/* sh.c - toybox shell * * Copyright 2006 Rob Landley * * The POSIX-2008/SUSv4 spec for this is at: * http://opengroup.org/onlinepubs/9699919799/utilities/V3_chap02.html * and http://opengroup.org/onlinepubs/9699919799/utilities/sh.html * * The first link describes the following shell builtins: * * break colon continue dot eval exec exit export readonly return set shift * times trap unset * * The second link (the utilities directory) also contains specs for the * following shell builtins: * * alias bg cd command fc fg getopts hash jobs kill read type ulimit * umask unalias wait * * Things like the bash man page are good to read too. * * TODO: "make sh" doesn't work (nofork builtins need to be included) * TODO: test that $PS1 color changes work without stupid \[ \] hack * TODO: make fake pty wrapper for test infrastructure * TODO: // Handle embedded NUL bytes in the command line. * TODO: var=val command * existing but considered builtins: false kill pwd true time * buitins: alias bg command fc fg getopts jobs newgrp read umask unalias wait * "special" builtins: break continue : . eval exec export readonly return set * shift times trap unset * | & ; < > ( ) $ ` \ " ' * * ? [ # ~ = % * ! { } case do done elif else esac fi for if in then until while * [[ ]] function select * $@ $* $# $? $- $$ $! $0 * ENV HOME IFS LANG LC_ALL LINENO PATH PPID PS1 PS2 PS4 PWD * label: * TODO: test exit from "trap EXIT" doesn't recurse * TODO: ! history expansion * * bash man page: * control operators || & && ; ;; ;& ;;& ( ) | |& * reserved words * ! case coproc do done elif else esac fi for function if in select * then until while { } time [[ ]] USE_SH(NEWTOY(cd, NULL, TOYFLAG_NOFORK)) USE_SH(NEWTOY(exit, NULL, TOYFLAG_NOFORK)) USE_SH(NEWTOY(sh, "(noediting)(noprofile)(norc)sc:i", TOYFLAG_BIN)) USE_SH(OLDTOY(toysh, sh, TOYFLAG_BIN)) USE_SH(OLDTOY(bash, sh, TOYFLAG_BIN)) // Login lies in argv[0], so add some aliases to catch that USE_SH(OLDTOY(-sh, sh, 0)) USE_SH(OLDTOY(-toysh, sh, 0)) USE_SH(OLDTOY(-bash, sh, 0)) config SH bool "sh (toysh)" default n help usage: sh [-c command] [script] Command shell. Runs a shell script, or reads input interactively and responds to it. -c command line to execute -i interactive mode (default when STDIN is a tty) # These are here for the help text, they're not selectable and control nothing config CD bool default n depends on SH help usage: cd [-PL] [path] Change current directory. With no arguments, go $HOME. -P Physical path: resolve symlinks in path -L Local path: .. trims directories off $PWD (default) config EXIT bool default n depends on SH help usage: exit [status] Exit shell. If no return value supplied on command line, use value of most recent command, or 0 if none. */ #define FOR_sh #include "toys.h" GLOBALS( char *command; long lineno; char **locals; struct double_list functions; unsigned options; // Running jobs. struct sh_job { struct sh_job *next, *prev; unsigned jobno; // Every pipeline has at least one set of arguments or it's Not A Thing struct sh_arg { char **v; int c; } pipeline; // null terminated array of running processes in pipeline struct sh_process { struct sh_process *next, *prev; struct string_list *delete; // expanded strings int *urd, pid, exit; // undo redirects, child PID, exit status struct sh_arg arg; } *procs, *proc; } *jobs, *job; unsigned jobcnt; int hfd, *hfdclose; // next high filehandle (>= 10) ) // ordered for greedy matching, so >&; becomes >& ; not > &; // making these const means I need to typecast the const away later to // avoid endless warnings. static const char *redirectors[] = {"<<<", "<<-", "<<", "<&", "<>", "<", ">>", ">&", ">|", ">", "&>>", "&>", 0}; #define SH_NOCLOBBER 1 // set -C void cd_main(void) { char *dest = *toys.optargs ? *toys.optargs : getenv("HOME"); // TODO: -LPE@ // TODO: cd .. goes up $PWD path we used to get here, not ./.. xchdir(dest ? dest : "/"); } void exit_main(void) { exit(*toys.optargs ? atoi(*toys.optargs) : 0); } // like error_msg() but exit from shell scripts static void syntax_err(char *msg, ...) { va_list va; va_start(va, msg); verror_msg(msg, 0, va); va_end(va); if (*toys.optargs) xexit(); } // Print prompt to stderr, parsing escapes // Truncated to 4k at the moment, waiting for somebody to complain. static void do_prompt(char *prompt) { char *s, c, cc, *pp = toybuf; int len; if (!prompt) prompt = "\\$ "; while ((len = sizeof(toybuf)-(pp-toybuf))>0 && *prompt) { c = *(prompt++); if (c=='!') { if (*prompt=='!') prompt++; else { pp += snprintf(pp, len, "%ld", TT.lineno); continue; } } else if (c=='\\') { cc = *(prompt++); if (!cc) { *pp++ = c; break; } // \nnn \dD{}hHjlstT@AuvVwW!