/* vi: set sw=4 ts=4: */ /* * Mini expr implementation for busybox * * based on GNU expr Mike Parker. * Copyright (C) 86, 1991-1997, 1999 Free Software Foundation, Inc. * * Busybox modifications * Copyright (c) 2000 Edward Betts . * Copyright (C) 2003-2005 Vladimir Oleynik * - reduced 464 bytes. * - 64 math support * * Licensed under GPLv2 or later, see file LICENSE in this tarball for details. */ /* This program evaluates expressions. Each token (operator, operand, * parenthesis) of the expression must be a separate argument. The * parser used is a reasonably general one, though any incarnation of * it is language-specific. It is especially nice for expressions. * * No parse tree is needed; a new node is evaluated immediately. * One function can handle multiple operators all of equal precedence, * provided they all associate ((x op x) op x). */ /* no getopt needed */ #include "busybox.h" #include "xregex.h" /* The kinds of value we can have. */ enum valtype { integer, string }; typedef enum valtype TYPE; #if ENABLE_EXPR_MATH_SUPPORT_64 typedef int64_t arith_t; #define PF_REZ "ll" #define PF_REZ_TYPE (long long) #define STRTOL(s, e, b) strtoll(s, e, b) #else typedef long arith_t; #define PF_REZ "l" #define PF_REZ_TYPE (long) #define STRTOL(s, e, b) strtol(s, e, b) #endif /* TODO: use bb_strtol[l]? It's easier to check for errors... */ /* A value is.... */ struct valinfo { TYPE type; /* Which kind. */ union { /* The value itself. */ arith_t i; char *s; } u; }; typedef struct valinfo VALUE; /* The arguments given to the program, minus the program name. */ struct globals { char **args; }; #define G (*(struct globals*)&bb_common_bufsiz1) /* forward declarations */ static VALUE *eval(void); /* Return a VALUE for I. */ static VALUE *int_value(arith_t i) { VALUE *v; v = xmalloc(sizeof(VALUE)); v->type = integer; v->u.i = i; return v; } /* Return a VALUE for S. */ static VALUE *str_value(const char *s) { VALUE *v; v = xmalloc(sizeof(VALUE)); v->type = string; v->u.s = xstrdup(s); return v; } /* Free VALUE V, including structure components. */ static void freev(VALUE * v) { if (v->type == string) free(v->u.s); free(v); } /* Return nonzero if V is a null-string or zero-number. */ static int null(VALUE * v) { if (v->type == integer) return v->u.i == 0; /* string: */ return v->u.s[0] == '\0' || LONE_CHAR(v->u.s, '0'); } /* Coerce V to a string value (can't fail). */ static void tostring(VALUE * v) { if (v->type == integer) { v->u.s = xasprintf("%" PF_REZ "d", PF_REZ_TYPE v->u.i); v->type = string; } } /* Coerce V to an integer value. Return 1 on success, 0 on failure. */ static bool toarith(VALUE * v) { if (v->type == string) { arith_t i; char *e; /* Don't interpret the empty string as an integer. */ /* Currently does not worry about overflow or int/long differences. */ i = STRTOL(v->u.s, &e, 10); if ((v->u.s == e) || *e) return 0; free(v->u.s); v->u.i = i; v->type = integer; } return 1; } /* Return nonzero if the next token matches STR exactly. STR must not be NULL. */ static bool nextarg(const char *str) { if (*G.args == NULL) return 0; return strcmp(*G.args, str) == 0; } /* The comparison operator handling functions. */ static int cmp_common(VALUE * l, VALUE * r, int op) { int cmpval; if (l->type == string || r->type == string) { tostring(l); tostring(r); cmpval = strcmp(l->u.s, r->u.s); } else cmpval = l->u.i - r->u.i; if (op == '<') return cmpval < 0; if (op == ('L' + 'E')) return cmpval <= 0; if (op == '=') return cmpval == 0; if (op == '!') return cmpval != 0; if (op == '>') return cmpval > 0; /* >= */ return cmpval >= 0; } /* The arithmetic operator handling functions. */ static arith_t arithmetic_common(VALUE * l, VALUE * r, int op) { arith_t li, ri; if (!toarith(l) || !toarith(r)) bb_error_msg_and_die("non-numeric argument"); li = l->u.i; ri = r->u.i; if ((op == '/' || op == '%') && ri == 0) bb_error_msg_and_die("division by zero"); if (op == '+') return li + ri; else if (op == '-') return li - ri; else if (op == '*') return li * ri; else if (op == '/') return li / ri; else return li % ri; } /* Do the : operator. SV is the VALUE for the lhs (the string), PV is the VALUE for the rhs (the pattern). */ static VALUE *docolon(VALUE * sv, VALUE * pv) { VALUE *v; regex_t re_buffer; const int NMATCH = 2; regmatch_t re_regs[NMATCH]; tostring(sv); tostring(pv); if (pv->u.s[0] == '^') { fprintf(stderr, "\ warning: unportable BRE: `%s': using `^' as the first character\n\ of a basic regular expression is not portable; it is being ignored", pv->u.s); } memset(&re_buffer, 0, sizeof(re_buffer)); memset(re_regs, 0, sizeof(*re_regs)); if (regcomp(&re_buffer, pv->u.s, 0) != 0) bb_error_msg_and_die("invalid regular expression"); /* expr uses an anchored pattern match, so check that there was a * match and that the match starts at offset 0. */ if (regexec(&re_buffer, sv->u.s, NMATCH, re_regs, 0) != REG_NOMATCH && re_regs[0].rm_so == 0) { /* Were \(...