/** * @file create_bfd.c * Routine to handle elf file creation * * @remark Copyright 2007 OProfile authors * @remark Read the file COPYING * * @author Jens Wilke * @Modifications Maynard Johnson * @Modifications Philippe Elie * @Modifications Daniel Hansel * * Copyright IBM Corporation 2007 * */ #include "opjitconv.h" #include "opd_printf.h" #include "op_libiberty.h" #include #include #include /* Create the symbols and fill the syms array for all functions * from start_idx to end_idx pointing into entries_address_ascending array */ static int fill_symtab(void) { int rc = OP_JIT_CONV_OK; u32 i; int r; struct jitentry const * e; asymbol * s; asection * section = NULL; /* Check for valid value of entry_count to avoid integer overflow. */ if (entry_count > UINT32_MAX - 1) { bfd_perror("invalid entry_count value"); rc = OP_JIT_CONV_FAIL; goto out; } syms = xmalloc(sizeof(asymbol *) * (entry_count+1)); syms[entry_count] = NULL; for (i = 0; i < entry_count; i++) { e = entries_address_ascending[i]; if (e->section) section = e->section; s = bfd_make_empty_symbol(cur_bfd); if (!s) { bfd_perror("bfd_make_empty_symbol"); rc = OP_JIT_CONV_FAIL; goto out; } s->name = e->symbol_name; s->section = section; s->flags = BSF_GLOBAL | BSF_FUNCTION; s->value = e->vma - section->vma; verbprintf(debug,"add sym: name=%s, value=%llx\n", s->name, (unsigned long long)s->value); syms[i] = s; } r = bfd_set_symtab(cur_bfd, syms, entry_count); if (r == FALSE) { bfd_perror("bfd_set_symtab"); rc = OP_JIT_CONV_FAIL; } out: return rc; } /* * create a new section. */ asection * create_section(bfd * abfd, char const * section_name, size_t size, bfd_vma vma, flagword flags) { asection * section; verbprintf(debug, "create_section() %s\n", section_name); section = bfd_make_section(abfd, section_name); if (section == NULL) { bfd_perror("bfd_make_section"); goto error; } if (bfd_set_section_vma(abfd, section, vma) == FALSE) { bfd_perror("bfd_set_section_vma"); goto error; } if (bfd_set_section_size(abfd, section, size) == FALSE) { bfd_perror("bfd_set_section_size"); goto error; } if (bfd_set_section_flags(abfd, section, flags) == FALSE) { bfd_perror("bfd_set_section_flags"); goto error; } return section; error: return NULL; } /* create a .text section. end_idx: index last jitentry (inclusive!) */ static int create_text_section(int start_idx, int end_idx) { int rc = OP_JIT_CONV_OK; asection * section; char const * section_name; int idx = start_idx; unsigned long long vma_start = entries_address_ascending[start_idx]->vma; struct jitentry * ee = entries_address_ascending[end_idx]; unsigned long long vma_end = ee->vma + ee->code_size; int size = vma_end - vma_start; section_name = bfd_get_unique_section_name(cur_bfd, ".text", &idx); verbprintf(debug, "section idx=%i, name=%s, vma_start=%llx, size=%i\n", idx, section_name, vma_start, size); section = create_section(cur_bfd, section_name, size, vma_start, SEC_ALLOC|SEC_LOAD|SEC_READONLY|SEC_CODE|SEC_HAS_CONTENTS); if (section) entries_address_ascending[start_idx]->section = section; else rc = OP_JIT_CONV_FAIL; return rc; } /* fill a section contents at a given offset from the start of the section */ int fill_section_content(bfd * abfd, asection * section, void const * b, file_ptr offset, size_t sz) { if (bfd_set_section_contents(abfd, section, b, offset, sz) == FALSE) { bfd_perror("bfd_set_section_contents"); return OP_JIT_CONV_FAIL; } return OP_JIT_CONV_OK; } /* * Copy all code of the functions that are within start_idx and end_idx to * the section. */ static int fill_text_section_content(asection * section, int start_idx, int end_idx) { int rc = OP_JIT_CONV_OK; unsigned long long vma_start = entries_address_ascending[start_idx]->vma; struct jitentry const * e; int i; for (i = start_idx; i <= end_idx; i++) { e = entries_address_ascending[i]; verbprintf(debug, "section = %s, i = %i, code = %llx," " vma = %llx, offset = %llx," "size = %i, name = %s\n", section->name, i, (unsigned long long) (uintptr_t) e->code, e->vma, e->vma - vma_start, e->code_size, e->symbol_name); /* the right part that is created by split_entry may * have no code; also, the agent may have passed NULL * for the code location. */ if (e->code) { rc = fill_section_content(cur_bfd, section, e->code, (file_ptr) (e->vma - vma_start), (bfd_size_type)e->code_size); if (rc != OP_JIT_CONV_OK) break; } } return rc; } /* Walk over the symbols sorted by address and create ELF sections. Whenever we * have a gap greater or equal to 4096 make a new section. */ int partition_sections(void) { int rc = OP_JIT_CONV_OK; u32 i, j; struct jitentry const * pred; struct jitentry const * entry; unsigned long long end_addr; // i: start index of the section i = 0; for (j = 1; j < entry_count; j++) { entry = entries_address_ascending[j]; pred = entries_address_ascending[j - 1]; end_addr = pred->vma + pred->code_size; // calculate gap between code, if it is more than one page // create an additional section if ((entry->vma - end_addr) >= 4096) { rc = create_text_section(i, j - 1); if (rc == OP_JIT_CONV_FAIL) goto out; i = j; } } // this holds always if we have at least one jitentry if (i < entry_count) rc = create_text_section(i, entry_count - 1); out: return rc; } /* Fill the code content into the sections created by partition_sections() */ int fill_sections(void) { int rc = OP_JIT_CONV_OK; u32 i, j; asection * section; rc = fill_symtab(); if (rc == OP_JIT_CONV_FAIL) goto out; verbprintf(debug, "opjitconv: fill_sections\n"); i = 0; for (j = 1; j < entry_count; j++) { if (entries_address_ascending[j]->section) { section = entries_address_ascending[i]->section; rc = fill_text_section_content(section, i, j - 1); if (rc == OP_JIT_CONV_FAIL) goto out; i = j; } } // this holds always if we have at least one jitentry if (i < entry_count) { section = entries_address_ascending[i]->section; rc = fill_text_section_content(section, i, entry_count - 1); } out: return rc; } /* create the elf file */ bfd * open_elf(char const * filename) { bfd * abfd; abfd = bfd_openw(filename, dump_bfd_target_name); if (!abfd) { bfd_perror("bfd_openw"); goto error1; } if (bfd_set_format(abfd, bfd_object) == FALSE) { bfd_perror("bfd_set_format"); goto error; } if (bfd_set_arch_mach(abfd, dump_bfd_arch, dump_bfd_mach) == FALSE) { bfd_perror("bfd_set_format"); goto error; } return abfd; error: bfd_close(abfd); error1: return NULL; }