/* Copyright (C) 2000,2004 Silicon Graphics, Inc. All Rights Reserved. This program is free software; you can redistribute it and/or modify it under the terms of version 2.1 of the GNU Lesser 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 Lesser 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. Contact information: Silicon Graphics, Inc., 1500 Crittenden Lane, Mountain View, CA 94043, or: http://www.sgi.com For further information regarding this notice, see: http://oss.sgi.com/projects/GenInfo/NoticeExplan */ #include "config.h" #include "libdwarfdefs.h" #include #include /*#include */ #include "pro_incl.h" #include "pro_section.h" #include "pro_reloc.h" #include "pro_reloc_symbolic.h" /* Return DW_DLV_ERROR on malloc error. Return DW_DLV_OK otherwise */ int _dwarf_pro_reloc_name_symbolic(Dwarf_P_Debug dbg, int base_sec_index, Dwarf_Unsigned offset, /* r_offset of reloc */ Dwarf_Unsigned symidx, enum Dwarf_Rel_Type type, int reltarget_length) { /* get a slot, fill in the slot entry */ void *relrec_to_fill = 0; int res = 0; struct Dwarf_Relocation_Data_s *slotp; res = _dwarf_pro_reloc_get_a_slot(dbg, base_sec_index, &relrec_to_fill); if (res != DW_DLV_OK) return res; slotp = (struct Dwarf_Relocation_Data_s *) relrec_to_fill; slotp->drd_type = type; slotp->drd_length = reltarget_length; slotp->drd_offset = offset; slotp->drd_symbol_index = symidx; return DW_DLV_OK; } /* Return DW_DLV_ERROR on malloc error. Return DW_DLV_OK otherwise */ int _dwarf_pro_reloc_length_symbolic(Dwarf_P_Debug dbg, int base_sec_index, Dwarf_Unsigned offset, /* r_offset of reloc */ Dwarf_Unsigned start_symidx, Dwarf_Unsigned end_symidx, enum Dwarf_Rel_Type type, int reltarget_length) { /* get a slot, fill in the slot entry */ void *relrec_to_fill = 0; int res = 0; struct Dwarf_Relocation_Data_s *slotp1 = 0; struct Dwarf_Relocation_Data_s *slotp2 = 0; res = _dwarf_pro_reloc_get_a_slot(dbg, base_sec_index, &relrec_to_fill); if (res != DW_DLV_OK) return res; slotp1 = (struct Dwarf_Relocation_Data_s *) relrec_to_fill; res = _dwarf_pro_reloc_get_a_slot(dbg, base_sec_index, &relrec_to_fill); if (res != DW_DLV_OK) return res; slotp2 = (struct Dwarf_Relocation_Data_s *) relrec_to_fill; /* ASSERT: type == dwarf_drt_first_of_length_type_pair */ slotp1->drd_type = type; slotp1->drd_length = reltarget_length; slotp1->drd_offset = offset; slotp1->drd_symbol_index = start_symidx; slotp2->drd_type = dwarf_drt_second_of_length_pair; slotp2->drd_length = reltarget_length; slotp2->drd_offset = offset; slotp2->drd_symbol_index = end_symidx; return DW_DLV_OK; } /* Reset whatever fields of Dwarf_P_Per_Reloc_Sect_s we must to allow adding a fresh new single block easily (block consolidation use only). */ static void _dwarf_reset_reloc_sect_info(struct Dwarf_P_Per_Reloc_Sect_s *pblk, unsigned long ct) { /* Do not zero pr_sect_num_of_reloc_sect */ pblk->pr_reloc_total_count = 0; pblk->pr_first_block = 0; pblk->pr_last_block = 0; pblk->pr_block_count = 0; pblk->pr_slots_per_block_to_alloc = ct; } /* Ensure each stream is a single buffer and add that single buffer to the set of stream buffers. By creating a new buffer and copying if necessary. (If > 1 block, reduce to 1 block) Free the input set of buffers if we consolidate. We pass