#$ // Ignore bash's "nonprintable" hack; query our cursor position instead. if (cc=='[' || cc==']') continue; else if (cc=='$') *pp++ = getuid() ? '$' : '#'; else if (cc=='h' || cc=='H') { *pp = 0; gethostname(pp, len); pp[len-1] = 0; if (cc=='h' && (s = strchr(pp, '.'))) *s = 0; pp += strlen(pp); } else if (cc=='s') { s = getbasename(*toys.argv); while (*s && len--) *pp++ = *s++; } else if (!(c = unescape(cc))) { *pp++ = '\\'; if (--len) *pp++ = c; } else *pp++ = c; } else *pp++ = c; } len = pp-toybuf; if (len>=sizeof(toybuf)) len = sizeof(toybuf); writeall(2, toybuf, len); } // quote removal, brace, tilde, parameter/variable, $(command), // $((arithmetic)), split, path #define NO_PATH (1<<0) #define NO_SPLIT (1<<1) #define NO_BRACE (1<<2) #define NO_TILDE (1<<3) #define NO_QUOTE (1<<4) // TODO: ${name:?error} causes an error/abort here (syntax_err longjmp?) // TODO: $1 $@ $* need args marshalled down here: function+structure? // arg = append to this // new = string to expand // flags = type of expansions (not) to do // delete = append new allocations to this so they can be freed later // TODO: at_args: $1 $2 $3 $* $@ static void expand_arg(struct sh_arg *arg, char *new, unsigned flags, struct string_list **delete) { if (!(arg->c&32)) arg->v = xrealloc(arg->v, sizeof(void *)*(arg->c+33)); arg->v[arg->c++] = new; arg->v[arg->c] = 0; /* char *s = word, *new = 0; // replacement while (*s) { if (*s == '$') { s++; } else if (*strchr("*?[{", *s)) { s++; } else if (*s == '<' || *s == '>') { s++; } else s++; } return new; */ } // Expand exactly one arg, returning NULL if it split. // If return != new you need to free it. static char *expand_one_arg(char *new, unsigned flags) { struct sh_arg arg; char *s = 0; int i; memset(&arg, 0, sizeof(arg)); expand_arg(&arg, new, flags, 0); if (arg.c == 1) s = *arg.v; else for (i = 0; i < arg.c; i++) free(arg.v[i]); free(arg.v); return s; } // Assign one variable // s: key=val // type: 0 = whatever it was before, local otherwise #define TAKE_MEM 0x80000000 // declare -aAilnrux // ft static void setvar(char *s, unsigned type) { if (type&TAKE_MEM) type ^= TAKE_MEM; else s = xstrdup(s); // local, export, readonly, integer... xsetenv(s, 0); } // get variable of length len starting at s. static char *getvar(char *s, int len) { unsigned uu; char **ss = TT.locals; // loop through local, then global variables for (uu = 0; ; uu++) { if (!ss[uu]) { if (ss != TT.locals) return 0; ss = environ; uu = 0; } // Use UHF rubik's cube protocol to find match. if (!strncmp(ss[uu], s, len) && ss[uu][len] == '=') return ss[uu]+len+1; } } // return length of match found at this point static int anystart(char *s, char **try) { char *ss = s; while (*try) { if (strstart(&s, *try)) return s-ss; try++; } return 0; } // is this one of the strings in try[] (null terminated array) static int anystr(char *s, char **try) { while (*try) if (!strcmp(s, *try++)) return 1; return 0; } // return length of valid prefix that could go before redirect static int redir_prefix(char *word) { char *s = word; if (*s == '{') { for (s++; isalnum(*s) || *s=='_'; s++); if (*s == '}' && s != word+1) s++; else s = word; } else while (isdigit(*s)) s++; return s-word; } // TODO |& // Return number of entries at the start that are environment variable // assignments, and perform assignments if nothing else on the line static int assign_env(struct sh_arg *arg) { int envlen, j; char *s; // Grab variable assignments for (envlen = 0; envlenc; envlen++) { s = arg->v[envlen]; for (j=0; s[j] && (s[j]=='_' || !ispunct(s[j])); j++); if (!j || s[j] != '=') break; } // perform assignments locally if there's no command if (envlen != arg->c) return envlen; for (j = 0; jv[j], NO_PATH|NO_SPLIT); setvar(s, TAKE_MEM*(s!