/* vi: set sw=4 ts=4: */ /* * Minix shell port for busybox * * This version of the Minix shell was adapted for use in busybox * by Erik Andersen * * - backtick expansion did not work properly * Jonas Holmberg * Robert Schwebel * Erik Andersen * * Licensed under GPLv2 or later, see file LICENSE in this tarball for details. */ #include #include #ifdef STANDALONE # ifndef _GNU_SOURCE # define _GNU_SOURCE # endif # include # include # include # include # include # include # include # include # include # include # include # include # include # define bb_dev_null "/dev/null" # define DEFAULT_SHELL "/proc/self/exe" # define CONFIG_BUSYBOX_EXEC_PATH "/proc/self/exe" # define bb_banner "busybox standalone" # define ENABLE_FEATURE_SH_STANDALONE 0 # define bb_msg_memory_exhausted "memory exhausted" # define xmalloc(size) malloc(size) # define msh_main(argc,argv) main(argc,argv) # define safe_read(fd,buf,count) read(fd,buf,count) # define NOT_LONE_DASH(s) ((s)[0] != '-' || (s)[1]) # define LONE_CHAR(s,c) ((s)[0] == (c) && !(s)[1]) # define ATTRIBUTE_NORETURN __attribute__ ((__noreturn__)) static char *find_applet_by_name(const char *applet) { return NULL; } static char *utoa_to_buf(unsigned n, char *buf, unsigned buflen) { unsigned i, out, res; assert(sizeof(unsigned) == 4); if (buflen) { out = 0; for (i = 1000000000; i; i /= 10) { res = n / i; if (res || out || i == 1) { if (!--buflen) break; out++; n -= res*i; *buf++ = '0' + res; } } } return buf; } static char *itoa_to_buf(int n, char *buf, unsigned buflen) { if (buflen && n < 0) { n = -n; *buf++ = '-'; buflen--; } return utoa_to_buf((unsigned)n, buf, buflen); } static char local_buf[12]; static char *itoa(int n) { *(itoa_to_buf(n, local_buf, sizeof(local_buf))) = '\0'; return local_buf; } #else # include "busybox.h" extern char **environ; #endif /*#define MSHDEBUG 1*/ #ifdef MSHDEBUG int mshdbg = MSHDEBUG; #define DBGPRINTF(x) if (mshdbg>0) printf x #define DBGPRINTF0(x) if (mshdbg>0) printf x #define DBGPRINTF1(x) if (mshdbg>1) printf x #define DBGPRINTF2(x) if (mshdbg>2) printf x #define DBGPRINTF3(x) if (mshdbg>3) printf x #define DBGPRINTF4(x) if (mshdbg>4) printf x #define DBGPRINTF5(x) if (mshdbg>5) printf x #define DBGPRINTF6(x) if (mshdbg>6) printf x #define DBGPRINTF7(x) if (mshdbg>7) printf x #define DBGPRINTF8(x) if (mshdbg>8) printf x #define DBGPRINTF9(x) if (mshdbg>9) printf x int mshdbg_rc = 0; #define RCPRINTF(x) if (mshdbg_rc) printf x #else #define DBGPRINTF(x) #define DBGPRINTF0(x) ((void)0) #define DBGPRINTF1(x) ((void)0) #define DBGPRINTF2(x) ((void)0) #define DBGPRINTF3(x) ((void)0) #define DBGPRINTF4(x) ((void)0) #define DBGPRINTF5(x) ((void)0) #define DBGPRINTF6(x) ((void)0) #define DBGPRINTF7(x) ((void)0) #define DBGPRINTF8(x) ((void)0) #define DBGPRINTF9(x) ((void)0) #define RCPRINTF(x) ((void)0) #endif /* MSHDEBUG */ #if ENABLE_FEATURE_EDITING_FANCY_PROMPT # define DEFAULT_ROOT_PROMPT "\\u:\\w> " # define DEFAULT_USER_PROMPT "\\u:\\w$ " #else # define DEFAULT_ROOT_PROMPT "# " # define DEFAULT_USER_PROMPT "$ " #endif /* -------- sh.h -------- */ /* * shell */ #define LINELIM 2100 #define NPUSH 8 /* limit to input nesting */ #undef NOFILE #define NOFILE 20 /* Number of open files */ #define NUFILE 10 /* Number of user-accessible files */ #define FDBASE 10 /* First file usable by Shell */ /* * values returned by wait */ #define WAITSIG(s) ((s) & 0177) #define WAITVAL(s) (((s) >> 8) & 0377) #define WAITCORE(s) (((s) & 0200) != 0) /* * library and system definitions */ typedef void xint; /* base type of jmp_buf, for not broken compilers */ /* * shell components */ #define NOBLOCK ((struct op *)NULL) #define NOWORD ((char *)NULL) #define NOWORDS ((char **)NULL) #define NOPIPE ((int *)NULL) /* * redirection */ struct ioword { short io_unit; /* unit affected */ short io_flag; /* action (below) */ char *io_name; /* file name */ }; #define IOREAD 1 /* < */ #define IOHERE 2 /* << (here file) */ #define IOWRITE 4 /* > */ #define IOCAT 8 /* >> */ #define IOXHERE 16 /* ${}, ` in << */ #define IODUP 32 /* >&digit */ #define IOCLOSE 64 /* >&- */ #define IODEFAULT (-1) /* token for default IO unit */ /* * Description of a command or an operation on commands. * Might eventually use a union. */ struct op { int type; /* operation type, see below */ char **words; /* arguments to a command */ struct ioword **ioact; /* IO actions (eg, < > >>) */ struct op *left; struct op *right; char *str; /* identifier for case and for */ }; #define TCOM 1 /* command */ #define TPAREN 2 /* (c-list) */ #define TPIPE 3 /* a | b */ #define TLIST 4 /* a [&;] b */ #define TOR 5 /* || */ #define TAND 6 /* && */ #define TFOR 7 #define TDO 8 #define TCASE 9 #define TIF 10 #define TWHILE 11 #define TUNTIL 12 #define TELIF 13 #define TPAT 14 /* pattern in case */ #define TBRACE 15 /* {c-list} */ #define TASYNC 16 /* c & */ /* Added to support "." file expansion */ #define TDOT 17 /* Strings for names to make debug easier */ #ifdef MSHDEBUG static const char *const T_CMD_NAMES[] = { "PLACEHOLDER", "TCOM", "TPAREN", "TPIPE", "TLIST", "TOR", "TAND", "TFOR", "TDO", "TCASE", "TIF", "TWHILE", "TUNTIL", "TELIF", "TPAT", "TBRACE", "TASYNC", "TDOT", }; #endif /* * actions determining the environment of a process */ #define FEXEC 1 /* execute without forking */ #define AREASIZE (90000) /* * flags to control evaluation of words */ #define DOSUB 1 /* interpret $, `, and quotes */ #define DOBLANK 2 /* perform blank interpretation */ #define DOGLOB 4 /* interpret [?* */ #define DOKEY 8 /* move words with `=' to 2nd arg. list */ #define DOTRIM 16 /* trim resulting string */ #define DOALL (DOSUB|DOBLANK|DOGLOB|DOKEY|DOTRIM) struct brkcon { jmp_buf brkpt; struct brkcon *nextlev; }; /* * flags: * -e: quit on error * -k: look for name=value everywhere on command line * -n: no execution * -t: exit after reading and executing one command * -v: echo as read * -x: trace * -u: unset variables net diagnostic */ static char flags['z' - 'a' + 1] ALIGN1; /* this looks weird, but is OK ... we index FLAG with 'a'...'z' */ #define FLAG (flags - 'a') /* moved to G: static char *trap[_NSIG + 1]; */ /* moved to G: static char ourtrap[_NSIG + 1]; */ static int trapset; /* trap pending */ static int yynerrs; /* yacc */ /* moved to G: static char line[LINELIM]; */ #if ENABLE_FEATURE_EDITING static char *current_prompt; static line_input_t *line_input_state; #endif /* * other functions */ static const char *rexecve(char *c, char **v, char **envp); static char *evalstr(char *cp, int f); static char *putn(int n); static char *unquote(char *as); static int rlookup(char *n); static struct wdblock *glob(char *cp, struct wdblock *wb); static int my_getc(int ec); static int subgetc(char ec, int quoted); static char **makenv(int all, struct wdblock *wb); static char **eval(char **ap, int f); static int setstatus(int s); static int waitfor(int lastpid, int canintr); static void onintr(int s); /* SIGINT handler */ static int newenv(int f); static void quitenv(void); static void next(int f); static void setdash(void); static void onecommand(void); static void runtrap(int i); /* -------- area stuff -------- */ #define REGSIZE sizeof(struct region) #define GROWBY (256) /* #define SHRINKBY (64) */ #undef SHRINKBY #define FREE (32767) #define BUSY (0) #define ALIGN (sizeof(int)-1) struct region { struct region *next; int area; }; /* -------- grammar stuff -------- */ typedef union { char *cp; char **wp; int i; struct op *o; } YYSTYPE; #define WORD 256 #define LOGAND 257 #define LOGOR 258 #define BREAK 259 #define IF 260 #define THEN 261 #define ELSE 262 #define ELIF 263 #define FI 264 #define CASE 265 #define ESAC 266 #define FOR 267 #define WHILE 268 #define UNTIL 269 #define DO 270 #define DONE 271 #define IN 272 /* Added for "." file expansion */ #define DOT 273 #define YYERRCODE 300 /* flags to yylex */ #define CONTIN 01 /* skip new lines to complete command */ static struct op *pipeline(int cf); static struct op *andor(void); static struct op *c_list(void); static int synio(int cf); static void musthave(int c, int cf); static struct op *simple(void); static struct op *nested(int type, int mark); static struct op *command(int cf); static struct op *dogroup(int onlydone); static struct op *thenpart(void); static struct op *elsepart(void); static struct op *caselist(void); static struct op *casepart(void); static char **pattern(void); static char **wordlist(void); static struct op *list(struct op *t1, struct op *t2); static struct op *block(int type, struct op *t1, struct op *t2, char **wp); static struct op *newtp(void); static struct op *namelist(struct op *t); static char **copyw(void); static void word(char *cp); static struct ioword **copyio(void); static struct ioword *io(int u, int f, char *cp); static int yylex(int cf); static int collect(int c, int c1); static int dual(int c); static void diag(int ec); static char *tree(unsigned size); /* -------- var.h -------- */ struct var { char *value; char *name; struct var *next; char status; }; #define COPYV 1 /* flag to setval, suggesting copy */ #define RONLY 01 /* variable is read-only */ #define EXPORT 02 /* variable is to be exported */ #define GETCELL 04 /* name & value space was got with getcell */ static int yyparse(void); static int execute(struct op *t, int *pin, int *pout, int act); #define AFID_NOBUF (~0) #define AFID_ID 0 /* -------- io.h -------- */ /* io buffer */ struct iobuf { unsigned id; /* buffer id */ char buf[512]; /* buffer */ char *bufp; /* pointer into buffer */ char *ebufp; /* pointer to end of buffer */ }; /* possible arguments to an IO function */ struct ioarg { const char *aword; char **awordlist; int afile; /* file descriptor */ unsigned afid; /* buffer id */ long afpos; /* file position */ struct iobuf *afbuf; /* buffer for this file */ }; /* an input generator's state */ struct io { int (*iofn) (struct ioarg *, struct io *); struct ioarg *argp; int peekc; char prev; /* previous character read by readc() */ char nlcount; /* for `'s */ char xchar; /* for `'s */ char task; /* reason for pushed IO */ }; #define XOTHER 0 /* none of the below */ #define XDOLL 1 /* expanding ${} */ #define XGRAVE 2 /* expanding `'s */ #define XIO 3 /* file IO */ /* in substitution */ #define INSUB() (e.iop->task == XGRAVE || e.iop->task == XDOLL) static struct ioarg temparg = { 0, 0, 0, AFID_NOBUF, 0 }; /* temporary for PUSHIO */ /* moved to G: static struct ioarg ioargstack[NPUSH]; */ static struct io iostack[NPUSH]; /* moved to G: static struct iobuf sharedbuf = { AFID_NOBUF }; */ /* moved to G: static struct iobuf mainbuf = { AFID_NOBUF }; */ static unsigned bufid = AFID_ID; /* buffer id counter */ #define RUN(what,arg,gen) ((temparg.what = (arg)), run(&temparg,(gen))) /* * input generators for IO structure */ static int nlchar(struct ioarg *ap); static int strchar(struct ioarg *ap); static int qstrchar(struct ioarg *ap); static int filechar(struct ioarg *ap); static int herechar(struct ioarg *ap); static int linechar(struct ioarg *ap); static int gravechar(struct ioarg *ap, struct io *iop); static int qgravechar(struct ioarg *ap, struct io *iop); static int dolchar(struct ioarg *ap); static int wdchar(struct ioarg *ap); static void scraphere(void); static void freehere(int area); static void gethere(void); static void markhere(char *s, struct ioword *iop); static int herein(char *hname, int xdoll); static int run(struct ioarg *argp, int (*f) (struct ioarg *)); static int eofc(void); static int readc(void); static void unget(int c); static