/* $OpenBSD: syn.c,v 1.30 2015/09/01 13:12:31 tedu Exp $ */ /*- * Copyright (c) 2003, 2004, 2005, 2006, 2007, 2008, 2009, * 2011, 2012, 2013, 2014, 2015, 2016, 2017, * 2018 * mirabilos <m@mirbsd.org> * * Provided that these terms and disclaimer and all copyright notices * are retained or reproduced in an accompanying document, permission * is granted to deal in this work without restriction, including un- * limited rights to use, publicly perform, distribute, sell, modify, * merge, give away, or sublicence. * * This work is provided "AS IS" and WITHOUT WARRANTY of any kind, to * the utmost extent permitted by applicable law, neither express nor * implied; without malicious intent or gross negligence. In no event * may a licensor, author or contributor be held liable for indirect, * direct, other damage, loss, or other issues arising in any way out * of dealing in the work, even if advised of the possibility of such * damage or existence of a defect, except proven that it results out * of said person's immediate fault when using the work as intended. */ #include "sh.h" __RCSID("$MirOS: src/bin/mksh/syn.c,v 1.127 2018/01/14 00:22:30 tg Exp $"); struct nesting_state { int start_token; /* token than began nesting (eg, FOR) */ int start_line; /* line nesting began on */ }; struct yyrecursive_state { struct ioword *old_heres[HERES]; struct yyrecursive_state *next; struct ioword **old_herep; int old_symbol; unsigned int old_nesting_type; bool old_reject; }; static void yyparse(bool); static struct op *pipeline(int, int); static struct op *andor(int); static struct op *c_list(int, bool); static struct ioword *synio(int); static struct op *nested(int, int, int, int); static struct op *get_command(int, int); static struct op *dogroup(int); static struct op *thenpart(int); static struct op *elsepart(int); static struct op *caselist(int); static struct op *casepart(int, int); static struct op *function_body(char *, int, bool); static char **wordlist(int); static struct op *block(int, struct op *, struct op *); static struct op *newtp(int); static void syntaxerr(const char *) MKSH_A_NORETURN; static void nesting_push(struct nesting_state *, int); static void nesting_pop(struct nesting_state *); static int inalias(struct source *) MKSH_A_PURE; static Test_op dbtestp_isa(Test_env *, Test_meta); static const char *dbtestp_getopnd(Test_env *, Test_op, bool); static int dbtestp_eval(Test_env *, Test_op, const char *, const char *, bool); static void dbtestp_error(Test_env *, int, const char *) MKSH_A_NORETURN; static struct op *outtree; /* yyparse output */ static struct nesting_state nesting; /* \n changed to ; */ static bool reject; /* token(cf) gets symbol again */ static int symbol; /* yylex value */ #define REJECT (reject = true) #define ACCEPT (reject = false) #define token(cf) ((reject) ? (ACCEPT, symbol) : (symbol = yylex(cf))) #define tpeek(cf) ((reject) ? (symbol) : (REJECT, symbol = yylex(cf))) #define musthave(c,cf) do { \ if ((unsigned int)token(cf) != (unsigned int)(c)) \ syntaxerr(NULL); \ } while (/* CONSTCOND */ 0) static const char Tcbrace[] = "}"; static