/* ISC license. */ #include #include #include #include #include #include #include #define USAGE "s6-test expression... or [ expression... ]" enum opnum { T_NOT, T_AND, T_OR, T_LEFTP, T_RIGHTP, T_BLOCK, T_CHAR, T_DIR, T_EXIST, T_REGULAR, T_SGID, T_SYMLINK, T_STICKY, T_NONZERO, T_FIFO, T_READABLE, T_NONZEROFILE, T_TERM, T_SUID, T_WRITABLE, T_EXECUTABLE, T_ZERO, T_EUID, T_EGID, T_SOCKET, T_MODIFIED, T_NEWER, T_OLDER, T_DEVINO, T_STREQUAL, T_STRNEQUAL, T_STRLESSER, T_STRLESSERE, T_STRGREATER, T_STRGREATERE, T_NUMEQUAL, T_NUMNEQUAL, T_NUMGREATER, T_NUMGREATERE, T_NUMLESSER, T_NUMLESSERE, T_ENV } ; struct token { char const *string ; enum opnum op ; unsigned int type ; } ; struct node { enum opnum op ; unsigned int type ; unsigned int arg1 ; unsigned int arg2 ; char const *data ; } ; static unsigned int lex (struct node *tree, char const *const *argv) { static struct token const tokens[45] = { { "-n", T_NONZERO, 2 }, { "-z", T_ZERO, 2 }, { "=", T_STREQUAL, 3 }, { "!=", T_STRNEQUAL, 3 }, { "-eq", T_NUMEQUAL, 3 }, { "-ne", T_NUMNEQUAL, 3 }, { "-gt", T_NUMGREATER, 3 }, { "-ge", T_NUMGREATERE, 3 }, { "-lt", T_NUMLESSER, 3 }, { "-le", T_NUMLESSERE, 3 }, { "-f", T_REGULAR, 2 }, { "-h", T_SYMLINK, 2 }, { "-L", T_SYMLINK, 2 }, { "-e", T_EXIST, 2 }, { "-k", T_STICKY, 2 }, { "-a", T_AND, 7 }, { "-o", T_OR, 8 }, { "!", T_NOT, 6 }, { "(", T_LEFTP, 4 }, { ")", T_RIGHTP, 5 }, { "-b", T_BLOCK, 2 }, { "-c", T_CHAR, 2 }, { "-d", T_DIR, 2 }, { "-g", T_SGID, 2 }, { "-p", T_FIFO, 2 }, { "-r", T_READABLE, 2 }, { "-s", T_NONZEROFILE, 2 }, { "-t", T_TERM, 2 }, { "-u", T_SUID, 2 }, { "-w", T_WRITABLE, 2 }, { "-x", T_EXECUTABLE, 2 }, { "-O", T_EUID, 2 }, { "-U", T_EUID, 2 }, { "-G", T_EGID, 2 }, { "-S", T_SOCKET, 2 }, { "-N", T_MODIFIED, 2 }, { "-nt", T_NEWER, 3 }, { "-ot", T_OLDER, 3 }, { "-ef", T_DEVINO, 3 }, { "<", T_STRLESSER, 3 }, { "<=", T_STRLESSERE, 3 }, { ">", T_STRGREATER, 3 }, { ">=", T_STRGREATERE, 3 }, { "-v", T_ENV, 2 }, { 0, 0, 0 } } ; unsigned int pos = 0 ; for (; argv[pos] ; pos++) { unsigned int i = 0 ; tree[pos].data = argv[pos] ; for (i = 0 ; tokens[i].string ; i++) if (!strcmp(argv[pos], tokens[i].string)) { tree[pos].op = tokens[i].op ; tree[pos].type = tokens[i].type ; break ; } if (!tokens[i].string) { tree[pos].op = T_NONZERO ; tree[pos].type = 0 ; tree[pos].arg1 = pos ; if (*(argv[pos]) == '\\') tree[pos].data++ ; /* better than SUSv3 */ } } return pos ; } static unsigned int parse (struct node *tree, unsigned int n) { static char const table[9][13] = { "xssssxsssxxxx", "xxxxxaxxxxxxx", "xsxxsxsssxxxx", "sxxxxxxxxxxxx", "xsxxsxsssxxxx", "nxxxxNxxxAOEs", "xsxxsxsssxxxx", "nxxxxNxxxAsxx", "nxxxxNxxxAOsx" } ; unsigned int stack[n+2] ; unsigned int sp = 0, pos = 0 ; int cont = 1 ; stack[0] = n+1 ; tree[n].type = 5 ; /* add ) for the final reduce */ tree[n+1].type = 1 ; /* add EOF */ while (cont) { switch (table[tree[pos].type][tree[stack[sp]].type]) { case 'x' : /* error */ { char fmt[UINT_FMT] ; fmt[uint_fmt(fmt, pos)] = 0 ; strerr_dief2x(100, "parse error at argument ", fmt) ; break ; } case 'a' : /* accept */ { cont = 0 ; break ; } case 's' : /* shift */ { stack[++sp] = pos++ ; break ; } case 'n' : /* reduce -> expr without nots, from atom */ { switch (tree[stack[sp-1]].type) { case 2 : { tree[stack[sp-1]].arg1 = stack[sp] ; sp-- ; break ; } case 3 : { tree[stack[sp-1]].arg1 = stack[sp-2] ; tree[stack[sp-1]].arg2 = stack[sp] ; stack[sp-2] = stack[sp-1] ; sp -= 2 ; break ; } /* default : assert: its a