* elf64-ppc.c (ppc64_elf_process_dot_syms): Renamed from
[binutils.git] / gold / yyscript.y
blob683273bf0660edb4e7f6ce01845eb821b69e16fd
1 /* yyscript.y -- linker script grammar for gold. */
3 /* Copyright 2006, 2007, 2008 Free Software Foundation, Inc.
4 Written by Ian Lance Taylor <iant@google.com>.
6 This file is part of gold.
8 This program is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3 of the License, or
11 (at your option) any later version.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
21 MA 02110-1301, USA. */
23 /* This is a bison grammar to parse a subset of the original GNU ld
24 linker script language. */
28 #include "config.h"
30 #include <stddef.h>
31 #include <stdint.h>
32 #include <stdlib.h>
33 #include <string.h>
35 #include "script-c.h"
39 /* We need to use a pure parser because we might be multi-threaded.
40 We pass some arguments through the parser to the lexer. */
42 %pure-parser
44 %parse-param {void* closure}
45 %lex-param {void* closure}
47 /* Since we require bison anyhow, we take advantage of it. */
49 %error-verbose
51 /* The values associated with tokens. */
53 %union {
54 /* A string. */
55 struct Parser_string string;
56 /* A number. */
57 uint64_t integer;
58 /* An expression. */
59 Expression_ptr expr;
60 /* An output section header. */
61 struct Parser_output_section_header output_section_header;
62 /* An output section trailer. */
63 struct Parser_output_section_trailer output_section_trailer;
64 /* A section constraint. */
65 enum Section_constraint constraint;
66 /* A complete input section specification. */
67 struct Input_section_spec input_section_spec;
68 /* A list of wildcard specifications, with exclusions. */
69 struct Wildcard_sections wildcard_sections;
70 /* A single wildcard specification. */
71 struct Wildcard_section wildcard_section;
72 /* A list of strings. */
73 String_list_ptr string_list;
74 /* Information for a program header. */
75 struct Phdr_info phdr_info;
76 /* Used for version scripts and within VERSION {}. */
77 struct Version_dependency_list* deplist;
78 struct Version_expression_list* versyms;
79 struct Version_tree* versnode;
82 /* Operators, including a precedence table for expressions. */
84 %right PLUSEQ MINUSEQ MULTEQ DIVEQ '=' LSHIFTEQ RSHIFTEQ ANDEQ OREQ
85 %right '?' ':'
86 %left OROR
87 %left ANDAND
88 %left '|'
89 %left '^'
90 %left '&'
91 %left EQ NE
92 %left '<' '>' LE GE
93 %left LSHIFT RSHIFT
94 %left '+' '-'
95 %left '*' '/' '%'
97 /* A fake operator used to indicate unary operator precedence. */
98 %right UNARY
100 /* Constants. */
102 %token <string> STRING
103 %token <string> QUOTED_STRING
104 %token <integer> INTEGER
106 /* Keywords. This list is taken from ldgram.y and ldlex.l in the old
107 GNU linker, with the keywords which only appear in MRI mode
108 removed. Not all these keywords are actually used in this grammar.
