From: Steve Chamberlain Date: Thu, 2 Jul 1992 00:53:14 +0000 (+0000) Subject: Aliasing bug fixes X-Git-Tag: gdb-4_18~21545 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=be1627d3092bc6a612445d5bb53416371405e8df;p=external%2Fbinutils.git Aliasing bug fixes --- diff --git a/ld/ldindr.c b/ld/ldindr.c index 82efe33..47c9e1d 100644 --- a/ld/ldindr.c +++ b/ld/ldindr.c @@ -93,6 +93,8 @@ asymbol **ptr) { refize(new, new->scoms_chain); } +lgs->sdefs_chain = (asymbol **)new; + } diff --git a/ld/ldmain.c b/ld/ldmain.c index fa02f26..965aa72 100644 --- a/ld/ldmain.c +++ b/ld/ldmain.c @@ -348,129 +348,139 @@ DEFUN (Q_enter_global_ref, (nlist_p, name), flagword this_symbol_flags = sym->flags; sp = ldsym_get (name); + /* If this symbol already has udata, it means that something strange + has happened. + + The strange thing is that we've had an undefined symbol resolved by + an alias, but the thing the alias defined wasn't in the file. So + the symbol got a udata entry, but the file wasn't loaded. Then + later on the file was loaded, but we don't need to do this + processing again */ - ASSERT (sym->udata == 0); + + if (sym->udata) + return; if (flag_is_constructor (this_symbol_flags)) + { + /* Add this constructor to the list we keep */ + ldlang_add_constructor (sp); + /* Turn any commons into refs */ + if (sp->scoms_chain != (asymbol **) NULL) { - /* Add this constructor to the list we keep */ - ldlang_add_constructor (sp); - /* Turn any commons into refs */ - if (sp->scoms_chain != (asymbol **) NULL) - { - refize (sp, sp->scoms_chain); - sp->scoms_chain = 0; - } + refize (sp, sp->scoms_chain); + sp->scoms_chain = 0; + } - } + } else + { + if (sym->section == &bfd_com_section) { - if (sym->section == &bfd_com_section) + /* If we have a definition of this symbol already then + this common turns into a reference. Also we only + ever point to the largest common, so if we + have a common, but it's bigger that the new symbol + the turn this into a reference too. */ + if (sp->sdefs_chain) + { + /* This is a common symbol, but we already have a definition + for it, so just link it into the ref chain as if + it were a reference */ + refize (sp, nlist_p); + } + else if (sp->scoms_chain) + { + /* If we have a previous common, keep only the biggest */ + if ((*(sp->scoms_chain))->value > sym->value) { - /* If we have a definition of this symbol already then - this common turns into a reference. Also we only - ever point to the largest common, so if we - have a common, but it's bigger that the new symbol - the turn this into a reference too. */ - if (sp->sdefs_chain) - { - /* This is a common symbol, but we already have a definition - for it, so just link it into the ref chain as if - it were a reference */ - refize (sp, nlist_p); - } - else if (sp->scoms_chain) - { - /* If we have a previous common, keep only the biggest */ - if ((*(sp->scoms_chain))->value > sym->value) - { - /* other common is bigger, throw this one away */ - refize (sp, nlist_p); - } - else if (sp->scoms_chain != nlist_p) - { - /* other common is smaller, throw that away */ - refize (sp, sp->scoms_chain); - sp->scoms_chain = nlist_p; - } - } - else - { - /* This is the first time we've seen a common, so remember it - - if it was undefined before, we know it's defined now. If - the symbol has been marked as really being a constructor, - then treat this as a ref - */ - if (sp->flags & SYM_CONSTRUCTOR) - { - /* Turn this into a ref */ - refize (sp, nlist_p); - } - else - { - /* treat like a common */ - if (sp->srefs_chain) - undefined_global_sym_count--; - - commons_pending++; - sp->scoms_chain = nlist_p; - } - } + /* other