=arg->v[j])); } return 0; } // restore displaced filehandles, closing high filehandles they were copied to static void unredirect(int *urd) { int *rr = urd+1, i; if (!urd) return; for (i = 0; i<*urd; i++) { if (rr[1] != -1) { // No idea what to do about fd exhaustion here, so Steinbach's Guideline. dup2(rr[0], rr[1]); close(rr[0]); } rr += 2; } free(urd); } // Return next available high (>=10) file descriptor int next_hfd() { int hfd; for (; TT.hfd<=99999; TT.hfd++) if (-1 == fcntl(TT.hfd, F_GETFL)) break; hfd = TT.hfd; if (TT.hfd > 99999) { hfd = -1; if (!errno) errno = EMFILE; } return hfd; } // Perform a redirect, saving displaced filehandle to a high (>10) fd // rd is an int array: [0] = count, followed by from/to pairs to restore later. // If from == -1 just save to, else dup from->to after saving to. int save_redirect(int **rd, int from, int to) { int cnt, hfd, *rr; // save displaced to, copying to high (>=10) file descriptor to undo later // except if we're saving to environment variable instead (don't undo that) if ((hfd = next_hfd())==-1 || hfd != dup2(to, hfd)) return 1; fcntl(hfd, F_SETFD, FD_CLOEXEC); // dup "to" if (from != -1 && to != dup2(from, to)) { close(hfd); return 1; } // Append undo information to redirect list so we can restore saved hfd later. if (!((cnt = *rd ? **rd : 0)&31)) *rd = xrealloc(*rd, (cnt+33)*2*sizeof(int)); *(rr = *rd) = ++cnt; rr[2*cnt-1] = hfd; rr[2*cnt] = to; return 0; } // Expand arguments and perform redirections. Return new process object with // expanded args. This can be called from command or block context. static struct sh_process *expand_redir(struct sh_arg *arg, int envlen, int *urd) { struct sh_process *pp; char *s, *ss, *sss, *cv = 0; int j, to, from, here = 0; TT.hfd = 10; pp = xzalloc(sizeof(struct sh_process)); pp->urd = urd; // When we redirect, we copy each displaced filehandle to restore it later. // Expand arguments and perform redirections for (j = envlen; jc; j++) { int saveclose = 0; // Is this a redirect? s = prefix, ss = operator sss = ss = (s = arg->v[j]) + redir_prefix(arg->v[j]); sss += anystart(ss, (void *)redirectors); if (ss == sss) { // Nope: save/expand argument and loop expand_arg(&pp->arg, s, 0, &pp->delete); continue; } else if (j+1 >= arg->c) { // redirect needs one argument s = "\\n"; break; } sss = arg->v[++j]; // It's a redirect: for [to]5) break; // expand arguments for everything but << and <<- if (strncmp(ss, "<<", 2) && ss[2] != '<') { sss = expand_one_arg(sss, NO_PATH); if (!sss) { s = sss; break; // arg splitting here is an error } if (sss != arg->v[j]) dlist_add((void *)&pp->delete, sss); } // Parse the [fd] part of [fd]&")) && !strcmp(sss, "-")) { if (!(ss = getvar(s+1, ss-s-2))) break; to = atoi(ss); // TODO trailing garbage? if (save_redirect(&pp->urd, -1, to)) break; close(to); continue; // record high file descriptor in {to}=0) { if (unlink(tmp)) bad++; // write contents to file (if <<< else <<) then lseek back to start else if (ss[2] == '<') { if (x) sss = expand_one_arg(sss, NO_PATH|NO_SPLIT); len = strlen(sss); if (len != writeall(from, sss, len)) bad++; if (x) free(sss); } else { struct sh_arg *hh = arg+here++; for (i = 0; ic; i++) { ss = hh->v[i]; sss = 0; // expand_parameter, commands, and arithmetic if (x) ss = sss = expand_one_arg(ss, NO_PATH|NO_SPLIT|NO_BRACE|NO_TILDE|NO_QUOTE); while (zap && *ss == '\t') ss++; x = writeall(from, ss, len = strlen(ss)); free(sss); if (len != x) break; } if (i != hh->c) bad++; } if (!bad && lseek(from, 0, SEEK_SET)) bad++; if (bad) close(from); } else bad++; free(tmp); if (bad) break; // from>=0 means it's fd<<2 (new fd to dup2() after vfork()) plus // 2 if we should close(from>>2) after dup2(from>>2, to), // 1 if we should close but dup for nofork recovery (ala <&2-) // Handle file descriptor duplication/close (&> &>> <& >& with number or -) // These redirect existing fd so nothing to open() } else if (strchr(ss, '&')) { // is there an explicit fd? for (ss = sss; isdigit(*ss); ss++); if (ss-sss>5 || (*ss && (*ss != '-' || ss[1]))) { // bad fd s = sss; break; } from = (ss==sss) ? to : atoi(sss); if (*ss == '-') saveclose++; } else { // Permissions to open external file with: < > >> <& >& <> >| &>> &> if (!strcmp(ss, "<>")) from = O_CREAT|O_RDWR; else if (strstr(ss, ">>")) from = O_CREAT|O_APPEND; else { from = (*ss != '<') ? O_CREAT|O_WRONLY|O_TRUNC : O_RDONLY; if (!strcmp(ss, ">") && (TT.options&SH_NOCLOBBER)) { struct stat st; // Not _just_ O_EXCL: > /dev/null allowed if (stat(sss, &st) || !S_ISREG(st.st_mode)) from |= O_EXCL; } } // TODO: /dev/fd/# /dev/{stdin,stdout,stderr} /dev/{tcp,udp}/host/port // Open the file if (-1 == (from = xcreate(sss, from|WARN_ONLY, 0666))) break; } // perform redirect, saving displaced "to". save_redirect(&pp->urd, from, to); // Do we save displaced "to" in env variable instead of undo list? if (cv) { --*pp->urd; setvar(cv, TAKE_MEM); cv = 0; } if (saveclose) save_redirect(&pp->urd, -1, from); close(from); } // didn't parse everything? if (j != arg->c) { syntax_err("bad %s", s); if (!pp->exit) pp->exit = 1; free(cv); } return pp; } // Execute a single command static struct sh_process *run_command(struct sh_arg *arg) { struct sh_process *pp; struct toy_list *tl; // grab environment var assignments, expand arguments and perform redirects pp = expand_redir(arg, assign_env(arg), 0); // Do nothing if nothing to do if (pp->exit || !pp->arg.v); else if (!strcmp(*pp->arg.v, "((")) { printf("Math!\n"); // TODO: handle ((math)) // TODO: call functions() // Is this command a builtin that should run in this process? } else if ((tl = toy_find(*pp->arg.v)) && (tl->flags & (TOYFLAG_NOFORK|TOYFLAG_MAYFORK))) { struct toy_context temp; sigjmp_buf rebound; // This fakes lots of what toybox_main() does. memcpy(&temp, &toys, sizeof(struct toy_context)); memset(&toys, 0, sizeof(struct toy_context)); if (!sigsetjmp(rebound, 1)) { toys.rebound = &rebound; toy_init(tl, pp->arg.v); // arg.v must be null terminated tl->toy_main(); xflush(0); } pp->exit = toys.exitval; if (toys.optargs != toys.argv+1) free(toys.optargs); if (toys.old_umask) umask(toys.old_umask); memcpy(&toys, &temp, sizeof(struct toy_context)); } else { if (-1 == (pp->pid = xpopen_both(pp->arg.v, 0))) perror_msg("%s: vfork", *pp->arg.v); } // cleanup process unredirect(pp->urd); return pp; } static void free_process(void *ppp) { struct sh_process *pp = ppp; llist_traverse(pp->delete, free); free(pp); } // parse next word from command line. Returns end, or 0 if need continuation // caller eats leading spaces static char *parse_word(char *start) { int i, j, quote = 0, q, qc = 0; char *end = start, *s; // (( is a special quote at the start of a word if (strstart(&end, "((")) toybuf[quote++] = 255; // find end of this word while (*end) { i = 0; // barf if we're near overloading quote stack (nesting ridiculously deep) if (quote>4000) { syntax_err("tilt"); return (void *)1; } q = quote ? toybuf[quote-1] : 0; // Handle quote contexts if (q) { // when waiting for parentheses, they nest if ((q == ')' || q == '\xff') && (*end == '(' || *end == ')')) { if (*end == '(') qc++; else if (qc) qc--; else if (q == '\xff') { // (( can end with )) or retroactively become two (( if we hit one ) if (strstart(&end, "))")) quote--; else return start+1; } end++; // end quote? } else if (*end == q) quote--, end++; // single quote claims everything else if (q == '\'') end++; else i++; // loop if we already handled a symbol if (!i) continue; } else { // Things that only matter when unquoted if (isspace(*end)) break; // Things we should only return at the _start_ of a word // Redirections. 123<("))) toybuf[quote++]=')'; // backslash escapes else if (*end == '\\') { if (!end[1] || (end[1]=='\n' && !end[2])) return 0; end += 2; } else if (*end++ == '$') { if (-1 != (i = stridx("({[", *end))) { toybuf[quote++] = ")}]"[i]; end++; } } } return quote ? 0 : end; } // if then fi for while until select done done case esac break continue return // Allocate more space for arg, and possibly terminator void argxtend(struct sh_arg *arg) { if (!(arg->c&31)) arg->v = xrealloc(arg->v, (33+arg->c)*sizeof(void *)); } // Pipeline segments struct sh_pipeline { struct sh_pipeline *next, *prev; int count, here, type; struct sh_arg arg[1]; }; // scratch space (state held between calls). Don't want to make it global yet // because this could be reentrant. struct sh_function { char *name; struct sh_pipeline *pipeline; struct double_list *expect; // TODO: lifetime rules for arg? remember "shift" command. struct sh_arg *arg; // arguments to function call char *end; }; // Free one pipeline segment. void free_pipeline(void *pipeline) { struct sh_pipeline *pl = pipeline; int i, j; if (pl) for (j=0; j<=pl->count; j++) { for (i = 0; i<=pl->arg->c; i++) free(pl->arg[j].v[i]); free(pl->arg[j].v); } free(pl); } // Return end of current block, or NULL if we weren't in block and fell