1 /* Handling of fnspec attribute specifiers 2 Copyright (C) 2008-2022 Free Software Foundation, Inc. 3 Contributed by Richard Guenther <rguenther@suse.de> 4 5 This file is part of GCC. 6 7 GCC is free software; you can redistribute it and/or modify 8 under the terms of the GNU General Public License as published by 9 the Free Software Foundation; either version 3 of the License, or 10 (at your option) any later version. 11 12 GCC is distributed in the hope that it will be useful, 13 but WITHOUT ANY WARRANTY; without even the implied warranty of 14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 15 GNU General Public License for more details. 16 17 You should have received a copy of the GNU General Public License 18 along with GCC; see the file COPYING3. If not see 19 <http://www.gnu.org/licenses/>. */ 20 21 /* Parse string of attribute "fn spec". This is an internal attribute 22 describing side effects of a function as follows: 23 24 character 0 specifies properties of return values as follows: 25 '1'...'4' specifies number of argument function returns (as in memset) 26 'm' specifies that returned value is noalias (as in malloc) 27 '.' specifies that nothing is known. 28 character 1 specifies additional function properties 29 ' ' specifies that nothing is known 30 'p' or 'P' specifies that function is pure except for described side 31 effects. 32 'c' or 'C' specifies that function is const except for described side 33 effects. 34 The uppercase letter in addition specifies that function clobbers errno. 35 36 character 2+2i specifies properties of argument number i as follows: 37 'x' or 'X' specifies that parameter is unused. 38 'r' or 'R' specifies that the memory pointed to by the parameter is only 39 read and does not escape 40 'o' or 'O' specifies that the memory pointed to by the parameter is only 41 written and does not escape 42 'w' or 'W' specifies that the memory pointed to by the parameter does not 43 escape 44 '1'....'9' specifies that the memory pointed to by the parameter is 45 copied to memory pointed to by different parameter 46 (as in memcpy). 47 '.' specifies that nothing is known. 48 The uppercase letter in addition specifies that the memory pointed to 49 by the parameter is not dereferenced. For 'r' only read applies 50 transitively to pointers read from the pointed-to memory. 51 52 character 3+2i specifies additional properties of argument number i 53 as follows: 54 ' ' nothing is known 55 't' the size of value written/read corresponds to the size of 56 of the pointed-to type of the argument type 57 '1'...'9' specifies the size of value written/read is bound by the 58 specified argument 59 */ 60 61 #ifndef ATTR_FNSPEC_H 62 #define ATTR_FNSPEC_H 63 64 class attr_fnspec 65 { 66 private: 67 /* fn spec attribute string. */ 68 const char *str; 69 /* length of the fn spec string. */ 70 const unsigned len; 71 /* Number of characters specifying return value. */ 72 const unsigned int return_desc_size = 2; 73 /* Number of characters specifying size. */ 74 const unsigned int arg_desc_size = 2; 75 76 /* Return start of specifier of arg i. */ arg_idx(int i)77 unsigned int arg_idx (int i) 78 { 79 return return_desc_size + arg_desc_size * i; 80 } 81 82 public: attr_fnspec(const char * str,unsigned len)83 attr_fnspec (const char *str, unsigned len) 84 : str (str), len (len) 85 { 86 if (flag_checking) 87 verify (); 88 } attr_fnspec(const char * str)89 attr_fnspec (const char *str) 90 : str (str), len (strlen (str)) 91 { 92 if (flag_checking) 93 verify (); 94 } attr_fnspec(const_tree identifier)95 attr_fnspec (const_tree identifier) 96 : str (TREE_STRING_POINTER (identifier)), 97 len (TREE_STRING_LENGTH (identifier)) 98 { 99 if (flag_checking) 100 verify (); 101 } attr_fnspec()102 attr_fnspec () 103 : str (NULL), len (0) 104 { 105 } 106 107 /* Return true if fn spec is known. */ 108 bool known_p()109 known_p () 110 { 111 return len; 112 } 113 114 /* Return true if arg I is specified. */ 115 bool arg_specified_p(unsigned int i)116 arg_specified_p (unsigned int i) 117 { 118 return len >= arg_idx (i + 1); 119 } 120 121 /* True if the argument is not dereferenced recursively, thus only 122 directly reachable memory is read or written. */ 123 bool arg_direct_p(unsigned int i)124 arg_direct_p (unsigned int i) 125 { 126 unsigned int idx = arg_idx (i); 127 gcc_checking_assert (arg_specified_p (i)); 128 return str[idx] == 'R' || str[idx] == 'O' 129 || str[idx] == 'W' || (str[idx] >= '1' && str[idx] <= '9'); 130 } 131 132 /* True if argument is used. */ 133 bool arg_used_p(unsigned int i)134 arg_used_p (unsigned int i) 135 { 136 unsigned int idx = arg_idx (i); 137 gcc_checking_assert (arg_specified_p (i)); 138 return str[idx] != 'x' && str[idx] != 'X'; 139 } 140 141 /* True if memory reached by the argument is readonly (not clobbered). */ 142 bool arg_readonly_p(unsigned int i)143 arg_readonly_p (unsigned int i) 144 { 145 unsigned int idx = arg_idx (i); 146 gcc_checking_assert (arg_specified_p (i)); 147 return str[idx] == 'r' || str[idx] == 'R' || (str[idx] >= '1' && str[idx] <= '9'); 148 } 149 150 /* True if memory reached by the argument is read (directly or indirectly) */ 151 bool arg_maybe_read_p(unsigned int i)152 arg_maybe_read_p (unsigned int i) 153 { 154 unsigned int idx = arg_idx (i); 155 gcc_checking_assert (arg_specified_p (i)); 156 return str[idx] != 'o' && str[idx] != 'O' 157 && str[idx] != 'x' && str[idx] != 'X'; 158 } 159 160 /* True if memory reached by the argument is written. 