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Current File : //usr/src/usr.bin/xlint/lint2/chk.c |
/* $NetBSD: chk.c,v 1.15 2002/01/21 19:49:52 tv Exp $ */ /* * Copyright (c) 1996 Christopher G. Demetriou. All Rights Reserved. * Copyright (c) 1994, 1995 Jochen Pohl * All Rights Reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Jochen Pohl for * The NetBSD Project. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR 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. */ #include <sys/cdefs.h> #if defined(__RCSID) && !defined(lint) __RCSID("$NetBSD: chk.c,v 1.15 2002/01/21 19:49:52 tv Exp $"); #endif __FBSDID("$FreeBSD: release/9.1.0/usr.bin/xlint/lint2/chk.c 148723 2005-08-05 09:07:42Z stefanf $"); #include <ctype.h> #include <err.h> #include <limits.h> #include <stdlib.h> #include "lint2.h" static void chkund(hte_t *); static void chkdnu(hte_t *); static void chkdnud(hte_t *); static void chkmd(hte_t *); static void chkvtui(hte_t *, sym_t *, sym_t *); static void chkvtdi(hte_t *, sym_t *, sym_t *); static void chkfaui(hte_t *, sym_t *, sym_t *); static void chkau(hte_t *, int, sym_t *, sym_t *, pos_t *, fcall_t *, fcall_t *, type_t *, type_t *); static void chkrvu(hte_t *, sym_t *); static void chkadecl(hte_t *, sym_t *, sym_t *); static void printflike(hte_t *,fcall_t *, int, const char *, type_t **); static void scanflike(hte_t *, fcall_t *, int, const char *, type_t **); static void badfmt(hte_t *, fcall_t *); static void inconarg(hte_t *, fcall_t *, int); static void tofewarg(hte_t *, fcall_t *); static void tomanyarg(hte_t *, fcall_t *); static int eqtype(type_t *, type_t *, int, int, int, int *); static int eqargs(type_t *, type_t *, int *); static int mnoarg(type_t *, int *); /* * If there is a symbol named "main", mark it as used. */ void mainused(void) { hte_t *hte; if ((hte = hsearch("main", 0)) != NULL) hte->h_used = 1; } /* * Performs all tests for a single name */ void chkname(hte_t *hte) { sym_t *sym, *def, *pdecl, *decl; if (uflag) { chkund(hte); chkdnu(hte); if (xflag) chkdnud(hte); } chkmd(hte); /* Get definition, prototype declaration and declaration */ def = pdecl = decl = NULL; for (sym = hte->h_syms; sym != NULL; sym = sym->s_nxt) { if (def == NULL && (sym->s_def == DEF || sym->s_def == TDEF)) def = sym; if (pdecl == NULL && sym->s_def == DECL && TP(sym->s_type)->t_tspec == FUNC && TP(sym->s_type)->t_proto) { pdecl = sym; } if (decl == NULL && sym->s_def == DECL) decl = sym; } /* A prototype is better than an old style declaration. */ if (pdecl != NULL) decl = pdecl; chkvtui(hte, def, decl); chkvtdi(hte, def, decl); chkfaui(hte, def, decl); chkrvu(hte, def); chkadecl(hte, def, decl); } /* * Print a warning if the name has been used, but not defined. */ static void chkund(hte_t *hte) { fcall_t *fcall; usym_t *usym; if (!hte->h_used || hte->h_def) return; if ((fcall = hte->h_calls) != NULL) { /* %s used( %s ), but not defined */ msg(0, hte->h_name, mkpos(&fcall->f_pos)); } else if ((usym = hte->h_usyms) != NULL) { /* %s used( %s ), but not defined */ msg(0, hte->h_name, mkpos(&usym->u_pos)); } } /* * Print a warning if the name has been defined, but never used. */ static void chkdnu(hte_t *hte) { sym_t *sym; if (!hte->h_def || hte->h_used) return; for (sym = hte->h_syms; sym != NULL; sym = sym->s_nxt) { if (sym->s_def == DEF || sym->s_def == TDEF) { /* %s defined( %s ), but never used */ msg(1, hte->h_name, mkpos(&sym->s_pos)); break; } } } /* * Print a warning if the variable has been declared, but is not used * or defined. */ static void