109 In most cases the keyword is recognized as the token name in upper
110 case. The comments indicate where this is not the case. */
112 %token ABSOLUTE
113 %token ADDR
114 %token ALIGN_K /* ALIGN */
115 %token ALIGNOF
116 %token ASSERT_K /* ASSERT */
117 %token AS_NEEDED
118 %token AT
119 %token BIND
120 %token BLOCK
121 %token BYTE
122 %token CONSTANT
123 %token CONSTRUCTORS
124 %token CREATE_OBJECT_SYMBOLS
125 %token DATA_SEGMENT_ALIGN
126 %token DATA_SEGMENT_END
127 %token DATA_SEGMENT_RELRO_END
128 %token DEFINED
129 %token ENTRY
130 %token EXCLUDE_FILE
131 %token EXTERN
132 %token FILL
133 %token FLOAT
134 %token FORCE_COMMON_ALLOCATION
135 %token GLOBAL /* global */
136 %token GROUP
137 %token HLL
138 %token INCLUDE
139 %token INHIBIT_COMMON_ALLOCATION
140 %token INPUT
141 %token KEEP
142 %token LENGTH /* LENGTH, l, len */
143 %token LOADADDR
144 %token LOCAL /* local */
145 %token LONG
146 %token MAP
147 %token MAX_K /* MAX */
148 %token MEMORY
149 %token MIN_K /* MIN */
150 %token NEXT
151 %token NOCROSSREFS
152 %token NOFLOAT
153 %token ONLY_IF_RO
154 %token ONLY_IF_RW
155 %token ORIGIN /* ORIGIN, o, org */
156 %token OUTPUT
157 %token OUTPUT_ARCH
158 %token OUTPUT_FORMAT
159 %token OVERLAY
160 %token PHDRS
161 %token PROVIDE
162 %token PROVIDE_HIDDEN
163 %token QUAD
164 %token SEARCH_DIR
165 %token SECTIONS
166 %token SEGMENT_START
167 %token SHORT
168 %token SIZEOF
169 %token SIZEOF_HEADERS /* SIZEOF_HEADERS, sizeof_headers */
170 %token SORT_BY_ALIGNMENT
171 %token SORT_BY_NAME
172 %token SPECIAL
173 %token SQUAD
174 %token STARTUP
175 %token SUBALIGN
176 %token SYSLIB
177 %token TARGET_K /* TARGET */
178 %token TRUNCATE
179 %token VERSIONK /* VERSION */
181 /* Keywords, part 2. These are keywords that are unique to gold,
182 and not present in the old GNU linker. As before, unless the
183 comments say otherwise, the keyword is recognized as the token
184 name in upper case. */
186 %token OPTION
188 /* Special tokens used to tell the grammar what type of tokens we are
189 parsing. The token stream always begins with one of these tokens.
190 We do this because version scripts can appear embedded within
191 linker scripts, and because --defsym uses the expression
192 parser. */
193 %token PARSING_LINKER_SCRIPT
194 %token PARSING_VERSION_SCRIPT
195 %token PARSING_DEFSYM
197 /* Non-terminal types, where needed. */
199 %type <expr> parse_exp exp opt_address_and_section_type
200 %type <expr> opt_at opt_align opt_subalign opt_fill
201 %type <output_section_header> section_header
202 %type <output_section_trailer> section_trailer
203 %type <constraint> opt_constraint
204 %type <string_list> opt_phdr
205 %type <integer> data_length
206 %type <input_section_spec> input_section_no_keep
207 %type <wildcard_sections> wildcard_sections
208 %type <wildcard_section> wildcard_file wildcard_section
209 %type <string_list> exclude_names
210 %type <string> wildcard_name
211 %type <integer> phdr_type
212 %type <phdr_info> phdr_info
213 %type <versyms> vers_defns
214 %type <versnode> vers_tag
215 %type <deplist> verdep
216 %type <string> string
220 /* Read the special token to see what to read next. */
221 top:
222 PARSING_LINKER_SCRIPT linker_script
223 | PARSING_VERSION_SCRIPT version_script
