/* $OpenBSD: csh.h,v 1.9 2003/01/08 06:54:16 deraadt Exp $ */ /* $NetBSD: csh.h,v 1.9 1995/03/21 09:02:40 cgd Exp $ */ /*- * Copyright (c) 1980, 1991, 1993 * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. 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. * * @(#)csh.h 8.1 (Berkeley) 5/31/93 */ /* * Fundamental definitions which may vary from system to system. * * BUFSIZ The i/o buffering size; also limits word size * MAILINTVL How often to mailcheck; more often is more expensive */ #ifndef BUFSIZ #define BUFSIZ 1024 /* default buffer size */ #endif /* BUFSIZ */ #define FORKSLEEP 10 /* delay loop on non-interactive fork failure */ #define MAILINTVL 600 /* 10 minutes */ /* * The shell moves std in/out/diag and the old std input away from units * 0, 1, and 2 so that it is easy to set up these standards for invoked * commands. */ #define FSHTTY 15 /* /dev/tty when manip pgrps */ #define FSHIN 16 /* Preferred desc for shell input */ #define FSHOUT 17 /* ... shell output */ #define FSHERR 18 /* ... shell diagnostics */ #define FOLDSTD 19 /* ... old std input */ #ifdef PROF #define xexit(n) done(n) #endif #ifdef SHORT_STRINGS typedef short Char; #define SAVE(a) (Strsave(str2short(a))) #else typedef char Char; #define SAVE(a) (strsave(a)) #endif /* * Make sure a variable is not stored in a register by taking its address * This is used where variables might be clobbered by longjmp. */ #define UNREGISTER(a) (void) &a typedef void *ioctl_t; /* Third arg of ioctl */ typedef void *ptr_t; #include "const.h" #include "char.h" #include "error.h" #define xmalloc(i) Malloc(i) #define xrealloc(p, i) Realloc(p, i) #define xcalloc(n, s) Calloc(n, s) #define xfree(p) Free(p) #include FILE *cshin, *cshout, *csherr; #define isdir(d) (S_ISDIR(d.st_mode)) typedef int bool; #define eq(a, b) (Strcmp(a, b) == 0) /* globone() flags */ #define G_ERROR 0 /* default action: error if multiple words */ #define G_IGNORE 1 /* ignore the rest of the words */ #define G_APPEND 2 /* make a sentence by cat'ing the words */ /* * Global flags */ bool chkstop; /* Warned of stopped jobs... allow exit */ bool didfds; /* Have setup i/o fd's for child */ bool doneinp; /* EOF indicator after reset from readc */ bool exiterr; /* Exit if error or non-zero exit status */ bool child; /* Child shell ... errors cause exit */ bool haderr; /* Reset was because of an error */ bool intty; /* Input is a tty */ bool intact; /* We are interactive... therefore prompt */ bool justpr; /* Just print because of :p hist mod */ bool loginsh; /* We are a loginsh -> .login/.logout */ bool neednote; /* Need to pnotify() */ bool noexec; /* Don't execute, just syntax check */ bool pjobs; /* want to print jobs if interrupted */ bool setintr; /* Set interrupts on/off -> Wait intr... */ bool timflg; /* Time the next waited for command */ bool havhash; /* path hashing is available */ #ifdef FILEC bool filec; /* doing filename expansion */ #endif /* * Global i/o info */ Char *arginp; /* Argument input for sh -c and internal `xx` */ int onelflg; /* 2 -> need line for -t, 1 -> exit on read */ Char *ffile; /* Name of shell file for $0 */ char *seterr; /* Error message from scanner/parser */ #include #include #include struct timeval time0; /* Time at which the shell started */ struct rusage ru0; /* * Miscellany */ Char *doldol; /* Character pid for $$ */ int backpid; /* Pid of the last background process */ uid_t uid, euid; /* Invokers uid */ gid_t gid, egid; /* Invokers gid */ time_t chktim; /* Time mail last checked */ int shpgrp; /* Pgrp of shell */ int tpgrp; /* Terminal process group */ /* If tpgrp is -1, leave tty alone! */ int opgrp; /* Initial pgrp and tty pgrp */ /* * To be able to redirect i/o for builtins easily, the shell moves the i/o * descriptors it uses away from 0,1,2. * Ideally these should be in units which are closed across exec's * (this saves work) but for version 6, this is not usually possible. * The desired initial values for these descriptors are F{SHIN,...