@q Copyright 2012-2022 Alexander Shibakov@> @q Copyright 2002-2015 Free Software Foundation, Inc.@> @q This file is part of SPLinT@> @q SPLinT is free software: you can redistribute it and/or modify@> @q it under the terms of the GNU General Public License as published by@> @q the Free Software Foundation, either version 3 of the License, or@> @q (at your option) any later version.@> @q SPLinT is distributed in the hope that it will be useful,@> @q but WITHOUT ANY WARRANTY; without even the implied warranty of@> @q MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the@> @q GNU General Public License for more details.@> @q You should have received a copy of the GNU General Public License@> @q along with SPLinT. If not, see .@> @*1 The original parser. {\it Here we present the full grammar of \ld, including some actions. The grammar is split into sections but otherwise is reproduced exactly. In addition to improving readability, such splitting allows \CWEB\ to process the code in manageable increments. An observant reader will notice the difficulty \CWEAVE\ is having with typesetting the structure tags that have the same name as the structure variables of the appropriate type. This is a well-known defect in \CWEAVE's design (see the requisite documentation) left uncorrected to discourage the poor programming practice.} @s bfd_boolean int @s bfd_vma int @s fill_type int @s lang_nocrossref int @s lang_output_section_phdr_list int @s bfd_elf_version_deps int @s bfd_elf_version_expr int @s bfd_elf_version_tree int @s etree_union int @s wildcard_spec int @s section_type int @s lang_memory_region_type int @= @G %{ @>@<\Cee\ setup for \ld\ grammar@>@; %} %union { @O bfd_vma integer; struct big_int { bfd_vma integer; char *str; } bigint; fill_type *fill; char *name; const char *cname; struct wildcard_spec wildcard; struct wildcard_list *wildcard_list; struct name_list *name_list; struct flag_info_list *flag_info_list; struct flag_info *flag_info; int token; union etree_union *etree; struct phdr_info { bfd_boolean filehdr; bfd_boolean phdrs; union etree_union *at; union etree_union *flags; } phdr; struct lang_nocrossref *nocrossref; struct lang_output_section_phdr_list *section_phdr; struct bfd_elf_version_deps *deflist; struct bfd_elf_version_expr *versyms; struct bfd_elf_version_tree *versnode; @o } @>@@; %% @>@@; %% @g @ {\it The \Cee\ code is left mostly intact (with the exception of a few comments) although it does not show up in the final output. The parts that {\it are\/} typeset represent the semantics that is reproduced in the typesetting parser. This includes all the state switching, as well as some other actions that affect the parser-lexer interaction (such as opening a new input buffer). The only exception to this rule is the code for the \MRI\ script section of the grammar. It is reproduced mostly as an example of a pretty printed grammar, since otherwise, \MRI\ scripts are completely ignored by the typeseting parser.} \def\initbootstrap{\restorecslist{parser-prototypes}\yyunion}% @<\Cee\ setup for \ld\ grammar@>= #define DONTDECLARE_MALLOC #include "sysdep.h" #include "bfd.h" #include "bfdlink.h" #include "ld.h" #include "ldexp.h" #include "ldver.h" #include "ldlang.h" #include "ldfile.h" #include "ldemul.h" #include "ldmisc.h" #include "ldmain.h" #include "mri.h" #include "ldctor.h" #include "ldlex.h" #ifndef YYDEBUG #define YYDEBUG 1 #endif static enum section_type sectype; static lang_memory_region_type *region; bfd_boolean ldgram_had_keep = FALSE; char *ldgram_vers_current_lang = NULL; #define ERROR_NAME_MAX 20 static char *error_names[ERROR_NAME_MAX]; static int error_index; #define PUSH_ERROR(x) if (error_index < ERROR_NAME_MAX) error_names[error_index] = x; error_index++; #define POP_ERROR() @[error_index--;@] @ {\it The token definitions and the corresponding \prodstyle{\%union} styles are intermixed, which makes sense in the traditional style of a \bison\ script. When \CWEB\ is used, however, it helps to introduce the code in small, manageable sections and take advantage of \CWEB's crossreferencing facilities to provide cues on the relationships between various parts of the code.