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/* parce.c -- Architecture independent load
   Copyright (C) 1999 Damjan Lampret, lampret@opencores.org
 
This file is part of OpenRISC 1000 Architectural Simulator.
 
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
 
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.
 
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
 
#include <stdio.h>
#include <ctype.h>
#include <string.h>
#include <stdlib.h>
 
#include "config.h"
 
#ifdef HAVE_INTTYPES_H
#include <inttypes.h>
#endif
 
#include "port.h"
#include "arch.h"
#include "abstract.h"
#include "dmmu.h"
#include "coff.h"
#include "elf.h"
#include "debug_unit.h"
#include "opcode/or32.h"
#include "parse.h"
#include "sim-config.h"
#include "labels.h"
#include "debug.h"
 
#define MEMORY_LEN 0x100000000
#define MAXLINE_LEN 18000
 
/* Whether to do immediate statistics */
#define IMM_STATS 0
 
extern char *disassembled;
 
/* Unused mem memory marker. It is used when allocating program and data memory
   during parsing */
unsigned int freemem;
 
/* Translation table provided by microkernel. Only used if simulating microkernel. */
static oraddr_t transl_table;
 
/* Used to signal whether during loading of programs a translation fault occured. */
static unsigned long transl_error;
 
char *
stripwhite (string)
     char *string;
{
  register char *s, *t;
 
  for (s = string; whitespace (*s); s++)
    ;
 
  if (*s == 0)
    return (s);
 
  t = s + strlen (s) - 1;
  while (t > s && whitespace (*t))
    t--;
  *++t = '\0';
 
  return s;
}
 
/* This function is very similar to strncpy, except it null terminates the string */
char *strstrip (char *dst, const char *src, int n)
{
  strncpy (dst, src, n);
  *(dst + n) = '\0';
  return dst;
}
 
/* Used only by the simulator loader to translate logical addresses into physical.
   If loadcode() is called with valid virtphy_transl pointer to a table of
   translations then translate() performs translation otherwise phy address is
   equal to logical. */
static oraddr_t translate(oraddr_t laddr,int* breakpoint)
{
  int i;
 
  /* No translation (i.e. when loading kernel into simulator) */
/*  PRINTF("transl_table=%x  laddr=%x\n", transl_table, laddr);
  PRINTF("laddr=%x\n", laddr);*/
  if (transl_table == 0)
    return laddr;
 
  /* Try to find our translation in the table. */
  for(i = 0; i < (MEMORY_LEN / PAGE_SIZE) * 16; i += 16)
    if ((laddr & ~(PAGE_SIZE - 1)) == evalsim_mem32(transl_table + i)) {
      setsim_mem32(transl_table + i + 8, -2); /* Page modified */
      PRINTF("found paddr=%"PRIx32"\n",
             evalsim_mem32(transl_table + i + 4) | (laddr & (PAGE_SIZE - 1)));
      return (oraddr_t)evalsim_mem32(transl_table + i + 4) | (laddr & (oraddr_t)(PAGE_SIZE - 1));
    }
 
  /* Allocate new phy page for us. */
  for(i = 0; i < (MEMORY_LEN / PAGE_SIZE) * 16; i += 16)
    if (evalsim_mem32(transl_table + i + 8) == 0) {
      setsim_mem32(transl_table + i, laddr & ~(PAGE_SIZE - 1)); /* VPN */
      setsim_mem32(transl_table + i + 4, (i/16) * PAGE_SIZE); /* PPN */
      setsim_mem32(transl_table + i + 8, -2); /* Page modified */
      PRINTF("newly allocated ppn=%"PRIx32"\n",
             evalsim_mem32(transl_table + i + 4));
      PRINTF("newly allocated .ppn=%"PRIxADDR"\n", transl_table + i + 4);
      PRINTF("newly allocated ofs=%"PRIxADDR"\n", (laddr & (PAGE_SIZE - 1)));
      PRINTF("newly allocated paddr=%"PRIx32"\n",
             evalsim_mem32(transl_table + i + 4) | (laddr & (PAGE_SIZE - 1)));
      return (oraddr_t)evalsim_mem32(transl_table + i + 4) | (laddr & (oraddr_t)(PAGE_SIZE - 1));
    }
  /* If we come this far then all phy memory is used and we can't find our page
     nor allocate new page. */
  transl_error = 1;
 