zero */ } tree[stack[sp]].type = 9 ; while (tree[stack[sp-1]].type == 6) { tree[stack[sp-1]].type = 9 ; tree[stack[sp-1]].arg1 = stack[sp] ; sp-- ; } break ; } case 'N' : /* reduce -> expr without nots, from expr */ { if (tree[stack[sp-2]].type != 4) { char fmt[UINT_FMT] ; fmt[uint_fmt(fmt, pos)] = 0 ; strerr_dief2x(100, "parse error: bad right parenthesis at argument ", fmt) ; } stack[sp-2] = stack[sp-1] ; sp -= 2 ; tree[stack[sp]].type = 9 ; while (tree[stack[sp-1]].type == 6) { tree[stack[sp-1]].type = 9 ; tree[stack[sp-1]].arg1 = stack[sp] ; sp-- ; } break ; } case 'A' : /* reduce -> exprs without ands */ { if (tree[stack[sp-1]].type == 7) { tree[stack[sp-1]].arg1 = stack[sp-2] ; tree[stack[sp-1]].arg2 = stack[sp] ; stack[sp-2] = stack[sp-1] ; sp -= 2 ; } tree[stack[sp]].type = 10 ; break ; } case 'O' : /* reduce -> expr without ors */ { if (tree[stack[sp-1]].type == 8) { tree[stack[sp-1]].arg1 = stack[sp-2] ; tree[stack[sp-1]].arg2 = stack[sp] ; stack[sp-2] = stack[sp-1] ; sp -= 2 ; } tree[stack[sp]].type = 11 ; break ; } case 'E' : /* reduce -> expr */ { tree[stack[sp]].type = 12 ; break ; } default : /* can't happen */ strerr_dief1x(101, "internal error, please submit a bug-report.") ; } } if (sp != 2) strerr_dief1x(100, "parse error: too many left parentheses") ; return stack[1] ; } static int run (struct node const *tree, unsigned int root) { switch (tree[root].op) { case T_NOT : return !run(tree, tree[root].arg1) ; case T_AND : return run(tree, tree[root].arg1) && run(tree, tree[root].arg2) ; case T_OR : return run(tree, tree[root].arg1) || run(tree, tree[root].arg2) ; case T_EXIST : { struct stat st ; return !stat(tree[tree[root].arg1].data, &st) ; } case T_BLOCK : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return S_ISBLK(st.st_mode) ; } case T_CHAR : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return S_ISCHR(st.st_mode) ; } case T_DIR : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return S_ISDIR(st.st_mode) ; } case T_REGULAR : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return S_ISREG(st.st_mode) ; } case T_FIFO : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return S_ISFIFO(st.st_mode) ; } case T_SOCKET : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return S_ISSOCK(st.st_mode) ; } case T_SYMLINK : { struct stat st ; if (lstat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return S_ISLNK(st.st_mode) ; } case T_SGID : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return (st.st_mode & S_ISGID) ; } case T_SUID : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return (st.st_mode & S_ISUID) ; } case T_STICKY : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return (st.st_mode & S_ISVTX) ; } case T_NONZEROFILE : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return (st.st_size > 0) ; } case T_MODIFIED : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return (st.st_mtime > st.st_atime) ; } case T_EUID : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return st.st_uid == geteuid() ; } case T_EGID : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; return st.st_gid == getegid() ; } case T_READABLE : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; if (st.st_uid == geteuid()) return st.st_mode & S_IRUSR ; else if (st.st_gid == getegid()) return st.st_mode & S_IRGRP ; else return st.st_mode & S_IROTH ; } case T_WRITABLE : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; if (st.st_uid == geteuid()) return