224 | PARSING_DEFSYM defsym_expr
227 /* A file contains a list of commands. */
228 linker_script:
229 linker_script file_cmd
230 | /* empty */
233 /* A command which may appear at top level of a linker script. */
234 file_cmd:
235 FORCE_COMMON_ALLOCATION
236 { script_set_common_allocation(closure, 1); }
237 | GROUP
238 { script_start_group(closure); }
239 '(' input_list ')'
240 { script_end_group(closure); }
241 | INHIBIT_COMMON_ALLOCATION
242 { script_set_common_allocation(closure, 0); }
243 | OPTION '(' string ')'
244 { script_parse_option(closure, $3.value, $3.length); }
245 | PHDRS '{' phdrs_defs '}'
246 | SEARCH_DIR '(' string ')'
247 { script_add_search_dir(closure, $3.value, $3.length); }
248 | SECTIONS '{'
249 { script_start_sections(closure); }
250 sections_block '}'
251 { script_finish_sections(closure); }
252 | VERSIONK '{'
253 { script_push_lex_into_version_mode(closure); }
254 version_script '}'
255 { script_pop_lex_mode(closure); }
256 | file_or_sections_cmd
257 | ignore_cmd
258 | ';'
261 /* Top level commands which we ignore. The GNU linker uses these to
262 select the output format, but we don't offer a choice. Ignoring
263 these is more-or-less OK since most scripts simply explicitly
264 choose the default. */
265 ignore_cmd:
266 OUTPUT_FORMAT '(' string ')'
267 | OUTPUT_FORMAT '(' string ',' string ',' string ')'
268 | OUTPUT_ARCH '(' string ')'
271 /* A list of input file names. */
272 input_list:
273 input_list_element
274 | input_list opt_comma input_list_element
277 /* An input file name. */
278 input_list_element:
279 string
280 { script_add_file(closure, $1.value, $1.length); }
281 | AS_NEEDED
282 { script_start_as_needed(closure); }
283 '(' input_list ')'
284 { script_end_as_needed(closure); }
287 /* Commands in a SECTIONS block. */
288 sections_block:
289 sections_block section_block_cmd
290 | /* empty */
293 /* A command which may appear within a SECTIONS block. */
294 section_block_cmd:
295 file_or_sections_cmd
296 | string section_header
297 { script_start_output_section(closure, $1.value, $1.length, &$2); }
298 '{' section_cmds '}' section_trailer
299 { script_finish_output_section(closure, &$7); }
302 /* The header of an output section in a SECTIONS block--everything
303 after the name. */
304 section_header:
305 { script_push_lex_into_expression_mode(closure); }
306 opt_address_and_section_type opt_at opt_align opt_subalign
307 { script_pop_lex_mode(closure); }
308 opt_constraint
310 $$.address = $2;
311 $$.load_address = $3;
312 $$.align = $4;
313 $$.subalign = $5;
314 $$.constraint = $7;
318 /* The optional address followed by the optional section type. This
319 is a separate nonterminal to avoid a shift/reduce conflict on
320 '(' in section_header. */
322 opt_address_and_section_type:
324 { $$ = NULL; }
325 | '(' ')' ':'
326 { $$ = NULL; }
327 | exp ':'
328 { $$ = $1; }
329 | exp '(' ')' ':'
330 { $$ = $1; }
331 | exp '(' string ')' ':'
333 yyerror(closure, "section types are not supported");
334 $$ = $1;
338 /* The address at which an output section should be loaded. */
339 opt_at:
340 /* empty */
341 { $$ = NULL; }
342 | AT '(' exp ')'
343 { $$ = $3; }
346 /* The alignment of an output section. */
347 opt_align:
348 /* empty */
349 { $$ = NULL; }