} @= @G %type exp opt_exp_with_type mustbe_exp opt_at phdr_type phdr_val %type opt_exp_without_type opt_subalign opt_align %type fill_opt fill_exp %type exclude_name_list %type file_NAME_list %type sect_flag_list %type sect_flags %type memspec_opt casesymlist %type memspec_at_opt %type wildcard_name %type wildcard_spec %token INT %token NAME LNAME %type length %type phdr_qualifiers %type nocrossref_list %type phdr_opt %type opt_nocrossrefs %right PLUSEQ MINUSEQ MULTEQ DIVEQ '=' LSHIFTEQ RSHIFTEQ ANDEQ OREQ %right '?' ':' %left OROR %left ANDAND %left '|' %left '^' %left '&' %left EQ NE %left '<' '>' LE GE %left LSHIFT RSHIFT %left '+' '-' %left '*' '/' '%' %right UNARY %token END %left '(' %token ALIGN_K BLOCK BIND QUAD SQUAD LONG SHORT BYTE %token SECTIONS PHDRS INSERT_K AFTER BEFORE %token DATA_SEGMENT_ALIGN DATA_SEGMENT_RELRO_END DATA_SEGMENT_END %token SORT_BY_NAME SORT_BY_ALIGNMENT SORT_NONE %token SORT_BY_INIT_PRIORITY %token '{' '}' %token SIZEOF_HEADERS OUTPUT_FORMAT FORCE_COMMON_ALLOCATION OUTPUT_ARCH %token INHIBIT_COMMON_ALLOCATION %token SEGMENT_START %token INCLUDE %token MEMORY %token REGION_ALIAS %token LD_FEATURE %token NOLOAD DSECT COPY INFO OVERLAY %token DEFINED TARGET_K SEARCH_DIR MAP ENTRY %token NEXT %token SIZEOF ALIGNOF ADDR LOADADDR MAX_K MIN_K %token STARTUP HLL SYSLIB FLOAT NOFLOAT NOCROSSREFS %token ORIGIN FILL %token LENGTH CREATE_OBJECT_SYMBOLS INPUT GROUP OUTPUT CONSTRUCTORS %token ALIGNMOD AT SUBALIGN HIDDEN PROVIDE PROVIDE_HIDDEN AS_NEEDED %type assign_op atype attributes_opt sect_constraint opt_align_with_input %type filename %token CHIP LIST SECT ABSOLUTE LOAD NEWLINE ENDWORD ORDER NAMEWORD ASSERT_K %token LOG2CEIL FORMAT PUBLIC DEFSYMEND BASE ALIAS TRUNCATE REL %token INPUT_SCRIPT INPUT_MRI_SCRIPT INPUT_DEFSYM CASE EXTERN START %token VERS_TAG VERS_IDENTIFIER %token GLOBAL LOCAL VERSIONK INPUT_VERSION_SCRIPT %token KEEP ONLY_IF_RO ONLY_IF_RW SPECIAL INPUT_SECTION_FLAGS ALIGN_WITH_INPUT %token EXCLUDE_FILE %token CONSTANT %type vers_defns %type vers_tag %type verdep %token INPUT_DYNAMIC_LIST @g @ {\it The original \Cee\ code has been preserved and presented along with the grammar rules in the next two sections (the \Cee\ code has not been deleted in the subsequent sections either, it is just not typeset).} \saveparseoutputfalse @= @G file: INPUT_SCRIPT script_file | INPUT_MRI_SCRIPT mri_script_file | INPUT_VERSION_SCRIPT version_script_file | INPUT_DYNAMIC_LIST dynamic_list_file | INPUT_DEFSYM defsym_expr ; filename: NAME; defsym_expr: { @> ldlex_defsym(); @=} NAME '=' exp { @O ldlex_popstate(); @o lang_add_assignment (exp_defsym ($2, $4)); } ; @g @ Syntax within an \MRI\ script file. @= @G mri_script_file: { @O @[ldlex_mri_script ();@] @o PUSH_ERROR (_("MRI style script")); } mri_script_lines { @O ldlex_popstate (); @o mri_draw_tree (); POP_ERROR (); } ; mri_script_lines: mri_script_lines mri_script_command NEWLINE | ; @g @ @= @G mri_script_command: CHIP exp | CHIP exp ',' exp | NAME { @> @ @=} | LIST { @> config.map_filename = "-"; @=} | ORDER ordernamelist | ENDWORD | PUBLIC NAME '=' exp { @> mri_public($2, $4); @=} | PUBLIC NAME ',' exp { @> mri_public($2, $4); @=} | PUBLIC NAME exp { @> mri_public($2, $3); @=} | FORMAT NAME { @> mri_format($2); @=} | SECT NAME ',' exp { @> mri_output_section($2, $4); @=} | SECT NAME exp { @> mri_output_section($2, $3); @=} | SECT NAME '=' exp { @> mri_output_section($2, $4); @=} | ALIGN_K NAME '=' exp { @> mri_align($2,$4); @=} | ALIGN_K NAME ',' exp { @> mri_align($2,$4); @=} | ALIGNMOD NAME '=' exp { @> mri_alignmod($2,$4); @=} | ALIGNMOD NAME ',' exp { @> mri_alignmod($2,$4); @=} | ABSOLUTE mri_abs_name_list | LOAD mri_load_name_list | NAMEWORD NAME { @> mri_name($2); @=} | ALIAS NAME ',' NAME { @> mri_alias($2,$4,0); @=} | ALIAS