off end. struct sh_pipeline *block_end(struct sh_pipeline *pl) { int i = 0; while (pl) { if (pl->type == 1 || pl->type == 'f') i++; else if (pl->type == 3) if (--i<1) break; pl = pl->next; } return 0; } void free_function(struct sh_function *sp) { llist_traverse(sp->pipeline, free_pipeline); llist_traverse(sp->expect, free); memset(sp, 0, sizeof(struct sh_function)); } // TODO this has to add to a namespace context. Functions within functions... struct sh_pipeline *add_function(char *name, struct sh_pipeline *pl) { dprintf(2, "stub add_function"); return block_end(pl->next); } // Add a line of shell script to a shell function. Returns 0 if finished, // 1 to request another line of input (> prompt), -1 for syntax err static int parse_line(char *line, struct sh_function *sp) { char *start = line, *delete = 0, *end, *last = 0, *s, *ex, done = 0; struct sh_pipeline *pl = sp->pipeline ? sp->pipeline->prev : 0; struct sh_arg *arg = 0; long i; // Resume appending to last statement? if (pl) { arg = pl->arg; // Extend/resume quoted block if (arg->c<0) { delete = start = xmprintf("%s%s", arg->v[arg->c = (-arg->c)-1], start); free(arg->v[arg->c]); arg->v[arg->c] = 0; // is a HERE document in progress? } else if (pl->count != pl->here) { arg += 1+pl->here; // Match unquoted EOF. for (s = line, end = arg->v[arg->c]; *s && *end; s++, i++) { s += strspn(s, "\\\"'"); if (*s != *end) break; } if (!*s && !*end) { // Add this line argxtend(arg); arg->v[arg->c+1] = arg->v[arg->c]; arg->v[arg->c++] = xstrdup(line); // EOF hit, end HERE document } else { arg->v[arg->c] = 0; pl->here++; } start = 0; // Nope, new segment } else pl = 0; } // Parse words, assemble argv[] pipelines, check flow control and HERE docs if (start) for (;;) { ex = sp->expect ? sp->expect->prev->data : 0; // Look for << HERE redirections in completed pipeline segment if (pl && pl->count == -1) { pl->count = 0; arg = pl->arg; // find arguments of the form [{n}]<<[-] with another one after it for (i = 0; ic; i++) { s = arg->v[i] + redir_prefix(arg->v[i]); // TODO <<< is funky // argc[] entries removed from main list? Can have more than one? if (strcmp(s, "<<") && strcmp(s, "<<-") && strcmp(s, "<<<")) continue; if (i+1 == arg->c) goto flush; // Add another arg[] to the pipeline segment (removing/readding to list // because realloc can move pointer) dlist_lpop(&sp->pipeline); pl = xrealloc(pl, sizeof(*pl) + ++pl->count*sizeof(struct sh_arg)); dlist_add_nomalloc((void *)&sp->pipeline, (void *)pl); // queue up HERE EOF so input loop asks for more lines. arg[pl->count].v = xzalloc(2*sizeof(void *)); arg[pl->count].v[0] = arg->v[++i]; arg[pl->count].v[1] = 0; arg[pl->count].c = 0; if (s[2] == '<') pl->here++; // <<< doesn't load more data } pl = 0; } if (done) break; s = 0; // skip leading whitespace/comment here to know where next word starts for (;;) { if (isspace(*start)) ++start; else if (*start=='#') while (*start && *start != '\n') ++start; else break; } // Parse next word and detect overflow (too many nested quotes). if ((end = parse_word(start)) == (void *)1) goto flush; // Is this a new pipeline segment? if (!pl) { pl = xzalloc(sizeof(struct sh_pipeline)); arg = pl->arg; dlist_add_nomalloc((void *)&sp->pipeline, (void *)pl); } argxtend(arg); // Do we need to request another line to finish word (find ending quote)? if (!end) { // Save unparsed bit of this line, we'll need to re-parse it. arg->v[arg->c] = xstrndup(start, strlen(start)); arg->c = -(arg->c+1); free(delete); return 1; } // Ok, we have a word. What does it _mean_? // Did we hit end of line or ) outside a function declaration? // ) is only saved at start of a statement, ends current statement if (end == start || (arg->c && *start == ')' && pl->type!