common is bigger, throw this one away */ + refize (sp, nlist_p); } - - else if (sym->section != &bfd_und_section) + else if (sp->scoms_chain != nlist_p) { - /* This is the definition of a symbol, add to def chain */ - if (sp->sdefs_chain && (*(sp->sdefs_chain))->section != sym->section) - { - /* Multiple definition */ - asymbol *sy = *(sp->sdefs_chain); - lang_input_statement_type *stat = (lang_input_statement_type *) sy->the_bfd->usrdata; - lang_input_statement_type *stat1 = (lang_input_statement_type *) sym->the_bfd->usrdata; - asymbol **stat1_symbols = stat1 ? stat1->asymbols : 0; - asymbol **stat_symbols = stat ? stat->asymbols : 0; - - multiple_def_count++; - einfo ("%X%C: multiple definition of `%T'\n", - sym->the_bfd, sym->section, stat1_symbols, sym->value, sym); - - einfo ("%X%C: first seen here\n", - sy->the_bfd, sy->section, stat_symbols, sy->value); - } - else - { - sym->udata = (PTR) (sp->sdefs_chain); - sp->sdefs_chain = nlist_p; - } - /* A definition overrides a common symbol */ - if (sp->scoms_chain) - { - refize (sp, sp->scoms_chain); - sp->scoms_chain = 0; - commons_pending--; - } - else if (sp->srefs_chain && relaxing == false) - { - /* If previously was undefined, then remember as defined */ - undefined_global_sym_count--; - } + /* other common is smaller, throw that away */ + refize (sp, sp->scoms_chain); + sp->scoms_chain = nlist_p; } + } else + { + /* This is the first time we've seen a common, so remember it + - if it was undefined before, we know it's defined now. If + the symbol has been marked as really being a constructor, + then treat this as a ref + */ + if (sp->flags & SYM_CONSTRUCTOR) { - if (sp->scoms_chain == (asymbol **) NULL - && sp->srefs_chain == (asymbol **) NULL - && sp->sdefs_chain == (asymbol **) NULL) - { - /* And it's the first time we've seen it */ - undefined_global_sym_count++; - - } - + /* Turn this into a ref */ refize (sp, nlist_p); } + else + { + /* treat like a common */ + if (sp->srefs_chain) + undefined_global_sym_count--; + + commons_pending++; + sp->scoms_chain = nlist_p; + } + } + } + + else if (sym->section != &bfd_und_section) + { + /* This is the definition of a symbol, add to def chain */ + if (sp->sdefs_chain && (*(sp->sdefs_chain))->section != sym->section) + { + /* Multiple definition */ + asymbol *sy = *(sp->sdefs_chain); + lang_input_statement_type *stat = (lang_input_statement_type *) sy->the_bfd->usrdata; + lang_input_statement_type *stat1 = (lang_input_statement_type *) sym->the_bfd->usrdata; + asymbol **stat1_symbols = stat1 ? stat1->asymbols : 0; + asymbol **stat_symbols = stat ? stat->asymbols : 0; + + multiple_def_count++; + einfo ("%X%C: multiple definition of `%T'\n", + sym->the_bfd, sym->section, stat1_symbols, sym->value, sym); + + einfo ("%X%C: first seen here\n", + sy->the_bfd, sy->section, stat_symbols, sy->value); + } + else + { + sym->udata = (PTR) (sp->sdefs_chain); + sp->sdefs_chain = nlist_p; + } + /* A definition overrides a common symbol */ + if (sp->scoms_chain) + { + refize (sp, sp->scoms_chain); + sp->scoms_chain = 0; + commons_pending--; + } + else if (sp->srefs_chain && relaxing == false) + { + /* If previously was undefined, then remember as defined */ + undefined_global_sym_count--; + } + } + else + { + if (sp->scoms_chain == (asymbol **) NULL + && sp->srefs_chain == (asymbol **) NULL + && sp->sdefs_chain == (asymbol **) NULL) + { + /* And it's the first time we've seen it */ + undefined_global_sym_count++; + + } + + refize (sp, nlist_p); } + } ASSERT (sp->sdefs_chain == 0 || sp->scoms_chain == 0); ASSERT (sp->scoms_chain == 0 || (*(sp->scoms_chain))->udata == 0);