 110 #define ERR_SCHEDTIME 111 #define ERR_SCHEDREL 112 #define ERR_TCNOSTR 113 #define ERR_SETTCUS 114 #define ERR_TCCAP 115 #define ERR_TCPARM 116 #define ERR_TCARGS 117 #define ERR_TCNARGS 118 #define ERR_TCUSAGE 119 #define ERR_ARCH 120 #define ERR_HISTLOOP 121 #define ERR_FILEINQ 122 #define ERR_SELOVFL 123 #define ERR_TCSHUSAGE 124 #define ERR_COMPCOM 125 #define ERR_COMPINV 126 #define ERR_COMPMIS 127 #define ERR_COMPINC 128 #define ERR_MFLAG 129 #define ERR_ULIMUS 130 #define ERR_READONLY 131 #define ERR_BADJOB 132 #define ERR_INVALID 133 #define ERR_BADCOLORVAR 134 #define NO_ERRORS 135 static const char *elst[NO_ERRORS] INIT_ZERO_STRUCT; /* * Init the elst depending on the locale */ void errinit(void) { #ifdef NLS_CATALOGS size_t i; for (i = 0; i < NO_ERRORS; i++) xfree((char *)(intptr_t)elst[i]); # if defined(__FreeBSD__) || defined(hpux) # define NLS_MAXSET 30 for (i = 1; i <= NLS_MAXSET; i++) CGETS(i, 1, "" ); # endif #endif elst[ERR_SYNTAX] = CSAVS(1, 1, "Syntax Error"); elst[ERR_NOTALLOWED] = CSAVS(1, 2, "%s is not allowed"); elst[ERR_WTOOLONG] = CSAVS(1, 3, "Word too long"); elst[ERR_LTOOLONG] = CSAVS(1, 4, "$< line too long"); elst[ERR_DOLZERO] = CSAVS(1, 5, "No file for $0"); elst[ERR_INCBR] = CSAVS(1, 6, "Incomplete [] modifier"); elst[ERR_EXPORD] = CSAVS(1, 7, "$ expansion must end before ]"); elst[ERR_BADMOD] = CSAVS(1, 8, "Bad : modifier in $ (%c)"); elst[ERR_SUBSCRIPT] = CSAVS(1, 9, "Subscript error"); elst[ERR_BADNUM] = CSAVS(1, 10, "Badly formed number"); elst[ERR_NOMORE] = CSAVS(1, 11, "No more words"); elst[ERR_FILENAME] = CSAVS(1, 12, "Missing file name"); elst[ERR_GLOB] = CSAVS(1, 13, "Internal glob error"); elst[ERR_COMMAND] = CSAVS(1, 14, "Command not found"); elst[ERR_TOOFEW] = CSAVS(1, 15, "Too few arguments"); elst[ERR_TOOMANY] = CSAVS(1, 16, "Too many arguments"); elst[ERR_DANGER] = CSAVS(1, 17, "Too dangerous to alias that"); elst[ERR_EMPTYIF] = CSAVS(1, 18, "Empty if"); elst[ERR_IMPRTHEN] = CSAVS(1, 19, "Improper then"); elst[ERR_NOPAREN] = CSAVS(1, 20, "Words not parenthesized"); elst[ERR_NOTFOUND] = CSAVS(1, 21, "%s not found"); elst[ERR_MASK] = CSAVS(1, 22, "Improper mask"); elst[ERR_LIMIT] = CSAVS(1, 23, "No such limit"); elst[ERR_TOOLARGE] = CSAVS(1, 24, "Argument too large"); elst[ERR_SCALEF] = CSAVS(1, 25, "Improper or unknown scale factor"); elst[ERR_UNDVAR] = CSAVS(1, 26, "Undefined variable"); elst[ERR_DEEP] = CSAVS(1, 27, "Directory stack not that deep"); elst[ERR_BADSIG] = CSAVS(1, 28, "Bad signal number"); elst[ERR_UNKSIG] = CSAVS(1, 29, "Unknown signal; kill -l lists signals"); elst[ERR_VARBEGIN] = CSAVS(1, 30, "Variable name must begin with a letter"); elst[ERR_VARTOOLONG] = CSAVS(1, 31, "Variable name too long"); elst[ERR_VARALNUM] = CSAVS(1, 32, "Variable name must contain alphanumeric characters"); elst[ERR_JOBCONTROL] = CSAVS(1, 33, "No