void ioecho(char c); /* * IO control */ static void pushio(struct ioarg *argp, int (*f) (struct ioarg *)); #define PUSHIO(what,arg,gen) ((temparg.what = (arg)), pushio(&temparg,(gen))) static int remap(int fd); static int openpipe(int *pv); static void closepipe(int *pv); static struct io *setbase(struct io *ip); /* -------- word.h -------- */ #define NSTART 16 /* default number of words to allow for initially */ struct wdblock { short w_bsize; short w_nword; /* bounds are arbitrary */ char *w_words[1]; }; static struct wdblock *addword(char *wd, struct wdblock *wb); static struct wdblock *newword(int nw); static char **getwords(struct wdblock *wb); /* -------- misc stuff -------- */ static int forkexec(struct op *t, int *pin, int *pout, int act, char **wp); static int iosetup(struct ioword *iop, int pipein, int pipeout); static void brkset(struct brkcon *bc); static int dolabel(struct op *t); static int dohelp(struct op *t); static int dochdir(struct op *t); static int doshift(struct op *t); static int dologin(struct op *t); static int doumask(struct op *t); static int doexec(struct op *t); static int dodot(struct op *t); static int dowait(struct op *t); static int doread(struct op *t); static int doeval(struct op *t); static int dotrap(struct op *t); static int getsig(char *s); static void setsig(int n, sighandler_t f); static int getn(char *as); static int dobreak(struct op *t); static int docontinue(struct op *t); static int brkcontin(char *cp, int val); static int doexit(struct op *t); static int doexport(struct op *t); static int doreadonly(struct op *t); static void rdexp(char **wp, void (*f) (struct var *), int key); static void badid(char *s); static int doset(struct op *t); static void varput(char *s, int out); static int dotimes(struct op *t); static int expand(const char *cp, struct wdblock **wbp, int f); static char *blank(int f); static int dollar(int quoted); static int grave(int quoted); static void globname(char *we, char *pp); static char *generate(char *start1, char *end1, char *middle, char *end); static int anyspcl(struct wdblock *wb); static int xstrcmp(char *p1, char *p2); static void glob0(char *a0, unsigned a1, int a2, int (*a3) (char *, char *)); static void readhere(char **name, char *s, int ec); static int xxchar(struct ioarg *ap); struct here { char *h_tag; int h_dosub; struct ioword *h_iop; struct here *h_next; }; static const char *const signame[] = { "Signal 0", "Hangup", NULL, /* interrupt */ "Quit", "Illegal instruction", "Trace/BPT trap", "Abort", "Bus error", "Floating Point Exception", "Killed", "SIGUSR1", "SIGSEGV", "SIGUSR2", NULL, /* broken pipe */ "Alarm clock", "Terminated" }; struct res { const char *r_name; int r_val; }; static const struct res restab[] = { { "for" , FOR }, { "case" , CASE }, { "esac" , ESAC }, { "while", WHILE }, { "do" , DO }, { "done" , DONE }, { "if" , IF }, { "in" , IN }, { "then" , THEN }, { "else" , ELSE }, { "elif" , ELIF }, { "until", UNTIL }, { "fi" , FI }, { ";;" , BREAK }, { "||" , LOGOR }, { "&&" , LOGAND }, { "{" , '{' }, { "}" , '}' }, { "." , DOT }, { NULL , 0 }, }; struct builtincmd { const char *name; int (*builtinfunc)(struct op *t); }; static const struct builtincmd builtincmds[] = { { "." , dodot }, { ":" , dolabel }, { "break" , dobreak }, { "cd" , dochdir }, { "continue", docontinue }, { "eval" , doeval }, { "exec" , doexec }, { "exit" , doexit }, { "export" , doexport }, { "help" , dohelp }, { "login" , dologin }, { "newgrp" , dologin }, { "read" , doread }, { "readonly", doreadonly }, { "set" , doset }, { "shift" , doshift }, { "times" , dotimes }, { "trap" , dotrap }, { "umask" , doumask }, { "wait" , dowait }, { NULL , NULL }, }; static struct op *scantree(struct op *); static struct op *dowholefile(int, int); /* Globals */ static char **dolv; static int dolc; static int exstat; static char gflg; static int interactive; /* Is this an interactive shell */ static int execflg; static int multiline; /* \n changed to ; */ static struct op *outtree; /* result from parser */ static xint *failpt; static xint *errpt; static struct brkcon *brklist; static int isbreak; static struct wdblock *wdlist; static struct wdblock *iolist; #ifdef MSHDEBUG static struct var *mshdbg_var; #endif static struct var *vlist; /* dictionary */ static struct var *homedir; /* home directory */ static struct var *prompt; /* main prompt */ static struct var *cprompt; /* continuation prompt */ static struct var *path; /* search path for commands */ static struct var *shell; /* shell to interpret command files */ static struct var *ifs; /* field separators */ static int areanum; /* current allocation area */ static int intr; /* interrupt pending */ static int inparse; static char *null = (char*)""; /* null value for variable */ static int heedint = 1; /* heed interrupt signals */ static void (*qflag)(int) = SIG_IGN; static int startl; static int peeksym; static int nlseen; static int iounit = IODEFAULT; static YYSTYPE yylval; static char *elinep; /* done in main(): = line + sizeof(line) - 5 */ static struct here *inhere; /* list of hear docs while parsing */ static struct here *acthere; /* list of active here documents */ static struct region *areabot; /* bottom of area */ static struct region *areatop; /* top of area */ static struct region *areanxt; /* starting point of scan */ static void *brktop; static void *brkaddr; /* * parsing & execution environment */ struct env { char *linep; struct io *iobase; struct io *iop; xint *errpt; /* void * */ int iofd; struct env *oenv; }; static struct env e = { NULL /* set to line in main() */, /* linep: char ptr */ iostack, /* iobase: struct io ptr */ iostack - 1, /* iop: struct io ptr */ (xint *) NULL, /* errpt: void ptr for errors? */ FDBASE, /* iofd: file desc */ (struct env *) NULL /* oenv: struct env ptr */ }; struct globals { char ourtrap[_NSIG + 1]; char *trap[_NSIG + 1]; struct iobuf sharedbuf; /* in main(): set to { AFID_NOBUF } */ struct iobuf mainbuf; /* in main(): set to { AFID_NOBUF } */ struct ioarg ioargstack[NPUSH]; char filechar_cmdbuf[BUFSIZ]; char line[LINELIM]; char child_cmd[LINELIM]; }; #define G (*ptr_to_globals) #define ourtrap (G.ourtrap ) #define trap (G.trap ) #define sharedbuf (G.sharedbuf ) #define mainbuf (G.mainbuf ) #define ioargstack (G.ioargstack ) #define filechar_cmdbuf (G.filechar_cmdbuf) #define line (G.line ) #define child_cmd (G.child_cmd ) #ifdef MSHDEBUG void print_t(struct op *t) { DBGPRINTF(("T: t=%p, type %s, words=%p, IOword=%p\n", t, T_CMD_NAMES[t->type], t->words, t->ioact)); if (t->words) { DBGPRINTF(("T: W1: %s", t->words[0])); } } void print_tree(struct op *head) { if (head == NULL) { DBGPRINTF(("PRINT_TREE: no tree\n")); return; } DBGPRINTF(("NODE: %p, left %p, right %p\n", head, head->left, head->right)); if (head->left) print_tree(head->left); if (head->right) print_tree(head->right); } #endif /* MSHDEBUG */ /* * IO functions */ static void prs(const char *s) { if (*s) write(2, s, strlen(s)); } static void prn(unsigned u) { prs(itoa(u)); } static void echo(char **wp) { int i; prs("+"); for (i = 0; wp[i]; i++) { if (i) prs(" "); prs(wp[i]); } prs("\n"); } static void closef(int i) { if (i > 2) close(i); } static void closeall(void) { int u; for (u = NUFILE; u < NOFILE;) close(u++); } /* fail but return to process next command */ static void fail(void) ATTRIBUTE_NORETURN; static void fail(void) { longjmp(failpt, 1); /* NOTREACHED */ } /* abort shell (or fail in subshell) */ static void leave(void) ATTRIBUTE_NORETURN; static void leave(void) { DBGPRINTF(("LEAVE: leave called!\n")); if (execflg) fail(); scraphere(); freehere(1); runtrap(0); _exit(exstat); /* NOTREACHED */ } static void warn(const char *s) { if (*s) { prs(s); exstat = -1; } prs("\n"); if (FLAG['e']) leave(); } static void err(const char *s) { warn(s); if (FLAG['n']) return; if (!interactive) leave(); if (e.errpt) longjmp(e.errpt, 1); closeall(); e.iop = e.iobase = iostack; } /* -------- area.c -------- */ /* * All memory between (char *)areabot and (char *)(areatop+1) is * exclusively administered by the area management routines. * It is assumed that sbrk() and brk() manipulate the high end. */ #define sbrk(X) ({ \ void * __q = (void *)-1; \ if (brkaddr + (int)(X) < brktop) { \ __q = brkaddr; \ brkaddr += (int)(X); \ } \ __q; \ }) static void initarea(void) { brkaddr = xmalloc(AREASIZE); brktop = brkaddr + AREASIZE; while ((long) sbrk(0) & ALIGN) sbrk(1); areabot = (struct region *) sbrk(REGSIZE); areabot->next = areabot; areabot->area = BUSY; areatop = areabot; areanxt = areabot; } static char *getcell(unsigned nbytes) { int nregio; struct region *p, *q; int i; if (nbytes == 0) { puts("getcell(0)"); abort(); } /* silly and defeats the algorithm */ /* * round upwards and add administration area */ nregio = (nbytes + (REGSIZE - 1)) / REGSIZE + 1; p = areanxt; for (;;) { if (p->area > areanum) { /* * merge free cells */ while ((q = p->next)->area > areanum && q != areanxt) p->next = q->next; /* * exit loop if cell big enough */ if (q >= p + nregio) goto found; } p = p->next; if (p == areanxt) break; } i = nregio >= GROWBY ? nregio : GROWBY; p = (struct region *) sbrk(i * REGSIZE); if (p == (struct region *) -1) return NULL; p--; if (p != areatop) { puts("not contig"); abort(); /* allocated areas are contiguous */ } q = p + i; p->next = q; p->area = FREE; q->next = areabot; q->area = BUSY; areatop = q; found: /* * we found a FREE area big enough, pointed to by 'p', and up to 'q' */ areanxt = p + nregio; if (areanxt < q) { /* * split into requested area and rest */ if (areanxt + 1 > q) { puts("OOM"); abort(); /* insufficient space left for admin */ } areanxt->next = q; areanxt->area = FREE; p->next = areanxt; } p->area = areanum; return (char *) (p + 1); } static void freecell(char *cp) { struct region *p; p = (struct region *) cp; if (p != NULL) { p--; if (p < areanxt) areanxt = p; p->area = FREE; } } #define DELETE(obj) freecell((char *)obj) static void freearea(int a) { struct region *p, *top; top = areatop; for (p = areabot; p != top; p = p->next) if (p->area >= a) p->area = FREE; } static void setarea(char *cp, int a) { struct region *p; p = (struct region *) cp; if (p != NULL) (p - 1)->area = a; } static int getarea(char *cp) { return ((struct region *) cp - 1)->area; } static void garbage(void) { struct region *p, *q, *top; top = areatop; for (p = areabot; p != top; p = p->next) { if (p->area > areanum) { while ((q = p->next)->area > areanum) p->next = q->next; areanxt = p; } } #ifdef SHRINKBY if (areatop >= q + SHRINKBY && q->area > areanum) { brk((char *) (q + 1)); q->next = areabot; q->area = BUSY; areatop = q; } #endif } static char *space(int n) { char *cp; cp = getcell(n); if (cp == NULL) err("out of string space"); return cp; } static char *strsave(const char *s, int a) { char *cp; cp = space(strlen(s) + 1); if (cp == NULL) { // FIXME: I highly doubt this is good. return (char*)""; } setarea(cp, a); strcpy(cp, s); return cp; } /* -------- var.c -------- */ static int eqname(const char *n1, const char *n2) { for (; *n1 != '=' && *n1 != '\0'; n1++) if (*n2++ != *n1) return 0; return *n2 == '\0' || *n2 == '='; } static const char *findeq(const char *cp) { while (*cp != '\0' && *cp != '=') cp++; return cp; } /* * Find the given name in the dictionary * and return its value. If the name was * not previously there, enter it now and * return a null value. */ static struct var *lookup(const char *n) { // FIXME: dirty hack static struct var dummy; struct var *vp; const char *cp; char *xp; int c; if (isdigit(*n)) { dummy.name = (char*)n; for (c = 0; isdigit(*n) && c < 1000; n++) c = c * 10 + *n - '0'; dummy.status = RONLY; dummy.value = (c <= dolc ? dolv[c] : null); return &dummy; } for (vp = vlist; vp; vp = vp->next) if (eqname(vp->name, n)) return vp; cp = findeq(n); vp = (struct var *) space(sizeof(*vp)); if (vp == 0 || (vp->name = space((int) (cp - n) + 2)) == 0) { dummy.name = dummy.value = (char*)""; return &dummy; } xp = vp->name; while ((*xp = *n++) != '\0' && *xp != '=') xp++; *xp++ = '='; *xp = '\0'; setarea((char *) vp, 0); setarea((char *) vp->name, 0); vp->value = null; vp->next = vlist; vp->status = GETCELL; vlist = vp; return vp; } /* * if name is not NULL, it must be * a prefix of the space `val', * and end with `='. * this is all so that exporting * values is reasonably painless. */ static void nameval(struct var *vp, const char *val, const char *name) { const char *cp; char *xp; int fl; if (vp->status & RONLY) { xp = vp->name; while (*xp && *xp != '=') putc(*xp++, stderr); err(" is read-only"); return; } fl = 0; if (name == NULL) { xp = space(strlen(vp->name) + strlen(val) + 2); if (xp == NULL) return; /* make string: name=value */ setarea(xp, 0); name = xp; cp = vp->name; while ((*xp = *cp++) != '\0' && *xp != '=') xp++; *xp++ = '='; strcpy(xp, val); val = xp; fl = GETCELL; } if (vp->status & GETCELL) freecell(vp->name); /* form new string `name=value' */ vp->name = (char*)name; vp->value = (char*)val; vp->status |= fl; } /* * give variable at `vp' the value `val'. */ static void setval(struct var *vp, const char *val) { nameval(vp, val, NULL); } static void export(struct var *vp) { vp->status |= EXPORT; } static void ronly(struct var *vp) { if (isalpha(vp->name[0]) || vp->name[0] == '_') /* not an internal symbol */ vp->status |= RONLY; } static int isassign(const char *s) { unsigned char c; DBGPRINTF7(("ISASSIGN: enter, s=%s\n", s)); c = *s; /* no isalpha() - we shouldn't use locale */ /* c | 0x20 - lowercase (Latin) letters */ if (c != '_' && (unsigned)((c|0x20) - 'a') > 25) /* not letter */ return 0; while (1) { c = *++s; if (c == '=') return 1; if (c == '\0') return 0; if (c != '_' && (unsigned)(c - '0') > 9 /* not number */ && (unsigned)((c|0x20) - 'a') > 25 /* not letter */ ) { return 0; } } } static int assign(const char *s, int cf) { const char *cp; struct var *vp; DBGPRINTF7(("ASSIGN: enter, s=%s, cf=%d\n", s, cf)); if (!isalpha(*s) && *s != '_') return 0; for (cp = s; *cp != '='; cp++) if (*cp == '\0' || (!isalnum(*cp) && *cp != '_')) return 0; vp = lookup(s); nameval(vp, ++cp, cf == COPYV ? NULL : s); if (cf != COPYV) vp->status &= ~GETCELL; return 1; } static int checkname(char *cp) { DBGPRINTF7(("CHECKNAME: enter, cp=%s\n", cp)); if (!isalpha(*cp++) && *(cp - 1) != '_') return 0; while (*cp) if (!isalnum(*cp++) && *(cp - 1) != '_') return 0; return 1; } static void putvlist(int f, int out) { struct var *vp; for (vp = vlist; vp; vp = vp->next) { if (vp->status & f && (isalpha(*vp->name) || *vp->name == '_')) { if (vp->status & EXPORT) write(out, "export ", 7); if (vp->status & RONLY) write(out, "readonly ", 9); write(out, vp->name, (int) (findeq(vp->name) - vp->name)); write(out, "\n", 1); } } } /* * trap handling */ static void sig(int i) { trapset = i; signal(i, sig); } static void runtrap(int i) { char *trapstr; trapstr = trap[i]; if (trapstr == NULL) return; if (i == 0) trap[i] = NULL; RUN(aword, trapstr, nlchar); } static void setdash(void) { char *cp; int c; char m['z' - 'a' + 1]; cp = m; for (c = 'a'; c <= 'z'; c++) if (FLAG[c]) *cp++ = c; *cp = '\0'; setval(lookup("-"), m); } static int newfile(char *s) { int f; DBGPRINTF7(("NEWFILE: opening %s\n", s)); f = 0; if (NOT_LONE_DASH(s)) { DBGPRINTF(("NEWFILE: s is %s\n", s)); f = open(s, O_RDONLY); if (f < 0) { prs(s); err(": cannot open"); return 1; } } next(remap(f)); return 0; } struct op *scantree(struct op *head) { struct op *dotnode; if (head == NULL) return NULL; if (head->left != NULL) { dotnode = scantree(head->left); if (dotnode) return dotnode; } if (head->right != NULL) { dotnode = scantree(head->right); if (dotnode) return dotnode; } if (head->words == NULL) return NULL; DBGPRINTF5(("SCANTREE: checking node %p\n", head)); if ((head->type != TDOT) && LONE_CHAR(head->words[0], '.')) { DBGPRINTF5(("SCANTREE: dot found in node %p\n", head)); return head; } return NULL; } static void onecommand(void) { int i; jmp_buf m1; DBGPRINTF(("ONECOMMAND: enter, outtree=%p\n", outtree)); while (e.oenv) quitenv(); areanum = 1; freehere(areanum); freearea(areanum); garbage(); wdlist = 0; iolist = 0; e.errpt = 0; e.linep = line; yynerrs = 0; multiline = 0; inparse = 1; intr = 0; execflg = 0; failpt = m1; setjmp(failpt); /* Bruce Evans' fix */ failpt = m1; if (setjmp(failpt) || yyparse() || intr) { DBGPRINTF(("ONECOMMAND: this is not good.\n")); while (e.oenv) quitenv(); scraphere(); if (!interactive && intr) leave(); inparse = 0; intr = 0; return; } inparse = 0; brklist = 0; intr = 0; execflg = 0; if (!FLAG['n']) { DBGPRINTF(("ONECOMMAND: calling execute, t=outtree=%p\n", outtree)); execute(outtree, NOPIPE, NOPIPE, 0); } if (!interactive && intr) { execflg = 0; leave(); } i = trapset; if (i != 0) { trapset = 0; runtrap(i); } } static int newenv(int f) { struct env *ep; DBGPRINTF(("NEWENV: f=%d (indicates quitenv and return)\n", f)); if (f) { quitenv(); return 1; } ep = (struct env *) space(sizeof(*ep)); if (ep == NULL) { while (e.oenv) quitenv(); fail(); } *ep = e; e.oenv = ep; e.errpt = errpt; return 0; } static void quitenv(void) { struct env *ep; int fd; DBGPRINTF(("QUITENV: e.oenv=%p\n", e.oenv)); ep = e.oenv; if (ep != NULL) { fd = e.iofd; e = *ep; /* should close `'d files */ DELETE(ep); while (--fd >= e.iofd) close(fd); } } /* * Is character c in s? */ static int any(int c, const char *s) { while (*s) if (*s++ == c) return 1; return 0; } /* * Is any character from s1 in s2? */ static int anys(const char *s1, const char *s2) { while (*s1) if (any(*s1++, s2)) return 1; return 0; } static char *putn(int n) { return itoa(n); } static void next(int f) { PUSHIO(afile, f, filechar); } static void onintr(int s) /* ANSI C requires a parameter */ { signal(SIGINT, onintr); intr = 1; if (interactive) { if (inparse) { prs("\n"); fail(); } } else if (heedint) { execflg = 0; leave(); } } /* -------- gmatch.c -------- */ /* * int gmatch(string, pattern) * char *string, *pattern; * * Match a pattern as in sh(1). */ #define CMASK 0377 #define QUOTE 0200 #define QMASK (CMASK & ~QUOTE) #define NOT '!' /* might use ^ */ static const char *cclass(const char *p, int sub) { int c, d, not, found; not = (*p == NOT); if (not != 0) p++; found = not; do { if (*p == '\0') return NULL; c = *p & CMASK; if (p[1] == '-' && p[2] != ']') { d = p[2] & CMASK; p++; } else d = c; if (c == sub || (c <= sub && sub <= d)) found = !not; } while (*++p != ']'); return found ? p + 1 : NULL; } static int gmatch(const char *s, const char *p) { int sc, pc; if (s == NULL || p == NULL) return 0; while ((pc = *p++ & CMASK) != '\0') { sc = *s++ & QMASK; switch (pc) { case '[': p = cclass(p, sc); if (p == NULL) return 0; break; case '?': if (sc == 0) return 0; break; case '*': s--; do { if (*p == '\0' || gmatch(s, p)) return 1; } while (*s++ != '\0'); return 0; default: if (sc != (pc & ~QUOTE)) return 0; } } return *s == '\0'; } /* -------- csyn.c -------- */ /* * shell: syntax (C version) */ static void yyerror(const char *s) ATTRIBUTE_NORETURN; static void yyerror(const char *s) { yynerrs++; if (interactive && e.iop <= iostack) { multiline = 0; while (eofc() == 0 && yylex(0) != '\n'); } err(s); fail(); } static void zzerr(void) ATTRIBUTE_NORETURN; static void zzerr(void) { yyerror("syntax error"); } int yyparse(void) { DBGPRINTF7(("YYPARSE: enter...\n")); startl = 1; peeksym = 0; yynerrs = 0; outtree = c_list(); musthave('\n', 0); return (yynerrs != 0); } static struct op *pipeline(int cf) { struct op *t, *p; int c; DBGPRINTF7(("PIPELINE: enter, cf=%d\n", cf)); t = command(cf); DBGPRINTF9(("PIPELINE: t=%p\n", t)); if (t != NULL) { while ((c = yylex(0)) == '|') { p = command(CONTIN); if (p == NULL) { DBGPRINTF8(("PIPELINE: error!\n")); zzerr(); } if (t->type != TPAREN && t->type != TCOM) { /* shell statement */ t = block(TPAREN, t, NOBLOCK, NOWORDS); } t = block(TPIPE, t, p, NOWORDS); } peeksym = c; } DBGPRINTF7(("PIPELINE: returning t=%p\n", t)); return t; } static struct op *andor(void) { struct op *t, *p; int c; DBGPRINTF7(("ANDOR: enter...\n")); t = pipeline(0); DBGPRINTF9(("ANDOR: t=%p\n", t)); if (t != NULL) { while ((c = yylex(0)) == LOGAND || c == LOGOR) { p = pipeline(CONTIN); if (p == NULL) { DBGPRINTF8(("ANDOR: error!\n")); zzerr(); } t = block(c == LOGAND ? TAND : TOR, t, p, NOWORDS); } /* WHILE */ peeksym = c; } DBGPRINTF7(("ANDOR: returning t=%p\n", t)); return t; } static struct op *c_list(void) { struct op *t, *p; int c; DBGPRINTF7(("C_LIST: enter...\n")); t = andor(); if (t != NULL) { peeksym = yylex(0); if (peeksym == '&') t = block(TASYNC, t, NOBLOCK, NOWORDS); while ((c = yylex(0)) == ';' || c == '&' || (multiline && c == '\n')) { p = andor(); if (p== NULL) return t; peeksym = yylex(0); if (peeksym == '&') p = block(TASYNC, p, NOBLOCK, NOWORDS); t = list(t, p); } /* WHILE */ peeksym = c; } /* IF */ DBGPRINTF7(("C_LIST: returning t=%p\n", t)); return t; } static int synio(int cf) { struct ioword *iop; int i; int c; DBGPRINTF7(("SYNIO: enter, cf=%d\n", cf)); c = yylex(cf); if (c != '<' && c != '>') { peeksym = c; return 0; } i = yylval.i; musthave(WORD, 0); iop = io(iounit, i, yylval.cp); iounit = IODEFAULT; if (i & IOHERE) markhere(yylval.cp, iop); DBGPRINTF7(("SYNIO: returning 1\n")); return 1; } static void musthave(int c, int cf) { peeksym = yylex(cf); if (peeksym != c) { DBGPRINTF7(("MUSTHAVE: error!\n")); zzerr(); } peeksym = 0; } static struct op *simple(void) { struct op *t; t = NULL; for (;;) { switch (peeksym = yylex(0)) { case '<': case '>': (void) synio(0); break; case WORD: if (t == NULL) { t = newtp(); t->type = TCOM; } peeksym = 0; word(yylval.cp); break; default: return t; } } } static struct op *nested(int type, int mark) { struct op *t; DBGPRINTF3(("NESTED: enter, type=%d, mark=%d\n", type, mark)); multiline++; t = c_list(); musthave(mark, 0); multiline--; return block(type, t, NOBLOCK, NOWORDS); } static struct op *command(int cf) { struct op *t; struct wdblock *iosave; int c; DBGPRINTF(("COMMAND: enter, cf=%d\n", cf)); iosave = iolist; iolist = NULL; if (multiline) cf |= CONTIN; while (synio(cf)) cf = 0; c = yylex(cf); switch (c) { default: peeksym = c; t = simple(); if (t == NULL) { if (iolist == NULL) return NULL; t = newtp(); t->type = TCOM; } break; case '(': t = nested(TPAREN, ')'); break; case '{': t = nested(TBRACE, '}'); break; case FOR: t = newtp(); t->type = TFOR; musthave(WORD, 0); startl = 1; t->str = yylval.cp; multiline++; t->words = wordlist(); c = yylex(0); if (c != '\n' && c != ';') peeksym = c; t->left = dogroup(0); multiline--; break; case WHILE: case UNTIL: multiline++; t = newtp(); t->type = c == WHILE ? TWHILE : TUNTIL; t->left = c_list(); t->right = dogroup(1); t->words = NULL; multiline--; break; case CASE: t = newtp(); t->type = TCASE; musthave(WORD, 0); t->str = yylval.cp; startl++; multiline++; musthave(IN, CONTIN); startl++; t->left = caselist(); musthave(ESAC, 0); multiline--; break; case IF: multiline++; t = newtp(); t->type = TIF; t->left = c_list(); t->right = thenpart(); musthave(FI, 0); multiline--; break; case DOT: t = newtp(); t->type = TDOT; musthave(WORD, 0); /* gets name of file */ DBGPRINTF7(("COMMAND: DOT clause, yylval.cp is %s\n", yylval.cp)); word(yylval.cp); /* add word to wdlist */ word(NOWORD); /* terminate wdlist */ t->words = copyw(); /* dup wdlist */ break; } while (synio(0)); t = namelist(t); iolist = iosave; DBGPRINTF(("COMMAND: returning %p\n", t)); return t; } static struct op *dowholefile(int type, int mark) { struct op *t; DBGPRINTF(("DOWHOLEFILE: enter, type=%d, mark=%d\n", type, mark)); multiline++; t = c_list(); multiline--; t = block(type, t, NOBLOCK, NOWORDS); DBGPRINTF(("DOWHOLEFILE: return t=%p\n", t)); return t; } static struct op *dogroup(int onlydone) { int c; struct op *mylist; c = yylex(CONTIN); if (c == DONE && onlydone) return NULL; if (c != DO) zzerr(); mylist = c_list(); musthave(DONE, 0); return mylist; } static struct op *thenpart(void) { int c; struct op *t; c = yylex(0); if (c != THEN) { peeksym = c; return NULL; } t = newtp(); t->type = 0; t->left = c_list(); if (t->left == NULL) zzerr(); t->right = elsepart(); return t; } static struct op *elsepart(void) { int c; struct op *t; switch (c = yylex(0)) { case ELSE: t = c_list(); if (t == NULL) zzerr(); return t; case ELIF: t = newtp(); t->type = TELIF; t->left = c_list(); t->right = thenpart(); return t; default: peeksym = c; return NULL; } } static struct op *caselist(void) { struct op *t; t = NULL; while ((peeksym = yylex(CONTIN)) != ESAC) { DBGPRINTF(("CASELIST, doing yylex, peeksym=%d\n", peeksym)); t = list(t, casepart()); } DBGPRINTF(("CASELIST, returning t=%p\n", t)); return t; } static struct op *casepart(void) { struct op *t; DBGPRINTF7(("CASEPART: enter...