/* Copyright (C) 2017-2017 David Anderson. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation. This program is distributed in the hope that it would be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Further, this software is distributed without any warranty that it is free of the rightful claim of any third person regarding infringement or the like. Any license provided herein, whether implied or otherwise, applies only to this software file. Patent licenses, if any, provided herein do not apply to combinations of this program with other software, or any other product whatsoever. You should have received a copy of the GNU General Public License along with this program; if not, write the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston MA 02110-1301, USA. */ #include "globals.h" #include "naming.h" #include "dwconf.h" /* Two purposes here related to COMDAT: A) get and print the data on sections and groups. B) reset certain global 'print' flags so printing a COMDAT section does not print the major sections that are from group 1 (DW_GROUPDATA_BASE) The functions are called from dwarfdump.c and only once. So static vars are safe. */ static Dwarf_Unsigned group_map_entry_count = 0; static Dwarf_Unsigned selected_group = 0; static Dwarf_Unsigned *sec_nums = 0; static Dwarf_Unsigned *group_nums = 0; static const char ** sec_names = 0; static Dwarf_Unsigned group_count; static Dwarf_Unsigned section_count; static void freeall_groups_tables(void) { free(sec_nums); sec_nums = 0; free(group_nums); group_nums = 0; /* Cast prevents an ugly warning about the const being stripped off. */ free((void*)sec_names); sec_names = 0; group_map_entry_count = 0; selected_group = 0; group_count = 0; section_count = 0; } #define TRUE 1 #define FALSE 0 static struct glfsetting_s { const char *secname; boolean *flag; boolean origset; boolean origflag; } glftab[] = { {".debug_abbrev", &glflags.gf_abbrev_flag,FALSE,FALSE}, {".debug_aranges", &glflags.gf_aranges_flag,FALSE,FALSE}, {".debug_debug_macinfo",&glflags.gf_macinfo_flag,FALSE,FALSE}, {".debug_debug_macro", &glflags.gf_macro_flag,FALSE,FALSE}, {".debug_debug_names", &glflags.gf_debug_names_flag,FALSE,FALSE}, {".debug_eh_frame", &glflags.gf_eh_frame_flag,FALSE,FALSE}, {".debug_frame", &glflags.gf_frame_flag,FALSE,FALSE}, {".gdb_index", &glflags.gf_gdbindex_flag,FALSE,FALSE}, {".debug_info", &glflags.gf_info_flag,FALSE,FALSE}, {".debug_line", &glflags.gf_line_flag,FALSE,FALSE}, {".debug_loc", &glflags.gf_loc_flag,FALSE,FALSE}, /*{".debug_loclists", &glflags.gf_loclists_flag,FALSE,FALSE}, */ {".debug_pubnames", &glflags.gf_pubnames_flag,FALSE,FALSE}, {".debug_pubtypes", &glflags.gf_pubtypes_flag,FALSE,FALSE}, /* SGI only */ {".debug_ranges", &glflags.gf_ranges_flag,FALSE,FALSE}, /*{".debug_rnglists", &glflags.gf_rnglists_flag,FALSE,FALSE}, */ {".debug_static_func", &glflags.gf_static_func_flag,FALSE,FALSE}, /* SGI only */ {".debug_static_var", &glflags.gf_static_var_flag,FALSE,FALSE}, /* SGI only */ {".debug_str", &glflags.gf_string_flag,FALSE,FALSE}, {".debug_types", &glflags.gf_types_flag,FALSE,FALSE}, {".debug_weaknames", &glflags.gf_weakname_flag,FALSE,FALSE}, /* SGI only */ {0,0,0,0} }; /* If a section is not in group N but is in group 1 then turn off its flag. Since sections are never in both (various DW_DLE*DUPLICATE errors if libdwarf tries to set in both), just look in group one. See groups_restore_subsidiary_flags() just below. FIXME: It would be good if, for a wholly missing section related to a flag, that the flag got turned off. */ static void turn_off_subsidiary_flags(UNUSEDARG Dwarf_Debug dbg) { Dwarf_Unsigned i = 0; for( ; i < group_map_entry_count; ++i) { if (group_nums[i] == 1) { unsigned k = 0; const char* oursec = sec_names[i]; for( ; glftab[k].secname; ++k ) { if (!strcmp(oursec,glftab[k].secname)) { if(!glftab[k].origset) { glftab[k].origset = TRUE; glftab[k].origflag = *(glftab[k].flag); } *(glftab[k].flag) = FALSE; } } } } } /* Restoring original condition in the glftab array and in the global flags it points to. So that when processing an archive one can restore the user-chosen flags and print subsequent object groups correctly. New October 16, 2017. */ void groups_restore_subsidiary_flags(void) { unsigned k = 0; /* Duplicative but harmless free. */ freeall_groups_tables(); for( ; glftab[k].secname; ++k ) { if(glftab[k].origset) { *(glftab[k].flag) = glftab[k].origflag; glftab[k].origset = FALSE; glftab[k].origflag = FALSE; } } } /* NEW May 2017. Has a side effect of using the local table set up by print_section_groups_data() and then frees the table data. For multi-object archive reading: main() calls groups_restore_subsidiary_flags() at the end of each object file to restore the original flags that turn_off_subsidiary_flags() changed. */ void update_section_flags_per_groups(Dwarf_Debug dbg) { if (!sec_names) { /* The tables are absent. Internal logic error here somewhere. */ freeall_groups_tables(); return; } if (selected_group == DW_GROUPNUMBER_BASE) { freeall_groups_tables(); return; } if (selected_group == DW_GROUPNUMBER_DWO) { freeall_groups_tables(); return; } turn_off_subsidiary_flags(dbg); freeall_groups_tables(); } /* NEW May 2017. Reports on section groupings like DWO(split dwarf) and COMDAT groups. As a side effect creates local table of section and group data */ void print_section_groups_data(Dwarf_Debug dbg) { int res = 0; Dwarf_Error error = 0; Dwarf_Unsigned i = 0; res = dwarf_sec_group_sizes(dbg,§ion_count, &group_count,&selected_group, &group_map_entry_count, &error); if(res != DW_DLV_OK) { print_error(dbg, "dwarf_sec_group_sizes", res, error); } if (group_count == 1 && selected_group ==1 ) { /* This is the traditional DWARF with no split-dwarf and no COMDAT data. We don't want to print anything as we do not want to see differences from existing output in this case. Simplifies regression testing for now. */ return; } printf("Section Groups data\n"); printf(" Number of Elf-like sections: %4" DW_PR_DUu "\n", section_count); printf(" Number of groups : %4" DW_PR_DUu "\n", group_count); printf(" Group to print : %4" DW_PR_DUu "\n", selected_group); printf(" Count of map entries : %4" DW_PR_DUu "\n", group_map_entry_count); sec_nums = calloc(group_map_entry_count,sizeof(Dwarf_Unsigned)); if(!sec_nums) { printf("ERROR: Unable to allocate %4" DW_PR_DUu " map section values, cannot print group map\n", group_map_entry_count); return; } group_nums = calloc(group_map_entry_count,sizeof(Dwarf_Unsigned)); if(!group_nums) { free(group_nums); printf("ERROR: Unable to allocate %4" DW_PR_DUu " map group values, cannot print group map\n", group_map_entry_count); return; } sec_names = calloc(group_map_entry_count,sizeof(char*)); if(!sec_names) { free(group_nums); free(sec_nums); printf("ERROR: Unable to allocate %4" DW_PR_DUu " section name pointers, cannot print group map\n", group_map_entry_count); return; } res = dwarf_sec_group_map(dbg,group_map_entry_count, group_nums,sec_nums,sec_names,&error); if(res != DW_DLV_OK) { print_error(dbg, "dwarf_sec_group_map", res, error); } for( i = 0; i < group_map_entry_count; ++i) { if (i == 0) { printf(" [index] group section\n"); } printf(" [%5" DW_PR_DUu "] " "%4" DW_PR_DUu " %4" DW_PR_DUu " %s\n",i, group_nums[i],sec_nums[i],sanitized(sec_names[i])); } /* Do not free our allocations. Will do later. */ return; }