job control in this shell"); elst[ERR_EXPRESSION] = CSAVS(1, 34, "Expression Syntax"); elst[ERR_NOHOMEDIR] = CSAVS(1, 35, "No home directory"); elst[ERR_CANTCHANGE] = CSAVS(1, 36, "Can't change to home directory"); elst[ERR_NULLCOM] = CSAVS(1, 37, "Invalid null command"); elst[ERR_ASSIGN] = CSAVS(1, 38, "Assignment missing expression"); elst[ERR_UNKNOWNOP] = CSAVS(1, 39, "Unknown operator"); elst[ERR_AMBIG] = CSAVS(1, 40, "Ambiguous"); elst[ERR_EXISTS] = CSAVS(1, 41, "%s: File exists"); elst[ERR_ARGC] = CSAVS(1, 42, "Argument for -c ends in backslash"); elst[ERR_INTR] = CSAVS(1, 43, "Interrupted"); elst[ERR_RANGE] = CSAVS(1, 44, "Subscript out of range"); elst[ERR_OVERFLOW] = CSAVS(1, 45, "Line overflow"); elst[ERR_NOSUCHJOB] = CSAVS(1, 46, "No such job"); elst[ERR_TERMINAL] = CSAVS(1, 47, "Can't from terminal"); elst[ERR_NOTWHILE] = CSAVS(1, 48, "Not in while/foreach"); elst[ERR_NOPROC] = CSAVS(1, 49, "No more processes"); elst[ERR_NOMATCH] = CSAVS(1, 50, "No match"); elst[ERR_MISSING] = CSAVS(1, 51, "Missing %c"); elst[ERR_UNMATCHED] = CSAVS(1, 52, "Unmatched %c"); elst[ERR_NOMEM] = CSAVS(1, 53, "Out of memory"); elst[ERR_PIPE] = CSAVS(1, 54, "Can't make pipe"); elst[ERR_SYSTEM] = CSAVS(1, 55, "%s: %s"); elst[ERR_STRING] = CSAVS(1, 56, "%s"); elst[ERR_JOBS] = CSAVS(1, 57, "Usage: jobs [ -l ]"); elst[ERR_JOBARGS] = CSAVS(1, 58, "Arguments should be jobs or process id's"); elst[ERR_JOBCUR] = CSAVS(1, 59, "No current job"); elst[ERR_JOBPREV] = CSAVS(1, 60, "No previous job"); elst[ERR_JOBPAT] = CSAVS(1, 61, "No job matches pattern"); elst[ERR_NESTING] = CSAVS(1, 62, "Fork nesting > %d; maybe `...` loop"); elst[ERR_JOBCTRLSUB] = CSAVS(1, 63, "No job control in subshells"); elst[ERR_SYNC] = CSAVS(1, 64, "Sync fault: Process %d not found"); elst[ERR_STOPPED] = #ifdef SUSPENDED CSAVS(1, 65, "%sThere are suspended jobs"); #else CSAVS(1, 66, "%sThere are stopped jobs"); #endif /* SUSPENDED */ elst[ERR_NODIR] = CSAVS(1, 67, "No other directory"); elst[ERR_EMPTY] = CSAVS(1, 68, "Directory stack empty"); elst[ERR_BADDIR] = CSAVS(1, 69, "Bad directory"); elst[ERR_DIRUS] = CSAVS(1, 70, "Usage: %s [-%s]%s"); elst[ERR_HFLAG] = CSAVS(1, 71, "No operand for -h flag"); elst[ERR_NOTLOGIN] = CSAVS(1, 72, "Not a login shell"); elst[ERR_DIV0] = CSAVS(1, 73, "Division by 0"); elst[ERR_MOD0] = CSAVS(1, 74, "Mod by 0"); elst[ERR_BADSCALE] = CSAVS(1, 75, "Bad scaling; did you mean \"%s\"?"); elst[ERR_SUSPLOG] = CSAVS(1, 76, "Can't suspend a login shell (yet)"); elst[ERR_UNKUSER] = CSAVS(1, 77, "Unknown user: %s"); elst[ERR_NOHOME] = CSAVS(1, 78, "No $home variable set"); elst[ERR_HISTUS] = CSAVS(1, 79, "Usage: history [-%s] [# number of events]"); elst[ERR_SPDOLLT] = CSAVS(1, 80, "$, ! or < not allowed with $# or $?"); elst[ERR_NEWLINE] = CSAVS(1, 81, "Newline in variable name"); elst[ERR_SPSTAR] = CSAVS(1, 82, "* not