back *new_sec_count as zero because we are not creating normal sections for a .o, but symbolic relocations, separately counted. Return -1 on error (malloc failure) Return DW_DLV_OK on success. Any other return indicates malloc failed. */ int _dwarf_symbolic_relocs_to_disk(Dwarf_P_Debug dbg, Dwarf_Signed * new_sec_count) { /* unsigned long total_size =0; */ Dwarf_Small *data = 0; int sec_index = 0; int res = 0; unsigned long i = 0; Dwarf_Error error = 0; Dwarf_Signed sec_count = 0; Dwarf_P_Per_Reloc_Sect p_reloc = &dbg->de_reloc_sect[0]; for (i = 0; i < NUM_DEBUG_SECTIONS; ++i, ++p_reloc) { unsigned long ct = p_reloc->pr_reloc_total_count; struct Dwarf_P_Relocation_Block_s *p_blk; struct Dwarf_P_Relocation_Block_s *p_blk_last; int err; if (ct == 0) { continue; } /* len = dbg->de_relocation_record_size; */ ++sec_count; /* total_size = ct *len; */ sec_index = p_reloc->pr_sect_num_of_reloc_sect; if (sec_index == 0) { /* Call de_callback_func or de_callback_func_b, getting section number of reloc section. */ int rel_section_index = 0; int int_name = 0; Dwarf_Unsigned name_idx = 0; /* This is a bit of a fake, as we do not really have true elf sections at all. Just the data such might contain. But this lets the caller eventually link things together: without this call we would not know what rel data goes with what section when we are asked for the real arrays. */ if (dbg->de_callback_func_b) { rel_section_index = dbg->de_callback_func_b(_dwarf_rel_section_names[i], dbg->de_relocation_record_size, /* type */ SHT_REL, /* flags */ 0, /* link to symtab, which we cannot know */ SHN_UNDEF, /* sec rels apply to */ dbg->de_elf_sects[i], &name_idx, &err); } else { rel_section_index = dbg->de_callback_func(_dwarf_rel_section_names[i], dbg->de_relocation_record_size, /* type */ SHT_REL, /* flags */ 0, /* link to symtab, which we cannot know */ SHN_UNDEF, /* sec rels apply to, in elf, sh_info */ dbg->de_elf_sects[i], &int_name, &err); name_idx = int_name; } if (rel_section_index == -1) { { _dwarf_p_error(dbg, &error, DW_DLE_ELF_SECT_ERR); return (DW_DLV_ERROR); } } p_reloc->pr_sect_num_of_reloc_sect = rel_section_index; sec_index = rel_section_index; } p_blk = p_reloc->pr_first_block; if (p_reloc->pr_block_count > 1) { struct Dwarf_P_Relocation_Block_s *new_blk; /* HACK , not normal interfaces, trashing p_reloc current contents! */ _dwarf_reset_reloc_sect_info(p_reloc, ct); /* Creating new single block for all 'ct' entries */ res = _dwarf_pro_pre_alloc_n_reloc_slots(dbg, (int) i, ct); if (res != DW_DLV_OK) { return res; } new_blk = p_reloc->pr_first_block; data = (Dwarf_Small *) new_blk->rb_data; /* The following loop does the consolidation to a single block and frees the input block(s). */ do { unsigned long len = p_blk->rb_where_to_add_next - p_blk->rb_data; memcpy(data, p_blk->rb_data, len); data += len; p_blk_last = p_blk; p_blk = p_blk->rb_next; _dwarf_p_dealloc(dbg, (Dwarf_Small *) p_blk_last); } while (p_blk); /* ASSERT: sum of len copied == total_size */ new_blk->rb_next_slot_to_use = ct; new_blk->rb_where_to_add_next = (char *) data; p_reloc->pr_reloc_total_count = ct; /* have now created a single block, but no change in slots used (pr_reloc_total_count) */ } } *new_sec_count = 0; return DW_DLV_OK; }