chkdnud(hte_t *hte) { sym_t *sym; if (hte->h_syms == NULL || hte->h_used || hte->h_def) return; sym = hte->h_syms; if (TP(sym->s_type)->t_tspec == FUNC) return; if (sym->s_def != DECL) errx(1, "internal error: chkdnud() 1"); /* %s declared( %s ), but never used or defined */ msg(2, hte->h_name, mkpos(&sym->s_pos)); } /* * Print a warning if there is more than one definition for * this name. */ static void chkmd(hte_t *hte) { sym_t *sym, *def1; char *pos1; if (!hte->h_def) return; def1 = NULL; for (sym = hte->h_syms; sym != NULL; sym = sym->s_nxt) { /* * ANSI C allows tentative definitions of the same name in * only one compilation unit. */ if (sym->s_def != DEF && (!sflag || sym->s_def != TDEF)) continue; if (def1 == NULL) { def1 = sym; continue; } pos1 = xstrdup(mkpos(&def1->s_pos)); /* %s multiply defined\t%s :: %s */ msg(3, hte->h_name, pos1, mkpos(&sym->s_pos)); free(pos1); } } /* * Print a warning if the return value assumed for a function call * differs from the return value of the function definition or * function declaration. * * If no definition/declaration can be found, the assumed return values * are always int. So there is no need to compare with another function * call as it's done for function arguments. */ static void chkvtui(hte_t *hte, sym_t *def, sym_t *decl) { fcall_t *call; char *pos1; type_t *tp1, *tp2; /* LINTED (automatic hides external declaration: warn) */ int warn, eq; tspec_t t1; if (hte->h_calls == NULL) return; if (def == NULL) def = decl; if (def == NULL) return; t1 = (tp1 = TP(def->s_type)->t_subt)->t_tspec; for (call = hte->h_calls; call != NULL; call = call->f_nxt) { tp2 = TP(call->f_type)->t_subt; eq = eqtype(tp1, tp2, 1, 0, 0, (warn = 0, &warn)); if (!call->f_rused) { /* no return value used */ if ((t1 == STRUCT || t1 == UNION) && !eq) { /* * If a function returns a struct or union it * must be declared to return a struct or * union, also if the return value is ignored. * This is necessary because the caller must * allocate stack space for the return value. * If it does not, the return value would over- * write other data. * XXX Following massage may be confusing * because it appears also if the return value * was declared inconsistently. But this * behaviour matches pcc based lint, so it is * accepted for now. */ pos1 = xstrdup(mkpos(&def->s_pos)); /* %s value must be decl. before use %s :: %s */ msg(17, hte->h_name, pos1, mkpos(&call->f_pos)); free(pos1); } continue; } if (!eq || (sflag && warn)) { pos1 = xstrdup(mkpos(&def->s_pos)); /* %s value used inconsistenty\t%s :: %s */ msg(4, hte->h_name, pos1, mkpos(&call->f_pos)); free(pos1); } } } /* * Print a warning if a definition/declaration does not match another * definition/declaration of the same name. For functions, only the * types of return values are tested. */ static void chkvtdi(hte_t *hte, sym_t *def, sym_t *decl) { sym_t *sym; type_t *tp1, *tp2; /* LINTED (automatic hides external declaration: warn) */ int eq, warn; char *pos1; if (def == NULL) def = decl; if (def == NULL) return; tp1 = TP(def->s_type); for (sym = hte->h_syms; sym != NULL; sym = sym->s_nxt) { if (sym == def) continue; tp2 = TP(sym->s_type); warn = 0; if (tp1->t_tspec == FUNC && tp2->t_tspec == FUNC) { eq = eqtype(tp1->t_subt, tp2->t_subt, 1, 0, 0, &warn); } else { eq = eqtype(tp1, tp2, 0, 0, 0, &warn); } if (!eq || (sflag && warn)) { pos1 = xstrdup(mkpos(&def->s_pos)); /* %s value declared inconsistently\t%s :: %s */ msg(5, hte->h_name, pos1, mkpos(&sym->s_pos)); free(pos1); } } } /* * Print a warning if a function is called