161 (directly or indirectly) */ 162 bool arg_maybe_written_p(unsigned int i)163 arg_maybe_written_p (unsigned int i) 164 { 165 unsigned int idx = arg_idx (i); 166 gcc_checking_assert (arg_specified_p (i)); 167 return str[idx] != 'r' && str[idx] != 'R' 168 && (str[idx] < '1' || str[idx] > '9') 169 && str[idx] != 'x' && str[idx] != 'X'; 170 } 171 172 /* Return true if load of memory pointed to by argument I is bound 173 by another argument. In this case set ARG. */ 174 bool arg_max_access_size_given_by_arg_p(unsigned int i,unsigned int * arg)175 arg_max_access_size_given_by_arg_p (unsigned int i, unsigned int *arg) 176 { 177 unsigned int idx = arg_idx (i); 178 gcc_checking_assert (arg_specified_p (i)); 179 if (str[idx + 1] >= '1' && str[idx + 1] <= '9') 180 { 181 *arg = str[idx + 1] - '1'; 182 return true; 183 } 184 else 185 return false; 186 } 187 188 /* Return true if the pointed-to type of the argument correspond to the 189 size of the memory acccess. */ 190 bool arg_access_size_given_by_type_p(unsigned int i)191 arg_access_size_given_by_type_p (unsigned int i) 192 { 193 unsigned int idx = arg_idx (i); 194 gcc_checking_assert (arg_specified_p (i)); 195 return str[idx + 1] == 't'; 196 } 197 198 /* Return true if memory pointer to by argument is copied to a memory 199 pointed to by a different argument (as in memcpy). 200 In this case set ARG. */ 201 bool arg_copied_to_arg_p(unsigned int i,unsigned int * arg)202 arg_copied_to_arg_p (unsigned int i, unsigned int *arg) 203 { 204 unsigned int idx = arg_idx (i); 205 gcc_checking_assert (arg_specified_p (i)); 206 if (str[idx] < '1' || str[idx] > '9') 207 return false; 208 *arg = str[idx] - '1'; 209 return true; 210 } 211 212 213 /* True if the argument does not escape. */ 214 bool arg_noescape_p(unsigned int i)215 arg_noescape_p (unsigned int i) 216 { 217 unsigned int idx = arg_idx (i); 218 gcc_checking_assert (arg_specified_p (i)); 219 return str[idx] == 'w' || str[idx] == 'W' 220 || str[idx] == 'r' || str[idx] == 'R' 221 || str[idx] == 'o' || str[idx] == 'O'; 222 } 223 224 /* Return true if function returns value of its parameter. If ARG_NO is 225 non-NULL return initialize it to the argument returned. */ 226 bool returns_arg(unsigned int * arg_no)227 returns_arg (unsigned int *arg_no) 228 { 229 if (str[0] >= '1' && str[0] <= '4') 230 { 231 if (arg_no) 232 *arg_no = str[0] - '1'; 233 return true; 234 } 235 return false; 236 } 237 238 /* Nonzero if the return value does not alias with anything. Functions 239 with the malloc attribute have this set on their return value. */ 240 bool returns_noalias_p()241 returns_noalias_p () 242 { 243 return str[0] == 'm'; 244 } 245 246 /* Return true if all memory read by the function is specified by fnspec. */ 247 bool global_memory_read_p()248 global_memory_read_p () 249 { 250 return str[1] != 'c' && str[1] != 'C'; 251 } 252 253 /* Return true if all memory written by the function 254 is specified by fnspec. */ 255 bool global_memory_written_p()256 global_memory_written_p () 257 { 258 return str[1] != 'c' && str[1] != 'C' && str[1] != 'p' && str[1] != 'P'; 259 } 260 261 bool errno_maybe_written_p()262 errno_maybe_written_p () 263 { 264 return str[1] == 'C' || str[1] == 'P'; 265 } 266 267 /* Return EAF flags for arg I. */ 268 int arg_eaf_flags(unsigned int i)269 arg_eaf_flags (unsigned int i) 270 { 271 int flags = 0; 272 273 if (!arg_specified_p (i)) 274 ; 275 else if (!arg_used_p (i)) 276 flags = EAF_UNUSED; 277 else 278 { 279 if (arg_direct_p (i)) 280 flags |= EAF_NO_INDIRECT_READ | EAF_NO_INDIRECT_ESCAPE 281 | EAF_NOT_RETURNED_INDIRECTLY | EAF_NO_INDIRECT_CLOBBER; 282 if (arg_noescape_p (i)) 283 flags |= EAF_NO_DIRECT_ESCAPE | EAF_NO_INDIRECT_ESCAPE; 284 if (arg_readonly_p (i)) 285 flags |= EAF_NO_DIRECT_CLOBBER | EAF_NO_INDIRECT_CLOBBER; 286 } 287 return flags; 288 } 289 290 /* Check validity of the string. */ 291 void verify (); 292 293 /* Return the fnspec string. */ 294 const char * get_str()295 get_str () 296 { 297 return str; 298 } 299 }; 300 301 extern attr_fnspec gimple_call_fnspec (const gcall *stmt); 302 extern attr_fnspec builtin_fnspec (tree); 303 304 #endif /* ATTR_FNSPEC_H */ 305