st.st_mode & S_IWUSR ; else if (st.st_gid == getegid()) return st.st_mode & S_IWGRP ; else return st.st_mode & S_IWOTH ; } case T_EXECUTABLE : { struct stat st ; if (stat(tree[tree[root].arg1].data, &st) == -1) return 0 ; if (st.st_uid == geteuid()) return st.st_mode & S_IXUSR ; else if (st.st_gid == getegid()) return st.st_mode & S_IXGRP ; else return st.st_mode & S_IXOTH ; } case T_NEWER : { struct stat st1, st2 ; if (stat(tree[tree[root].arg1].data, &st1) == -1) return 0 ; if (stat(tree[tree[root].arg2].data, &st2) == -1) return 1 ; return st1.st_mtime > st2.st_mtime ; } case T_OLDER : { struct stat st1, st2 ; if (stat(tree[tree[root].arg1].data, &st1) == -1) return 1 ; if (stat(tree[tree[root].arg2].data, &st2) == -1) return 0 ; return st1.st_mtime < st2.st_mtime ; } case T_DEVINO : { struct stat st1, st2 ; if (stat(tree[tree[root].arg1].data, &st1) == -1) return 0 ; if (stat(tree[tree[root].arg2].data, &st2) == -1) return 1 ; return (st1.st_dev == st2.st_dev) && (st1.st_ino == st2.st_ino) ; } case T_TERM : { unsigned int fd ; if (!uint0_scan(tree[tree[root].arg1].data, &fd)) strerr_dief2x(100, tree[root].data, " requires an integer argument") ; return isatty((int)fd) ; } case T_NONZERO : return tree[tree[root].arg1].data[0] ; case T_ZERO : return !tree[tree[root].arg1].data[0] ; case T_STREQUAL : return !strcmp(tree[tree[root].arg1].data, tree[tree[root].arg2].data) ; case T_STRNEQUAL : return !!strcmp(tree[tree[root].arg1].data, tree[tree[root].arg2].data) ; case T_STRLESSER : return strcmp(tree[tree[root].arg1].data, tree[tree[root].arg2].data) < 0 ; case T_STRLESSERE : return strcmp(tree[tree[root].arg1].data, tree[tree[root].arg2].data) <= 0 ; case T_STRGREATER : return strcmp(tree[tree[root].arg1].data, tree[tree[root].arg2].data) > 0 ; case T_STRGREATERE : return strcmp(tree[tree[root].arg1].data, tree[tree[root].arg2].data) >= 0 ; case T_NUMEQUAL : { int n1, n2 ; if (!int_scan(tree[tree[root].arg1].data, &n1) || !int_scan(tree[tree[root].arg2].data, &n2)) goto errorint ; return n1 == n2 ; } case T_NUMNEQUAL : { int n1, n2 ; if (!int_scan(tree[tree[root].arg1].data, &n1) || !int_scan(tree[tree[root].arg2].data, &n2)) goto errorint ; return n1 != n2 ; } case T_NUMGREATER : { int n1, n2 ; if (!int_scan(tree[tree[root].arg1].data, &n1) || !int_scan(tree[tree[root].arg2].data, &n2)) goto errorint ; return n1 > n2 ; } case T_NUMGREATERE : { int n1, n2 ; if (!int_scan(tree[tree[root].arg1].data, &n1) || !int_scan(tree[tree[root].arg2].data, &n2)) goto errorint ; return n1 >= n2 ; } case T_NUMLESSER : { int n1, n2 ; if (!int_scan(tree[tree[root].arg1].data, &n1) || !int_scan(tree[tree[root].arg2].data, &n2)) goto errorint ; return n1 < n2 ; } case T_NUMLESSERE : { int n1, n2 ; if (!int_scan(tree[tree[root].arg1].data, &n1) || !int_scan(tree[tree[root].arg2].data, &n2)) goto errorint ; return n1 <= n2 ; } case T_ENV : return !!env_get(tree[tree[root].arg1].data) ; default: strerr_dief1x(111, "operation not implemented") ; } errorint: strerr_dief2x(100, tree[root].data, " requires integer arguments") ; } int main (int argc, char const *const *argv) { PROG = "s6-test" ; if (argc <= 1) return 1 ; { struct node tree[argc + 2] ; unsigned int n = lex(tree, argv+1) ; if ((argv[0][0] == '[') && !argv[0][1]) { if (n && (!tree[n-1].type) && (tree[n-1].data[0] == ']') && !tree[n-1].data[1]) n-- ; else strerr_dief1x(100, "parse error: missing closing bracket") ; } return !run(tree, parse(tree, n)) ; } }