350 | ALIGN_K '(' exp ')'
351 { $$ = $3; }
354 /* The input section alignment within an output section. */
355 opt_subalign:
356 /* empty */
357 { $$ = NULL; }
358 | SUBALIGN '(' exp ')'
359 { $$ = $3; }
362 /* A section constraint. */
363 opt_constraint:
364 /* empty */
365 { $$ = CONSTRAINT_NONE; }
366 | ONLY_IF_RO
367 { $$ = CONSTRAINT_ONLY_IF_RO; }
368 | ONLY_IF_RW
369 { $$ = CONSTRAINT_ONLY_IF_RW; }
370 | SPECIAL
371 { $$ = CONSTRAINT_SPECIAL; }
374 /* The trailer of an output section in a SECTIONS block. */
375 section_trailer:
376 opt_memspec opt_at_memspec opt_phdr opt_fill opt_comma
378 $$.fill = $4;
379 $$.phdrs = $3;
383 /* A memory specification for an output section. */
384 opt_memspec:
385 '>' string
386 { yyerror(closure, "memory regions are not supported"); }
387 | /* empty */
390 /* A memory specification for where to load an output section. */
391 opt_at_memspec:
392 AT '>' string
393 { yyerror(closure, "memory regions are not supported"); }
394 | /* empty */
397 /* The program segment an output section should go into. */
398 opt_phdr:
399 opt_phdr ':' string
400 { $$ = script_string_list_push_back($1, $3.value, $3.length); }
401 | /* empty */
402 { $$ = NULL; }
405 /* The value to use to fill an output section. FIXME: This does not
406 handle a string of arbitrary length. */
407 opt_fill:
408 '=' parse_exp
409 { $$ = $2; }
410 | /* empty */
411 { $$ = NULL; }
414 /* Commands which may appear within the description of an output
415 section in a SECTIONS block. */
416 section_cmds:
417 /* empty */
418 | section_cmds section_cmd
421 /* A command which may appear within the description of an output
422 section in a SECTIONS block. */
423 section_cmd:
424 assignment end
425 | input_section_spec
426 | data_length '(' parse_exp ')'
427 { script_add_data(closure, $1, $3); }
428 | ASSERT_K '(' parse_exp ',' string ')'
429 { script_add_assertion(closure, $3, $5.value, $5.length); }
430 | FILL '(' parse_exp ')'
431 { script_add_fill(closure, $3); }
432 | CONSTRUCTORS
434 /* The GNU linker uses CONSTRUCTORS for the a.out object
435 file format. It does nothing when using ELF. Since
436 some ELF linker scripts use it although it does
437 nothing, we accept it and ignore it. */
439 | SORT_BY_NAME '(' CONSTRUCTORS ')'
440 | ';'
443 /* The length of data which may appear within the description of an
444 output section in a SECTIONS block. */
445 data_length:
446 QUAD
447 { $$ = QUAD; }
448 | SQUAD
449 { $$ = SQUAD; }
450 | LONG
451 { $$ = LONG; }
452 | SHORT
453 { $$ = SHORT; }
454 | BYTE
455 { $$ = BYTE; }
458 /* An input section specification. This may appear within the
459 description of an output section in a SECTIONS block. */
460 input_section_spec:
461 input_section_no_keep
462 { script_add_input_section(closure, &$1, 0); }
463 | KEEP '(' input_section_no_keep ')'
464 { script_add_input_section(closure, &$3, 1); }
467 /* An input section specification within a KEEP clause. */
468 input_section_no_keep:
469 string
471 $$.file.name = $1;
472 $$.file.sort = SORT_WILDCARD_NONE;
473 $$.input_sections.sections = NULL;
474 $$.input_sections.exclude = NULL;
476 | wildcard_file '(' wildcard_sections ')'
478 $$.file = $1;
479 $$.input_sections = $3;
483 /* A wildcard file specification. */