\n")); t = newtp(); t->type = TPAT; t->words = pattern(); musthave(')', 0); t->left = c_list(); peeksym = yylex(CONTIN); if (peeksym != ESAC) musthave(BREAK, CONTIN); DBGPRINTF7(("CASEPART: made newtp(TPAT, t=%p)\n", t)); return t; } static char **pattern(void) { int c, cf; cf = CONTIN; do { musthave(WORD, cf); word(yylval.cp); cf = 0; c = yylex(0); } while (c == '|'); peeksym = c; word(NOWORD); return copyw(); } static char **wordlist(void) { int c; c = yylex(0); if (c != IN) { peeksym = c; return NULL; } startl = 0; while ((c = yylex(0)) == WORD) word(yylval.cp); word(NOWORD); peeksym = c; return copyw(); } /* * supporting functions */ static struct op *list(struct op *t1, struct op *t2) { DBGPRINTF7(("LIST: enter, t1=%p, t2=%p\n", t1, t2)); if (t1 == NULL) return t2; if (t2 == NULL) return t1; return block(TLIST, t1, t2, NOWORDS); } static struct op *block(int type, struct op *t1, struct op *t2, char **wp) { struct op *t; DBGPRINTF7(("BLOCK: enter, type=%d (%s)\n", type, T_CMD_NAMES[type])); t = newtp(); t->type = type; t->left = t1; t->right = t2; t->words = wp; DBGPRINTF7(("BLOCK: inserted %p between %p and %p\n", t, t1, t2)); return t; } /* See if given string is a shell multiline (FOR, IF, etc) */ static int rlookup(char *n) { const struct res *rp; DBGPRINTF7(("RLOOKUP: enter, n is %s\n", n)); for (rp = restab; rp->r_name; rp++) if (strcmp(rp->r_name, n) == 0) { DBGPRINTF7(("RLOOKUP: match, returning %d\n", rp->r_val)); return rp->r_val; /* Return numeric code for shell multiline */ } DBGPRINTF7(("RLOOKUP: NO match, returning 0\n")); return 0; /* Not a shell multiline */ } static struct op *newtp(void) { struct op *t; t = (struct op *) tree(sizeof(*t)); t->type = 0; t->words = NULL; t->ioact = NULL; t->left = NULL; t->right = NULL; t->str = NULL; DBGPRINTF3(("NEWTP: allocated %p\n", t)); return t; } static struct op *namelist(struct op *t) { DBGPRINTF7(("NAMELIST: enter, t=%p, type %s, iolist=%p\n", t, T_CMD_NAMES[t->type], iolist)); if (iolist) { iolist = addword((char *) NULL, iolist); t->ioact = copyio(); } else t->ioact = NULL; if (t->type != TCOM) { if (t->type != TPAREN && t->ioact != NULL) { t = block(TPAREN, t, NOBLOCK, NOWORDS); t->ioact = t->left->ioact; t->left->ioact = NULL; } return t; } word(NOWORD); t->words = copyw(); return t; } static char **copyw(void) { char **wd; wd = getwords(wdlist); wdlist = 0; return wd; } static void word(char *cp) { wdlist = addword(cp, wdlist); } static struct ioword **copyio(void) { struct ioword **iop; iop = (struct ioword **) getwords(iolist); iolist = 0; return iop; } static struct ioword *io(int u, int f, char *cp) { struct ioword *iop; iop = (struct ioword *) tree(sizeof(*iop)); iop->io_unit = u; iop->io_flag = f; iop->io_name = cp; iolist = addword((char *) iop, iolist); return iop; } static int yylex(int cf) { int c, c1; int atstart; c = peeksym; if (c > 0) { peeksym = 0; if (c == '\n') startl = 1; return c; } nlseen = 0; atstart = startl; startl = 0; yylval.i = 0; e.linep = line; /* MALAMO */ line[LINELIM - 1] = '\0'; loop: while ((c = my_getc(0)) == ' ' || c == '\t') /* Skip whitespace */ ; switch (c) { default: if (any(c, "0123456789")) { c1 = my_getc(0); unget(c1); if (c1 == '<' || c1 == '>') { iounit = c - '0'; goto loop; } *e.linep++ = c; c = c1; } break; case '#': /* Comment, skip to next newline or End-of-string */ while ((c = my_getc(0)) != '\0' && c != '\n'); unget(c); goto loop; case 0: DBGPRINTF5(("YYLEX: return 0, c=%d\n", c)); return c; case '$': DBGPRINTF9(("YYLEX: found $\n")); *e.linep++ = c; c = my_getc(0); if (c == '{') { c = collect(c, '}'); if (c != '\0') return c; goto pack; } break; case '`': case '\'': case '"': c = collect(c, c); if (c != '\0') return c; goto pack; case '|': case '&': case ';': startl = 1; /* If more chars process them, else return NULL char */ c1 = dual(c); if (c1 != '\0') return c1; return c; case '^': startl = 1; return '|'; case '>': case '<': diag(c); return c; case '\n': nlseen++; gethere(); startl = 1; if (multiline || cf & CONTIN) { if (interactive && e.iop <= iostack) { #if ENABLE_FEATURE_EDITING current_prompt = cprompt->value; #else prs(cprompt->value); #endif } if (cf & CONTIN) goto loop; } return c; case '(': case ')': startl = 1; return c; } unget(c); pack: while ((c = my_getc(0)) != '\0' && !any(c, "`$ '\"\t;&<>()|^\n")) { if (e.linep >= elinep) err("word too long"); else *e.linep++ = c; }; unget(c); if (any(c, "\"'`$")) goto loop; *e.linep++ = '\0'; if (atstart) { c = rlookup(line); if (c != 0) { startl = 1; return c; } } yylval.cp = strsave(line, areanum); return WORD; } static int collect(int c, int c1) { char s[2]; DBGPRINTF8(("COLLECT: enter, c=%d, c1=%d\n", c, c1)); *e.linep++ = c; while ((c = my_getc(c1)) != c1) { if (c == 0) { unget(c); s[0] = c1; s[1] = 0; prs("no closing "); yyerror(s); return YYERRCODE; } if (interactive && c == '\n' && e.iop <= iostack) { #if ENABLE_FEATURE_EDITING current_prompt = cprompt->value; #else prs(cprompt->value); #endif } *e.linep++ = c; } *e.linep++ = c; DBGPRINTF8(("COLLECT: return 0, line is %s\n", line)); return 0; } /* "multiline commands" helper func */ /* see if next 2 chars form a shell multiline */ static int dual(int c) { char s[3]; char *cp = s; DBGPRINTF8(("DUAL: enter, c=%d\n", c)); *cp++ = c; /* c is the given "peek" char */ *cp++ = my_getc(0); /* get next char of input */ *cp = '\0'; /* add EOS marker */ c = rlookup(s); /* see if 2 chars form a shell multiline */ if (c == 0) unget(*--cp); /* String is not a shell multiline, put peek char back */ return c; /* String is multiline, return numeric multiline (restab) code */ } static void diag(int ec) { int c; DBGPRINTF8(("DIAG: enter, ec=%d\n", ec)); c = my_getc(0); if (c == '>' || c == '<') { if (c != ec) zzerr(); yylval.i = (ec == '>' ? IOWRITE | IOCAT : IOHERE); c = my_getc(0); } else yylval.i = (ec == '>' ? IOWRITE : IOREAD); if (c != '&' || yylval.i == IOHERE) unget(c); else yylval.i |= IODUP; } static char *tree(unsigned size) { char *t; t = getcell(size); if (t == NULL) { DBGPRINTF2(("TREE: getcell(%d) failed!\n", size)); prs("command line too complicated\n"); fail(); /* NOTREACHED */ } return t; } /* VARARGS1 */ /* ARGSUSED */ /* -------- exec.c -------- */ static struct op **find1case(struct op *t, const char *w) { struct op *t1; struct op **tp; char **wp; char *cp; if (t == NULL) { DBGPRINTF3(("FIND1CASE: enter, t==NULL, returning.\n")); return NULL; } DBGPRINTF3(("FIND1CASE: enter, t->type=%d (%s)\n", t->type, T_CMD_NAMES[t->type])); if (t->type == TLIST) { tp = find1case(t->left, w); if (tp != NULL) { DBGPRINTF3(("FIND1CASE: found one to the left, returning tp=%p\n", tp)); return tp; } t1 = t->right; /* TPAT */ } else t1 = t; for (wp = t1->words; *wp;) { cp = evalstr(*wp++, DOSUB); if (cp && gmatch(w, cp)) { DBGPRINTF3(("FIND1CASE: returning &t1->left= %p.\n", &t1->left)); return &t1->left; } } DBGPRINTF(("FIND1CASE: returning NULL\n")); return NULL; } static struct op *findcase(struct op *t, const char *w) { struct op **tp; tp = find1case(t, w); return tp != NULL ? *tp : NULL; } /* * execute tree */ static int execute(struct op *t, int *pin, int *pout, int act) { struct op *t1; volatile int i, rv, a; const char *cp; char **wp, **wp2; struct var *vp; struct op *outtree_save; struct brkcon bc; #if __GNUC__ /* Avoid longjmp clobbering */ (void) ℘ #endif if (t == NULL) { DBGPRINTF4(("EXECUTE: enter, t==null, returning.\n")); return 0; } DBGPRINTF(("EXECUTE: t=%p, t->type=%d (%s), t->words is %s\n", t, t->type, T_CMD_NAMES[t->type], ((t->words == NULL) ? "NULL" : t->words[0]))); rv = 0; a = areanum++; wp = (wp2 = t->words) != NULL ? eval(wp2, t->type == TCOM ? DOALL : DOALL & ~DOKEY) : NULL; switch (t->type) { case TDOT: DBGPRINTF3(("EXECUTE: TDOT\n")); outtree_save = outtree; newfile(evalstr(t->words[0], DOALL)); t->left = dowholefile(TLIST, 0); t->right = NULL; outtree = outtree_save; if (t->left) rv = execute(t->left, pin, pout, 0); if (t->right) rv = execute(t->right, pin, pout, 0); break; case TPAREN: rv = execute(t->left, pin, pout, 0); break; case TCOM: rv = forkexec(t, pin, pout, act, wp); break; case TPIPE: { int pv[2]; rv = openpipe(pv); if (rv < 0) break; pv[0] = remap(pv[0]); pv[1] = remap(pv[1]); (void) execute(t->left, pin, pv, 0); rv = execute(t->right, pv, pout, 0); } break; case TLIST: (void) execute(t->left, pin, pout, 0); rv = execute(t->right, pin, pout, 0); break; case TASYNC: { int hinteractive = interactive; DBGPRINTF7(("EXECUTE: TASYNC clause, calling vfork()...\n")); i = vfork(); if (i == 0) { /* child */ signal(SIGINT, SIG_IGN); signal(SIGQUIT, SIG_IGN); if (interactive) signal(SIGTERM, SIG_DFL); interactive = 0; if (pin == NULL) { close(0); xopen(bb_dev_null, O_RDONLY); } _exit(execute(t->left, pin, pout, FEXEC)); } interactive = hinteractive; if (i != -1) { setval(lookup("!"), putn(i)); if (pin != NULL) closepipe(pin); if (interactive) { prs(putn(i)); prs("\n"); } } else rv = -1; setstatus(rv); } break; case TOR: case TAND: rv = execute(t->left, pin, pout, 0); t1 = t->right; if (t1 != NULL && (rv == 0) == (t->type == TAND)) rv = execute(t1, pin, pout, 0); break; case TFOR: if (wp == NULL) { wp = dolv + 1; i = dolc; if (i < 0) i = 0; } else { i = -1; while (*wp++ != NULL); } vp = lookup(t->str); while (setjmp(bc.brkpt)) if (isbreak) goto broken; brkset(&bc); for (t1 = t->left; i-- && *wp != NULL;) { setval(vp, *wp++); rv = execute(t1, pin, pout, 0); } brklist = brklist->nextlev; break; case TWHILE: case TUNTIL: while (setjmp(bc.brkpt)) if (isbreak) goto broken; brkset(&bc); t1 = t->left; while ((execute(t1, pin, pout, 0) == 0) == (t->type == TWHILE)) rv = execute(t->right, pin, pout, 0); brklist = brklist->nextlev; break; case TIF: case TELIF: if (t->right != NULL) { rv = !execute(t->left, pin, pout, 0) ? execute(t->right->left, pin, pout, 0) : execute(t->right->right, pin, pout, 0); } break; case TCASE: cp = evalstr(t->str, DOSUB | DOTRIM); if (cp == NULL) cp = ""; DBGPRINTF7(("EXECUTE: TCASE, t->str is %s, cp is %s\n", ((t->str == NULL) ? "NULL" : t->str), ((cp == NULL) ? "NULL" : cp))); t1 = findcase(t->left, cp); if (t1 != NULL) { DBGPRINTF7(("EXECUTE: TCASE, calling execute(t=%p, t1=%p)...