  PRINTF("can't translate %"PRIxADDR"\n", laddr);
  exit(1);
  return -1;
}
 
#if IMM_STATS
int bcnt[33][3] = {0};
int bsum[3] = {0};
unsigned long movhi = 0;
 
int bits (unsigned long val) {
  int i = 1;
  if (!val) return 0;
  while (val != 0 && (signed long)val != -1) {i++; val = (signed long)val >> 1;}
  return i;
}
 
void check_insn (uint32_t insn) {
  int insn_index = insn_decode (insn);
  struct insn_op_struct *opd = op_start[insn_index];
  uint32_t data = 0;
  int dis = 0;
  const char *name;
  if (!insn || insn_index < 0) return;
  name = insn_name (insn_index);
  if (strcmp (name, "l.nop") == 0 || strcmp (name, "l.sys") == 0) return;
 
  while (1)
    {
      uint32_t tmp = 0
      unsigned int nbits = 0;
      while (1)
        {
          tmp |= ((insn >> (opd->type & OPTYPE_SHR)) & ((1 << opd->data) - 1)) << nbits;
          nbits += opd->data;
          if (opd->type & OPTYPE_OP)
            break;
          opd++;
        }
 
      /* Do we have to sign extend? */
      if (opd->type & OPTYPE_SIG)
        {
          int sbit = (opd->type & OPTYPE_SBIT) >> OPTYPE_SBIT_SHR;
          if (tmp & (1 << sbit))
            tmp |= 0xFFFFFFFF << sbit;
        }
      if (opd->type & OPTYPE_DIS) {
        /* We have to read register later.  */
        data += tmp;
        dis = 1;
      } else
        {
          if (!(opd->type & OPTYPE_REG) || dis) {
            if (!dis) data = tmp;
            if (strcmp (name, "l.movhi") == 0) {
              movhi = data << 16;
            } else {
              data |= movhi;
              //PRINTF ("%08x %s\n", data, name);
              if (!(or32_opcodes[insn_index].flags & OR32_IF_DELAY)) {
                bcnt[bits(data)][0]++; bsum[0]++;
              } else {
                if (strcmp (name, "l.bf") == 0 || strcmp (name, "l.bnf") == 0) {
                  bcnt[bits(data)][1]++; bsum[1]++;
                } else {
                  bcnt[bits(data)][2]++; bsum[2]++;
                }
              }
            }
          }
          data = 0;
          dis = 0;
        }
      if(opd->type & OPTYPE_LAST) {
        return;
      }
      opd++;
    }
}
#endif
 
/* Replaced several calls to translate(freemem) with vaddr */
/* Added new mode execution code */
/* Changed parameters so address can be passed as argument */
void addprogram(oraddr_t address, uint32_t insn, int* breakpoint)
{
  int vaddr = (!runtime.sim.filename) ? translate(address,breakpoint) : translate(freemem,breakpoint);
 
  setsim_mem32 (vaddr, insn);
#if IMM_STATS
  check_insn (insn);
#endif
  if(runtime.sim.filename)
    freemem += insn_len (insn_decode (insn));
}
 
/* Load big-endian COFF file.  */
 
void readfile_coff(char *filename, short sections)
{
  FILE *inputfs;
  char inputbuf[4];
  uint32_t insn;
  signed long sectsize;
  COFF_AOUTHDR coffaouthdr;
  struct COFF_scnhdr coffscnhdr;
  int len;
  int firstthree = 0;
  int breakpoint = 0;
 
  if (!(inputfs = fopen(filename, "r"))) {
    perror("readfile_coff");
    exit(1);
  }
 
  if (fseek(inputfs, sizeof(struct COFF_filehdr), SEEK_SET) == -1) {
    fclose(inputfs);
    perror("readfile_coff");
    exit(1);
  }
 
  if (fread(&coffaouthdr, sizeof(coffaouthdr), 1, inputfs) != 1) {
    fclose(inputfs);
    perror("readfile_coff");
    exit(1);
  }
 
  while(sections--) {
    long scnhdr_pos = sizeof(struct COFF_filehdr) + sizeof(coffaouthdr)
        + sizeof(struct COFF_scnhdr) * firstthree;
    if (fseek(inputfs, scnhdr_pos, SEEK_SET) == -1) {
      fclose(inputfs);
      perror("readfile_coff");
      exit(1);
    }
    if (fread(&coffscnhdr, sizeof(struct COFF_scnhdr), 1, inputfs) != 1) {
      fclose(inputfs);
      perror("readfile_coff");
      exit(1);
    }
    PRINTF("Section: %s,", coffscnhdr.s_name);
    PRINTF(" paddr: 0x%.8lx,", COFF_LONG_H(coffscnhdr.s_paddr));
    PRINTF(" vaddr: 0x%.8lx,", COFF_LONG_H(coffscnhdr.s_vaddr));
    PRINTF(" size: 0x%.8lx,", COFF_LONG_H(coffscnhdr.s_size));
    PRINTF(" scnptr: 0x%.8lx\n", COFF_LONG_H(coffscnhdr.s_scnptr));
 