allowed with $# or $?"); elst[ERR_DIGIT] = CSAVS(1, 83, "$? or $# not allowed"); elst[ERR_VARILL] = CSAVS(1, 84, "Illegal variable name"); elst[ERR_NLINDEX] = CSAVS(1, 85, "Newline in variable index"); elst[ERR_EXPOVFL] = CSAVS(1, 86, "Expansion buffer overflow"); elst[ERR_VARSYN] = CSAVS(1, 87, "Variable syntax"); elst[ERR_BADBANG] = CSAVS(1, 88, "Bad ! form"); elst[ERR_NOSUBST] = CSAVS(1, 89, "No previous substitute"); elst[ERR_BADSUBST] = CSAVS(1, 90, "Bad substitute"); elst[ERR_LHS] = CSAVS(1, 91, "No previous left hand side"); elst[ERR_RHSLONG] = CSAVS(1, 92, "Right hand side too long"); elst[ERR_BADBANGMOD] = CSAVS(1, 93, "Bad ! modifier: %c"); elst[ERR_MODFAIL] = CSAVS(1, 94, "Modifier failed"); elst[ERR_SUBOVFL] = CSAVS(1, 95, "Substitution buffer overflow"); elst[ERR_BADBANGARG] = CSAVS(1, 96, "Bad ! arg selector"); elst[ERR_NOSEARCH] = CSAVS(1, 97, "No prev search"); elst[ERR_NOEVENT] = CSAVS(1, 98, "%s: Event not found"); elst[ERR_TOOMANYRP] = CSAVS(1, 99, "Too many )'s"); elst[ERR_TOOMANYLP] = CSAVS(1, 100, "Too many ('s"); elst[ERR_BADPLP] = CSAVS(1, 101, "Badly placed ("); elst[ERR_MISRED] = CSAVS(1, 102, "Missing name for redirect"); elst[ERR_OUTRED] = CSAVS(1, 103, "Ambiguous output redirect"); elst[ERR_REDPAR] = CSAVS(1, 104, "Can't << within ()'s"); elst[ERR_INRED] = CSAVS(1, 105, "Ambiguous input redirect"); elst[ERR_BADPLPS] = CSAVS(1, 106, "Badly placed ()'s"); elst[ERR_ALIASLOOP] = CSAVS(1, 107, "Alias loop"); elst[ERR_NOWATCH] = CSAVS(1, 108, "No $watch variable set"); elst[ERR_NOSCHED] = CSAVS(1, 109, "No scheduled events"); elst[ERR_SCHEDUSAGE] = CSAVS(1, 110, "Usage: sched -.\nUsage: sched [+]hh:mm "); elst[ERR_SCHEDEV] = CSAVS(1, 111, "Not that many scheduled events"); elst[ERR_SCHEDCOM] = CSAVS(1, 112, "No command to run"); elst[ERR_SCHEDTIME] = CSAVS(1, 113, "Invalid time for event"); elst[ERR_SCHEDREL] = CSAVS(1, 114, "Relative time inconsistent with am/pm"); elst[ERR_TCNOSTR] = CSAVS(1, 115, "Out of termcap string space"); elst[ERR_SETTCUS] = CSAVS(1, 116, "Usage: settc %s [yes|no]"); elst[ERR_TCCAP] = CSAVS(1, 117, "Unknown capability `%s'"); elst[ERR_TCPARM] = CSAVS(1, 118, "Unknown termcap parameter `%%%c'"); elst[ERR_TCARGS] = CSAVS(1, 119, "Too many arguments for `%s' (%d)"); elst[ERR_TCNARGS] = CSAVS(1, 120, "`%s' requires %d arguments"); elst[ERR_TCUSAGE] = CSAVS(1, 121, "Usage: echotc [-v|-s] [ []]"); elst[ERR_ARCH] = CSAVS(1, 122, "%s: %s. Binary file not executable"); elst[ERR_HISTLOOP] = CSAVS(1, 123, "!