='f')) { arg->v[arg->c] = 0; if (pl->type == 'f' && arg->c<3) { s = "function()"; goto flush; } // "for" on its own line is an error. if (arg->c == 1 && ex && !memcmp(ex, "do\0A", 4)) { s = "newline"; goto flush; } // don't save blank pipeline segments if (!arg->c) free_pipeline(dlist_lpop(&sp->pipeline)); // stop at EOL, else continue with new pipeline segment for ) if (end == start) done++; pl->count = -1; last = 0; continue; } // Save argument (strdup) and check for flow control s = arg->v[arg->c] = xstrndup(start, end-start); start = end; if (strchr(";|&", *s)) { // flow control without a statement is an error if (!arg->c) goto flush; // treat ; as newline so we don't have to check both elsewhere. if (!strcmp(s, ";")) { arg->v[arg->c] = 0; free(s); s = 0; // ;; and friends only allowed in case statements } else if (*s == ';' && (!ex || strcmp(ex, "esac"))) goto flush; last = s; pl->count = -1; continue; } else arg->v[++arg->c] = 0; // is a function() in progress? if (arg->c>1 && !strcmp(s, "(")) pl->type = 'f'; if (pl->type=='f') { if (arg->c == 2 && strcmp(s, "(")) goto flush; if (arg->c == 3) { if (strcmp(s, ")")) goto flush; // end function segment, expect function body pl->count = -1; last = 0; dlist_add(&sp->expect, "}"); dlist_add(&sp->expect, 0); dlist_add(&sp->expect, "{"); continue; } // a for/select must have at least one additional argument on same line } else if (ex && !memcmp(ex, "do\0A", 4)) { // Sanity check and break the segment if (strncmp(s, "((", 2) && strchr(s, '=')) goto flush; pl->count = -1; sp->expect->prev->data = "do\0C"; continue; // flow control is the first word of a pipeline segment } else if (arg->c>1) continue; // Do we expect something that _must_ come next? (no multiple statements) if (ex) { // When waiting for { it must be next symbol, but can be on a new line. if (!strcmp(ex, "{")) { if (strcmp(s, "{")) goto flush; free(arg->v[--arg->c]); // don't save the {, function starts the block free(dlist_lpop(&sp->expect)); continue; // The "test" part of for/select loops can have (at most) one "in" line, // for {((;;))|name [in...]} do } else if (!memcmp(ex, "do\0C", 4)) { if (strcmp(s, "do")) { // can only have one "in" line between for/do, but not with for(()) if (!pl->prev->type) goto flush; if (!strncmp(pl->prev->arg->v[1], "((", 2)) goto flush; else if (strcmp(s, "in")) goto flush; continue; } } } // start of a new block? // for/select requires variable name on same line, can't break segment yet if (!strcmp(s, "for") || !strcmp(s, "select")) { if (!pl->type) pl->type = 1; dlist_add(&sp->expect, "do\0A"); continue; } end = 0; if (!strcmp(s, "if")) end = "then"; else if (!strcmp(s, "while") || !strcmp(s, "until")) end = "do\0B"; else if (!strcmp(s, "case")) end = "esac"; else if (!strcmp(s, "{")) end = "}"; else if (!strcmp(s, "[[")) end = "]]"; else if (!strcmp(s, "(")) end = ")"; // Expecting NULL means a statement: I.E. any otherwise unrecognized word else if (sp->expect && !ex) { free(dlist_lpop(&sp->expect)); continue; } else if (!ex) goto check; // Did we start a new statement? if (end) { pl->type = 1; // Only innermost statement needed in { { { echo ;} ;} ;} and such if (sp->expect && !sp->expect->prev->data) free(dlist_lpop(&sp->expect)); // If we got here we expect a specific word to end this block: is this it? } else if (!strcmp(s, ex)) { // can't "if | then" or "while && do", only ; & or newline works if (last && (strcmp(ex, "then") || strcmp(last, "&"))) { s = end; goto flush; } free(dlist_lpop(&sp->expect)); pl->type = anystr(s, (char *[]){"fi", "done", "esac", "}", "]]", ")", 0}) ? 3 : 2; // if it's a multipart block, what comes next? if (!strcmp(s, "do")) end = "done"; else if (!strcmp(s, "then")) end = "fi\0A"; // fi could have elif, which queues a then. } else if (!strcmp(ex, "fi")) { if (!strcmp(s, "elif")) { free(dlist_lpop(&sp->expect)); end = "then"; // catch duplicate else while we're here } else if (!strcmp(s, "else")) { if (ex[3] != 'A') { s = "2 else"; goto flush; } free(dlist_lpop(&sp->expect)); end = "fi\0B"; } } // Do we need to queue up the next thing to expect? if (end) { if (!pl->type) pl->type = 2; dlist_add(&sp->expect, end); dlist_add(&sp->expect, 0); // they're all preceded by a statement pl->count = -1; } check: // syntax error check: these can't be the first word in an unexpected place if (!pl->type && anystr(s, (char *[]){"then", "do", "esac", "}", "]]", ")", "done", "fi", "elif", "else", 0})) goto flush; } free(delete); // ignore blank and comment lines if (!sp->pipeline) return 0; // TODO <<< has no parsing impact, why play with it here at all? // advance past <<< arguments (stored as here documents, but no new input) pl = sp->pipeline->prev; while (pl->counthere && pl->arg[pl->count].c<0) pl->arg[pl->count++].c = 0; // return if HERE document pending or more flow control needed to complete if (sp->expect) return 1; if (sp->pipeline && pl->count != pl->here) return 1; if (pl->arg->v[pl->arg->c]) return 1; // Don't need more input, can start executing. dlist_terminate(sp->pipeline); return 0; flush: if (s) syntax_err("bad %s", s); free_function(sp); return 0-!!s; } static void dump_state(struct sh_function *sp) { struct sh_pipeline *pl; int q = 0; long i; if (sp->expect) { struct double_list *dl; for (dl = sp->expect; dl; dl = (dl->next == sp->expect) ? 