const char Tesac[] = "esac"; static void yyparse(bool doalias) { int c; ACCEPT; outtree = c_list(doalias ? ALIAS : 0, source->type == SSTRING); c = tpeek(0); if (c == 0 && !outtree) outtree = newtp(TEOF); else if (!cinttype(c, C_LF | C_NUL)) syntaxerr(NULL); } static struct op * pipeline(int cf, int sALIAS) { struct op *t, *p, *tl = NULL; t = get_command(cf, sALIAS); if (t != NULL) { while (token(0) == '|') { if ((p = get_command(CONTIN, sALIAS)) == NULL) syntaxerr(NULL); if (tl == NULL) t = tl = block(TPIPE, t, p); else tl = tl->right = block(TPIPE, tl->right, p); } REJECT; } return (t); } static struct op * andor(int sALIAS) { struct op *t, *p; int c; t = pipeline(0, sALIAS); if (t != NULL) { while ((c = token(0)) == LOGAND || c == LOGOR) { if ((p = pipeline(CONTIN, sALIAS)) == NULL) syntaxerr(NULL); t = block(c == LOGAND? TAND: TOR, t, p); } REJECT; } return (t); } static struct op * c_list(int sALIAS, bool multi) { struct op *t = NULL, *p, *tl = NULL; int c; bool have_sep; while (/* CONSTCOND */ 1) { p = andor(sALIAS); /* * Token has always been read/rejected at this point, so * we don't worry about what flags to pass token() */ c = token(0); have_sep = true; if (c == '\n' && (multi || inalias(source))) { if (!p) /* ignore blank lines */ continue; } else if (!p) break; else if (c == '&' || c == COPROC) p = block(c == '&' ? TASYNC : TCOPROC, p, NULL); else if (c != ';') have_sep = false; if (!t) t = p; else if (!tl) t = tl = block(TLIST, t, p); else tl = tl->right = block(TLIST, tl->right, p); if (!have_sep) break; } REJECT; return (t); } static const char IONDELIM_delim[] = { CHAR, '<', CHAR, '<', EOS }; static struct ioword * synio(int cf) { struct ioword *iop; static struct ioword *nextiop; bool ishere; if (nextiop != NULL) { iop = nextiop; nextiop = NULL; return (iop); } if (tpeek(cf) != REDIR) return (NULL); ACCEPT; iop = yylval.iop; ishere = (iop->ioflag & IOTYPE) == IOHERE; if (iop->ioflag & IOHERESTR) { musthave(LWORD, 0); } else if (ishere && tpeek(HEREDELIM) == '\n') { ACCEPT; yylval.cp = wdcopy(IONDELIM_delim, ATEMP); iop->ioflag |= IOEVAL | IONDELIM; } else musthave(LWORD, ishere ? HEREDELIM : 0); if (ishere) { iop->delim = yylval.cp; if (*ident != 0 && !(iop->ioflag & IOHERESTR)) { /* unquoted */ iop->ioflag |= IOEVAL; } if (herep > &heres[HERES - 1]) yyerror(Tf_toomany, "<<"); *herep++ = iop; } else iop->ioname = yylval.cp; if (iop->ioflag & IOBASH) { char *cp; nextiop = alloc(sizeof(*iop), ATEMP); nextiop->ioname = cp = alloc(3, ATEMP); *cp++ = CHAR; *cp++ = digits_lc[iop->unit % 10]; *cp = EOS; iop->ioflag &= ~IOBASH; nextiop->unit = 2; nextiop->ioflag = IODUP; nextiop->delim = NULL; nextiop->heredoc = NULL; } return (iop); } static struct op * nested(int type, int smark, int emark, int sALIAS) { struct op *t; struct nesting_state old_nesting; nesting_push(&old_nesting, smark); t = c_list(sALIAS, true); musthave(emark, KEYWORD|sALIAS); nesting_pop(&old_nesting); return (block(type, t, NULL)); } static const char builtin_cmd[] = { QCHAR, '\\', CHAR, 'b', CHAR, 'u', CHAR, 'i', CHAR, 'l', CHAR, 't', CHAR, 'i', CHAR, 'n', EOS }; static