# History loop"); elst[ERR_FILEINQ] = CSAVS(1, 124, "Malformed file inquiry"); elst[ERR_SELOVFL] = CSAVS(1, 125, "Selector overflow"); #ifdef apollo elst[ERR_TCSHUSAGE] = CSAVS(1, 126, "Unknown option: `-%s'\nUsage: %s [ -bcdefilmnqstvVxX -Dname[=value] ] [ argument ... ]"); #else /* !apollo */ # ifdef convex elst[ERR_TCSHUSAGE] = CSAVS(1, 127, "Unknown option: `-%s'\nUsage: %s [ -bcdefFilmnqstvVxX ] [ argument ... ]"); # else /* rest */ elst[ERR_TCSHUSAGE] = CSAVS(1, 128, "Unknown option: `-%s'\nUsage: %s [ -bcdefilmnqstvVxX ] [ argument ... ]"); # endif /* convex */ #endif /* apollo */ elst[ERR_COMPCOM] = CSAVS(1, 129, "\nInvalid completion: \"%s\""); elst[ERR_COMPINV] = CSAVS(1, 130, "\nInvalid %s: '%c'"); elst[ERR_COMPMIS] = CSAVS(1, 131, "\nMissing separator '%c' after %s \"%s\""); elst[ERR_COMPINC] = CSAVS(1, 132, "\nIncomplete %s: \"%s\""); elst[ERR_MFLAG] = CSAVS(1, 133, "No operand for -m flag"); elst[ERR_ULIMUS] = CSAVS(1, 134, "Usage: unlimit [-fh] [limits]"); elst[ERR_READONLY] = CSAVS(1, 135, "$%S is read-only"); elst[ERR_BADJOB] = CSAVS(1, 136, "No such job (badjob)"); elst[ERR_BADCOLORVAR] = CSAVS(1, 137, "Unknown colorls variable `%c%c'"); } /* Cleanup data. */ struct cleanup_entry { void *var; void (*fn) (void *); #ifdef CLEANUP_DEBUG const char *file; size_t line; #endif }; static struct cleanup_entry *cleanup_stack; /* = NULL; */ static size_t cleanup_sp; /* = 0; Next free entry */ static size_t cleanup_mark; /* = 0; Last entry to handle before unwinding */ static size_t cleanup_stack_size; /* = 0 */ /* fn() will be run with all signals blocked, so it should not do anything risky. */ void cleanup_push_internal(void *var, void (*fn) (void *) #ifdef CLEANUP_DEBUG , const char *file, size_t line #endif ) { struct cleanup_entry *ce; if (cleanup_sp == cleanup_stack_size) { if (cleanup_stack_size == 0) cleanup_stack_size = 64; /* Arbitrary */ else cleanup_stack_size *= 2; cleanup_stack = xrealloc(cleanup_stack, cleanup_stack_size * sizeof (*cleanup_stack)); } ce = cleanup_stack + cleanup_sp; ce->var = var; ce->fn = fn; #ifdef CLEANUP_DEBUG ce->file = file; ce->line = line; #endif cleanup_sp++; } static void cleanup_ignore_fn(void *dummy) { USE(dummy); } void cleanup_ignore(void *var) { struct cleanup_entry *ce; ce = cleanup_stack + cleanup_sp; while (ce != cleanup_stack) { ce--; if (ce->var == var) { ce->fn = cleanup_ignore_fn; return; } } abort(); } void cleanup_until(void *last_var) { while (cleanup_sp != 0) { struct cleanup_entry ce; cleanup_sp--; ce = cleanup_stack[cleanup_sp]; ce.fn(ce.var); if (ce.var == last_var) return; } abort(); } void cleanup_until_mark(void) { while (cleanup_sp > cleanup_mark) { struct cleanup_entry ce; cleanup_sp--; ce = cleanup_stack[cleanup_sp]; ce.fn(ce.var); } } size_t cleanup_push_mark(void) { size_t old_mark; old_mark = cleanup_mark; cleanup_mark = cleanup_sp; return old_mark; } void cleanup_pop_mark(size_t mark) { assert (mark <= cleanup_sp); cleanup_mark = mark; } void sigint_cleanup(void *xsa) { const struct sigaction *sa; sa = xsa; sigaction(SIGINT, sa, NULL); } void sigprocmask_cleanup(void *xmask) { sigset_t *mask; mask = xmask; sigprocmask(SIG_SETMASK, mask, NULL); } void