\n", t, t1)); rv = execute(t1, pin, pout, 0); DBGPRINTF7(("EXECUTE: TCASE, back from execute(t=%p, t1=%p)...\n", t, t1)); } break; case TBRACE: /* iopp = t->ioact; if (i) while (*iopp) if (iosetup(*iopp++, pin!=NULL, pout!=NULL)) { rv = -1; break; } */ if (rv >= 0) { t1 = t->left; if (t1) { rv = execute(t1, pin, pout, 0); } } break; }; broken: t->words = wp2; isbreak = 0; freehere(areanum); freearea(areanum); areanum = a; if (interactive && intr) { closeall(); fail(); } i = trapset; if (i != 0) { trapset = 0; runtrap(i); } DBGPRINTF(("EXECUTE: returning from t=%p, rv=%d\n", t, rv)); return rv; } typedef int (*builtin_func_ptr)(struct op *); static builtin_func_ptr inbuilt(const char *s) { const struct builtincmd *bp; for (bp = builtincmds; bp->name; bp++) if (strcmp(bp->name, s) == 0) return bp->builtinfunc; return NULL; } static int forkexec(struct op *t, int *pin, int *pout, int act, char **wp) { pid_t newpid; int i, rv; builtin_func_ptr shcom = NULL; int f; const char *cp = NULL; struct ioword **iopp; int resetsig; char **owp; int forked = 0; int *hpin = pin; int *hpout = pout; char *hwp; int hinteractive; int hintr; struct brkcon *hbrklist; int hexecflg; #if __GNUC__ /* Avoid longjmp clobbering */ (void) &pin; (void) &pout; (void) ℘ (void) &shcom; (void) &cp; (void) &resetsig; (void) &owp; #endif DBGPRINTF(("FORKEXEC: t=%p, pin %p, pout %p, act %d\n", t, pin, pout, act)); DBGPRINTF7(("FORKEXEC: t->words is %s\n", ((t->words == NULL) ? "NULL" : t->words[0]))); owp = wp; resetsig = 0; rv = -1; /* system-detected error */ if (t->type == TCOM) { while (*wp++ != NULL) continue; cp = *wp; /* strip all initial assignments */ /* not correct wrt PATH=yyy command etc */ if (FLAG['x']) { DBGPRINTF9(("FORKEXEC: echo'ing, cp=%p, wp=%p, owp=%p\n", cp, wp, owp)); echo(cp ? wp : owp); } if (cp == NULL && t->ioact == NULL) { while ((cp = *owp++) != NULL && assign(cp, COPYV)) continue; DBGPRINTF(("FORKEXEC: returning setstatus()\n")); return setstatus(0); } if (cp != NULL) { shcom = inbuilt(cp); } } t->words = wp; f = act; DBGPRINTF(("FORKEXEC: shcom %p, f&FEXEC 0x%x, owp %p\n", shcom, f & FEXEC, owp)); if (shcom == NULL && (f & FEXEC) == 0) { /* Save values in case the child process alters them */ hpin = pin; hpout = pout; hwp = *wp; hinteractive = interactive; hintr = intr; hbrklist = brklist; hexecflg = execflg; DBGPRINTF3(("FORKEXEC: calling vfork()...\n")); newpid = vfork(); if (newpid == -1) { DBGPRINTF(("FORKEXEC: ERROR, cannot vfork()!\n")); return -1; } if (newpid > 0) { /* Parent */ /* Restore values */ pin = hpin; pout = hpout; *wp = hwp; interactive = hinteractive; intr = hintr; brklist = hbrklist; execflg = hexecflg; /* moved up if (i == -1) return rv; */ if (pin != NULL) closepipe(pin); return (pout == NULL ? setstatus(waitfor(newpid, 0)) : 0); } /* Must be the child process, pid should be 0 */ DBGPRINTF(("FORKEXEC: child process, shcom=%p\n", shcom)); if (interactive) { signal(SIGINT, SIG_IGN); signal(SIGQUIT, SIG_IGN); resetsig = 1; } interactive = 0; intr = 0; forked = 1; brklist = 0; execflg = 0; } if (owp != NULL) while ((cp = *owp++) != NULL && assign(cp, COPYV)) if (shcom == NULL) export(lookup(cp)); #ifdef COMPIPE if ((pin != NULL || pout != NULL) && shcom != NULL && shcom != doexec) { err("piping to/from shell builtins not yet done"); if (forked) _exit(-1); return -1; } #endif if (pin != NULL) { xmove_fd(pin[0], 0); if (pin[1] != 0) close(pin[1]); } if (pout != NULL) { xmove_fd(pout[1], 1); if (pout[1] != 1) close(pout[0]); } iopp = t->ioact; if (iopp != NULL) { if (shcom != NULL && shcom != doexec) { prs(cp); err(": cannot redirect shell command"); if (forked) _exit(-1); return -1; } while (*iopp) if (iosetup(*iopp++, pin != NULL, pout != NULL)) { if (forked) _exit(rv); return rv; } } if (shcom) { i = setstatus((*shcom) (t)); if (forked) _exit(i); DBGPRINTF(("FORKEXEC: returning i=%d\n", i)); return i; } /* should use FIOCEXCL */ for (i = FDBASE; i < NOFILE; i++) close(i); if (resetsig) { signal(SIGINT, SIG_DFL); signal(SIGQUIT, SIG_DFL); } if (t->type == TPAREN) _exit(execute(t->left, NOPIPE, NOPIPE, FEXEC)); if (wp[0] == NULL) _exit(0); cp = rexecve(wp[0], wp, makenv(0, NULL)); prs(wp[0]); prs(": "); err(cp); if (!execflg) trap[0] = NULL; DBGPRINTF(("FORKEXEC: calling leave(), pid=%d\n", newpid)); leave(); /* NOTREACHED */ _exit(1); } /* * 0< 1> are ignored as required * within pipelines. */ static int iosetup(struct ioword *iop, int pipein, int pipeout) { int u = -1; char *cp = NULL; const char *msg; DBGPRINTF(("IOSETUP: iop %p, pipein %i, pipeout %i\n", iop, pipein, pipeout)); if (iop->io_unit == IODEFAULT) /* take default */ iop->io_unit = iop->io_flag & (IOREAD | IOHERE) ? 0 : 1; if (pipein && iop->io_unit == 0) return 0; if (pipeout && iop->io_unit == 1) return 0; msg = iop->io_flag & (IOREAD | IOHERE) ? "open" : "create"; if ((iop->io_flag & IOHERE) == 0) { cp = iop->io_name; /* huh?? */ cp = evalstr(cp, DOSUB | DOTRIM); if (cp == NULL) return 1; } if (iop->io_flag & IODUP) { if (cp[1] || (!isdigit(*cp) && *cp != '-')) { prs(cp); err(": illegal >& argument"); return 1; } if (*cp == '-') iop->io_flag = IOCLOSE; iop->io_flag &= ~(IOREAD | IOWRITE); } switch (iop->io_flag) { case IOREAD: u = open(cp, O_RDONLY); break; case IOHERE: case IOHERE | IOXHERE: u = herein(iop->io_name, iop->io_flag & IOXHERE); cp = (char*)"here file"; break; case IOWRITE | IOCAT: u = open(cp, O_WRONLY); if (u >= 0) { lseek(u, (long) 0, SEEK_END); break; } case IOWRITE: u = creat(cp, 0666); break; case IODUP: u = dup2(*cp - '0', iop->io_unit); break; case IOCLOSE: close(iop->io_unit); return 0; } if (u < 0) { prs(cp); prs(": cannot "); warn(msg); return 1; } if (u != iop->io_unit) { dup2(u, iop->io_unit); close(u); } return 0; } /* * Enter a new loop level (marked for break/continue). */ static void brkset(struct brkcon *bc) { bc->nextlev = brklist; brklist = bc; } /* * Wait for the last process created. * Print a message for each process found * that was killed by a signal. * Ignore interrupt signals while waiting * unless `canintr' is true. */ static int waitfor(int lastpid, int canintr) { int pid, rv; int s; int oheedint = heedint; heedint = 0; rv = 0; do { pid = wait(&s); if (pid == -1) { if (errno != EINTR || canintr) break; } else { rv = WAITSIG(s); if (rv != 0) { if (rv < ARRAY_SIZE(signame)) { if (signame[rv] != NULL) { if (pid != lastpid) { prn(pid); prs(": "); } prs(signame[rv]); } } else { if (pid != lastpid) { prn(pid); prs(": "); } prs("Signal "); prn(rv); prs(" "); } if (WAITCORE(s)) prs(" - core dumped"); if (rv >= ARRAY_SIZE(signame) || signame[rv]) prs("\n"); rv = -1; } else rv = WAITVAL(s); } } while (pid != lastpid); heedint = oheedint; if (intr) { if (interactive) { if (canintr) intr = 0; } else { if (exstat == 0) exstat = rv; onintr(0); } } return rv; } static int setstatus(int s) { exstat = s; setval(lookup("?"), putn(s)); return s; } /* * PATH-searching interface to execve. * If getenv("PATH") were kept up-to-date, * execvp might be used. */ static const char *rexecve(char *c, char **v, char **envp) { int i; const char *sp; char *tp; int eacces = 0, asis = 0; char *name = c; if (ENABLE_FEATURE_SH_STANDALONE) { if (find_applet_by_name(name)) { /* We have to exec here since we vforked. Running * run_applet_and_exit() won't work and bad things * will happen. */ execve(bb_busybox_exec_path, v, envp); } } DBGPRINTF(("REXECVE: c=%p, v=%p, envp=%p\n", c, v, envp)); sp = any('/', c) ? "" : path->value; asis = (*sp == '\0'); while (asis || *sp != '\0') { asis = 0; tp = e.linep; for (; *sp != '\0'; tp++) { *tp = *sp++; if (*tp == ':') { asis = (*sp == '\0'); break; } } if (tp != e.linep) *tp++ = '/'; for (i = 0; (*tp++ = c[i++]) != '\0';); DBGPRINTF3(("REXECVE: e.linep is %s\n", e.linep)); execve(e.linep, v, envp); switch (errno) { case ENOEXEC: *v = e.linep; tp = *--v; *v = e.linep; execve(DEFAULT_SHELL, v, envp); *v = tp; return "no Shell"; case ENOMEM: return (char *) bb_msg_memory_exhausted; case E2BIG: return "argument list too long"; case EACCES: eacces++; break; } } return errno == ENOENT ? "not found" : "cannot execute"; } /* * Run the command produced by generator `f' * applied to stream `arg'. */ static int run(struct ioarg *argp, int (*f) (struct ioarg *)) { struct op *otree; struct wdblock *swdlist; struct wdblock *siolist; jmp_buf ev, rt; xint *ofail; int rv; #if __GNUC__ /* Avoid longjmp clobbering */ (void) &rv; #endif DBGPRINTF(("RUN: enter, areanum %d, outtree %p, failpt %p\n", areanum, outtree, failpt)); areanum++; swdlist = wdlist; siolist = iolist; otree = outtree; ofail = failpt; rv = -1; errpt = ev; if (newenv(setjmp(errpt)) == 0) { wdlist = 0; iolist = 0; pushio(argp, f); e.iobase = e.iop; yynerrs = 0; failpt = rt; if (setjmp(failpt) == 0 && yyparse() == 0) rv = execute(outtree, NOPIPE, NOPIPE, 0); quitenv(); } else { DBGPRINTF(("RUN: error from newenv()!\n")); } wdlist = swdlist; iolist = siolist; failpt = ofail; outtree = otree; freearea(areanum--); return rv; } /* -------- do.c -------- */ /* * built-in commands: doX */ static int dohelp(struct op *t) { int col; const struct builtincmd *x; puts("\nBuilt-in commands:\n" "-------------------"); col = 0; x = builtincmds; while (x->name) { col += printf("%c%s", ((col == 0) ? '\t' : ' '), x->name); if (col > 60) { puts(""); col = 0; } x++; } #if ENABLE_FEATURE_SH_STANDALONE { const struct bb_applet *applet = applets; while (applet->name) { col += printf("%c%s", ((col == 0) ? '\t' : ' '), applet->name); if (col > 60) { puts(""); col = 0; } applet++; } } #endif puts("\n"); return EXIT_SUCCESS; } static int dolabel(struct op *t) { return 0; } static int dochdir(struct op *t) { const char *cp, *er; cp = t->words[1]; if (cp == NULL) { cp = homedir->value; if (cp != NULL) goto do_cd; er = ": no home directory"; } else { do_cd: if (chdir(cp) >= 0) return 0; er = ": bad directory"; } prs(cp != NULL ? cp : "cd"); err(er); return 1; } static int doshift(struct op *t) { int n; n = t->words[1] ? getn(t->words[1]) : 1; if (dolc < n) { err("nothing to shift"); return 1; } dolv[n] = dolv[0]; dolv += n; dolc -= n; setval(lookup("#"), putn(dolc)); return 0; } /* * execute login and newgrp directly */ static int dologin(struct op *t) { const char *cp; if (interactive) { signal(SIGINT, SIG_DFL); signal(SIGQUIT, SIG_DFL); } cp = rexecve(t->words[0], t->words, makenv(0, NULL)); prs(t->words[0]); prs(": "); err(cp); return 1; } static int doumask(struct op *t) { int i, n; char *cp; cp = t->words[1]; if (cp == NULL) { i = umask(0); umask(i); for (n = 3 * 4; (n -= 3) >= 0;) putc('0' + ((i >> n) & 07), stderr); putc('\n', stderr); } else { /* huh??? '8','9' are not allowed! */ for (n = 0; *cp >= '0' && *cp <= '9'; cp++) n = n * 8 + (*cp - '0'); umask(n); } return 0; } static int doexec(struct op *t) { int i; jmp_buf ex; xint *ofail; t->ioact = NULL; for (i = 0; (t->words[i] = t->words[i + 1]) != NULL; i++); if (i == 0) return 1; execflg = 1; ofail = failpt; failpt = ex; if (setjmp(failpt) == 0) execute(t, NOPIPE, NOPIPE, FEXEC); failpt = ofail; execflg = 0; return 1; } static int dodot(struct op *t) { int i; const char *sp; char *tp; char *cp; int maltmp; DBGPRINTF(("DODOT: enter, t=%p, tleft %p, tright %p, e.linep