with arguments which does * not match the function definition, declaration or another call * of the same function. */ static void chkfaui(hte_t *hte, sym_t *def, sym_t *decl) { type_t *tp1, *tp2, **ap1, **ap2; pos_t *pos1p = NULL; fcall_t *calls, *call, *call1; int n, as; char *pos1; arginf_t *ai; if ((calls = hte->h_calls) == NULL) return; /* * If we find a function definition, we use this for comparison, * otherwise the first prototype we can find. If there is no * definition or prototype declaration, the first function call * is used. */ tp1 = NULL; call1 = NULL; if (def != NULL) { if ((tp1 = TP(def->s_type))->t_tspec != FUNC) return; pos1p = &def->s_pos; } else if (decl != NULL && TP(decl->s_type)->t_proto) { if ((tp1 = TP(decl->s_type))->t_tspec != FUNC) return; pos1p = &decl->s_pos; } if (tp1 == NULL) { call1 = calls; calls = calls->f_nxt; if ((tp1 = TP(call1->f_type))->t_tspec != FUNC) return; pos1p = &call1->f_pos; } n = 1; for (call = calls; call != NULL; call = call->f_nxt) { if ((tp2 = TP(call->f_type))->t_tspec != FUNC) continue; ap1 = tp1->t_args; ap2 = tp2->t_args; n = 0; while (*ap1 != NULL && *ap2 != NULL) { if (def != NULL && def->s_va && n >= def->s_nva) break; n++; chkau(hte, n, def, decl, pos1p, call1, call, *ap1, *ap2); ap1++; ap2++; } if (*ap1 == *ap2) { /* equal # of arguments */ } else if (def != NULL && def->s_va && n >= def->s_nva) { /* * function definition with VARARGS; The # of * arguments of the call must be at least as large * as the parameter of VARARGS. */ } else if (*ap2 != NULL && tp1->t_proto && tp1->t_vararg) { /* * prototype with ... and function call with * at least the same # of arguments as declared * in the prototype. */ } else { pos1 = xstrdup(mkpos(pos1p)); /* %s: variable # of args\t%s :: %s */ msg(7, hte->h_name, pos1, mkpos(&call->f_pos)); free(pos1); continue; } /* perform SCANFLIKE/PRINTFLIKE tests */ if (def == NULL || (!def->s_prfl && !def->s_scfl)) continue; as = def->s_prfl ? def->s_nprfl : def->s_nscfl; for (ai = call->f_args; ai != NULL; ai = ai->a_nxt) { if (ai->a_num == as) break; } if (ai == NULL || !ai->a_fmt) continue; if (def->s_prfl) { printflike(hte, call, n, ai->a_fstrg, ap2); } else { scanflike(hte, call, n, ai->a_fstrg, ap2); } } } /* * Check a single argument in a function call. * * hte a pointer to the hash table entry of the function * n the number of the argument (1..) * def the function definition or NULL * decl prototype declaration, old style declaration or NULL * pos1p position of definition, declaration of first call * call1 first call, if both def and decl are old style def/decl * call checked call * arg1 currently checked argument of def/decl/call1 * arg2 currently checked argument of call * */ static void chkau(hte_t *hte, int n, sym_t *def, sym_t *decl, pos_t *pos1p, fcall_t *call1, fcall_t *call, type_t *arg1, type_t *arg2) { /* LINTED (automatic hides external declaration: warn) */ int promote, asgn, warn; tspec_t t1, t2; arginf_t *ai, *ai1; char *pos1; /* * If a function definition is available (def != NULL), we compair the * function call (call) with the definition. Otherwise, if a function * definition is available and it is not an old style definition * (decl != NULL && TP(decl->s_type)->t_proto), we compair the call * with this declaration. Otherwise we compair it with the first * call we have found (call1). */ /* arg1 must be promoted if it stems from an old style definition */ promote = def != NULL && def->s_osdef; /* * If we compair with a definition or declaration, we must perform * the same