NAME ',' INT { @> mri_alias ($2, 0, (int) $4.integer); @=} | BASE exp { @> mri_base($2); @=} | TRUNCATE INT { @> mri_truncate ((unsigned int) $2.integer); @=} | CASE casesymlist | EXTERN extern_name_list | INCLUDE filename { @> ldlex_script (); ldfile_open_command_file($2); @=} mri_script_lines END { @> ldlex_popstate (); @=} | START NAME { @> lang_add_entry ($2, FALSE); @=} | ; ordernamelist: ordernamelist ',' NAME { @> mri_order($3); @=} | ordernamelist NAME { @> mri_order($2); @=} | ; mri_load_name_list: NAME { @> mri_load($1); @=} | mri_load_name_list ',' NAME { @> mri_load($3); @=} ; mri_abs_name_list: NAME { @> mri_only_load($1); @=} | mri_abs_name_list ',' NAME { @> mri_only_load($3); @=} ; casesymlist: { @> $$ = NULL; @=} | NAME | casesymlist ',' NAME ; @g @ {\it Here is one way to deal with code that is too long to fit in an action.} @= einfo(_("%P%F: unrecognised keyword in MRI style script '%s'\n"),$1); @ Parsed as expressions so that commas separate entries. @= @G extern_name_list: {@> @[ldlex_expression ();@]@=} extern_name_list_body {@> @[ldlex_popstate ();@]@=} extern_name_list_body: NAME { ldlang_add_undef ($1, FALSE); } | extern_name_list_body NAME { ldlang_add_undef ($2, FALSE); } | extern_name_list_body ',' NAME { ldlang_add_undef ($3, FALSE); } ; script_file: {@> @[ldlex_both();@]@=} ifile_list {@> @[ldlex_popstate();@]@=} ; ifile_list: ifile_list ifile_p1 | ; @g @ {\it All the commands that can appear in a standard linker script.}% @= @G ifile_p1: memory | sections | phdrs | startup | high_level_library | low_level_library | floating_point_support | statement_anywhere | version | ';' | TARGET_K '(' NAME ')' { lang_add_target($3); } | SEARCH_DIR '(' filename ')' { ldfile_add_library_path ($3, FALSE); } | OUTPUT '(' filename ')' { lang_add_output($3, 1); } | OUTPUT_FORMAT '(' NAME ')' { lang_add_output_format ($3, (char *) NULL, (char *) NULL, 1); } | OUTPUT_FORMAT '(' NAME ',' NAME ',' NAME ')' { lang_add_output_format ($3, $5, $7, 1); } | OUTPUT_ARCH '(' NAME ')' { ldfile_set_output_arch ($3, bfd_arch_unknown); } | FORCE_COMMON_ALLOCATION { command_line.force_common_definition = TRUE ; } | INHIBIT_COMMON_ALLOCATION { command_line.inhibit_common_definition = TRUE ; } | INPUT '(' input_list ')' | GROUP { lang_enter_group (); } '(' input_list ')' { lang_leave_group (); } | MAP '(' filename ')' { lang_add_map($3); } | INCLUDE filename { @O ldlex_script (); ldfile_open_command_file($2); @o } ifile_list END {@> @[ldlex_popstate ();@]@=} | NOCROSSREFS '(' nocrossref_list ')' { lang_add_nocrossref ($3); } | EXTERN '(' extern_name_list ')' | INSERT_K AFTER NAME { lang_add_insert ($3, 0); } | INSERT_K BEFORE NAME { lang_add_insert ($3, 1); } | REGION_ALIAS '(' NAME ',' NAME ')' { lang_memory_region_alias ($3, $5); } | LD_FEATURE '(' NAME ')' { lang_ld_feature ($3); } ; @g @ @= @G input_list: NAME { lang_add_input_file($1,lang_input_file_is_search_file_enum, (char *)NULL); } | input_list ',' NAME { lang_add_input_file($3,lang_input_file_is_search_file_enum, (char *)NULL); } | input_list NAME { lang_add_input_file($2,lang_input_file_is_search_file_enum, (char *)NULL); } | LNAME { lang_add_input_file($1,lang_input_file_is_l_enum, (char *)NULL); } | input_list ',' LNAME { lang_add_input_file($3,lang_input_file_is_l_enum, (char *)NULL); } | input_list LNAME { lang_add_input_file($2,lang_input_file_is_l_enum, (char *)NULL); } | AS_NEEDED '(' { $$ = input_flags.add_DT_NEEDED_for_regular; input_flags.add_DT_NEEDED_for_regular = TRUE; } input_list ')' { input_flags.add_DT_NEEDED_for_regular = $3; } | input_list ',' AS_NEEDED '(' { $$ = input_flags.add_DT_NEEDED_for_regular; input_flags.add_DT_NEEDED_for_regular = TRUE; } input_list ')' { input_flags.add_DT_NEEDED_for_regular = $5; } | input_list AS_NEEDED '(' { $$ = input_flags.add_DT_NEEDED_for_regular; input_flags.add_DT_NEEDED_for_regular = TRUE; } input_list ')' { input_flags.add_DT_NEEDED_for_regular = $4; } ; sections: SECTIONS '{' sec_or_group_p1 '}' ; sec_or_group_p1: sec_or_group_p1 section | sec_or_group_p1 statement_anywhere | ; statement_anywhere: ENTRY '(' NAME ')' { lang_add_entry ($3, FALSE); } | assignment end | ASSERT_K {@>@[ldlex_expression ();@]@=} '(' exp ',' NAME ')' { @O ldlex_popstate (); lang_add_assignment (exp_assert ($4, $6)); @o } ; @g @q using a @@[, @@> pair instead of @@[, @@] may lead to some strange spacing artefacts @> @q due to the lack of \6; it is instructive to see its effects after replacing the @@] with @@> @> @q in the line containing ASSERT_K @> @ \tracebadcharstrue The {\setrulecontext{wildcardname}\prodstyle{'*'}} and \prodstyle{'?'} cases are there because the lexer returns them as separate tokens rather than as \prodstyle{NAME}. \tracebadcharsfalse @= @G wildcard_name: NAME { $$ = $1; } | '*' { $$ = "*"; } | '?' { $$ = "?"; } ; @g @ @= @G wildcard_spec: wildcard_name { $$.name = $1; $$.sorted = none; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | EXCLUDE_FILE '(' exclude_name_list ')' wildcard_name { $$.name = $5; $$.sorted = none; $$.exclude_name_list = $3; $$.section_flag_list = NULL; } | SORT_BY_NAME '(' wildcard_name ')' { $$.name = $3; $$.sorted = by_name; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | SORT_BY_ALIGNMENT '(' wildcard_name ')' { $$.name = $3; $$.sorted = by_alignment; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | SORT_NONE '(' wildcard_name ')' { $$.name = $3; $$.sorted = by_none; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | SORT_BY_NAME '(' SORT_BY_ALIGNMENT '(' wildcard_name ')' ')' { $$.name = $5; $$.sorted = by_name_alignment; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | SORT_BY_NAME '(' SORT_BY_NAME '(' wildcard_name ')' ')' { $$.name = $5; $$.sorted = by_name; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | SORT_BY_ALIGNMENT '(' SORT_BY_NAME '(' wildcard_name ')' ')' { $$.name = $5; $$.sorted = by_alignment_name; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | SORT_BY_ALIGNMENT '(' SORT_BY_ALIGNMENT '(' wildcard_name ')' ')' { $$.name = $5; $$.sorted = by_alignment; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } | SORT_BY_NAME '(' EXCLUDE_FILE '(' exclude_name_list ')' wildcard_name ')' { $$.name = $7; $$.sorted = by_name; $$.exclude_name_list = $5; $$.section_flag_list = NULL; } | SORT_BY_INIT_PRIORITY '(' wildcard_name ')' { $$.name = $3; $$.sorted = by_init_priority; $$.exclude_name_list = NULL; $$.section_flag_list = NULL; } ; sect_flag_list: NAME { struct flag_info_list *n; n = ((struct flag_info_list *) xmalloc (sizeof *n)); if ($1[0] == '!') { n->with = without_flags; n->name = &$1[1]; } else { n->with = with_flags; n->name = $1; } n->valid = FALSE; n->next = NULL; $$ = n; } | sect_flag_list '&' NAME { struct flag_info_list *n; n = ((struct flag_info_list *) xmalloc (sizeof *n)); if ($3[0] == '!') { n->with = without_flags; n->name = &$3[1]; } else { n->with = with_flags; n->name = $3; } n->valid = FALSE; n->next = $1; $$ = n; } ; sect_flags: INPUT_SECTION_FLAGS '(' sect_flag_list ')' { struct flag_info *n; n = ((struct flag_info *) xmalloc (sizeof *n)); n->flag_list = $3; n->flags_initialized = FALSE; n->not_with_flags = 0; n->only_with_flags = 0; $$ = n; } ; exclude_name_list: exclude_name_list wildcard_name { struct name_list *tmp; tmp = (struct name_list *) xmalloc (sizeof *tmp); tmp->name = $2; tmp->next = $1; $$ = tmp; } | wildcard_name { struct name_list *tmp; tmp = (struct name_list *) xmalloc (sizeof *tmp); tmp->name = $1; tmp->next = NULL; $$ = tmp; } ; file_NAME_list: file_NAME_list opt_comma wildcard_spec { struct wildcard_list *tmp; tmp = (struct wildcard_list *) xmalloc (sizeof *tmp); tmp->next = $1; tmp->spec = $3; $$ = tmp; } | wildcard_spec { struct wildcard_list *tmp; tmp = (struct wildcard_list *) xmalloc (sizeof *tmp); tmp->next = NULL; tmp->spec = $1; $$ = tmp; } ; input_section_spec_no_keep: NAME { struct wildcard_spec tmp; tmp.name = $1; tmp.exclude_name_list = NULL; tmp.sorted = none; tmp.section_flag_list = NULL; lang_add_wild (&tmp, NULL, ldgram_had_keep); } | sect_flags NAME { struct wildcard_spec tmp; tmp.name = $2; tmp.exclude_name_list = NULL; tmp.sorted = none; tmp.section_flag_list = $1; lang_add_wild (&tmp, NULL, ldgram_had_keep); } | '[' file_NAME_list ']' { lang_add_wild (NULL, $2, ldgram_had_keep); } | sect_flags '[' file_NAME_list ']' { struct wildcard_spec tmp; tmp.name = NULL; tmp.exclude_name_list = NULL; tmp.sorted = none; tmp.section_flag_list = $1; lang_add_wild (&tmp, $3, ldgram_had_keep); } | wildcard_spec '(' file_NAME_list ')' { lang_add_wild (&$1, $3, ldgram_had_keep); } | sect_flags wildcard_spec '(' file_NAME_list ')' { $2.section_flag_list = $1; lang_add_wild (&$2, $4, ldgram_had_keep); } ; @g @ @= @G input_section_spec: input_section_spec_no_keep | KEEP '(' { ldgram_had_keep = TRUE; } input_section_spec_no_keep ')' { ldgram_had_keep = FALSE; } ; statement: assignment end | CREATE_OBJECT_SYMBOLS { lang_add_attribute(lang_object_symbols_statement_enum); } | ';' | CONSTRUCTORS { lang_add_attribute(lang_constructors_statement_enum); } | SORT_BY_NAME '(' CONSTRUCTORS ')' { constructors_sorted = TRUE; lang_add_attribute (lang_constructors_statement_enum); } | input_section_spec | length '(' mustbe_exp ')' { lang_add_data ((int) $1, $3); } | FILL '(' fill_exp ')' { lang_add_fill ($3); } | ASSERT_K {@>@[ldlex_expression ();@]@=} '(' exp ',' NAME ')' end { @O ldlex_popstate (); @o lang_add_assignment (exp_assert ($4, $6)); } | INCLUDE filename {@> @[ldlex_script (); ldfile_open_command_file($2);@]@=} statement_list_opt END {@> @[ldlex_popstate ();@]@=} ; @t}\vb{\flatten\inline\squashtermstrue}{@> statement_list: statement_list statement | statement ; statement_list_opt: | statement_list ; length: QUAD { $$ = $1; } | SQUAD { $$ = $1; } | LONG { $$ = $1; } | SHORT { $$ = $1; } | BYTE { $$ = $1; } ; fill_exp: mustbe_exp { $$ = exp_get_fill ($1, 0, "fill value"); } ; fill_opt: '=' fill_exp { $$ = $2; } | { $$ = (fill_type *) 0; } ; assign_op: PLUSEQ { $$ = '+'; } | MINUSEQ { $$ = '-'; } | MULTEQ { $$ = '*'; } | DIVEQ { $$ = '/'; } | LSHIFTEQ { $$ = LSHIFT; } | RSHIFTEQ { $$ = RSHIFT; } | ANDEQ { $$ = '&'; } | OREQ { $$ = '|'; } ; end: ';' | ',' ; @t}\vb{\resetf}{@> assignment: NAME '=' mustbe_exp { lang_add_assignment (exp_assign ($1, $3, FALSE)); } | NAME assign_op mustbe_exp { lang_add_assignment (exp_assign ($1, exp_binop ($2, exp_nameop (NAME, $1), $3), FALSE)); } | HIDDEN '(' NAME '=' mustbe_exp ')' { lang_add_assignment (exp_assign ($3, $5, TRUE)); } | PROVIDE '(' NAME '=' mustbe_exp ')' { lang_add_assignment (exp_provide ($3, $5, FALSE)); } | PROVIDE_HIDDEN '(' NAME '=' mustbe_exp ')' { lang_add_assignment (exp_provide ($3, $5, TRUE)); } ; @t}\vb{\inline\flatten}{@> opt_comma: ',' | ; @t}\vb{\resetf}{@> memory: MEMORY '{' memory_spec_list_opt '}' ; memory_spec_list_opt: memory_spec_list | ; memory_spec_list: memory_spec_list opt_comma memory_spec | memory_spec ; memory_spec: NAME { region = lang_memory_region_lookup ($1, TRUE); } attributes_opt ':' origin_spec opt_comma length_spec {} | INCLUDE filename {@> @[ldlex_script (); ldfile_open_command_file($2);@]@=} memory_spec_list_opt END {@> @[ldlex_popstate ();@]@=} ; @g @ @= @G origin_spec: ORIGIN '=' mustbe_exp { region->origin = exp_get_vma ($3, 0, "origin"); region->current = region->origin; } ; length_spec: LENGTH '=' mustbe_exp { region->length = exp_get_vma ($3, -1, "length"); } ; attributes_opt: { /* dummy action to avoid bison 1.25 error message */ } | '(' attributes_list ')' ; attributes_list: attributes_string | attributes_list attributes_string ; attributes_string: NAME { lang_set_flags (region, $1, 0); } | '!' NAME { lang_set_flags (region, $2, 1); } ; startup: STARTUP '(' filename ')' { lang_startup($3); } ; high_level_library: HLL '(' high_level_library_NAME_list ')' | HLL '(' ')' { ldemul_hll((char *)NULL); } ; high_level_library_NAME_list: high_level_library_NAME_list