is %s\n", t, t->left, t->right, ((e.linep == NULL) ? "NULL" : e.linep))); cp = t->words[1]; if (cp == NULL) { DBGPRINTF(("DODOT: bad args, ret 0\n")); return 0; } DBGPRINTF(("DODOT: cp is %s\n", cp)); sp = any('/', cp) ? ":" : path->value; DBGPRINTF(("DODOT: sp is %s, e.linep is %s\n", ((sp == NULL) ? "NULL" : sp), ((e.linep == NULL) ? "NULL" : e.linep))); while (*sp) { tp = e.linep; while (*sp && (*tp = *sp++) != ':') tp++; if (tp != e.linep) *tp++ = '/'; for (i = 0; (*tp++ = cp[i++]) != '\0';); /* Original code */ i = open(e.linep, O_RDONLY); if (i >= 0) { exstat = 0; maltmp = remap(i); DBGPRINTF(("DODOT: remap=%d, exstat=%d, e.iofd %d, i %d, e.linep is %s\n", maltmp, exstat, e.iofd, i, e.linep)); next(maltmp); /* Basically a PUSHIO */ DBGPRINTF(("DODOT: returning exstat=%d\n", exstat)); return exstat; } } /* while */ prs(cp); err(": not found"); return -1; } static int dowait(struct op *t) { int i; char *cp; cp = t->words[1]; if (cp != NULL) { i = getn(cp); if (i == 0) return 0; } else i = -1; setstatus(waitfor(i, 1)); return 0; } static int doread(struct op *t) { char *cp, **wp; int nb = 0; int nl = 0; if (t->words[1] == NULL) { err("Usage: read name ..."); return 1; } for (wp = t->words + 1; *wp; wp++) { for (cp = e.linep; !nl && cp < elinep - 1; cp++) { nb = read(0, cp, sizeof(*cp)); if (nb != sizeof(*cp)) break; nl = (*cp == '\n'); if (nl || (wp[1] && any(*cp, ifs->value))) break; } *cp = '\0'; if (nb <= 0) break; setval(lookup(*wp), e.linep); } return nb <= 0; } static int doeval(struct op *t) { return RUN(awordlist, t->words + 1, wdchar); } static int dotrap(struct op *t) { int n, i; int resetsig; if (t->words[1] == NULL) { for (i = 0; i <= _NSIG; i++) if (trap[i]) { prn(i); prs(": "); prs(trap[i]); prs("\n"); } return 0; } resetsig = isdigit(*t->words[1]); for (i = resetsig ? 1 : 2; t->words[i] != NULL; ++i) { n = getsig(t->words[i]); freecell(trap[n]); trap[n] = 0; if (!resetsig) { if (*t->words[1] != '\0') { trap[n] = strsave(t->words[1], 0); setsig(n, sig); } else setsig(n, SIG_IGN); } else { if (interactive) { if (n == SIGINT) setsig(n, onintr); else setsig(n, n == SIGQUIT ? SIG_IGN : SIG_DFL); } else setsig(n, SIG_DFL); } } return 0; } static int getsig(char *s) { int n; n = getn(s); if (n < 0 || n > _NSIG) { err("trap: bad signal number"); n = 0; } return n; } static void setsig(int n, sighandler_t f) { if (n == 0) return; if (signal(n, SIG_IGN) != SIG_IGN || ourtrap[n]) { ourtrap[n] = 1; signal(n, f); } } static int getn(char *as) { char *s; int n, m; s = as; m = 1; if (*s == '-') { m = -1; s++; } for (n = 0; isdigit(*s); s++) n = (n * 10) + (*s - '0'); if (*s) { prs(as); err(": bad number"); } return n * m; } static int dobreak(struct op *t) { return brkcontin(t->words[1], 1); } static int docontinue(struct op *t) { return brkcontin(t->words[1], 0); } static int brkcontin(char *cp, int val) { struct brkcon *bc; int nl; nl = cp == NULL ? 1 : getn(cp); if (nl <= 0) nl = 999; do { bc = brklist; if (bc == NULL) break; brklist = bc->nextlev; } while (--nl); if (nl) { err("bad break/continue level"); return 1; } isbreak = val; longjmp(bc->brkpt, 1); /* NOTREACHED */ } static int doexit(struct op *t) { char *cp; execflg = 0; cp = t->words[1]; if (cp != NULL) setstatus(getn(cp)); DBGPRINTF(("DOEXIT: calling leave(), t=%p\n", t)); leave(); /* NOTREACHED */ return 0; } static int doexport(struct op *t) { rdexp(t->words + 1, export, EXPORT); return 0; } static int doreadonly(struct op *t) { rdexp(t->words + 1, ronly, RONLY); return 0; } static void rdexp(char **wp, void (*f) (struct var *), int key) { DBGPRINTF6(("RDEXP: enter, wp=%p, func=%p, key=%d\n", wp, f, key)); DBGPRINTF6(("RDEXP: *wp=%s\n", *wp)); if (*wp != NULL) { for (; *wp != NULL; wp++) { if (isassign(*wp)) { char *cp; assign(*wp, COPYV); for (cp = *wp; *cp != '='; cp++); *cp = '\0'; } if (checkname(*wp)) (*f) (lookup(*wp)); else badid(*wp); } } else putvlist(key, 1); } static void badid(char *s) { prs(s); err(": bad identifier"); } static int doset(struct op *t) { struct var *vp; char *cp; int n; cp = t->words[1]; if (cp == NULL) { for (vp = vlist; vp; vp = vp->next) varput(vp->name, 1); return 0; } if (*cp == '-') { /* bad: t->words++; */ for (n = 0; (t->words[n] = t->words[n + 1]) != NULL; n++); if (*++cp == 0) FLAG['x'] = FLAG['v'] = 0; else { for (; *cp; cp++) { switch (*cp) { case 'e': if (!interactive) FLAG['e']++; break; default: if (*cp >= 'a' && *cp <= 'z') FLAG[(int) *cp]++; break; } } } setdash(); } if (t->words[1]) { t->words[0] = dolv[0]; for (n = 1; t->words[n]; n++) setarea((char *) t->words[n], 0); dolc = n - 1; dolv = t->words; setval(lookup("#"), putn(dolc)); setarea((char *) (dolv - 1), 0); } return 0; } static void varput(char *s, int out) { if (isalnum(*s) || *s == '_') { write(out, s, strlen(s)); write(out, "\n", 1); } } /* * Copyright (c) 1999 Herbert Xu * This file contains code for the times builtin. */ static int dotimes(struct op *t) { struct tms buf; long clk_tck = sysconf(_SC_CLK_TCK); times(&buf); printf("%dm%fs %dm%fs\n%dm%fs %dm%fs\n", (int) (buf.tms_utime / clk_tck / 60), ((double) buf.tms_utime) / clk_tck, (int) (buf.tms_stime / clk_tck / 60), ((double) buf.tms_stime) / clk_tck, (int) (buf.tms_cutime / clk_tck / 60), ((double) buf.tms_cutime) / clk_tck, (int) (buf.tms_cstime / clk_tck / 60), ((double) buf.tms_cstime) / clk_tck); return 0; } /* -------- eval.c -------- */ /* * ${} * `command` * blank interpretation * quoting * glob */ static char **eval(char **ap, int f) { struct wdblock *wb; char **wp; char **wf; jmp_buf ev; #if __GNUC__ /* Avoid longjmp clobbering */ (void) ℘ (void) ≈ #endif DBGPRINTF4(("EVAL: enter, f=%d\n", f)); wp = NULL; wb = NULL; wf = NULL; errpt = ev; if (newenv(setjmp(errpt)) == 0) { while (*ap && isassign(*ap)) expand(*ap++, &wb, f & ~DOGLOB); if (FLAG['k']) { for (wf = ap; *wf; wf++) { if (isassign(*wf)) expand(*wf, &wb, f & ~DOGLOB); } } for (wb = addword((char *) 0, wb); *ap; ap++) { if (!FLAG['k'] || !isassign(*ap)) expand(*ap, &wb, f & ~DOKEY); } wb = addword((char *) 0, wb); wp = getwords(wb); quitenv(); } else gflg = 1; return gflg ? (char **) NULL : wp; } /* * Make the exported environment from the exported * names in the dictionary. Keyword assignments * will already have been done. */ static char **makenv(int all, struct wdblock *wb) { struct var *vp; DBGPRINTF5(("MAKENV: enter, all=%d\n", all)); for (vp = vlist; vp; vp = vp->next) if (all || vp->status & EXPORT) wb = addword(vp->name, wb); wb = addword((char *) 0, wb); return getwords(wb); } static int expand(const char *cp, struct wdblock **wbp, int f) { jmp_buf ev; char *xp; #if __GNUC__ /* Avoid longjmp clobbering */ (void) &cp; #endif DBGPRINTF3(("EXPAND: enter, f=%d\n", f)); gflg = 0; if (cp == NULL) return 0; if (!anys("$`'\"", cp) && !anys(ifs->value, cp) && ((f & DOGLOB) == 0 || !anys("[*?", cp)) ) { xp = strsave(cp, areanum); if (f & DOTRIM) unquote(xp); *wbp = addword(xp, *wbp); return 1; } errpt = ev; if (newenv(setjmp(errpt)) == 0) { PUSHIO(aword, cp, strchar); e.iobase = e.iop; while ((xp = blank(f)) && gflg == 0) { e.linep = xp; xp = strsave(xp, areanum); if ((f & DOGLOB) == 0) { if (f & DOTRIM) unquote(xp); *wbp = addword(xp, *wbp); } else *wbp = glob(xp, *wbp); } quitenv(); } else gflg = 1; return gflg == 0; } static char *evalstr(char *cp, int f) { struct wdblock *wb; DBGPRINTF6(("EVALSTR: enter, cp=%p, f=%d\n", cp, f)); wb = NULL; if (expand(cp, &wb, f)) { if (wb == NULL || wb->w_nword == 0 || (cp = wb->w_words[0]) == NULL ) { // TODO: I suspect that // char *evalstr(char *cp, int f) is actually // const char *evalstr(const char *cp, int f)! cp = (char*)""; } DELETE(wb); } else cp = NULL; return cp; } /* * Blank interpretation and quoting */ static char *blank(int f) { int c, c1; char *sp; int scanequals, foundequals; DBGPRINTF3(("BLANK: enter, f=%d\n", f)); sp = e.linep; scanequals = f & DOKEY; foundequals = 0; loop: c = subgetc('"', foundequals); switch (c) { case 0: if (sp == e.linep) return 0; *e.linep++ = 0; return sp; default: if (f & DOBLANK && any(c, ifs->value)) goto loop; break; case '"': case '\'': scanequals = 0; if (INSUB()) break; for (c1 = c; (c = subgetc(c1, 1)) != c1;) { if (c == 0) break; if (c == '\'' || !any(c, "$`\"")) c |= QUOTE; *e.linep++ = c; } c = 0; } unget(c); if (!isalpha(c) && c != '_') scanequals = 0; for (;;) { c = subgetc('"', foundequals); if (c == 0 || f & (DOBLANK && any(c, ifs->value)) || (!INSUB() && any(c, "\"'"))) { scanequals = 0; unget(c); if (any(c, "\"'")) goto loop; break; } if (scanequals) { if (c == '=') { foundequals = 1; scanequals = 0; } else if (!isalnum(c) && c != '_') scanequals = 0; } *e.linep++ = c; } *e.linep++ = 0; return sp; } /* * Get characters, substituting for ` and $ */ static int subgetc(char ec, int quoted) { char c; DBGPRINTF3(("SUBGETC: enter, quoted=%d\n", quoted)); again: c = my_getc(ec); if (!INSUB() && ec != '\'') { if (c == '`') { if (grave(quoted) == 0) return 0; e.iop->task = XGRAVE; goto again; } if (c == '$') { c = dollar(quoted); if (c == 0) { e.iop->task = XDOLL; goto again; } } } return c; } /* * Prepare to generate the string returned by ${} substitution. */ static int dollar(int quoted) { int otask; struct io *oiop; char *dolp; char *s, c, *cp = NULL; struct var *vp; DBGPRINTF3(("DOLLAR: enter, quoted=%d\n", quoted)); c = readc(); s = e.linep; if (c != '{') { *e.linep++ = c; if (isalpha(c) || c == '_') { while ((c = readc()) != 0 && (isalnum(c) || c == '_')) if (e.linep < elinep) *e.linep++ = c; unget(c); } c = 0; } else { oiop = e.iop; otask = e.iop->task; e.iop->task = XOTHER; while ((c = subgetc('"', 0)) != 0 && c != '}' && c != '\n') if (e.linep < elinep) *e.linep++ = c; if (oiop == e.iop) e.iop->task = otask; if (c != '}') { err("unclosed ${"); gflg++; return c; } } if (e.linep >= elinep) { err("string in ${} too long"); gflg++; e.linep -= 10; } *e.linep = 0; if (*s) for (cp = s + 1; *cp; cp++) if (any(*cp, "=-+?")) { c = *cp; *cp++ = 0; break; } if (s[1] == 0 && (*s == '*' || *s == '@')) { if (dolc > 1) { /* currently this does not distinguish $* and $@ */ /* should check dollar */ e.linep = s; PUSHIO(awordlist, dolv + 1, dolchar); return 0; } else { /* trap the nasty ${=} */ s[0] = '1'; s[1] = '\0'; } } vp = lookup(s); dolp = vp->value; if (dolp == null) { switch (c) { case '=': if (isdigit(*s)) { err("cannot use ${...=...} with $n"); gflg++; break; } setval(vp, cp); dolp = vp->value; break; case '-': dolp = strsave(cp, areanum); break; case '?': if (*cp == 0) { prs("missing value for "); err(s); } else err(cp); gflg++; break; } } else if (c == '+') dolp = strsave(cp, areanum); if (FLAG['u'] && dolp == null) { prs("unset variable: "); err(s); gflg++; } e.linep = s; PUSHIO(aword, dolp, quoted ? qstrchar : strchar); return 0; } /* * Run the command in `...