checks for qualifiers in indirected types as in * assignments. */ asgn = def != NULL || (decl != NULL && TP(decl->s_type)->t_proto); warn = 0; if (eqtype(arg1, arg2, 1, promote, asgn, &warn) && (!sflag || !warn)) return; /* * Other lint implementations print warnings as soon as the type * of an argument does not match exactly the expected type. The * result are lots of warnings which are really not necessary. * We print a warning only if * (0) at least one type is not an interger type and types differ * (1) hflag is set and types differ * (2) types differ, except in signedness * If the argument is an integer constant whose msb is not set, * signedness is ignored (e.g. 0 matches both signed and unsigned * int). This is with and without hflag. * If the argument is an integer constant with value 0 and the * expected argument is of type pointer and the width of the * interger constant is the same as the width of the pointer, * no warning is printed. */ t1 = arg1->t_tspec; t2 = arg2->t_tspec; if (isityp(t1) && isityp(t2) && !arg1->t_isenum && !arg2->t_isenum) { if (promote) { /* * XXX Here is a problem: Althrough it is possible to * pass an int where a char/short it expected, there * may be loss in significant digits. We should first * check for const arguments if they can be converted * into the original parameter type. */ if (t1 == FLOAT) { t1 = DOUBLE; } else if (t1 == CHAR || t1 == SCHAR) { t1 = INT; } else if (t1 == UCHAR) { t1 = tflag ? UINT : INT; } else if (t1 == SHORT) { t1 = INT; } else if (t1 == USHORT) { /* CONSTCOND */ t1 = INT_MAX < USHRT_MAX || tflag ? UINT : INT; } } if (styp(t1) == styp(t2)) { /* * types differ only in signedness; get information * about arguments */ /* * treat a definition like a call with variable * arguments */ ai1 = call1 != NULL ? call1->f_args : NULL; /* * if two calls are compared, ai1 is set to the * information for the n-th argument, if this was * a constant, otherwise to NULL */ for ( ; ai1 != NULL; ai1 = ai1->a_nxt) { if (ai1->a_num == n) break; } /* * ai is set to the information of the n-th arg * of the (second) call, if this was a constant, * otherwise to NULL */ for (ai = call->f_args; ai != NULL; ai = ai->a_nxt) { if (ai->a_num == n) break; } if (ai1 == NULL && ai == NULL) { /* no constant at all */ if (!hflag) return; } else if (ai1 == NULL || ai == NULL) { /* one constant */ if (ai == NULL) ai = ai1; if (ai->a_zero || ai->a_pcon) /* same value in signed and unsigned */ return; /* value (not representation) differently */ } else { /* * two constants, one signed, one unsigned; * if the msb of one of the constants is set, * the argument is used inconsistently. */ if (!ai1->a_ncon && !ai->a_ncon) return; } } } else if (t1 == PTR && isityp(t2)) { for (ai = call->f_args; ai != NULL; ai = ai->a_nxt) { if (ai->a_num == n) break; } /* * Vendor implementations of lint (e.g. HP-UX, Digital UNIX) * don't care about the size of the integer argument, * only whether or not it is zero. We do the same. */ if (ai != NULL && ai->a_zero) return; } pos1 = xstrdup(mkpos(pos1p)); /* %s, arg %d used inconsistently\t%s :: %s */ msg(6, hte->h_name, n, pos1, mkpos(&call->f_pos)); free(pos1); } /* * Compare the types in the NULL-terminated array ap with the format * string fmt. */ static void printflike(hte_t *hte, fcall_t *call, int n, const char *fmt, type_t **ap) { const char *fp; int fc; int fwidth, prec, left, sign, space, alt, zero; tspec_t sz, t1, t2 = NOTSPEC; type_t *tp; fp = fmt; fc = *fp++; for ( ; ; ) { if (fc == '\0') { if (*ap != NULL) tomanyarg(hte, call); break; } if (fc != '%') { badfmt(hte, call); break; } fc = *fp++; fwidth = prec = left = sign = space = alt = zero = 0; sz = NOTSPEC; /* Flags */ for ( ; ; ) { if (fc == '-') { if (left) break; left = 1; } else if (fc == '+') { if (sign) break; sign = 1; } else if (fc == ' ') { if (space) break; space = 1; } else if (fc == '#') { if (alt) break; alt = 1; } else if (fc == '0') { if (zero) break; zero = 1; } else { break; } fc = *fp++; } /* field width */ if (isdigit(fc)) { fwidth = 1; do { fc = *fp++; } while (isdigit(fc)) ; } else if (fc == '*') { fwidth = 1; fc = *fp++; if ((tp = *ap++) == NULL) { tofewarg(hte, call); break; } n++; if ((t1 = tp->t_tspec) != INT && (hflag || t1 != UINT)) inconarg(hte, call, n); } /* precision */ if (fc == '.') { fc = *fp++; prec = 1; if (isdigit(fc)) { do { fc = *fp++; } while (isdigit(fc)); } else if (fc == '*') { fc = *fp++; if ((tp = *ap++) == NULL) { tofewarg(hte, call); break; } n++; if (tp->t_tspec != INT) inconarg(hte, call, n); } else { badfmt(hte, call); break; } } if (fc == 'h') { sz = SHORT; } else if (fc == 'l') { sz = LONG; } else if (fc == 'q') { sz = QUAD; } else if (fc == 'L') { sz = LDOUBLE; } if (sz != NOTSPEC) fc = *fp++; if (fc == '%') { if (sz != NOTSPEC || left || sign || space || alt || zero || prec || fwidth) { badfmt(hte, call); } fc = *fp++; continue; } if (fc == '\0') { badfmt(hte, call); break; } if ((tp = *ap++) == NULL) { tofewarg(hte, call); break; } n++; if ((t1 = tp->t_tspec) == PTR) t2 = tp->t_subt->t_tspec; if (fc == 'd' || fc == 'i') { if (alt || sz == LDOUBLE) { badfmt(hte, call); break; } int_conv: if (sz == LONG) { if (t1 != LONG && (hflag || t1 != ULONG)) inconarg(hte, call, n); } else if (sz == QUAD) { if (t1 != QUAD && (hflag || t1 != UQUAD)) inconarg(hte, call, n); } else { /* * SHORT is always promoted to INT, USHORT * to INT or UINT. */ if (t1 != INT && (hflag || t1 != UINT)) inconarg(hte, call, n); } } else if (fc == 'o' || fc == 'u' || fc == 'x' || fc == 'X') { if ((alt && fc == 'u') || sz == LDOUBLE) badfmt(hte, call); uint_conv: if (sz == LONG) { if (t1 != ULONG && (hflag || t1 != LONG)) inconarg(hte, call, n); } else if (sz == QUAD) { if (t1 != UQUAD && (hflag || t1 != QUAD)) inconarg(hte, call, n); } else if (sz == SHORT) { /* USHORT was promoted to INT or UINT */ if (t1 != UINT && t1 != INT) inconarg(hte, call, n); } else { if (t1 != UINT && (hflag || t1 != INT)) inconarg(hte, call, n); } } else if (fc == 'D' || fc == 'O' || fc == 'U') { if ((alt && fc != 'O') || sz != NOTSPEC || !tflag) badfmt(hte, call); sz = LONG; if (fc == 'D') { goto int_conv; } else { goto uint_conv; } } else if (fc == 'f' || fc == 'e' || fc == 'E' || fc == 'g' || fc == 'G') { if (sz == NOTSPEC) sz = DOUBLE; if (sz != DOUBLE && sz != LDOUBLE) badfmt(hte, call); if (t1 != sz) inconarg(hte, call, n); } else if (fc == 'c') { if (sz != NOTSPEC || alt || zero) badfmt(hte, call); if (t1 != INT) inconarg(hte, call, n); } else if (fc == 's') { if (sz != NOTSPEC || alt || zero) badfmt(hte, call); if (t1 != PTR || (t2 != CHAR && t2 != UCHAR && t2 != SCHAR)) { inconarg(hte, call, n); } } else if (fc == 'p') { if (fwidth || prec || sz != NOTSPEC || alt || zero) badfmt(hte, call); if (t1 != PTR || (hflag && t2 != VOID)) inconarg(hte, call, n); } else if (fc == 'n') { if (fwidth || prec || alt || zero || sz == LDOUBLE) badfmt(hte, call); if (t1 != PTR) { inconarg(hte, call, n); } else if (sz == LONG) { if (t2 != LONG && t2 != ULONG) inconarg(hte, call, n); } else if (sz == SHORT) { if (t2 != SHORT && t2 != USHORT) inconarg(hte, call, n); } else { if (t2 != INT && t2 != UINT) inconarg(hte, call, n); } } else { badfmt(hte, call); break; } fc = *fp++; } } /* * Compare the types in the NULL-terminated array ap with the format * string fmt. */ static void scanflike(hte_t *hte, fcall_t *call, int n, const char *fmt, type_t **ap) { const char *fp; int fc; int noasgn, fwidth; tspec_t sz, t1 = NOTSPEC, t2 = NOTSPEC; type_t *tp = NULL; fp = fmt; fc = *fp++; for ( ; ; ) { if (fc == '\0') { if (*ap != NULL) tomanyarg(hte, call); break; } if (fc != '%') { badfmt(hte, call); break; } fc = *fp++; noasgn = fwidth = 0; sz = NOTSPEC; if (fc == '*') { noasgn = 1; fc = *fp++; } if (isdigit(fc)) { fwidth = 1; do { fc = *fp++; } while (isdigit(fc)); } if (fc == 'h') { sz = SHORT; } else if (fc == 'l') { sz = LONG; } else if (fc == 'q') { sz = QUAD; } else if (fc == 'L') { sz = LDOUBLE; } if (sz != NOTSPEC) fc = *fp++; if (fc == '%') { if (sz != NOTSPEC || noasgn || fwidth) badfmt(hte, call); fc = *fp++; continue; } if (!noasgn) { if ((tp = *ap++) == NULL) { tofewarg(hte, call); break; } n++; if ((t1 = tp->t_tspec) == PTR) t2 = tp->t_subt->t_tspec; } if (fc == 'd' || fc == 'i' || fc == 'n') { if (sz == LDOUBLE) badfmt(hte, call); if (sz != SHORT && sz != LONG && sz != QUAD) sz = INT; conv: if (!noasgn) { if (t1 != PTR) { inconarg(hte, call, n); } else if (t2 != styp(sz)) { inconarg(hte, call, n); } else if (hflag && t2 != sz) { inconarg(hte, call, n); } else if (tp->t_subt->t_const) { inconarg(hte, call, n); } } } else if (fc == 'o' || fc == 'u' || fc == 'x') { if (sz == LDOUBLE) badfmt(hte, call); if (sz == SHORT) { sz = USHORT; } else if (sz == LONG) { sz = ULONG; } else if (sz == QUAD) { sz = UQUAD; } else { sz = UINT; } goto conv; } else if (fc == 'D') { if (sz != NOTSPEC || !tflag) badfmt(hte, call); sz = LONG; goto conv; } else if (fc == 'O') { if (sz != NOTSPEC || !tflag) badfmt(hte, call); sz = ULONG; goto conv; } else if (fc == 'X') { /* * XXX valid in ANSI C, but in NetBSD's libc imple- * mented as "lx". Thats why it should be avoided. */ if (sz != NOTSPEC || !tflag) badfmt(hte, call); sz = ULONG; goto conv; } else if (fc == 'E') { /* * XXX valid in ANSI C, but in NetBSD's libc imple- * mented as "lf". Thats why it should be avoided. */ if (sz != NOTSPEC || !tflag) badfmt(hte, call); sz = DOUBLE; goto conv; } else if (fc == 'F') { /* XXX only for backward compatibility */ if (sz != NOTSPEC || !tflag) badfmt(hte, call); sz = DOUBLE; goto conv; } else if (fc == 'G') { /* * XXX valid in ANSI C, but in NetBSD's libc not * implemented */ if (sz != NOTSPEC && sz != LONG && sz != LDOUBLE) badfmt(hte, call); goto fconv; } else if (fc == 'e' || fc == 'f' || fc == 'g') { fconv: if (sz == NOTSPEC) { sz = FLOAT; } else if (sz == LONG) { sz = DOUBLE; } else if (sz != LDOUBLE) { badfmt(hte, call); sz = FLOAT; } goto conv; } else if (fc == 's' || fc == '[' || fc == 'c') { if (sz != NOTSPEC) badfmt(hte, call); if (fc == '[') { if ((fc = *fp++) == '-') { badfmt(hte, call); fc = *fp++; } if (fc != ']') { badfmt(hte, call); if (fc == '\0') break; } } if (!noasgn) { if (t1 != PTR) { inconarg(hte, call, n); } else if (t2 != CHAR && t2 != UCHAR && t2 != SCHAR) { inconarg(hte, call, n); } } } else if (fc == 'p') { if (sz != NOTSPEC) badfmt(hte, call); if (!noasgn) { if (t1 != PTR || t2 != PTR) { inconarg(hte, call, n); } else if (tp->t_subt->t_subt->t_tspec!