opt_comma filename { ldemul_hll($3); } | filename { ldemul_hll($1); } ; low_level_library: SYSLIB '(' low_level_library_NAME_list ')' ; low_level_library_NAME_list: low_level_library_NAME_list opt_comma filename { ldemul_syslib($3); } | ; floating_point_support: FLOAT { lang_float(TRUE); } | NOFLOAT { lang_float(FALSE); } ; nocrossref_list: { $$ = NULL; } | NAME nocrossref_list { struct lang_nocrossref *n; n = (struct lang_nocrossref *) xmalloc (sizeof *n); n->name = $1; n->next = $2; $$ = n; } | NAME ',' nocrossref_list { struct lang_nocrossref *n; n = (struct lang_nocrossref *) xmalloc (sizeof *n); n->name = $1; n->next = $3; $$ = n; } ; mustbe_exp: {@> @[ldlex_expression ();@]@=} exp {@> @[ldlex_popstate ();@]@= $$=$2;} ; @g @ {\it Rich expression syntax reproducing the one in \Cee.} @= @G exp : '-' exp %prec UNARY { $$ = exp_unop ('-', $2); } | '(' exp ')' { $$ = $2; } | NEXT '(' exp ')' %prec UNARY { $$ = exp_unop ((int) $1,$3); } | '!' exp %prec UNARY { $$ = exp_unop ('!', $2); } | '+' exp %prec UNARY { $$ = $2; } | '~' exp %prec UNARY { $$ = exp_unop ('~', $2);} @t}\vb{\flatten\inline}{@> | exp '*' exp { $$ = exp_binop ('*', $1, $3); } | exp '/' exp { $$ = exp_binop ('/', $1, $3); } | exp '%' exp { $$ = exp_binop ('%', $1, $3); } | exp '+' exp { $$ = exp_binop ('+', $1, $3); } | exp '-' exp @t}\vb{\resetf}{@> { $$ = exp_binop ('-' , $1, $3); } @t}\vb{\flatten\inline}{@> | exp LSHIFT exp { $$ = exp_binop (LSHIFT , $1, $3); } | exp RSHIFT exp { $$ = exp_binop (RSHIFT , $1, $3); } | exp EQ exp { $$ = exp_binop (EQ , $1, $3); } | exp NE exp { $$ = exp_binop (NE , $1, $3); } | exp LE exp @t}\vb{\resetf}{@> { $$ = exp_binop (LE , $1, $3); } @t}\vb{\flatten\inline}{@> | exp GE exp { $$ = exp_binop (GE , $1, $3); } | exp '<' exp { $$ = exp_binop ('<' , $1, $3); } | exp '>' exp { $$ = exp_binop ('>' , $1, $3); } | exp '&' exp { $$ = exp_binop ('&' , $1, $3); } | exp '^' exp @t}\vb{\resetf}{@> { $$ = exp_binop ('^' , $1, $3); } @t}\vb{\flatten\inline}{@> | exp '|' exp { $$ = exp_binop ('|' , $1, $3); } | exp '?' exp ':' exp { $$ = exp_trinop ('?' , $1, $3, $5); } | exp ANDAND exp { $$ = exp_binop (ANDAND , $1, $3); } | exp OROR exp @t}\vb{\resetf}{@> { $$ = exp_binop (OROR , $1, $3); } @t}\vb{\flatten\inline}{@> | DEFINED '(' NAME ')' { $$ = exp_nameop (DEFINED, $3); } | INT { $$ = exp_bigintop ($1.integer, $1.str); } | SIZEOF_HEADERS @t}\vb{\resetf}{@> { $$ = exp_nameop (SIZEOF_HEADERS,0); } @t}\vb{\flatten\inline}{@> | ALIGNOF '(' NAME ')' { $$ = exp_nameop (ALIGNOF,$3); } | SIZEOF '(' NAME ')' @t}\vb{\resetf}{@> { $$ = exp_nameop (SIZEOF,$3); } @t}\vb{\flatten\inline}{@> | ADDR '(' NAME ')' { $$ = exp_nameop (ADDR,$3); } | LOADADDR '(' NAME ')' @t}\vb{\resetf}{@> { $$ = exp_nameop (LOADADDR,$3); } @t}\vb{\flatten\inline}{@> | CONSTANT '(' NAME ')' { $$ = exp_nameop (CONSTANT,$3); } | ABSOLUTE '(' exp ')' { $$ = exp_unop (ABSOLUTE, $3); } | ALIGN_K '(' exp ')' @t}\vb{\resetf}{@> { $$ = exp_unop (ALIGN_K,$3); } @t}\vb{\flatten\inline}{@> | ALIGN_K '(' exp ',' exp ')' { $$ = exp_binop (ALIGN_K,$3,$5); } | DATA_SEGMENT_ALIGN '(' exp ',' exp ')' @t}\vb{\resetf}{@> { $$ = exp_binop (DATA_SEGMENT_ALIGN, $3, $5); } | DATA_SEGMENT_RELRO_END '(' exp ',' exp ')' { $$ = exp_binop (DATA_SEGMENT_RELRO_END, $5, $3); } | DATA_SEGMENT_END '(' exp ')' { $$ = exp_unop (DATA_SEGMENT_END, $3); } | SEGMENT_START '(' NAME ',' exp ')' { $$ = exp_binop (SEGMENT_START, $5, exp_nameop (NAME, $3)); } | BLOCK '(' exp ')' { $$ = exp_unop (ALIGN_K,$3); } | NAME { $$ = exp_nameop (NAME,$1); } | MAX_K '(' exp ',' exp ')' { $$ = exp_binop (MAX_K, $3, $5 ); } | MIN_K '(' exp ',' exp ')' { $$ = exp_binop (MIN_K, $3, $5 ); } | ASSERT_K '(' exp ',' NAME ')' { $$ = exp_assert ($3, $5); } | ORIGIN '(' NAME ')' { $$ = exp_nameop (ORIGIN, $3); } | LENGTH '(' NAME ')' { $$ = exp_nameop (LENGTH, $3); } | LOG2CEIL '(' exp ')' { $$ = exp_unop (LOG2CEIL, $3); } ; @g @ @= @G memspec_at_opt: AT '>' NAME { $$ = $3; } | { $$ = 0; } ; opt_at: AT '(' exp ')' { $$ = $3; } | { $$ = 0; } ; opt_align: ALIGN_K '(' exp ')' { $$ = $3; } | { $$ = 0; } ; opt_align_with_input: ALIGN_WITH_INPUT { $$ = ALIGN_WITH_INPUT; } | { $$ = 0; } ; opt_subalign: SUBALIGN '(' exp ')' { $$ = $3; } | { $$ = 0; } ; sect_constraint: ONLY_IF_RO { $$ = ONLY_IF_RO; } | ONLY_IF_RW { $$ = ONLY_IF_RW; } | SPECIAL { $$ = SPECIAL; } | { $$ = 0; } ; @g @ The \prodstyle{GROUP} case is just enough to support the \gcc\ |svr3.ifile| script. It is not intended to be full support. I'm not even sure what \prodstyle{GROUP} is supposed to mean. @= @G section: NAME {@> @[ldlex_expression();@]@=} opt_exp_with_type opt_at opt_align @t}\vb{\breakline}{@> opt_align_with_input opt_subalign {@> @[ldlex_popstate (); ldlex_script ();@]@=} sect_constraint '{' { lang_enter_output_section_statement($1, $3, sectype, $5, $7, $4, $9, $6); } statement_list_opt '}' {@> @[ldlex_popstate (); ldlex_expression ();@]@=} memspec_opt memspec_at_opt phdr_opt fill_opt { @O ldlex_popstate (); @o lang_leave_output_section_statement ($18, $15, $17, $16); } opt_comma {} | OVERLAY {@> @[ldlex_expression ();@]@=} opt_exp_without_type opt_nocrossrefs @t}\vb{\breakline}{@> opt_at opt_subalign {@> @[ldlex_popstate (); ldlex_script ();@]@=} '{' { lang_enter_overlay ($3, $6); } overlay_section '}' {@> @[ldlex_popstate (); ldlex_expression ();@]@=} memspec_opt memspec_at_opt phdr_opt fill_opt { @O ldlex_popstate (); @o lang_leave_overlay ($5, (int) $4, $16, $13, $15, $14); } opt_comma | GROUP {@> @[ldlex_expression ();@]@=} opt_exp_with_type { @O ldlex_popstate (); @o lang_add_assignment (exp_assign (".", $3, FALSE)); } '{' sec_or_group_p1 '}' | INCLUDE filename {@> @[ldlex_script (); ldfile_open_command_file($2);@]@=} sec_or_group_p1 END {@> @[ldlex_popstate ();@]@=} ; @t}\vb{\flatten\inline}{@> type: NOLOAD { sectype = noload_section; } | DSECT { sectype = noalloc_section; } | COPY { sectype = noalloc_section; } | INFO { sectype = noalloc_section; } | OVERLAY { sectype = noalloc_section; } ; atype: '(' type ')' | { sectype = normal_section; } | '(' ')' { sectype = normal_section; } ; @g @ The \prodstyle{BIND} cases are to support the \gcc\ |svr3.ifile| script. They aren't intended to implement full support for the \prodstyle{BIND} keyword. I'm not even sure what \prodstyle{BIND} is supposed to mean. @= @G opt_exp_with_type: exp atype ':' { $$ = $1; } | atype ':' { $$ = (etree_type *)NULL; } | BIND '(' exp ')' atype ':' { $$ = $3; } | BIND '(' exp ')' BLOCK '(' exp ')' atype ':' { $$ = $3; } ; opt_exp_without_type: exp ':' { $$ = $1; } | ':' { $$ = (etree_type *) NULL; } ; opt_nocrossrefs: { $$ = 0; } | NOCROSSREFS { $$ = 1; } ; memspec_opt: '>' NAME { $$ = $2; } | { $$ = DEFAULT_MEMORY_REGION; } ; phdr_opt: { $$ = NULL; } | phdr_opt ':' NAME { struct lang_output_section_phdr_list *n; n = ((struct lang_output_section_phdr_list *) xmalloc (sizeof *n)); n->name = $3; n->used = FALSE; n->next = $1; $$ = n; } ; overlay_section: | overlay_section NAME { @O ldlex_script (); @o lang_enter_overlay_section ($2); } '{' statement_list_opt '}' {@> @[ldlex_popstate (); ldlex_expression ();@]@=} phdr_opt fill_opt { @O ldlex_popstate (); @o lang_leave_overlay_section ($9, $8); } opt_comma ; @g @ @= @G phdrs: PHDRS '{' phdr_list '}' ; phdr_list: | phdr_list phdr ; phdr: NAME {@> @[ldlex_expression ();@]@=} phdr_type phdr_qualifiers {@> @[ldlex_popstate ();@]@=} ';' { lang_new_phdr ($1, $3, $4.filehdr, $4.phdrs, $4.at, $4.flags); } ; phdr_type: exp { $$ = $1; if ($1->type.node_class == etree_name && $1->type.node_code == NAME) { const char *s; unsigned int i; static const char * const phdr_types[] = { "PT_NULL", "PT_LOAD", "PT_DYNAMIC", "PT_INTERP", "PT_NOTE", "PT_SHLIB", "PT_PHDR", "PT_TLS" }; s = $1->name.name; for (i = 0; i < sizeof phdr_types / sizeof phdr_types[0]; i++) if (strcmp (s, phdr_types[i]) == 0) { $$ = exp_intop (i); break; } if (i == sizeof phdr_types / sizeof phdr_types[0]) { if (strcmp (s, "PT_GNU_EH_FRAME") == 0) $$ = exp_intop (0x6474e550); else if (strcmp (s, "PT_GNU_STACK") == 0) $$ = exp_intop (0x6474e551); else { einfo (_("\ %X%P:%S: unknown phdr type `%s' (try integer literal)\n"), NULL, s); $$ = exp_intop (0); } } } } ; phdr_qualifiers: { memset (&$$, 0, sizeof (struct phdr_info)); } | NAME phdr_val phdr_qualifiers { $$ = $3; if (strcmp ($1, "FILEHDR") == 0 && $2 == NULL) $$.filehdr = TRUE; else if (strcmp ($1, "PHDRS") == 0 && $2 == NULL) $$.phdrs = TRUE; else if (strcmp ($1, "FLAGS") == 0 && $2 != NULL) $$.flags = $2; else einfo (_("%X%P:%S: PHDRS syntax error at `%s'\n"), NULL, $1); } | AT '(' exp ')' phdr_qualifiers { $$ = $5; $$.at = $3; } ; phdr_val: { $$ = NULL; } | '(' exp ')' { $$ = $2; } ; dynamic_list_file: { @O ldlex_version_file (); @o PUSH_ERROR (_("dynamic list")); } dynamic_list_nodes { @O ldlex_popstate (); @o POP_ERROR (); } ; dynamic_list_nodes: dynamic_list_node | dynamic_list_nodes dynamic_list_node ; dynamic_list_node: '{' dynamic_list_tag '}' ';' ; dynamic_list_tag: vers_defns ';' { lang_append_dynamic_list ($1); } ; @g @ This syntax is used within an external version script file. @= @G version_script_file: { @O ldlex_version_file (); @o PUSH_ERROR (_("VERSION script")); } vers_nodes { @O ldlex_popstate (); @o POP_ERROR (); } ; @g @ This is used within a normal linker script file. @= @G version: { @O ldlex_version_script (); @o } VERSIONK '{' vers_nodes '}' { @O ldlex_popstate (); @o } ; vers_nodes: vers_node | vers_nodes vers_node ; vers_node: '{' vers_tag '}' ';' { lang_register_vers_node (NULL, $2, NULL); } | VERS_TAG '{' vers_tag '}' ';' { lang_register_vers_node ($1, $3, NULL); } | VERS_TAG '{' vers_tag '}' verdep ';' { lang_register_vers_node ($1, $3, $5); } ; verdep: VERS_TAG { $$ = lang_add_vers_depend (NULL, $1); } | verdep VERS_TAG { $$ = lang_add_vers_depend ($1, $2); } ; vers_tag: { $$ = lang_new_vers_node (NULL, NULL); } | vers_defns ';' { $$ = lang_new_vers_node ($1, NULL); } | GLOBAL ':' vers_defns ';' { $$ = lang_new_vers_node ($3, NULL); } | LOCAL ':' vers_defns ';' { $$ = lang_new_vers_node (NULL, $3); } | GLOBAL ':' vers_defns ';' LOCAL ':' vers_defns ';' { $$ = lang_new_vers_node ($3, $7); } ; vers_defns: VERS_IDENTIFIER { $$ = lang_new_vers_pattern (NULL, $1, ldgram_vers_current_lang, FALSE); } | NAME { $$ = lang_new_vers_pattern (NULL, $1, ldgram_vers_current_lang, TRUE); } | vers_defns ';' VERS_IDENTIFIER { $$ = lang_new_vers_pattern ($1, $3, ldgram_vers_current_lang, FALSE); } | vers_defns ';' NAME { $$ = lang_new_vers_pattern ($1, $3, ldgram_vers_current_lang, TRUE); } | vers_defns ';' EXTERN NAME '{' { $$ = ldgram_vers_current_lang; ldgram_vers_current_lang = $4; } vers_defns opt_semicolon '}' { struct bfd_elf_version_expr *pat; for (pat = $7; pat->next != NULL; pat = pat->next); pat->next = $1; $$ = $7; ldgram_vers_current_lang = $6; } | EXTERN NAME '{' { $$ = ldgram_vers_current_lang; ldgram_vers_current_lang = $2; } vers_defns opt_semicolon '}' { $$ = $5; ldgram_vers_current_lang = $4; } | GLOBAL { $$ = lang_new_vers_pattern (NULL, "global", ldgram_vers_current_lang, FALSE); } | vers_defns ';' GLOBAL { $$ = lang_new_vers_pattern ($1, "global", ldgram_vers_current_lang, FALSE); } | LOCAL { $$ = lang_new_vers_pattern (NULL, "local", ldgram_vers_current_lang, FALSE); } | vers_defns ';' LOCAL { $$ = lang_new_vers_pattern ($1, "local", ldgram_vers_current_lang, FALSE); } | EXTERN { $$ = lang_new_vers_pattern (NULL, "extern", ldgram_vers_current_lang, FALSE); } | vers_defns ';' EXTERN { $$ = lang_new_vers_pattern ($1, "extern", ldgram_vers_current_lang, FALSE); } ; @t}\vb{\inline\flatten}{@> opt_semicolon: | ';' ; @g @q%%@> @ \Cee\ sugar. @c void yyerror(arg) const char *arg; { if (ldfile_assumed_script) einfo (_("%P:%s: file format not recognized; treating as linker script\n"), ldlex_filename ()); if (error_index > 0 && error_index < ERROR_NAME_MAX) einfo ("%P%F:%S: %s in %s\n", NULL, arg, error_names[error_index - 1]); else einfo ("%P%F:%S: %s\n", NULL, arg); }