484 wildcard_file:
485 wildcard_name
487 $$.name = $1;
488 $$.sort = SORT_WILDCARD_NONE;
490 | SORT_BY_NAME '(' wildcard_name ')'
492 $$.name = $3;
493 $$.sort = SORT_WILDCARD_BY_NAME;
497 /* A list of wild card section specifications. */
498 wildcard_sections:
499 wildcard_sections opt_comma wildcard_section
501 $$.sections = script_string_sort_list_add($1.sections, &$3);
502 $$.exclude = $1.exclude;
504 | wildcard_section
506 $$.sections = script_new_string_sort_list(&$1);
507 $$.exclude = NULL;
509 | wildcard_sections opt_comma EXCLUDE_FILE '(' exclude_names ')'
511 $$.sections = $1.sections;
512 $$.exclude = script_string_list_append($1.exclude, $5);
514 | EXCLUDE_FILE '(' exclude_names ')'
516 $$.sections = NULL;
517 $$.exclude = $3;
521 /* A single wild card specification. */
522 wildcard_section:
523 wildcard_name
525 $$.name = $1;
526 $$.sort = SORT_WILDCARD_NONE;
528 | SORT_BY_NAME '(' wildcard_section ')'
530 $$.name = $3.name;
531 switch ($3.sort)
533 case SORT_WILDCARD_NONE:
534 $$.sort = SORT_WILDCARD_BY_NAME;
535 break;
536 case SORT_WILDCARD_BY_NAME:
537 case SORT_WILDCARD_BY_NAME_BY_ALIGNMENT:
538 break;
539 case SORT_WILDCARD_BY_ALIGNMENT:
540 case SORT_WILDCARD_BY_ALIGNMENT_BY_NAME:
541 $$.sort = SORT_WILDCARD_BY_NAME_BY_ALIGNMENT;
542 break;
543 default:
544 abort();
547 | SORT_BY_ALIGNMENT '(' wildcard_section ')'
549 $$.name = $3.name;
550 switch ($3.sort)
552 case SORT_WILDCARD_NONE:
553 $$.sort = SORT_WILDCARD_BY_ALIGNMENT;
554 break;
555 case SORT_WILDCARD_BY_ALIGNMENT:
556 case SORT_WILDCARD_BY_ALIGNMENT_BY_NAME:
557 break;
558 case SORT_WILDCARD_BY_NAME:
559 case SORT_WILDCARD_BY_NAME_BY_ALIGNMENT:
560 $$.sort = SORT_WILDCARD_BY_ALIGNMENT_BY_NAME;
561 break;
562 default:
563 abort();
568 /* A list of file names to exclude. */
569 exclude_names:
570 exclude_names opt_comma wildcard_name
571 { $$ = script_string_list_push_back($1, $3.value, $3.length); }
572 | wildcard_name
573 { $$ = script_new_string_list($1.value, $1.length); }
576 /* A single wildcard name. We recognize '*' and '?' specially since
577 they are expression tokens. */
578 wildcard_name:
579 string
580 { $$ = $1; }
581 | '*'
583 $$.value = "*";
584 $$.length = 1;
586 | '?'
588 $$.value = "?";
589 $$.length = 1;
593 /* A command which may appear at the top level of a linker script, or
594 within a SECTIONS block. */
595 file_or_sections_cmd:
596 ENTRY '(' string ')'
597 { script_set_entry(closure, $3.value, $3.length); }
598 | assignment end
599 | ASSERT_K '(' parse_exp ',' string ')'
600 { script_add_assertion(closure, $3, $5.value, $5.length); }
603 /* A list of program header definitions. */
604 phdrs_defs:
605 phdrs_defs phdr_def
606 | /* empty */
609 /* A program header definition. */
610 phdr_def:
611 string phdr_type phdr_info ';'
612 { script_add_phdr(closure, $1.value, $1.length, $2, &$3); }
615 /* A program header type. The GNU linker accepts a general expression
616 here, but that would be a pain because we would have to dig into
617 the expression structure. It's unlikely that anybody uses anything
618 other than a string or a number here, so that is all we expect. */
619 phdr_type:
620 string
621 { $$ = script_phdr_string_to_type(closure, $1.value, $1.length); }