=VOID) { if (hflag) inconarg(hte, call, n); } } } else { badfmt(hte, call); break; } fc = *fp++; } } static void badfmt(hte_t *hte, fcall_t *call) { /* %s: malformed format string\t%s */ msg(13, hte->h_name, mkpos(&call->f_pos)); } static void inconarg(hte_t *hte, fcall_t *call, int n) { /* %s, arg %d inconsistent with format\t%s(%d) */ msg(14, hte->h_name, n, mkpos(&call->f_pos)); } static void tofewarg(hte_t *hte, fcall_t *call) { /* %s: too few args for format \t%s */ msg(15, hte->h_name, mkpos(&call->f_pos)); } static void tomanyarg(hte_t *hte, fcall_t *call) { /* %s: too many args for format \t%s */ msg(16, hte->h_name, mkpos(&call->f_pos)); } /* * Print warnings for return values which are used, but not returned, * or return values which are always or sometimes ignored. */ static void chkrvu(hte_t *hte, sym_t *def) { fcall_t *call; int used, ignored; if (def == NULL) /* don't know wheter or not the functions returns a value */ return; if (hte->h_calls == NULL) return; if (def->s_rval) { /* function has return value */ used = ignored = 0; for (call = hte->h_calls; call != NULL; call = call->f_nxt) { used |= call->f_rused || call->f_rdisc; ignored |= !call->f_rused && !call->f_rdisc; } /* * XXX as soon as we are able to disable single warnings * the following dependencies from hflag should be removed. * but for now I do'nt want to be botherd by this warnings * which are almost always useless. */ if (!used && ignored) { if (hflag) /* %s returns value which is always ignored */ msg(8, hte->h_name); } else if (used && ignored) { if (hflag) /* %s returns value which is sometimes ign. */ msg(9, hte->h_name); } } else { /* function has no return value */ for (call = hte->h_calls; call != NULL; call = call->f_nxt) { if (call->f_rused) /* %s value is used( %s ), but none ret. */ msg(10, hte->h_name, mkpos(&call->f_pos)); } } } /* * Print warnings for inconsistent argument declarations. */ static void chkadecl(hte_t *hte, sym_t *def, sym_t *decl) { /* LINTED (automatic hides external declaration: warn) */ int osdef, eq, warn, n; sym_t *sym1, *sym; type_t **ap1, **ap2, *tp1, *tp2; char *pos1; const char *pos2; osdef = 0; if (def != NULL) { osdef = def->s_osdef; sym1 = def; } else if (decl != NULL && TP(decl->s_type)->t_proto) { sym1 = decl; } else { return; } if (TP(sym1->s_type)->t_tspec != FUNC) return; /* * XXX Prototypes should also be compared with old style function * declarations. */ for (sym = hte->h_syms; sym != NULL; sym = sym->s_nxt) { if (sym == sym1 || !TP(sym->s_type)->t_proto) continue; ap1 = TP(sym1->s_type)->t_args; ap2 = TP(sym->s_type)->t_args; n = 0; while (*ap1 != NULL && *ap2 != NULL) { warn = 0; eq = eqtype(*ap1, *ap2, 1, osdef, 0, &warn); if (!eq || warn) { pos1 = xstrdup(mkpos(&sym1->s_pos)); pos2 = mkpos(&sym->s_pos); /* %s, arg %d declared inconsistently ... */ msg(11, hte->h_name, n + 1, pos1, pos2); free(pos1); } n++; ap1++; ap2++; } if (*ap1 == *ap2) { tp1 = TP(sym1->s_type); tp2 = TP(sym->s_type); if (tp1->t_vararg == tp2->t_vararg) continue; if (tp2->t_vararg && sym1->s_va && sym1->s_nva == n && !sflag) { continue; } } /* %s: variable # of args declared\t%s :: %s */ pos1 = xstrdup(mkpos(&sym1->s_pos)); msg(12, hte->h_name, pos1, mkpos(&sym->s_pos)); free(pos1); } } /* * Check compatibility of two types. Returns 1 if types are compatible, * otherwise 0. * * ignqual if set, ignore qualifiers of outhermost type; used for * function arguments * promote if set, promote left type before comparison; used for * comparisons of arguments with parameters of old style * definitions * asgn left indirected type must have at least the same qualifiers * like right indirected type (for assignments and function * arguments) * *warn set to 1 if an old style