const char let_cmd[] = { CHAR, 'l', CHAR, 'e', CHAR, 't', EOS }; static const char setA_cmd0[] = { CHAR, 's', CHAR, 'e', CHAR, 't', EOS }; static const char setA_cmd1[] = { CHAR, '-', CHAR, 'A', EOS }; static const char setA_cmd2[] = { CHAR, '-', CHAR, '-', EOS }; static struct op * get_command(int cf, int sALIAS) { struct op *t; int c, iopn = 0, syniocf, lno; struct ioword *iop, **iops; XPtrV args, vars; struct nesting_state old_nesting; /* NUFILE is small enough to leave this addition unchecked */ iops = alloc2((NUFILE + 1), sizeof(struct ioword *), ATEMP); XPinit(args, 16); XPinit(vars, 16); syniocf = KEYWORD|sALIAS; switch (c = token(cf|KEYWORD|sALIAS|CMDASN)) { default: REJECT; afree(iops, ATEMP); XPfree(args); XPfree(vars); /* empty line */ return (NULL); case LWORD: case REDIR: REJECT; syniocf &= ~(KEYWORD|sALIAS); t = newtp(TCOM); t->lineno = source->line; goto get_command_start; while (/* CONSTCOND */ 1) { bool check_decl_utility; if (XPsize(args) == 0) { get_command_start: check_decl_utility = true; cf = sALIAS | CMDASN; } else if (t->u.evalflags) cf = CMDWORD | CMDASN; else cf = CMDWORD; switch (tpeek(cf)) { case REDIR: while ((iop = synio(cf)) != NULL) { if (iopn >= NUFILE) yyerror(Tf_toomany, Tredirection); iops[iopn++] = iop; } break; case LWORD: ACCEPT; if (check_decl_utility) { struct tbl *tt = get_builtin(ident); uint32_t flag; flag = tt ? tt->flag : 0; if (flag & DECL_UTIL) t->u.evalflags = DOVACHECK; if (!(flag & DECL_FWDR)) check_decl_utility = false; } if ((XPsize(args) == 0 || Flag(FKEYWORD)) && is_wdvarassign(yylval.cp)) XPput(vars, yylval.cp); else XPput(args, yylval.cp); break; case ORD('(' /*)*/): if (XPsize(args) == 0 && XPsize(vars) == 1 && is_wdvarassign(yylval.cp)) { char *tcp; /* wdarrassign: foo=(bar) */ ACCEPT; /* manipulate the vars string */ tcp = XPptrv(vars)[(vars.len = 0)]; /* 'varname=' -> 'varname' */ tcp[wdscan(tcp, EOS) - tcp - 3] = EOS; /* construct new args strings */ XPput(args, wdcopy(builtin_cmd, ATEMP)); XPput(args, wdcopy(setA_cmd0, ATEMP)); XPput(args, wdcopy(setA_cmd1, ATEMP)); XPput(args, tcp); XPput(args, wdcopy(setA_cmd2, ATEMP)); /* slurp in words till closing paren */ while (token(CONTIN) == LWORD) XPput(args, yylval.cp); if (symbol != /*(*/ ')') syntaxerr(NULL); } else { /* * Check for "> foo (echo hi)" * which AT&T ksh allows (not * POSIX, but not disallowed) */ afree(t, ATEMP); if (XPsize(args) == 0 && XPsize(vars) == 0) { ACCEPT; goto Subshell; } /* must be a function */ if (iopn != 0 || XPsize(args) != 1 || XPsize(vars) != 0) syntaxerr(NULL); ACCEPT; musthave(/*(*/ ')', 0); t = function_body(XPptrv(args)[0], sALIAS, false); } goto Leave; default: goto Leave; } } Leave: break; case ORD('(' /*)*/): { unsigned int subshell_nesting_type_saved; Subshell: subshell_nesting_type_saved = subshell_nesting_type; subshell_nesting_type = ORD(')'); t = nested(TPAREN, ORD('('), ORD(')'), sALIAS); subshell_nesting_type = subshell_nesting_type_saved; break; } case ORD('{' /*}*/): t = nested(TBRACE, ORD('{'), ORD('}'), sALIAS); break; case MDPAREN: /* leave KEYWORD in syniocf (allow if (( 1 )) then ...) */ lno = source->line; ACCEPT; switch (token(LETEXPR)) { case LWORD: break; case ORD('(' /*)*/): c = ORD('('); goto Subshell; default: syntaxerr(NULL); } t = newtp(TCOM); t->lineno = lno; XPput(args, wdcopy(builtin_cmd, ATEMP)); XPput(args, wdcopy(let_cmd, ATEMP)); XPput(args, yylval.cp); break; case DBRACKET: /* [[ .. ]] */ /* leave KEYWORD in syniocf (allow if [[ -n 1 ]] then ...) */ t = newtp(TDBRACKET); ACCEPT; { Test_env te; te.flags = TEF_DBRACKET; te.pos.av = &args; te.isa = dbtestp_isa; te.getopnd = dbtestp_getopnd; te.eval = dbtestp_eval; te.error = dbtestp_error; test_parse(&te); } break; case FOR: case SELECT: t = newtp((c == FOR) ? TFOR : TSELECT); musthave(LWORD, CMDASN); if (!is_wdvarname(yylval.cp, true)) yyerror("%s: bad identifier", c == FOR ? "for" : Tselect); strdupx(t->str, ident, ATEMP); nesting_push(&old_nesting, c); t->vars = wordlist(sALIAS); t->left = dogroup(sALIAS); nesting_pop(&old_nesting); break; case WHILE: case UNTIL: nesting_push(&old_nesting, c); t = newtp((c == WHILE) ? TWHILE : TUNTIL); t->left = c_list(sALIAS, true); t->right = dogroup(sALIAS); nesting_pop(&old_nesting); break; case CASE: t = newtp(TCASE); musthave(LWORD, 0); t->str = yylval.cp; nesting_push(&old_nesting, c); t->left = caselist(sALIAS); nesting_pop(&old_nesting); break; case IF: nesting_push(&old_nesting, c); t = newtp(TIF); t->left = c_list(sALIAS, true); t->right = thenpart(sALIAS); musthave(FI, KEYWORD|sALIAS); nesting_pop(&old_nesting); break; case BANG: syniocf &= ~(KEYWORD|sALIAS); t = pipeline(0, sALIAS); if (t == NULL) syntaxerr(NULL); t = block(TBANG, NULL, t); break; case TIME: syniocf &= ~(KEYWORD|sALIAS); t = pipeline(0, sALIAS); if (t && t->type == TCOM) { t->str = alloc(2, ATEMP); /* TF_* flags */ t->str[0] = '\0'; t->str[1] = '\0'; } t = block(TTIME, t, NULL); break; case FUNCTION: musthave(LWORD, 0); t = function_body(yylval.cp, sALIAS, true); break; } while ((iop = synio(syniocf)) != NULL) { if (iopn >= NUFILE) yyerror(Tf_toomany, Tredirection); iops[iopn++] = iop; } if (iopn == 0) { afree(iops, ATEMP); t->ioact = NULL; } else { iops[iopn++] = NULL; iops = aresize2(iops, iopn, sizeof(struct ioword *), ATEMP); t->ioact = iops; } if (t->type == TCOM || t->type == TDBRACKET) { XPput(args, NULL); t->args = (const char **)XPclose(args); XPput(vars, NULL); t->vars = (char **)XPclose(vars); } else { XPfree(args); XPfree(vars); } if (c == MDPAREN) { t = block(TBRACE, t, NULL); t->ioact = t->left->ioact; t->left->ioact = NULL; } return (t); } static struct op * dogroup(int sALIAS) { int c; struct op *list; c = token(CONTIN|KEYWORD|sALIAS); /* * A {...} can be used instead of do...done for for/select loops * but not for while/until loops - we don't need to check if it * is a while loop because it would have been parsed as part of * the conditional command list... */ if (c == DO) c = DONE; else if ((unsigned int)c == ORD('{')) c = ORD('}'); else syntaxerr(NULL); list = c_list(sALIAS, true); musthave(c, KEYWORD|sALIAS); return (list); } static struct op * thenpart(int sALIAS) { struct op *t; musthave(THEN, KEYWORD|sALIAS); t = newtp(0); t->left = c_list(sALIAS, true); if (t->left == NULL) syntaxerr(NULL); t->right = elsepart(sALIAS); return (t); } static struct op * elsepart(int sALIAS) { struct op *t; switch (token(KEYWORD|sALIAS|CMDASN)) { case ELSE: if ((t = c_list(sALIAS, true)) == NULL) syntaxerr(NULL); return (t); case ELIF: t = newtp(TELIF); t->left = c_list(sALIAS, true); t->right = thenpart(sALIAS); return (t); default: REJECT; } return (NULL); } static struct op * caselist(int sALIAS) { struct op *t, *tl; int c; c = token(CONTIN|KEYWORD|sALIAS); /* A {...} can be used instead of in...esac for case statements */ if (c == IN) c = ESAC; else if ((unsigned int)c == ORD('{')) c = ORD('}'); else syntaxerr(NULL); t = tl = NULL; /* no ALIAS here */ while ((tpeek(CONTIN|KEYWORD|ESACONLY)) != c) { struct op *tc = casepart(c, sALIAS); if (tl == NULL) t = tl = tc, tl->right = NULL; else tl->right = tc, tl = tc; } musthave(c, KEYWORD|sALIAS); return (t); } static struct op * casepart(int endtok, int sALIAS) { struct op *t; XPtrV ptns; XPinit(ptns, 16); t = newtp(TPAT); /* no ALIAS here */ if ((unsigned int)token(CONTIN | KEYWORD) != ORD('(')) REJECT; do { switch (token(0)) { case LWORD: break; case ORD('}'): case ESAC: if (symbol != endtok) { strdupx(yylval.cp, (unsigned int)symbol == ORD('}') ? Tcbrace : Tesac, ATEMP); break; } /* FALLTHROUGH */ default: syntaxerr(NULL); } XPput(ptns, yylval.cp); } while (token(0) == '|'); REJECT; XPput(ptns, NULL); t->vars = (char **)XPclose(ptns); musthave(ORD(')'), 0); t->left = c_list(sALIAS, true); /* initialise to default for ;; or omitted */ t->u.charflag = ORD(';'); /* SUSv4 requires the ;; except in the last casepart */ if ((tpeek(CONTIN|KEYWORD|sALIAS)) != endtok) switch (symbol) { default: syntaxerr(NULL); case BRKEV: t->u.charflag = ORD('|'); if (0) /* FALLTHROUGH */ case BRKFT: t->u.charflag = ORD('&'); /* FALLTHROUGH */ case BREAK: /* initialised above, but we need to eat the token */ ACCEPT; } return (t); } static struct op * function_body(char *name, int sALIAS, /* function foo { ... } vs foo() { .. } */ bool ksh_func) { char *sname, *p; struct op *t; sname = wdstrip(name, 0); /*- * Check for valid characters in name. POSIX and AT&T ksh93 say * only allow [a-zA-Z_0-9] but this allows more as old pdkshs * have allowed more; the following were never allowed: * NUL TAB NL SP " $ & ' ( ) ; < = > \ ` | * C_QUOTE|C_SPC covers all but adds # * ? [ ] */ for (p = sname; *p; p++) if (ctype(*p, C_QUOTE | C_SPC)) yyerror(Tinvname, sname, Tfunction); /* * Note that POSIX allows only compound statements after foo(), * sh and AT&T ksh allow any command, go with the later since it * shouldn't break anything. However, for function foo, AT&T ksh * only accepts an open-brace. */ if (ksh_func) { if ((unsigned int)tpeek(CONTIN|KEYWORD|sALIAS) == ORD('(' /*)*/)) { /* function foo () { //}*/ ACCEPT; musthave(ORD(/*(*/ ')'), 0); /* degrade to POSIX function */ ksh_func = false; } musthave(ORD('{' /*}*/), CONTIN|KEYWORD|sALIAS); REJECT; } t = newtp(TFUNCT); t->str = sname; t->u.ksh_func = tobool(ksh_func); t->lineno = source->line; if ((t->left = get_command(CONTIN, sALIAS)) == NULL) { char *tv; /* * Probably something like foo() followed by EOF or ';'. * This is accepted by sh and ksh88. * To make "typeset -f foo" work reliably (so its output can * be used as input), we pretend there is a colon here. */ t->left = newtp(TCOM); /* (2 * sizeof(char *)) is small enough */ t->left->args = alloc(2 * sizeof(char *), ATEMP); t->left->args[0] = tv = alloc(3, ATEMP); tv[0] = QCHAR; tv[1] = ':'; tv[2] = EOS; t->left->args[1] = NULL; t->left->vars = alloc(sizeof(char *), ATEMP); t->left->vars[0] = NULL; t->left->lineno = 1; } return (t); } static char ** wordlist(int sALIAS) { int c; XPtrV args; XPinit(args, 16); /* POSIX does not do alias expansion here... */ if ((c = token(CONTIN|KEYWORD|sALIAS)) != IN) { if (c != ';') /* non-POSIX, but AT&T ksh accepts a ; here */ REJECT; return (NULL); } while ((c = token(0)) == LWORD) XPput(args, yylval.cp); if (c != '\n' && c != ';') syntaxerr(NULL); XPput(args, NULL); return ((char **)XPclose(args)); } /* * supporting functions */ static struct op * block(int type, struct op *t1, struct op *t2) { struct op *t; t = newtp(type); t->left = t1; t->right = t2; return (t); } static const struct tokeninfo { const char *name; short val; short reserved; } tokentab[] = { /* Reserved words */ { "if", IF, true }, { "then", THEN, true }, { "else", ELSE, true }, { "elif", ELIF, true }, { "fi", FI, true }, { "case", CASE, true }, { Tesac, ESAC, true }, { "for", FOR, true }, { Tselect, SELECT, true }, { "while", WHILE, true }, { "until", UNTIL, true }, { "do", DO, true }, { "done", DONE, true }, { "in", IN, true }, { Tfunction, FUNCTION, true }, { Ttime, TIME, true }, { "{", ORD('{'), true }, { Tcbrace, ORD('}'), true }, { "!", BANG, true }, { "[[", DBRACKET, true }, /* Lexical tokens (0[EOF], LWORD and REDIR handled specially) */ { "&&", LOGAND, false }, { "||", LOGOR, false }, { ";;", BREAK, false }, { ";|", BRKEV, false }, { ";&", BRKFT, false }, { "((", MDPAREN, false }, { "|&", COPROC, false }, /* and some special cases... */ { "newline", ORD('\n'), false }, { NULL, 0, false } }; void initkeywords(void) { struct tokeninfo const *tt; struct tbl *p; ktinit(APERM, &keywords, /* currently 28 keywords: 75% of 64 = 2^6 */ 6); for (tt = tokentab; tt->name; tt++) { if (tt->reserved) { p = ktenter(&keywords, tt->name, hash(tt->name)); p->flag |= DEFINED|ISSET; p->type = CKEYWD; p->val.i = tt->val; } } } static void syntaxerr(const char *what) { /* 23<<- is the longest redirection, I think */ char redir[8]; const char *s; struct tokeninfo const *tt; int c; if (!what) what = Tunexpected; REJECT; c = token(0); Again: switch (c) { case 0: if (nesting.start_token) { c = nesting.start_token; source->errline = nesting.start_line; what = "unmatched"; goto Again; } /* don't quote the EOF */ yyerror("%s: unexpected EOF", Tsynerr); /* NOTREACHED */ case LWORD: s = snptreef(NULL, 32, Tf_S, yylval.cp); break; case REDIR: s = snptreef(redir, sizeof(redir), Tft_R, yylval.iop); break; default: for (tt = tokentab; tt->name; tt++) if (tt->val == c) break; if (tt->name) s = tt->name; else { if (c > 0 && c < 256) { redir[0] = c; redir[1] = '\0'; } else shf_snprintf(redir, sizeof(redir), "?