622 | INTEGER
623 { $$ = $1; }
626 /* Additional information for a program header. */
627 phdr_info:
628 /* empty */
629 { memset(&$$, 0, sizeof(struct Phdr_info)); }
630 | string phdr_info
632 $$ = $2;
633 if ($1.length == 7 && strncmp($1.value, "FILEHDR", 7) == 0)
634 $$.includes_filehdr = 1;
635 else
636 yyerror(closure, "PHDRS syntax error");
638 | PHDRS phdr_info
640 $$ = $2;
641 $$.includes_phdrs = 1;
643 | string '(' INTEGER ')' phdr_info
645 $$ = $5;
646 if ($1.length == 5 && strncmp($1.value, "FLAGS", 5) == 0)
648 $$.is_flags_valid = 1;
649 $$.flags = $3;
651 else
652 yyerror(closure, "PHDRS syntax error");
654 | AT '(' parse_exp ')' phdr_info
656 $$ = $5;
657 $$.load_address = $3;
661 /* Set a symbol to a value. */
662 assignment:
663 string '=' parse_exp
664 { script_set_symbol(closure, $1.value, $1.length, $3, 0, 0); }
665 | string PLUSEQ parse_exp
667 Expression_ptr s = script_exp_string($1.value, $1.length);
668 Expression_ptr e = script_exp_binary_add(s, $3);
669 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
671 | string MINUSEQ parse_exp
673 Expression_ptr s = script_exp_string($1.value, $1.length);
674 Expression_ptr e = script_exp_binary_sub(s, $3);
675 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
677 | string MULTEQ parse_exp
679 Expression_ptr s = script_exp_string($1.value, $1.length);
680 Expression_ptr e = script_exp_binary_mult(s, $3);
681 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
683 | string DIVEQ parse_exp
685 Expression_ptr s = script_exp_string($1.value, $1.length);
686 Expression_ptr e = script_exp_binary_div(s, $3);
687 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
689 | string LSHIFTEQ parse_exp
691 Expression_ptr s = script_exp_string($1.value, $1.length);
692 Expression_ptr e = script_exp_binary_lshift(s, $3);
693 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
695 | string RSHIFTEQ parse_exp
697 Expression_ptr s = script_exp_string($1.value, $1.length);
698 Expression_ptr e = script_exp_binary_rshift(s, $3);
699 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
701 | string ANDEQ parse_exp
703 Expression_ptr s = script_exp_string($1.value, $1.length);
704 Expression_ptr e = script_exp_binary_bitwise_and(s, $3);
705 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
707 | string OREQ parse_exp
709 Expression_ptr s = script_exp_string($1.value, $1.length);
710 Expression_ptr e = script_exp_binary_bitwise_or(s, $3);
711 script_set_symbol(closure, $1.value, $1.length, e, 0, 0);
713 | PROVIDE '(' string '=' parse_exp ')'
714 { script_set_symbol(closure, $3.value, $3.length, $5, 1, 0); }
715 | PROVIDE_HIDDEN '(' string '=' parse_exp ')'
716 { script_set_symbol(closure, $3.value, $3.length, $5, 1, 1); }
719 /* Parse an expression, putting the lexer into the right mode. */
720 parse_exp:
721 { script_push_lex_into_expression_mode(closure); }
724 script_pop_lex_mode(closure);
725 $$ = $2;
729 /* An expression. */
730 exp:
731 '(' exp ')'
732 { $$ = $2; }
733 | '-' exp %prec UNARY
734 { $$ = script_exp_unary_minus($2); }
735 | '!' exp %prec UNARY
736 { $$ = script_exp_unary_logical_not($2); }
737 | '~' exp %prec UNARY
738 { $$ = script_exp_unary_bitwise_not($2); }
739 | '+' exp %prec UNARY
740 { $$ = $2; }