open_cleanup(void *xptr) { int *ptr; ptr = xptr; xclose(*ptr); } void opendir_cleanup(void *xdir) { DIR *dir; dir = xdir; xclosedir(dir); } void xfree_indirect(void *xptr) { void **ptr; /* This is actually type punning :( */ ptr = xptr; xfree(*ptr); } void reset(void) { cleanup_until_mark(); _reset(); } /* * The parser and scanner set up errors for later by calling seterr, * which sets the variable err as a side effect; later to be tested, * e.g. in process. */ void /*VARARGS1*/ seterror(unsigned int id, ...) { if (seterr == 0) { va_list va; va_start(va, id); if (id >= sizeof(elst) / sizeof(elst[0])) id = ERR_INVALID; seterr = xvasprintf(elst[id], va); va_end(va); } } /* * Print the error with the given id. * * Special ids: * ERR_SILENT: Print nothing. * ERR_OLD: Print the previously set error if one was there. * otherwise return. * ERR_NAME: If this bit is set, print the name of the function * in bname * * This routine always resets or exits. The flag haderr * is set so the routine who catches the unwind can propogate * it if they want. * * Note that any open files at the point of error will eventually * be closed in the routine process in sh.c which is the only * place error unwinds are ever caught. */ void /*VARARGS*/ stderror(unsigned int id, ...) { va_list va; int flags; int vareturn; va_start(va, id); /* * Reset don't free flag for buggy os's */ dont_free = 0; flags = (int) id & ERR_FLAGS; id &= ~ERR_FLAGS; /* Pyramid's OS/x has a subtle bug in which prevents calling * va_end more than once in the same function. -- sterling@netcom.com */ if (!((flags & ERR_OLD) && seterr == NULL)) { vareturn = 0; /* Don't return immediately after va_end */ if (id >= sizeof(elst) / sizeof(elst[0])) id = ERR_INVALID; /* * Must flush before we print as we wish output before the error to go * on (some form of) standard output, while output after goes on (some * form of) diagnostic output. If didfds then output will go to 1/2 * else to FSHOUT/FSHDIAG. See flush in sh.print.c. */ flush();/*FIXRESET*/ haderr = 1; /* Now to diagnostic output */ if (!(flags & ERR_SILENT)) { if (flags & ERR_NAME) xprintf("%s: ", bname);/*FIXRESET*/ if ((flags & ERR_OLD)) { /* Old error. */ xprintf("%s.\n", seterr);/*FIXRESET*/ } else { xvprintf(elst[id], va);/*FIXRESET*/ xprintf(".\n");/*FIXRESET*/ } } } else { vareturn = 1; /* Return immediately after va_end */ } va_end(va); if (vareturn) return; if (seterr) { xfree(seterr); seterr = NULL; } didfds = 0; /* Forget about 0,1,2 */ /* * Go away if -e or we are a child shell */ if (!exitset || exiterr || child) xexit(1); /* * Reset the state of the input. This buffered seek to end of file will * also clear the while/foreach stack. */ btoeof(); setcopy(STRstatus, STR1, VAR_READWRITE);/*FIXRESET*/ #ifdef BSDJOBS if (tpgrp > 0) (void) tcsetpgrp(FSHTTY, tpgrp); #endif reset(); /* Unwind */ }