    sectsize = COFF_LONG_H(coffscnhdr.s_size);
#if 0
    /* A couple of sanity checks. */
    if (translate(COFF_LONG_H(coffscnhdr.s_vaddr),&breakpoint) < MEMORY_START) {
      PRINTF("Section %s starts out of ", coffscnhdr.s_name);
      PRINTF("memory (at %x)\n", COFF_LONG_H(coffscnhdr.s_vaddr));
      exit(1);
    }
    if (translate(COFF_LONG_H(coffscnhdr.s_vaddr) + sectsize,&breakpoint) >
        MEMORY_START + MEMORY_LEN) {
      PRINTF("Section %s ends out of ", coffscnhdr.s_name);
      PRINTF("memory.\n");
      exit(1);
    }
#endif
#if 0
    if (++firstthree == 1 && strcmp(coffscnhdr.s_name, ".text") != 0) {
      PRINTF("First section should be .text (%s instead)\n", coffscnhdr.s_name);
      exit(1);
    }
    if (firstthree == 2 && strcmp(coffscnhdr.s_name, ".data") != 0) {
      PRINTF("Second section should be .data (%s instead)\n", coffscnhdr.s_name);
      exit(1);
    }
    if (firstthree == 3 && strcmp(coffscnhdr.s_name, ".bss") != 0) {
      PRINTF("Third section should be .bss (%s instead)\n", coffscnhdr.s_name);
      exit(1);
    }
#else
    ++firstthree;
#endif
 
    /* loading section */
    freemem = COFF_LONG_H(coffscnhdr.s_paddr);
    debug(2,"Starting to load at 0x%x\n", freemem);
    if (fseek(inputfs, COFF_LONG_H(coffscnhdr.s_scnptr), SEEK_SET) == -1) {
      fclose(inputfs);
      perror("readfile_coff");
      exit(1);
    }
    while (sectsize > 0 && (len = fread(&inputbuf, sizeof(inputbuf), 1, inputfs))) {
      insn = COFF_LONG_H(inputbuf);
      len = insn_len (insn_decode (insn));
      if (len == 2)
        {
          fseek(inputfs, -2, SEEK_CUR);
          debug(8,"readfile_coff: %lx 0x%x   \n", sectsize, insn >> 16);
        }
      else
        debug(8,"readfile_coff: %lx 0x%x   \n", sectsize, insn);
      addprogram (freemem, insn, &breakpoint);
      sectsize -= len;
    }
  }
  if (firstthree < 3) {
    PRINTF("One or more missing sections. At least");
    PRINTF(" three sections expected (.text, .data, .bss).\n");
    exit(1);
  }
  if (firstthree > 3) {
    PRINTF("Warning: one or more extra sections. These");
    PRINTF(" sections were handled as .data sections.\n");
  }
 
  fclose(inputfs);
  PRINTF("Finished loading COFF.\n");
  return;
}
 
/* Load symbols from big-endian COFF file. */
 
void readsyms_coff(char *filename, unsigned long symptr, long syms)
{
  FILE *inputfs;
  struct COFF_syment coffsymhdr;
  int count = 0;
  long nsyms = syms;
  if (!(inputfs = fopen(filename, "r"))) {
    perror("readsyms_coff");
    exit(1);
  }
 
  if (fseek(inputfs, symptr, SEEK_SET) == -1) {
    fclose(inputfs);
    perror("readsyms_coff");
    exit(1);
  }
 
  while(syms--) {
    int i, n;
    if (fread(&coffsymhdr, COFF_SYMESZ, 1, inputfs) != 1) {
      fclose(inputfs);
      perror("readsyms_coff");
      exit(1);
    }
 
    n = (unsigned char)coffsymhdr.e_numaux[0];
 
    /* check whether this symbol belongs to a section and is external symbol; ignore all others */
    if (COFF_SHORT_H(coffsymhdr.e_scnum) >= 0 && coffsymhdr.e_sclass[0] == C_EXT) {
#if 0
    /* If not important or not in text, skip. */
    if(COFF_SHORT_H(coffsymhdr.e_type) & COFF_N_TMASK & COFF_STYP_TEXT) {
#endif
 
      if (*((unsigned long *)coffsymhdr.e.e.e_zeroes)) {
        if (strlen(coffsymhdr.e.e_name) && strlen(coffsymhdr.e.e_name) < 9)
          add_label(COFF_LONG_H(coffsymhdr.e_value), coffsymhdr.e.e_name);
        debug(8, "[%i] Symbol: %s,", count++, coffsymhdr.e.e_name);
      } else {
        long fpos = ftell (inputfs);
 