741 | exp '*' exp
742 { $$ = script_exp_binary_mult($1, $3); }
743 | exp '/' exp
744 { $$ = script_exp_binary_div($1, $3); }
745 | exp '%' exp
746 { $$ = script_exp_binary_mod($1, $3); }
747 | exp '+' exp
748 { $$ = script_exp_binary_add($1, $3); }
749 | exp '-' exp
750 { $$ = script_exp_binary_sub($1, $3); }
751 | exp LSHIFT exp
752 { $$ = script_exp_binary_lshift($1, $3); }
753 | exp RSHIFT exp
754 { $$ = script_exp_binary_rshift($1, $3); }
755 | exp EQ exp
756 { $$ = script_exp_binary_eq($1, $3); }
757 | exp NE exp
758 { $$ = script_exp_binary_ne($1, $3); }
759 | exp LE exp
760 { $$ = script_exp_binary_le($1, $3); }
761 | exp GE exp
762 { $$ = script_exp_binary_ge($1, $3); }
763 | exp '<' exp
764 { $$ = script_exp_binary_lt($1, $3); }
765 | exp '>' exp
766 { $$ = script_exp_binary_gt($1, $3); }
767 | exp '&' exp
768 { $$ = script_exp_binary_bitwise_and($1, $3); }
769 | exp '^' exp
770 { $$ = script_exp_binary_bitwise_xor($1, $3); }
771 | exp '|' exp
772 { $$ = script_exp_binary_bitwise_or($1, $3); }
773 | exp ANDAND exp
774 { $$ = script_exp_binary_logical_and($1, $3); }
775 | exp OROR exp
776 { $$ = script_exp_binary_logical_or($1, $3); }
777 | exp '?' exp ':' exp
778 { $$ = script_exp_trinary_cond($1, $3, $5); }
779 | INTEGER
780 { $$ = script_exp_integer($1); }
781 | string
782 { $$ = script_exp_string($1.value, $1.length); }
783 | MAX_K '(' exp ',' exp ')'
784 { $$ = script_exp_function_max($3, $5); }
785 | MIN_K '(' exp ',' exp ')'
786 { $$ = script_exp_function_min($3, $5); }
787 | DEFINED '(' string ')'
788 { $$ = script_exp_function_defined($3.value, $3.length); }
789 | SIZEOF_HEADERS
790 { $$ = script_exp_function_sizeof_headers(); }
791 | ALIGNOF '(' string ')'
792 { $$ = script_exp_function_alignof($3.value, $3.length); }
793 | SIZEOF '(' string ')'
794 { $$ = script_exp_function_sizeof($3.value, $3.length); }
795 | ADDR '(' string ')'
796 { $$ = script_exp_function_addr($3.value, $3.length); }
797 | LOADADDR '(' string ')'
798 { $$ = script_exp_function_loadaddr($3.value, $3.length); }
799 | ORIGIN '(' string ')'
800 { $$ = script_exp_function_origin($3.value, $3.length); }
801 | LENGTH '(' string ')'
802 { $$ = script_exp_function_length($3.value, $3.length); }
803 | CONSTANT '(' string ')'
804 { $$ = script_exp_function_constant($3.value, $3.length); }
805 | ABSOLUTE '(' exp ')'
806 { $$ = script_exp_function_absolute($3); }
807 | ALIGN_K '(' exp ')'
808 { $$ = script_exp_function_align(script_exp_string(".", 1), $3); }
809 | ALIGN_K '(' exp ',' exp ')'
810 { $$ = script_exp_function_align($3, $5); }
811 | BLOCK '(' exp ')'
812 { $$ = script_exp_function_align(script_exp_string(".", 1), $3); }
813 | DATA_SEGMENT_ALIGN '(' exp ',' exp ')'
815 script_data_segment_align(closure);
816 $$ = script_exp_function_data_segment_align($3, $5);
818 | DATA_SEGMENT_RELRO_END '(' exp ',' exp ')'
820 script_data_segment_relro_end(closure);
821 $$ = script_exp_function_data_segment_relro_end($3, $5);
823 | DATA_SEGMENT_END '(' exp ')'
824 { $$ = script_exp_function_data_segment_end($3); }
825 | SEGMENT_START '(' string ',' exp ')'
827 $$ = script_exp_function_segment_start($3.value, $3.length, $5);
829 | ASSERT_K '(' exp ',' string ')'
830 { $$ = script_exp_function_assert($3, $5.value, $5.length); }