%d", c); s = redir; } } yyerror(Tf_sD_s_qs, Tsynerr, what, s); } static void nesting_push(struct nesting_state *save, int tok) { *save = nesting; nesting.start_token = tok; nesting.start_line = source->line; } static void nesting_pop(struct nesting_state *saved) { nesting = *saved; } static struct op * newtp(int type) { struct op *t; t = alloc(sizeof(struct op), ATEMP); t->type = type; t->u.evalflags = 0; t->args = NULL; t->vars = NULL; t->ioact = NULL; t->left = t->right = NULL; t->str = NULL; return (t); } struct op * compile(Source *s, bool skiputf8bom, bool doalias) { nesting.start_token = 0; nesting.start_line = 0; herep = heres; source = s; if (skiputf8bom) yyskiputf8bom(); yyparse(doalias); return (outtree); } /* Check if we are in the middle of reading an alias */ static int inalias(struct source *s) { while (s && s->type == SALIAS) { if (!(s->flags & SF_ALIASEND)) return (1); s = s->next; } return (0); } /* * Order important - indexed by Test_meta values * Note that ||, &&, ( and ) can't appear in as unquoted strings * in normal shell input, so these can be interpreted unambiguously * in the evaluation pass. */ static const char dbtest_or[] = { CHAR, '|', CHAR, '|', EOS }; static const char dbtest_and[] = { CHAR, '&', CHAR, '&', EOS }; static const char dbtest_not[] = { CHAR, '!', EOS }; static const char dbtest_oparen[] = { CHAR, '(', EOS }; static const char dbtest_cparen[] = { CHAR, ')', EOS }; const char * const dbtest_tokens[] = { dbtest_or, dbtest_and, dbtest_not, dbtest_oparen, dbtest_cparen }; static const char db_close[] = { CHAR, ']', CHAR, ']', EOS }; static const char db_lthan[] = { CHAR, '<', EOS }; static const char db_gthan[] = { CHAR, '>', EOS }; /* * Test if the current token is a whatever. Accepts the current token if * it is. Returns 0 if it is not, non-zero if it is (in the case of * TM_UNOP and TM_BINOP, the returned value is a Test_op). */ static Test_op dbtestp_isa(Test_env *te, Test_meta meta) { int c = tpeek(CMDASN | (meta == TM_BINOP ? 0 : CONTIN)); bool uqword; char *save = NULL; Test_op ret = TO_NONOP; /* unquoted word? */ uqword = c == LWORD && *ident; if (meta == TM_OR) ret = c == LOGOR ? TO_NONNULL : TO_NONOP; else if (meta == TM_AND) ret = c == LOGAND ? TO_NONNULL : TO_NONOP; else if (meta == TM_NOT) ret = (uqword && !strcmp(yylval.cp, dbtest_tokens[(int)TM_NOT])) ? TO_NONNULL : TO_NONOP; else if (meta == TM_OPAREN) ret = (unsigned int)c == ORD('(') /*)*/ ? TO_NONNULL : TO_NONOP; else if (meta == TM_CPAREN) ret = (unsigned int)c == /*(*/ ORD(')') ? TO_NONNULL : TO_NONOP; else if (meta == TM_UNOP || meta == TM_BINOP) { if (meta == TM_BINOP && c == REDIR && (yylval.iop->ioflag == IOREAD || yylval.iop->ioflag == IOWRITE)) { ret = TO_NONNULL; save = wdcopy(yylval.iop->ioflag == IOREAD ? db_lthan : db_gthan, ATEMP); } else if (uqword && (ret = test_isop(meta, ident))) save = yylval.cp; } else /* meta == TM_END */ ret = (uqword && !strcmp(yylval.cp, db_close)) ? TO_NONNULL : TO_NONOP; if (ret != TO_NONOP) { ACCEPT; if ((unsigned int)meta < NELEM(dbtest_tokens)) save = wdcopy(dbtest_tokens[(int)meta], ATEMP); if (save) XPput(*te->pos.av, save); } return (ret); } static const char * dbtestp_getopnd(Test_env *te, Test_op op MKSH_A_UNUSED, bool do_eval MKSH_A_UNUSED) { int c = tpeek(CMDASN); if (c != LWORD) return (NULL); ACCEPT; XPput(*te->pos.av, yylval.cp); return (null); } static int dbtestp_eval(Test_env *te MKSH_A_UNUSED, Test_op op MKSH_A_UNUSED, const char *opnd1 MKSH_A_UNUSED, const char *opnd2 MKSH_A_UNUSED, bool do_eval MKSH_A_UNUSED) { return (1); } static void dbtestp_error(Test_env *te, int offset, const char *msg) { te->flags |= TEF_ERROR; if (offset < 0) { REJECT; /* Kludgy to say the least... */ symbol = LWORD; yylval.cp = *(XPptrv(*te->pos.av) + XPsize(*te->pos.av) + offset); } syntaxerr(msg); } #if HAVE_SELECT #ifndef EOVERFLOW #ifdef ERANGE #define EOVERFLOW ERANGE #else #define EOVERFLOW EINVAL #endif #endif bool parse_usec(const char *s, struct timeval *tv) { struct timeval tt; int i; tv->tv_sec = 0; /* parse integral part */ while (ctype(*s, C_DIGIT)) { tt.tv_sec = tv->tv_sec * 10 + ksh_numdig(*s++); /*XXX this overflow check maybe UB */ if (tt.tv_sec / 10 != tv->tv_sec) { errno = EOVERFLOW; return (true); } tv->tv_sec = tt.tv_sec; } tv->tv_usec = 0; if (!*s) /* no decimal fraction */ return (false); else if (*s++ != '.') { /* junk after integral part */ errno = EINVAL; return (true); } /* parse decimal fraction */ i = 100000; while (ctype(*s, C_DIGIT)) { tv->tv_usec += i * ksh_numdig(*s++); if (i == 1) break; i /= 10; } /* check for junk after fractional part */ while (ctype(*s, C_DIGIT)) ++s; if (*s) { errno = EINVAL; return (true); } /* end of input string reached, no errors */ return (false); } #endif /* * Helper function called from within lex.c:yylex() to parse * a COMSUB recursively using the main shell parser and lexer */ char * yyrecursive(int subtype) { struct op *t; char *cp; struct yyrecursive_state *ys; unsigned int stok, etok; if (subtype != COMSUB) { stok = ORD('{'); etok = ORD('}'); } else { stok = ORD('('); etok = ORD(')'); } ys = alloc(sizeof(struct yyrecursive_state), ATEMP); /* tell the lexer to accept a closing parenthesis as EOD */ ys->old_nesting_type = subshell_nesting_type; subshell_nesting_type = etok; /* push reject state, parse recursively, pop reject state */ ys->old_reject = reject; ys->old_symbol = symbol; ACCEPT; memcpy(ys->old_heres, heres, sizeof(heres)); ys->old_herep = herep; herep = heres; ys->next = e->yyrecursive_statep; e->yyrecursive_statep = ys; /* we use TPAREN as a helper container here */ t = nested(TPAREN, stok, etok, ALIAS); yyrecursive_pop(false); /* t->left because nested(TPAREN, ...) hides our goodies there */ cp = snptreef(NULL, 0, Tf_T, t->left); tfree(t, ATEMP); return (cp); } void yyrecursive_pop(bool popall) { struct yyrecursive_state *ys; popnext: if (!(ys = e->yyrecursive_statep)) return; e->yyrecursive_statep = ys->next; memcpy(heres, ys->old_heres, sizeof(heres)); herep = ys->old_herep; reject = ys->old_reject; symbol = ys->old_symbol; subshell_nesting_type = ys->old_nesting_type; afree(ys, ATEMP); if (popall) goto popnext; }