` and read its output. */ static int grave(int quoted) { /* moved to G: static char child_cmd[LINELIM]; */ const char *cp; int i; int j; int pf[2]; const char *src; char *dest; int count; int ignore; int ignore_once; char *argument_list[4]; struct wdblock *wb = NULL; #if __GNUC__ /* Avoid longjmp clobbering */ (void) &cp; #endif for (cp = e.iop->argp->aword; *cp != '`'; cp++) { if (*cp == 0) { err("no closing `"); return 0; } } /* string copy with dollar expansion */ src = e.iop->argp->aword; dest = child_cmd; count = 0; ignore = 0; ignore_once = 0; while ((*src != '`') && (count < LINELIM)) { if (*src == '\'') ignore = !ignore; if (*src == '\\') ignore_once = 1; if (*src == '$' && !ignore && !ignore_once) { struct var *vp; char var_name[LINELIM]; char alt_value[LINELIM]; int var_index = 0; int alt_index = 0; char operator = 0; int braces = 0; char *value; src++; if (*src == '{') { braces = 1; src++; } var_name[var_index++] = *src++; while (isalnum(*src) || *src=='_') var_name[var_index++] = *src++; var_name[var_index] = 0; if (braces) { switch (*src) { case '}': break; case '-': case '=': case '+': case '?': operator = * src; break; default: err("unclosed ${\n"); return 0; } if (operator) { src++; while (*src && (*src != '}')) { alt_value[alt_index++] = *src++; } alt_value[alt_index] = 0; if (*src != '}') { err("unclosed ${\n"); return 0; } } src++; } if (isalpha(*var_name)) { /* let subshell handle it instead */ char *namep = var_name; *dest++ = '$'; if (braces) *dest++ = '{'; while (*namep) *dest++ = *namep++; if (operator) { char *altp = alt_value; *dest++ = operator; while (*altp) *dest++ = *altp++; } if (braces) *dest++ = '}'; wb = addword(lookup(var_name)->name, wb); } else { /* expand */ vp = lookup(var_name); if (vp->value != null) value = (operator == '+') ? alt_value : vp->value; else if (operator == '?') { err(alt_value); return 0; } else if (alt_index && (operator != '+')) { value = alt_value; if (operator == '=') setval(vp, value); } else continue; while (*value && (count < LINELIM)) { *dest++ = *value++; count++; } } } else { *dest++ = *src++; count++; ignore_once = 0; } } *dest = '\0'; if (openpipe(pf) < 0) return 0; while ((i = vfork()) == -1 && errno == EAGAIN); DBGPRINTF3(("GRAVE: i is %p\n", io)); if (i < 0) { closepipe(pf); err((char *) bb_msg_memory_exhausted); return 0; } if (i != 0) { waitpid(i, NULL, 0); e.iop->argp->aword = ++cp; close(pf[1]); PUSHIO(afile, remap(pf[0]), (int (*)(struct ioarg *)) ((quoted) ? qgravechar : gravechar)); return 1; } /* allow trapped signals */ /* XXX - Maybe this signal stuff should go as well? */ for (j = 0; j <= _NSIG; j++) if (ourtrap[j] && signal(j, SIG_IGN) != SIG_IGN) signal(j, SIG_DFL); /* Testcase where below checks are needed: * close stdout & run this script: * files=`ls` * echo "$files" >zz */ xmove_fd(pf[1], 1); if (pf[0] != 1) close(pf[0]); argument_list[0] = (char *) DEFAULT_SHELL; argument_list[1] = (char *) "-c"; argument_list[2] = child_cmd; argument_list[3] = NULL; cp = rexecve(argument_list[0], argument_list, makenv(1, wb)); prs(argument_list[0]); prs(": "); err(cp); _exit(1); } static char *unquote(char *as) { char *s; s = as; if (s != NULL) while (*s) *s++ &= ~QUOTE; return as; } /* -------- glob.c -------- */ /* * glob */ #define scopy(x) strsave((x), areanum) #define BLKSIZ 512 #define NDENT ((BLKSIZ+sizeof(struct dirent)-1)/sizeof(struct dirent)) static struct wdblock *cl, *nl; static const char spcl[] ALIGN1= "[?*"; static struct wdblock *glob(char *cp, struct wdblock *wb) { int i; char *pp; if (cp == 0) return wb; i = 0; for (pp = cp; *pp; pp++) if (any(*pp, spcl)) i++; else if (!any(*pp & ~QUOTE, spcl)) *pp &= ~QUOTE; if (i != 0) { for (cl = addword(scopy(cp), NULL); anyspcl(cl); cl = nl) { nl = newword(cl->w_nword * 2); for (i = 0; i < cl->w_nword; i++) { /* for each argument */ for (pp = cl->w_words[i]; *pp; pp++) if (any(*pp, spcl)) { globname(cl->w_words[i], pp); break; } if (*pp == '\0') nl = addword(scopy(cl->w_words[i]), nl); } for (i = 0; i < cl->w_nword; i++) DELETE(cl->w_words[i]); DELETE(cl); } for (i = 0; i < cl->w_nword; i++) unquote(cl->w_words[i]); glob0((char *) cl->w_words, cl->w_nword, sizeof(char *), xstrcmp); if (cl->w_nword) { for (i = 0; i < cl->w_nword; i++) wb = addword(cl->w_words[i], wb); DELETE(cl); return wb; } } wb = addword(unquote(cp), wb); return wb; } static void globname(char *we, char *pp) { char *np, *cp; char *name, *gp, *dp; int k; DIR *dirp; struct dirent *de; char dname[NAME_MAX + 1]; struct stat dbuf; for (np = we; np != pp; pp--) if (pp[-1] == '/') break; for (dp = cp = space((int) (pp - np) + 3); np < pp;) *cp++ = *np++; *cp++ = '.'; *cp = '\0'; for (gp = cp = space(strlen(pp) + 1); *np && *np != '/';) *cp++ = *np++; *cp = '\0'; dirp = opendir(dp); if (dirp == 0) { DELETE(dp); DELETE(gp); return; } dname[NAME_MAX] = '\0'; while ((de = readdir(dirp)) != NULL) { /* XXX Hmmm... What this could be? (abial) */ /* if (ent[j].d_ino == 0) continue; */ strncpy(dname, de->d_name, NAME_MAX); if (dname[0] == '.') if (*gp != '.') continue; for (k = 0; k < NAME_MAX; k++) if (any(dname[k], spcl)) dname[k] |= QUOTE; if (gmatch(dname, gp)) { name = generate(we, pp, dname, np); if (*np && !anys(np, spcl)) { if (stat(name, &dbuf)) { DELETE(name); continue; } } nl = addword(name, nl); } } closedir(dirp); DELETE(dp); DELETE(gp); } /* * generate a pathname as below. * start..end1 / middle end * the slashes come for free */ static char *generate(char *start1, char *end1, char *middle, char *end) { char *p; char *op, *xp; p = op = space((int)(end1 - start1) + strlen(middle) + strlen(end) + 2); for (xp = start1; xp != end1;) *op++ = *xp++; for (xp = middle; (*op++ = *xp++) != '\0';); op--; for (xp = end; (*op++ = *xp++) != '\0';); return p; } static int anyspcl(struct wdblock *wb) { int i; char **wd; wd = wb->w_words; for (i = 0; i < wb->w_nword; i++) if (anys(spcl, *wd++)) return 1; return 0; } static int xstrcmp(char *p1, char *p2) { return strcmp(*(char **) p1, *(char **) p2); } /* -------- word.c -------- */ static struct wdblock *newword(int nw) { struct wdblock *wb; wb = (struct wdblock *) space(sizeof(*wb) + nw * sizeof(char *)); wb->w_bsize = nw; wb->w_nword = 0; return wb; } static struct wdblock *addword(char *wd, struct wdblock *wb) { struct wdblock *wb2; int nw; if (wb == NULL) wb = newword(NSTART); nw = wb->w_nword; if (nw >= wb->w_bsize) { wb2 = newword(nw * 2); memcpy((char *) wb2->w_words, (char *) wb->w_words, nw * sizeof(char *)); wb2->w_nword = nw; DELETE(wb); wb = wb2; } wb->w_words[wb->w_nword++] = wd; return wb; } static char **getwords(struct wdblock *wb) { char **wd; int nb; if (wb == NULL) return NULL; if (wb->w_nword == 0) { DELETE(wb); return NULL; } wd = (char **) space(nb = sizeof(*wd) * wb->w_nword); memcpy((char *) wd, (char *) wb->w_words, nb); DELETE(wb); /* perhaps should done by caller */ return wd; } static int (*func) (char *, char *); static int globv; static void glob3(char *i, char *j, char *k) { char *index1, *index2, *index3; int c; int m; m = globv; index1 = i; index2 = j; index3 = k; do { c = *index1; *index1++ = *index3; *index3++ = *index2; *index2++ = c; } while (--m); } static void glob2(char *i, char *j) { char *index1, *index2, c; int m; m = globv; index1 = i; index2 = j; do { c = *index1; *index1++ = *index2; *index2++ = c; } while (--m); } static void glob1(char *base, char *lim) { char *i, *j; int v2; char *lptr, *hptr; int c; unsigned n; v2 = globv; top: n = (int) (lim - base); if (n <= v2) return; n = v2 * (n / (2 * v2)); hptr = lptr = base + n; i = base; j = lim - v2; for (;;) { if (i < lptr) { c = (*func) (i, lptr); if (c == 0) { lptr -= v2; glob2(i, lptr); continue; } if (c < 0) { i += v2; continue; } } begin: if (j > hptr) { c = (*func) (hptr, j); if (c == 0) { hptr += v2; glob2(hptr, j); goto begin; } if (c > 0) { if (i == lptr) { hptr += v2; glob3(i, hptr, j); i = (lptr += v2); goto begin; } glob2(i, j); j -= v2; i += v2; continue; } j -= v2; goto begin; } if (i == lptr) { if (lptr - base >= lim - hptr) { glob1(hptr + v2, lim); lim = lptr; } else { glob1(base, lptr); base = hptr + v2; } goto top; } lptr -= v2; glob3(j, lptr, i); j = (hptr -= v2); } } static void glob0(char *a0, unsigned a1, int a2, int (*a3) (char *, char *)) { func = a3; globv = a2; glob1(a0, a0 + a1 * a2); } /* -------- io.c -------- */ /* * shell IO */ static int my_getc(int ec) { int c; if (e.linep > elinep) { while ((c = readc()) != '\n' && c); err("input line too long"); gflg++; return c; } c = readc(); if ((ec != '\'') && (ec != '`') && (e.iop->task != XGRAVE)) { if (c == '\\') { c = readc(); if (c == '\n' && ec != '\"') return my_getc(ec); c |= QUOTE; } } return c; } static void unget(int c) { if (e.iop >= e.iobase) e.iop->peekc = c; } static int eofc(void) { return e.iop < e.iobase || (e.iop->peekc == 0 && e.iop->prev == 0); } static int readc(void) { int c; RCPRINTF(("READC: e.iop %p, e.iobase %p\n", e.iop, e.iobase)); for (; e.iop >= e.iobase; e.iop--) { RCPRINTF(("READC: e.iop %p, peekc 0x%x\n", e.iop, e.iop->peekc)); c = e.iop->peekc; if (c != '\0') { e.iop->peekc = 0; return c; } if (e.iop->prev != 0) { c = (*e.iop->iofn)(e.iop->argp, e.iop); if (c != '\0') { if (c == -1) { e.iop++; continue; } if (e.iop == iostack) ioecho(c); e.iop->prev = c; return e.iop->prev; } if (e.iop->task == XIO && e.iop->prev != '\n') { e.iop->prev = 0; if (e.iop == iostack) ioecho('\n'); return '\n'; } } if (e.iop->task == XIO) { if (multiline) { e.iop->prev = 0; return e.iop->prev; } if (interactive && e.iop == iostack + 1) { #if ENABLE_FEATURE_EDITING current_prompt = prompt->value; #else prs(prompt->value); #endif } } } /* FOR */ if (e.iop >= iostack) { RCPRINTF(("READC: return 0, e.iop %p\n", e.iop)); return 0; } DBGPRINTF(("READC: leave()...\n")); leave(); /* NOTREACHED */ return 0; } static void ioecho(char c) { if (FLAG['v']) write(2, &c, sizeof c); } static void pushio(struct ioarg *argp, int (*fn) (struct ioarg *)) { DBGPRINTF(("PUSHIO: argp %p, argp->afid 0x%x, e.iop %p\n", argp, argp->afid, e.iop)); /* Set env ptr for io source to next array spot and check for array overflow */ if (++e.iop >= &iostack[NPUSH]) { e.iop--; err("Shell input nested too deeply"); gflg++; return; } /* We did not overflow the NPUSH array spots so setup data structs */ e.iop->iofn = (int (*)(struct ioarg *, struct io *)) fn; /* Store data source func ptr */ if (argp->afid != AFID_NOBUF) e.iop->argp = argp; else { e.iop->argp = ioargstack + (e.iop - iostack); /* MAL - index into stack */ *e.iop->argp = *argp; /* copy data from temp area into stack spot */ /* MAL - mainbuf is for 1st data source (command line?) and all nested use a single shared buffer? */ if (e.iop == &iostack[0]) e.iop->argp->afbuf = &mainbuf; else e.iop->argp->afbuf = &sharedbuf; /* MAL - if not a termimal AND (commandline OR readable file) then give it a buffer id? */ /* This line appears to be active when running scripts from command line */ if ((isatty(e.iop->argp->afile) == 0) && (e.iop == &iostack[0] || lseek(e.iop->argp->afile, 0L, SEEK_CUR) != -1)) { if (++bufid == AFID_NOBUF) /* counter rollover check, AFID_NOBUF = 11111111 */ bufid = AFID_ID; /* AFID_ID = 0 */ e.iop->argp->afid = bufid; /* assign buffer id */ } DBGPRINTF(("PUSHIO: iostack %p, e.iop %p, afbuf %p\n", iostack, e.iop, e.iop->argp->afbuf)); DBGPRINTF(("PUSHIO: mbuf %p, sbuf %p, bid %d, e.iop %p\n", &mainbuf, &sharedbuf, bufid, e.iop)); } e.iop->prev = ~'\n'; e.iop->peekc = 0; e.iop->xchar = 0; e.iop->nlcount = 0; if (fn == filechar || fn == linechar) e.iop->task = XIO; else if (fn == (int (*)(struct ioarg *)) gravechar || fn == (int (*)(struct ioarg *)) qgravechar) e.iop->task = XGRAVE; else e.iop->task = XOTHER; } static struct io *setbase(struct io *ip) { struct io *xp; xp = e.iobase; e.iobase = ip; return xp; } /* * Input generating functions */ /* * Produce the characters of a string, then a newline, then EOF. */ static int nlchar(struct ioarg *ap) { int c; if (ap->aword == NULL) return 0; c = *ap->aword++; if (c == 0) { ap->aword = NULL; return '\n'; } return c; } /* * Given a list of words, produce the characters * in them, with a space after each word. */ static int wdchar(struct ioarg *ap) { char c; char **wl; wl = ap->awordlist; if (wl == NULL) return 0; if (*wl != NULL) { c = *(*wl)++; if (c != 0) return c & 0177; ap->awordlist++; return ' '; } ap->awordlist = NULL; return '\n'; } /* * Return the characters of a list of words, * producing a space between them. */ static int dolchar(struct ioarg *ap) { char *wp; wp = *ap->awordlist++; if (wp != NULL) { PUSHIO(aword, wp, *ap->awordlist == NULL ? strchar : xxchar); return -1; } return 0; } static int xxchar(struct ioarg *ap) { int c; if (ap->aword == NULL) return 0; c = *ap->aword++; if (c == '\0') { ap->aword = NULL; return ' '; } return c; } /* * Produce the characters from a single word (string). */ static int strchar(struct ioarg *ap) { if (ap->aword == NULL) return 0; return *ap->aword++; } /* * Produce quoted characters from a single word (string). */ static int qstrchar(struct ioarg *ap) { int c; if (ap->aword == NULL) return 0; c = *ap->aword++; if (c) c |= QUOTE; return c; } /* * Return the characters from a file. */ static int filechar(struct ioarg *ap) { int i; char c; struct iobuf *bp = ap->afbuf; if (ap->afid != AFID_NOBUF) { i = (ap->afid != bp->id); if (i || bp->bufp == bp->ebufp) { if (i) lseek(ap->afile, ap->afpos, SEEK_SET); i = safe_read(ap->afile, bp->buf, sizeof(bp->buf)); if (i <= 0) { closef(ap->afile); return 0; } bp->id = ap->afid; bp->bufp = bp->buf; bp->ebufp = bp->bufp + i; } ap->afpos++; return *bp->bufp++ & 0177; } #if ENABLE_FEATURE_EDITING if (interactive && isatty(ap->afile)) { /* moved to G: static char filechar_cmdbuf[BUFSIZ]; */ static int position = 0, size = 0; while (size == 0 || position >= size) { read_line_input(current_prompt, filechar_cmdbuf, BUFSIZ, line_input_state); size = strlen(filechar_cmdbuf); position = 0; } c = filechar_cmdbuf[position]; position++; return c; } #endif i = safe_read(ap->afile, &c, sizeof(c)); return i == sizeof(c) ? (c & 0x7f) : (closef(ap->afile), 0); } /* * Return the characters from a here temp file. */ static int herechar(struct ioarg *ap) { char c; if (read(ap->afile, &c, sizeof(c)) != sizeof(c)) { close(ap->afile); c = '\0'; } return c; } /* * Return the characters produced by a process (`...`). * Quote them if required, and remove any trailing newline characters. */ static int gravechar(struct ioarg *ap, struct io *iop) { int c; c = qgravechar(ap, iop) & ~QUOTE; if (c == '\n') c = ' '; return c; } static int qgravechar(struct ioarg *ap, struct io *iop) { int c; DBGPRINTF3(("QGRAVECHAR: enter, ap=%p, iop=%p\n", ap, iop)); if (iop->xchar) { if (iop->nlcount) { iop->nlcount--; return '\n' | QUOTE; } c = iop->xchar; iop->xchar = 0; } else if ((c = filechar(ap)) == '\n') { iop->nlcount = 1; while ((c = filechar(ap)) == '\n') iop->nlcount++; iop->xchar = c; if (c == 0) return c; iop->nlcount--; c = '\n'; } return c != 0 ? c | QUOTE : 0; } /* * Return a single command (usually the first line) from a file. */ static int linechar(struct ioarg *ap) { int c; c = filechar(ap); if (c == '\n') { if (!multiline) { closef(ap->afile); ap->afile = -1; /* illegal value */ } } return c; } /* * remap fd into Shell's fd space */ static int remap(int fd) { int i; int map[NOFILE]; int newfd; DBGPRINTF(("REMAP: fd=%d, e.iofd=%d\n", fd, e.iofd)); if (fd < e.iofd) { for (i = 0; i < NOFILE; i++) map[i] = 0; do { map[fd] = 1; newfd = dup(fd); fd = newfd; } while (fd >= 0 && fd < e.iofd); for (i = 0; i < NOFILE; i++) if (map[i]) close(i); if (fd < 0) err("too many files open in shell"); } return fd; } static int openpipe(int *pv) { int i; i = pipe(pv); if (i < 0) err("can't create pipe - try again"); return i; } static void closepipe(int *pv) { if (pv != NULL) { close(*pv++); close(*pv); } } /* -------- here.c -------- */ /* * here documents */ static void markhere(char *s, struct ioword *iop) { struct here *h, *lh; DBGPRINTF7(("MARKHERE: enter, s=%p\n", s)); h = (struct here *) space(sizeof(struct here)); if (h == NULL) return; h->h_tag = evalstr(s, DOSUB); if (h->h_tag == 0) return; h->h_iop = iop; iop->io_name = 0; h->h_next = NULL; if (inhere == 0) inhere = h; else { for (lh = inhere; lh != NULL; lh = lh->h_next) { if (lh->h_next == 0) { lh->h_next = h; break; } } } iop->io_flag |= IOHERE | IOXHERE; for (s = h->h_tag; *s; s++) { if (*s & QUOTE) { iop->io_flag &= ~IOXHERE; *s &= ~QUOTE; } } h->h_dosub = iop->io_flag & IOXHERE; } static void gethere(void) { struct here *h, *hp; DBGPRINTF7(("GETHERE: enter...\n")); /* Scan here files first leaving inhere list in place */ for (hp = h = inhere; h != NULL; hp = h, h = h->h_next) readhere(&h->h_iop->io_name, h->h_tag, h->h_dosub ? 0 : '\''); /* Make inhere list active - keep list intact for scraphere */ if (hp != NULL) { hp->h_next = acthere; acthere = inhere; inhere = NULL; } } static void readhere(char **name, char *s, int ec) { int tf; char tname[30] = ".msh_XXXXXX"; int c; jmp_buf ev; char myline[LINELIM + 1]; char *thenext; DBGPRINTF7(("READHERE: enter, name=%p, s=%p\n", name, s)); tf = mkstemp(tname); if (tf < 0) return; *name = strsave(tname, areanum); errpt = ev; if (newenv(setjmp(errpt)) != 0) unlink(tname); else { pushio(e.iop->argp, (int (*)(struct ioarg *)) e.iop->iofn); e.iobase = e.iop; for (;;) { if (interactive && e.iop <= iostack) { #if ENABLE_FEATURE_EDITING current_prompt = cprompt->value; #else prs(cprompt->value); #endif } thenext = myline; while ((c = my_getc(ec)) != '\n' && c) { if (ec == '\'') c &= ~QUOTE; if (thenext >= &myline[LINELIM]) { c = 0; break; } *thenext++ = c; } *thenext = 0; if (strcmp(s, myline) == 0 || c == 0) break; *thenext++ = '\n'; write(tf, myline, (int) (thenext - myline)); } if (c == 0) { prs("here document `"); prs(s); err("' unclosed"); } quitenv(); } close(tf); } /* * open here temp file. * if unquoted here, expand here temp file into second temp file. */ static int herein(char *hname, int xdoll) { int hf; int tf; #if __GNUC__ /* Avoid longjmp clobbering */ (void) &tf; #endif if (hname == NULL) return -1; DBGPRINTF7(("HEREIN: hname is %s, xdoll=%d\n", hname, xdoll)); hf = open(hname, O_RDONLY); if (hf < 0) return -1; if (xdoll) { char c; char tname[30] = ".msh_XXXXXX"; jmp_buf ev; tf = mkstemp(tname); if (tf < 0) return -1; errpt = ev; if (newenv(setjmp(errpt)) == 0) { PUSHIO(afile, hf, herechar); setbase(e.iop); while ((c = subgetc(0, 0)) != 0) { c &= ~QUOTE; write(tf, &c, sizeof c); } quitenv(); } else unlink(tname); close(tf); tf = open(tname, O_RDONLY); unlink(tname); return tf; } return hf; } static void scraphere(void) { struct here *h; DBGPRINTF7(("SCRAPHERE: enter...\n")); for (h = inhere; h != NULL; h = h->h_next) { if (h->h_iop && h->h_iop->io_name) unlink(h->h_iop->io_name); } inhere = NULL; } /* unlink here temp files before a freearea(area) */ static void freehere(int area) { struct here *h, *hl; DBGPRINTF6(("FREEHERE: enter, area=%d\n", area)); hl = NULL; for (h = acthere; h != NULL; h = h->h_next) if (getarea((char *) h) >= area) { if (h->h_iop->io_name != NULL) unlink(h->h_iop->io_name); if (hl == NULL) acthere = h->h_next; else hl->h_next = h->h_next; } else hl = h; } /* -------- sh.c -------- */ /* * shell */ int msh_main(int argc, char **argv); int msh_main(int argc, char **argv) { int f; char *s; int cflag; char *name, **ap; int (*iof) (struct ioarg *); PTR_TO_GLOBALS = xzalloc(sizeof(G)); sharedbuf.id = AFID_NOBUF; mainbuf.id = AFID_NOBUF; e.linep = line; elinep = line + sizeof(line) - 5; #if ENABLE_FEATURE_EDITING line_input_state = new_line_input_t(FOR_SHELL); #endif DBGPRINTF(("MSH_MAIN: argc %d, environ %p\n", argc, environ)); initarea(); ap = environ; if (ap != NULL) { while (*ap) assign(*ap++, !COPYV); for (ap = environ; *ap;) export(lookup(*ap++)); } closeall(); areanum = 1; shell = lookup("SHELL"); if (shell->value == null) setval(shell, (char *)DEFAULT_SHELL); export(shell); homedir = lookup("HOME"); if (homedir->value == null) setval(homedir, "/"); export(homedir); setval(lookup("$"), putn(getpid())); path = lookup("PATH"); if (path->value == null) { /* Can be merged with same string elsewhere in bbox */ if (geteuid() == 0) setval(path, bb_default_root_path); else setval(path, bb_default_path); } export(path); ifs = lookup("IFS"); if (ifs->value == null) setval(ifs, " \t\n"); #ifdef MSHDEBUG mshdbg_var = lookup("MSHDEBUG"); if (mshdbg_var->value == null) setval(mshdbg_var, "0"); #endif prompt = lookup("PS1"); #if ENABLE_FEATURE_EDITING_FANCY_PROMPT if (prompt->value == null) #endif setval(prompt, DEFAULT_USER_PROMPT); if (geteuid() == 0) { setval(prompt, DEFAULT_ROOT_PROMPT); prompt->status &= ~EXPORT; } cprompt = lookup("PS2"); #if ENABLE_FEATURE_EDITING_FANCY_PROMPT if (cprompt->value == null) #endif setval(cprompt, "> "); iof = filechar; cflag = 0; name = *argv++; if (--argc >= 1) { if (argv[0][0] == '-' && argv[0][1] != '\0') { for (s = argv[0] + 1; *s; s++) switch (*s) { case 'c': prompt->status &= ~EXPORT; cprompt->status &= ~EXPORT; setval(prompt, ""); setval(cprompt, ""); cflag = 1; if (--argc > 0) PUSHIO(aword, *++argv, iof = nlchar); break; case 'q': qflag = SIG_DFL; break; case 's': /* standard input */ break; case 't': prompt->status &= ~EXPORT; setval(prompt, ""); iof = linechar; break; case 'i': interactive++; default: if (*s >= 'a' && *s <= 'z') FLAG[(int) *s]++; } } else { argv--; argc++; } if (iof == filechar && --argc > 0) { setval(prompt, ""); setval(cprompt, ""); prompt->status &= ~EXPORT; cprompt->status &= ~EXPORT; /* Shell is non-interactive, activate printf-based debug */ #ifdef MSHDEBUG mshdbg = (int) (((char) (mshdbg_var->value[0])) - '0'); if (mshdbg < 0) mshdbg = 0; #endif DBGPRINTF(("MSH_MAIN: calling newfile()\n")); name = *++argv; if (newfile(name)) exit(1); /* Exit on error */ } } setdash(); /* This won't be true if PUSHIO has been called, say from newfile() above */ if (e.iop < iostack) { PUSHIO(afile, 0, iof); if (isatty(0) && isatty(1) && !cflag) { interactive++; #if !ENABLE_FEATURE_SH_EXTRA_QUIET #ifdef MSHDEBUG printf("\n\n%s built-in shell (msh with debug)\n", bb_banner); #else printf("\n\n%s built-in shell (msh)\n", bb_banner); #endif printf("Enter 'help' for a list of built-in commands.\n\n"); #endif } } signal(SIGQUIT, qflag); if (name && name[0] == '-') { interactive++; f = open(".profile", O_RDONLY); if (f >= 0) next(remap(f)); f = open("/etc/profile", O_RDONLY); if (f >= 0) next(remap(f)); } if (interactive) signal(SIGTERM, sig); if (signal(SIGINT, SIG_IGN) != SIG_IGN) signal(SIGINT, onintr); dolv = argv; dolc = argc; dolv[0] = name; if (dolc > 1) { for (ap = ++argv; --argc > 0;) { *ap = *argv++; if (assign(*ap, !COPYV)) { dolc--; /* keyword */ } else { ap++; } } } setval(lookup("#"), putn((--dolc < 0) ? (dolc = 0) : dolc)); DBGPRINTF(("MSH_MAIN: begin FOR loop, interactive %d, e.iop %p, iostack %p\n", interactive, e.iop, iostack)); for (;;) { if (interactive && e.iop <= iostack) { #if ENABLE_FEATURE_EDITING current_prompt = prompt->value; #else prs(prompt->value); #endif } onecommand(); /* Ensure that getenv("PATH") stays current */ setenv("PATH", path->value, 1); } DBGPRINTF(("MSH_MAIN: returning.\n")); } /* * Copyright (c) 1987,1997, Prentice Hall * All rights reserved. * * Redistribution and use of the MINIX operating system in source and * binary forms, with or without modification, are permitted provided * that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Prentice Hall nor the names of the software * authors or contributors may be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS, AUTHORS, 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 PRENTICE HALL OR ANY AUTHORS 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. * */