833 /* Handle the --defsym option. */
834 defsym_expr:
835 string '=' parse_exp
836 { script_set_symbol(closure, $1.value, $1.length, $3, 0, 0); }
839 /* A version script. */
840 version_script:
841 vers_nodes
844 vers_nodes:
845 vers_node
846 | vers_nodes vers_node
849 vers_node:
850 '{' vers_tag '}' ';'
852 script_register_vers_node (closure, NULL, 0, $2, NULL);
854 | string '{' vers_tag '}' ';'
856 script_register_vers_node (closure, $1.value, $1.length, $3,
857 NULL);
859 | string '{' vers_tag '}' verdep ';'
861 script_register_vers_node (closure, $1.value, $1.length, $3, $5);
865 verdep:
866 string
868 $$ = script_add_vers_depend (closure, NULL, $1.value, $1.length);
870 | verdep string
872 $$ = script_add_vers_depend (closure, $1, $2.value, $2.length);
876 vers_tag:
877 /* empty */
878 { $$ = script_new_vers_node (closure, NULL, NULL); }
879 | vers_defns ';'
880 { $$ = script_new_vers_node (closure, $1, NULL); }
881 | GLOBAL ':' vers_defns ';'
882 { $$ = script_new_vers_node (closure, $3, NULL); }
883 | LOCAL ':' vers_defns ';'
884 { $$ = script_new_vers_node (closure, NULL, $3); }
885 | GLOBAL ':' vers_defns ';' LOCAL ':' vers_defns ';'
886 { $$ = script_new_vers_node (closure, $3, $7); }
889 /* Here is one of the rare places we care about the distinction
890 between STRING and QUOTED_STRING. For QUOTED_STRING, we do exact
891 matching on the pattern, so we pass in true for the exact_match
892 parameter. For STRING, we do glob matching and pass in false. */
893 vers_defns:
894 STRING
896 $$ = script_new_vers_pattern (closure, NULL, $1.value,
897 $1.length, 0);
899 | QUOTED_STRING
901 $$ = script_new_vers_pattern (closure, NULL, $1.value,
902 $1.length, 1);
904 | vers_defns ';' STRING
906 $$ = script_new_vers_pattern (closure, $1, $3.value,
907 $3.length, 0);
909 | vers_defns ';' QUOTED_STRING
911 $$ = script_new_vers_pattern (closure, $1, $3.value,
912 $3.length, 1);
914 | /* Push string on the language stack. */
915 EXTERN string '{'
916 { version_script_push_lang (closure, $2.value, $2.length); }
917 vers_defns opt_semicolon '}'
919 $$ = $5;
920 version_script_pop_lang(closure);
922 | /* Push string on the language stack. This is more complicated
923 than the other cases because we need to merge the linked-list
924 state from the pre-EXTERN defns and the post-EXTERN defns. */
925 vers_defns ';' EXTERN string '{'
926 { version_script_push_lang (closure, $4.value, $4.length); }
927 vers_defns opt_semicolon '}'
929 $$ = script_merge_expressions ($1, $7);
930 version_script_pop_lang(closure);
932 | EXTERN // "extern" as a symbol name
934 $$ = script_new_vers_pattern (closure, NULL, "extern",
935 sizeof("extern") - 1, 1);
937 | vers_defns ';' EXTERN
939 $$ = script_new_vers_pattern (closure, $1, "extern",
940 sizeof("extern") - 1, 1);
944 /* A string can be either a STRING or a QUOTED_STRING. Almost all the
945 time we don't care, and we use this rule. */
946 string:
947 STRING
948 { $$ = $1; }
949 | QUOTED_STRING
950 { $$ = $1; }
953 /* Some statements require a terminator, which may be a semicolon or a
954 comma. */
955 end:
957 | ','
960 /* An optional semicolon. */
961 opt_semicolon:
963 | /* empty */
966 /* An optional comma. */
967 opt_comma:
969 | /* empty */