\) used? */ if (re_buffer.re_nsub > 0) { sv->u.s[re_regs[1].rm_eo] = '\0'; v = str_value(sv->u.s + re_regs[1].rm_so); } else v = int_value(re_regs[0].rm_eo); } else { /* Match failed -- return the right kind of null. */ if (re_buffer.re_nsub > 0) v = str_value(""); else v = int_value(0); } return v; } /* Handle bare operands and ( expr ) syntax. */ static VALUE *eval7(void) { VALUE *v; if (!*G.args) bb_error_msg_and_die("syntax error"); if (nextarg("(")) { G.args++; v = eval(); if (!nextarg(")")) bb_error_msg_and_die("syntax error"); G.args++; return v; } if (nextarg(")")) bb_error_msg_and_die("syntax error"); return str_value(*G.args++); } /* Handle match, substr, index, length, and quote keywords. */ static VALUE *eval6(void) { VALUE *l, *r, *v = NULL /* silence gcc */, *i1, *i2; const char * const keywords[] = { "quote", "length", "match", "index", "substr", NULL }; smalluint key = *G.args ? index_in_str_array(keywords, *G.args) + 1 : 0; if (key == 0) /* not a keyword */ return eval7(); G.args++; /* We have a valid token, so get the next argument. */ if (key == 1) { /* quote */ if (!*G.args) bb_error_msg_and_die("syntax error"); return str_value(*G.args++); } if (key == 2) { /* length */ r = eval6(); tostring(r); v = int_value(strlen(r->u.s)); freev(r); } else l = eval6(); if (key == 3) { /* match */ r = eval6(); v = docolon(l, r); freev(l); freev(r); } if (key == 4) { /* index */ r = eval6(); tostring(l); tostring(r); v = int_value(strcspn(l->u.s, r->u.s) + 1); if (v->u.i == (arith_t) strlen(l->u.s) + 1) v->u.i = 0; freev(l); freev(r); } if (key == 5) { /* substr */ i1 = eval6(); i2 = eval6(); tostring(l); if (!toarith(i1) || !toarith(i2) || i1->u.i > (arith_t) strlen(l->u.s) || i1->u.i <= 0 || i2->u.i <= 0) v = str_value(""); else { v = xmalloc(sizeof(VALUE)); v->type = string; v->u.s = xstrndup(l->u.s + i1->u.i - 1, i2->u.i); } freev(l); freev(i1); freev(i2); } return v; } /* Handle : operator (pattern matching). Calls docolon to do the real work. */ static VALUE *eval5(void) { VALUE *l, *r, *v; l = eval6(); while (nextarg(":")) { G.args++; r = eval6(); v = docolon(l, r); freev(l); freev(r); l = v; } return l; } /* Handle *, /, % operators. */ static VALUE *eval4(void) { VALUE *l, *r; int op; arith_t val; l = eval5(); while (1) { if (nextarg("*")) op = '*'; else if (nextarg("/")) op = '/'; else if (nextarg("%")) op = '%'; else return l; G.args++; r = eval5(); val = arithmetic_common(l, r, op); freev(l); freev(r); l = int_value(val); } } /* Handle +, - operators. */ static VALUE *eval3(void) { VALUE *l, *r; int op; arith_t val; l = eval4(); while (1) { if (nextarg("+")) op = '+'; else if (nextarg("-")) op = '-'; else return l; G.args++; r = eval4(); val = arithmetic_common(l, r, op); freev(l); freev(r); l = int_value(val); } } /* Handle comparisons. */ static VALUE *eval2(void) { VALUE *l, *r; int op; arith_t val; l = eval3(); while (1) { if (nextarg("<")) op = '<'; else if (nextarg("<=")) op = 'L' + 'E'; else if (nextarg("=") || nextarg("==")) op = '='; else if (nextarg("!=")) op = '!'; else if (nextarg(">=")) op = 'G' + 'E'; else if (nextarg(">")) op = '>'; else return l; G.args++; r = eval3(); toarith(l); toarith(r); val = cmp_common(l, r, op); freev(l); freev(r); l = int_value(val); } } /* Handle &. */ static VALUE *eval1(void) { VALUE *l, *r; l = eval2(); while (nextarg("&")) { G.args++; r = eval2(); if (null(l) || null(r)) { freev(l); freev(r); l = int_value(0); } else freev(r); } return l; } /* Handle |. */ static VALUE *eval(void) { VALUE *l, *r; l = eval1(); while (nextarg("|")) { G.args++; r = eval1(); if (null(l)) { freev(l); l = r; } else freev(r); } return l; } int expr_main(int argc, char **argv); int expr_main(int argc, char **argv) { VALUE *v; if (argc == 1) { bb_error_msg_and_die("too few arguments"); } G.args = argv + 1; v = eval(); if (*G.args) bb_error_msg_and_die("syntax error"); if (v->type == integer) printf("%" PF_REZ "d\n", PF_REZ_TYPE v->u.i); else puts(v->u.s); fflush_stdout_and_exit(null(v)); }