0 : dl->next) dprintf(2, "expecting %s\n", dl->data); if (sp->pipeline) dprintf(2, "pipeline count=%d here=%d\n", sp->pipeline->prev->count, sp->pipeline->prev->here); } for (pl = sp->pipeline; pl ; pl = (pl->next == sp->pipeline) ? 0 : pl->next) { for (i = 0; iarg->c; i++) dprintf(2, "arg[%d][%ld]=%s\n", q, i, pl->arg->v[i]); dprintf(2, "type=%d term[%d]=%s\n", pl->type, q++, pl->arg->v[pl->arg->c]); } } /* Flow control statements: if/then/elif/else/fi, for select while until/do/done, case/esac, {/}, [[/]], (/), function assignment */ static int wait_pipeline(struct sh_process *pp) { int rc = 0; for (dlist_terminate(pp); pp; pp = pp->next) { if (pp->pid) { // TODO job control: not xwait, handle EINTR ourselves and check signals pp->exit = xwaitpid(pp->pid); pp->pid = 0; } // TODO handle set -o pipefail here rc = pp->exit; } return rc; } static int pipe_segments(char *ctl, int *pipes, int **urd) { unredirect(*urd); *urd = 0; // Did the previous pipe segment pipe input into us? if (*pipes != -1) { save_redirect(urd, *pipes, 0); close(*pipes); *pipes = -1; } // are we piping output to the next segment? if (ctl && *ctl == '|' && ctl[1] != '|') { if (pipe(pipes)) { perror_msg("pipe"); // TODO record pipeline rc // TODO check did not reach end of pipeline after loop return 1; } if (pipes[1] != 1) { save_redirect(urd, pipes[1], 1); close(pipes[1]); } fcntl(*pipes, F_SETFD, FD_CLOEXEC); } return 0; } static struct sh_pipeline *skip_andor(int rc, struct sh_pipeline *pl) { char *ctl = pl->arg->v[pl->arg->c]; // For && and || skip pipeline segment(s) based on return code while (ctl && ((!strcmp(ctl, "&&") && rc) || (!strcmp(ctl, "||") && !rc))) { if (!pl->next || pl->next->type == 2 || pl->next->type == 3) break; pl = pl->type ? block_end(pl) : pl->next; ctl = pl ? pl->arg->v[pl->arg->c] : 0; } return pl; } // run a parsed shell function. Handle flow control blocks and characters, // setup pipes and block redirection, break/continue, call builtins, // vfork/exec external commands. static void run_function(struct sh_function *sp) { struct sh_pipeline *pl = sp->pipeline, *end; struct blockstack { struct blockstack *next; struct sh_pipeline *start, *end; struct sh_process *pin; // processes piping into this block int run, loop, *urd, pout; struct sh_arg farg; // for/select arg stack struct string_list *fdelete; // farg's cleanup list char *fvar; // for/select's iteration variable name } *blk = 0, *new; struct sh_process *pplist = 0; // processes piping into current level int *urd = 0, pipes[2] = {-1, -1}; long i; // TODO can't free sh_process delete until ready to dispose else no debug output // iterate through pipeline segments while (pl) { char *s = *pl->arg->v, *ss = pl->arg->v[1]; // Is this an executable segment? if (!pl->type) { struct sh_arg *arg = pl->arg; char *ctl = arg->v[arg->c]; // Skip disabled block if (blk && !blk->run) { while (pl->next && !pl->next->type) pl = pl->next; continue; } if (pipe_segments(ctl, pipes, &urd)) break; // If we just started a new pipeline, implicit parentheses (subshell) // TODO: "echo | read i" is backgroundable with ctrl-Z despite read = builtin. // probably have to inline run_command here to do that? Implicit () // also "X=42 | true; echo $X" doesn't get X. // TODO: bash supports "break &" and "break > file". No idea why. // Is it a flow control jump? These aren't handled as normal builtins // because they move *pl to other pipeline segments which is local here. if (!strcmp(s, "break") || !strcmp(s, "continue")) { // How many layers to peel off? i = ss ? atol(ss) : 0; if (i<1) i = 1; if (!blk || pl->arg->c>2 || ss[strspn(ss, "0123456789")]) { syntax_err("bad %s", s); break; } i = atol(ss); if (!i) i++; while (i && blk) { if (--i && *s == 'c') { pl = blk->start; break; } pl = blk->end; // TODO collate end_block logic // if ending a block, free, cleanup redirects, and pop stack. llist_traverse(blk->fdelete, free); unredirect(blk->urd); if (*pipes) close(*pipes); *pipes = blk->pout; free(llist_pop(&blk)); } if (i) { syntax_err("break outside loop"); break; } pl = pl->next; continue; // Parse and run next command } else { // TODO: "echo | read i" is backgroundable with ctrl-Z despite read = builtin. // probably have to inline run_command here to do that? Implicit () // also "X=42 | true; echo $X" doesn't get X. dlist_add_nomalloc((void *)&pplist, (void *)run_command(arg)); } if (*pipes == -1) { toys.exitval = wait_pipeline(pplist); llist_traverse(pplist, free_process); pplist = 0; pl = skip_andor(toys.exitval, pl); } // Start of flow control block? } else if (pl->type == 1) { // are we entering this block (rather than looping back to it)? if (!blk || blk->start != pl) { struct sh_process *pp; // If it's a nested block we're not running, skip ahead. end = block_end(pl->next); if (blk && !blk->run) { pl = end; if (pl) pl = pl->next; continue; } // If previous piped into this block, save context until block end if (pipe_segments(0, pipes, &urd)) break; // It's a new block we're running, save context and add it to the stack. new = xzalloc(sizeof(*blk)); new->next = blk; blk = new; blk->start = pl; blk->end = end; blk->run = 1; // save context until block end blk->pout = *pipes; blk->urd = urd; urd = 0; *pipes = -1; // Perform redirects listed at end of block pp = expand_redir(blk->end->arg, 0, blk->urd); blk->urd = pp->urd; if (pp->arg.c) perror_msg("unexpected %s", *pp->arg.v); llist_traverse(pp->delete, free); if (pp->arg.c) break; free(pp); } // What flow control statement is this? // TODO ( subshell // if/then/elif/else/fi, while until/do/done - no special handling needed // for select/do/done if (!strcmp(s, "for") || !strcmp(s, "select")) { if (blk->loop); else if (!strncmp(blk->fvar = ss, "((", 2)) { blk->loop = 1; dprintf(2, "TODO skipped init for((;;)), need math parser\n"); } else { // populate blk->farg with expanded arguments if (!pl->next->type) { for (i = 1; inext->arg->c; i++) expand_arg(&blk->farg, pl->next->arg->v[i], 0, &blk->fdelete); } else expand_arg(&blk->farg, "\"$@\"", 0, &blk->fdelete); } pl = pl->next; } /* TODO case/esac {/} [[/]] (/) ((/)) function/} */ // gearshift from block start to block body (end of flow control test) } else if (pl->type == 2) { // Handle if statement if (!strcmp(s, "then")) blk->run = blk->run && !toys.exitval; else if (!strcmp(s, "else") || !strcmp(s, "elif")) blk->run = !blk->run; else if (!strcmp(s, "do")) { ss = *blk->start->arg->v; if (!strcmp(ss, "while")) blk->run = blk->run && !toys.exitval; else if (!strcmp(ss, "until")) blk->run = blk->run && toys.exitval; else if (blk->loop >= blk->farg.c) { blk->run = 0; pl = block_end(pl); continue; } else if (!strncmp(blk->fvar, "((", 2)) { dprintf(2, "TODO skipped running for((;;)), need math parser\n"); } else setvar(xmprintf("%s=%s", blk->fvar, blk->farg.v[blk->loop++]), TAKE_MEM); } // end of block, may have trailing redirections and/or pipe } else if (pl->type == 3) { // repeating block? if (blk->run && !strcmp(s, "done")) { pl = blk->start; continue; } // TODO goto "break" above instead of copying it here? // if ending a block, free, cleanup redirects, and pop stack. // needing to unredirect(urd) or close(pipes[0]) here would be syntax err llist_traverse(blk->fdelete, free); unredirect(blk->urd); *pipes = blk->pout; free(llist_pop(&blk)); } else if (pl->type == 'f') pl = add_function(s, pl); pl = pl->next; } // did we exit with unfinished stuff? if (*pipes != -1) close(*pipes); if (pplist) { toys.exitval = wait_pipeline(pplist); llist_traverse(pplist, free_process); } unredirect(urd); // Cleanup from syntax_err(); while (blk) { llist_traverse(blk->fdelete, free); unredirect(blk->urd); free(llist_pop(&blk)); } return; } void subshell_imports(void) { /* // TODO cull local variables because 'env "()=42" env | grep 42' works. // vfork() means subshells have to export and then re-import locals/functions sprintf(toybuf, "(%d#%d)", getpid(), getppid()); if ((s = getenv(toybuf))) { char *from, *to, *ss; unsetenv(toybuf); ss = s; // Loop through packing \\ until \0 for (from = to = s; *from; from++, to++) { *to = *from; if (*from != '\\') continue; if (from[1] == '\\' || from[1] == '0') from++; if (from[1] != '0') continue; *to = 0; // save chunk for (ss = s; ss