}. */ int SHIN; /* Current shell input (script) */ int SHOUT; /* Shell output */ int SHERR; /* Diagnostic output... shell errs go here */ int OLDSTD; /* Old standard input (def for cmds) */ /* * Error control * * Errors in scanning and parsing set up an error message to be printed * at the end and complete. Other errors always cause a reset. * Because of source commands and .cshrc we need nested error catches. */ #include jmp_buf reslab; int exitset; #define setexit() (setjmp(reslab)) #define reset() longjmp(reslab, 1) /* Should use structure assignment here */ #define getexit(a) memcpy((a), reslab, sizeof reslab) #define resexit(a) memcpy(reslab, (a), sizeof reslab) Char *gointr; /* Label for an onintr transfer */ #include sig_t parintr; /* Parents interrupt catch */ sig_t parterm; /* Parents terminate catch */ /* * Lexical definitions. * * All lexical space is allocated dynamically. * The eighth/sixteenth bit of characters is used to prevent recognition, * and eventually stripped. */ #define META 0200 #define ASCII 0177 #ifdef SHORT_STRINGS #define CHAR 0377 #define QUOTE 0100000 /* 16nth char bit used for 'ing */ #define TRIM 0077777 /* Mask to strip quote bit */ #else #define CHAR 0177 #define QUOTE 0200 /* Eighth char bit used for 'ing */ #define TRIM 0177 /* Mask to strip quote bit */ #endif int AsciiOnly; /* If set only 7 bits is expected in characters */ /* * Each level of input has a buffered input structure. * There are one or more blocks of buffered input for each level, * exactly one if the input is seekable and tell is available. * In other cases, the shell buffers enough blocks to keep all loops * in the buffer. */ struct Bin { off_t Bfseekp; /* Seek pointer */ off_t Bfbobp; /* Seekp of beginning of buffers */ off_t Bfeobp; /* Seekp of end of buffers */ int Bfblocks; /* Number of buffer blocks */ Char **Bfbuf; /* The array of buffer blocks */ } B; /* * This structure allows us to seek inside aliases */ struct Ain { int type; #define I_SEEK -1 /* Invalid seek */ #define A_SEEK 0 /* Alias seek */ #define F_SEEK 1 /* File seek */ #define E_SEEK 2 /* Eval seek */ union { off_t _f_seek; Char* _c_seek; } fc; #define f_seek fc._f_seek #define c_seek fc._c_seek Char **a_seek; } ; extern int aret; /* What was the last character returned */ #define SEEKEQ(a, b) ((a)->type == (b)->type && \ (a)->f_seek == (b)->f_seek && \ (a)->a_seek == (b)->a_seek) #define fseekp B.Bfseekp #define fbobp B.Bfbobp #define feobp B.Bfeobp #define fblocks B.Bfblocks #define fbuf B.Bfbuf /* * The shell finds commands in loops by re-seeking the input * For whiles, in particular, it re-seeks to the beginning of the * line the while was on; hence the while placement restrictions. */ struct Ain lineloc; bool cantell; /* Is current source tellable ? */ /* * Input lines are parsed into doubly linked circular * lists of words of the following form. */ struct wordent { Char *word; struct wordent *prev; struct wordent *next; }; /* * During word building, both in the initial lexical phase and * when expanding $ variable substitutions, expansion by `!' and `$' * must be inhibited when reading ahead in routines which are themselves * processing `!' and `$' expansion or after characters such as `\' or in * quotations. The following flags are passed to the getC routines * telling them which of these substitutions are appropriate for the * next character to be returned. */ #define DODOL 1 #define DOEXCL 2 #define DOALL DODOL|DOEXCL /* * Labuf implements a general buffer for lookahead during lexical operations. * Text which is to be placed in the input stream can be stuck here. * We stick parsed ahead $ constructs during initial input, * process id's from `$$', and modified variable values (from qualifiers * during expansion in sh.dol.c) here. */ Char *lap; /* * Parser structure * * Each command is parsed to a tree of command structures and * flags are set bottom up during this process, to be propagated down * as needed during the semantics/execution pass (sh.sem.c). */ struct command { short t_dtyp; /* Type of node */ #define NODE_COMMAND 1 /* t_dcom t_drit */ #define NODE_PAREN 2 /* ( t_dspr ) t_drit */ #define NODE_PIPE 3 /* t_dlef | t_drit */ #define NODE_LIST 4 /* t_dlef ; t_drit */ #define NODE_OR 5 /* t_dlef || t_drit */ #define NODE_AND 6 /* t_dlef && t_drit */ short t_dflg; /* Flags, e.g. F_AMPERSAND|... */ #define F_SAVE (F_NICE|F_TIME|F_NOHUP) /* save these when re-doing */ #define F_AMPERSAND (1<<0) /* executes in background */ #define F_APPEND (1<<1) /* output is redirected >> */ #define F_PIPEIN (1<<2) /* input is a pipe */ #define F_PIPEOUT (1<<3) /* output is a pipe */ #define F_NOFORK (1<<4) /* don't fork, last ()ized cmd */ #define F_NOINTERRUPT (1<<5) /* should be immune from intr's */ /* spare */ #define F_STDERR (1<<7) /* redirect unit 2 with unit 1 */ #define F_OVERWRITE (1<<8) /* output was ! */ #define F_READ (1<<9) /* input redirection is << */ #define F_REPEAT (1<<10) /* reexec aft if, repeat,... */ #define F_NICE (1<<11) /* t_nice is meaningful */ #define F_NOHUP (1<<12) /* nohup this command */ #define F_TIME (1<<13) /* time this command */ union { Char *T_dlef; /* Input redirect word */ struct command *T_dcar; /* Left part of list/pipe */ } L; union { Char *T_drit; /* Output redirect word */ struct command *T_dcdr; /* Right part of list/pipe */ } R; #define t_dlef L.T_dlef #define t_dcar L.T_dcar #define t_drit R.T_drit #define t_dcdr R.T_dcdr Char **t_dcom; /* Command/argument vector */ struct command *t_dspr; /* Pointer to ()'d subtree */ int t_nice; }; /* * These are declared here because they want to be * initialized in sh.init.c (to allow them to be made readonly) */ extern struct biltins { char *bname; void (*bfunct)(Char **, struct command *); short minargs, maxargs; } bfunc[]; extern int nbfunc; extern struct srch { char *s_name; short s_value; } srchn[]; extern int nsrchn; /* * The keywords for the parser */ #define T_BREAK 0 #define T_BRKSW 1 #define T_CASE 2 #define T_DEFAULT 3 #define T_ELSE 4 #define T_END 5 #define T_ENDIF 6 #define T_ENDSW 7 #define T_EXIT 8 #define T_FOREACH 9 #define T_GOTO 10 #define T_IF 11 #define T_LABEL 12 #define T_LET 13 #define T_SET 14 #define T_SWITCH 15 #define T_TEST 16 #define T_THEN 17 #define T_WHILE 18 /* * Structure defining the existing while/foreach loops at this * source level. Loops are implemented by seeking back in the * input. For foreach (fe), the word list is attached here. */ struct whyle { struct Ain w_start; /* Point to restart loop */ struct Ain w_end; /* End of loop (0 if unknown) */ Char **w_fe, **w_fe0; /* Current/initial wordlist for fe */ Char *w_fename; /* Name for fe */ struct whyle *w_next; /* Next (more outer) loop */ } *whyles; /* * Variable structure * * Aliases and variables are stored in AVL balanced binary trees. */ struct varent { Char **vec; /* Array of words which is the value */ Char *v_name; /* Name of variable/alias */ struct varent *v_link[3]; /* The links, see below */ int v_bal; /* Balance factor */ } shvhed, aliases; #define v_left v_link[0] #define v_right v_link[1] #define v_parent v_link[2] struct varent *adrof1(); #define adrof(v) adrof1(v, &shvhed) #define value(v) value1(v, &shvhed) /* * The following are for interfacing redo substitution in * aliases to the lexical routines. */ struct wordent *alhistp; /* Argument list (first) */ struct wordent *alhistt; /* Node after last in arg list */ Char **alvec, *alvecp; /* The (remnants of) alias vector */ /* * Filename/command name expansion variables */ int gflag; /* After tglob -> is globbing needed? */ #define MAXVARLEN 30 /* Maximum number of char in a variable name */ /* * Variables for filename expansion */ extern Char **gargv; /* Pointer to the (stack) arglist */ extern long gargc; /* Number args in gargv */ /* * Variables for command expansion. */ extern Char **pargv; /* Pointer to the argv list space */ extern long pargc; /* Count of arguments in pargv */ Char *pargs; /* Pointer to start current word */ long pnleft; /* Number of chars left in pargs */ Char *pargcp; /* Current index into pargs */ /* * History list * * Each history list entry contains an embedded wordlist * from the scanner, a number for the event, and a reference count * to aid in discarding old entries. * * Essentially "invisible" entries are put on the history list * when history substitution includes modifiers, and thrown away * at the next discarding since their event numbers are very negative. */ struct Hist { struct wordent Hlex; int Hnum; int Href; struct Hist *Hnext; } Histlist; struct wordent paraml; /* Current lexical word list */ int eventno; /* Next events number */ int lastev; /* Last event reference (default) */ Char HIST; /* history invocation character */ Char HISTSUB; /* auto-substitute character */ /* * strings.h: */ #ifndef SHORT_STRINGS #define Strchr(a, b) strchr(a, b) #define Strrchr(a, b) strrchr(a, b) #define Strcat(a, b) strcat(a, b) #define Strlcat(a, b, l) strlcat(a, b, l) #define Strncat(a, b, c) strncat(a, b, c) #define Strcpy(a, b) strcpy(a, b) #define Strlcpy(a, b, l) strlcpy(a, b, l) #define Strncpy(a, b, c) strncpy(a, b, c) #define Strlen(a) strlen(a) #define Strcmp(a, b) strcmp(a, b) #define Strncmp(a, b, c) strncmp(a, b, c) #define Strspl(a, b) strspl(a, b) #define Strsave(a) strsave(a) #define Strend(a) strend(a) #define Strstr(a, b) strstr(a, b) #define str2short(a) (a) #define blk2short(a) saveblk(a) #define short2blk(a) saveblk(a) #define short2str(a) strip(a) #else #define Strchr(a, b) s_strchr(a, b) #define Strrchr(a, b) s_strrchr(a, b) #define Strcat(a, b) s_strcat(a, b) #define Strlcat(a, b, l) s_strlcat(a, b, l) #define Strncat(a, b, c) s_strncat(a, b, c) #define Strcpy(a, b) s_strcpy(a, b) #define Strlcpy(a, b, l) s_strlcpy(a, b, l) #define Strncpy(a, b, c) s_strncpy(a, b, c) #define Strlen(a) s_strlen(a) #define Strcmp(a, b) s_strcmp(a, b) #define Strncmp(a, b, c) s_strncmp(a, b, c) #define Strspl(a, b) s_strspl(a, b) #define Strsave(a) s_strsave(a) #define Strend(a) s_strend(a) #define Strstr(a, b) s_strstr(a, b) #endif /* * setname is a macro to save space (see sh.err.c) */ char *bname; #define setname(a) (bname = (a)) Char *Vsav; Char *Vdp; Char *Vexpath; char **Vt; Char **evalvec; Char *evalp; /* word_chars is set by default to WORD_CHARS but can be overridden by the worchars variable--if unset, reverts to WORD_CHARS */ Char *word_chars; #define WORD_CHARS "*?_-.[]~=" /* default chars besides alnums in words */ Char *STR_SHELLPATH; #include #ifdef _PATH_BSHELL Char *STR_BSHELL; #endif Char *STR_WORD_CHARS; Char **STR_environ;