declaration was compared with * an incompatible prototype declaration */ static int eqtype(type_t *tp1, type_t *tp2, int ignqual, int promot, int asgn, int *warn) { tspec_t t, to; int indir; to = NOTSPEC; indir = 0; while (tp1 != NULL && tp2 != NULL) { t = tp1->t_tspec; if (promot) { if (t == FLOAT) { t = DOUBLE; } else if (t == CHAR || t == SCHAR) { t = INT; } else if (t == UCHAR) { t = tflag ? UINT : INT; } else if (t == SHORT) { t = INT; } else if (t == USHORT) { /* CONSTCOND */ t = INT_MAX < USHRT_MAX || tflag ? UINT : INT; } } if (asgn && to == PTR) { if (indir == 1 && (t == VOID || tp2->t_tspec == VOID)) return (1); } if (t != tp2->t_tspec) { /* * Give pointer to types which differ only in * signedness a chance if not sflag and not hflag. */ if (sflag || hflag || to != PTR) return (0); if (styp(t) != styp(tp2->t_tspec)) return (0); } if (tp1->t_isenum && tp2->t_isenum) { if (tp1->t_istag && tp2->t_istag) { return (tp1->t_tag == tp2->t_tag); } else if (tp1->t_istynam && tp2->t_istynam) { return (tp1->t_tynam == tp2->t_tynam); } else if (tp1->t_isuniqpos && tp2->t_isuniqpos) { return (tp1->t_uniqpos.p_line == tp2->t_uniqpos.p_line && tp1->t_uniqpos.p_file == tp2->t_uniqpos.p_file && tp1->t_uniqpos.p_uniq == tp2->t_uniqpos.p_uniq); } else { return (0); } } /* * XXX Handle combinations of enum and int if eflag is set. * But note: enum and 0 should be allowed. */ if (asgn && indir == 1) { if (!tp1->t_const && tp2->t_const) return (0); if (!tp1->t_volatile && tp2->t_volatile) return (0); } else if (!ignqual && !tflag) { if (tp1->t_const != tp2->t_const) return (0); if (tp1->t_const != tp2->t_const) return (0); } if (t == STRUCT || t == UNION) { if (tp1->t_istag && tp2->t_istag) { return (tp1->t_tag == tp2->t_tag); } else if (tp1->t_istynam && tp2->t_istynam) { return (tp1->t_tynam == tp2->t_tynam); } else if (tp1->t_isuniqpos && tp2->t_isuniqpos) { return (tp1->t_uniqpos.p_line == tp2->t_uniqpos.p_line && tp1->t_uniqpos.p_file == tp2->t_uniqpos.p_file && tp1->t_uniqpos.p_uniq == tp2->t_uniqpos.p_uniq); } else { return (0); } } if (t == ARRAY && tp1->t_dim != tp2->t_dim) { if (tp1->t_dim != 0 && tp2->t_dim != 0) return (0); } if (t == FUNC) { if (tp1->t_proto && tp2->t_proto) { if (!eqargs(tp1, tp2, warn)) return (0); } else if (tp1->t_proto) { if (!mnoarg(tp1, warn)) return (0); } else if (tp2->t_proto) { if (!mnoarg(tp2, warn)) return (0); } } tp1 = tp1->t_subt; tp2 = tp2->t_subt; ignqual = promot = 0; to = t; indir++; } return (tp1 == tp2); } /* * Compares arguments of two prototypes */ static int eqargs(type_t *tp1, type_t *tp2, int *warn) { type_t **a1, **a2; if (tp1->t_vararg != tp2->t_vararg) return (0); a1 = tp1->t_args; a2 = tp2->t_args; while (*a1 != NULL && *a2 != NULL) { if (eqtype(*a1, *a2, 1, 0, 0, warn) == 0) return (0); a1++; a2++; } return (*a1 == *a2); } /* * mnoarg() (matches functions with no argument type information) * returns 1 if all parameters of a prototype are compatible with * and old style function declaration. * This is the case if following conditions are met: * 1. the prototype must have a fixed number of parameters * 2. no parameter is of type float * 3. no parameter is converted to another type if integer promotion * is applied on it */ static int mnoarg(type_t *tp, int *warn) { type_t **arg; tspec_t t; if (tp->t_vararg && warn != NULL) *warn = 1; for (arg = tp->t_args; *arg != NULL; arg++) { if ((t = (*arg)->t_tspec) == FLOAT) return (0); if (t == CHAR || t == SCHAR || t == UCHAR) return (0); if (t == SHORT || t == USHORT) return (0); } return (1); }