        if (fseek(inputfs, symptr + nsyms * COFF_SYMESZ + COFF_LONG_H(coffsymhdr.e.e.e_offset), SEEK_SET) == 0) {
          char tmp[33], *s = &tmp[0];
          while (s != &tmp[32])
            if ((*(s++) = fgetc(inputfs)) == 0) break;
          tmp[32] = 0;
          add_label(COFF_LONG_H(coffsymhdr.e_value), &tmp[0]);
          debug(8, "[%i] Symbol: %s,", count++, &tmp[0]);
        }
        fseek(inputfs, fpos, SEEK_SET);
      }
 
      debug(9, " val: 0x%.8lx,", COFF_LONG_H(coffsymhdr.e_value));
      debug(9, " type: %x, %x, auxs: %i\n", COFF_SHORT_H(coffsymhdr.e_type), *((unsigned short *)coffsymhdr.e_type), n);
    }
 
    for (i = 0; i < n; i++)
      if (fread(&coffsymhdr, COFF_SYMESZ, 1, inputfs) != 1) {
        fclose(inputfs);
        perror("readsyms_coff3");
        exit(1);
      }
    syms -= n;
    count += n;
  }
 
  fclose(inputfs);
  PRINTF("Finished loading symbols.\n");
  return;
}
 
void readfile_elf(char *filename)
{
 
  FILE *inputfs;
  struct elf32_hdr elfhdr;
  struct elf32_phdr *elf_phdata;
  struct elf32_shdr *elf_spnt, *elf_shdata;
  struct elf32_sym *sym_tbl = (struct elf32_sym *)0;
  unsigned long syms = 0;
  char *str_tbl = (char *)0;
  char *s_str = (char *)0;
  int breakpoint = 0;
  unsigned long inputbuf;
  unsigned long padd;
  uint32_t insn;
  int i, j, sectsize, len;
 
  if (!(inputfs = fopen(filename, "r"))) {
    perror("readfile_elf");
    exit(1);
  }
 
  if (fread(&elfhdr, sizeof(elfhdr), 1, inputfs) != 1) {
    perror("readfile_elf");
    exit(1);
  }
 
  if ((elf_shdata = (struct elf32_shdr *)malloc(ELF_SHORT_H(elfhdr.e_shentsize) * ELF_SHORT_H(elfhdr.e_shnum))) == NULL) {
     perror("readfile_elf");
     exit(1);
  }
 
  if (fseek(inputfs, ELF_LONG_H(elfhdr.e_shoff), SEEK_SET) != 0) {
    perror("readfile_elf");
    exit(1);
  }
 
  if (fread(elf_shdata, ELF_SHORT_H(elfhdr.e_shentsize) * ELF_SHORT_H(elfhdr.e_shnum), 1, inputfs) != 1) {
    perror("readfile_elf");
    exit(1);
  }
 
  if (ELF_LONG_H(elfhdr.e_phoff)) {
 
    if((elf_phdata = (struct elf32_phdr *)malloc(ELF_SHORT_H(elfhdr.e_phnum) * ELF_SHORT_H(elfhdr.e_phentsize))) == NULL) {
      perror("readfile_elf");
      exit(1);
    }
 
    if (fseek(inputfs, ELF_LONG_H(elfhdr.e_phoff), SEEK_SET) != 0) {
      perror("readfile_elf");
      exit(1);
    }
 
    if (fread(elf_phdata, ELF_SHORT_H(elfhdr.e_phnum) * ELF_SHORT_H(elfhdr.e_phentsize), 1, inputfs) != 1) {
      perror("readfile_elf");
      exit(1);
    }
  }
 
  for(i = 0, elf_spnt = elf_shdata; i < ELF_SHORT_H(elfhdr.e_shnum); i++, elf_spnt++) {
 
    if(ELF_LONG_H(elf_spnt->sh_type) == SHT_STRTAB) {
 
      if((str_tbl = (char *)malloc(ELF_LONG_H(elf_spnt->sh_size))) == NULL) {
        perror("readfile_elf");
        exit(1);
      }
 
      if (fseek(inputfs, ELF_LONG_H(elf_spnt->sh_offset), SEEK_SET) != 0) {
        perror("readfile_elf");
        exit(1);
      }
 
      if (fread(str_tbl, ELF_LONG_H(elf_spnt->sh_size), 1, inputfs) != 1) {
        perror("readfile_elf");
        exit(1);
      }
    }
    else if(ELF_LONG_H(elf_spnt->sh_type) == SHT_SYMTAB) {
 
      if((sym_tbl = (struct elf32_sym *)malloc(ELF_LONG_H(elf_spnt->sh_size))) == NULL) {
        perror("readfile_elf");
        exit(1);
      }
 
      if (fseek(inputfs, ELF_LONG_H(elf_spnt->sh_offset), SEEK_SET) != 0) {
        perror("readfile_elf");
        exit(1);
      }
 
      if (fread(sym_tbl, ELF_LONG_H(elf_spnt->sh_size), 1, inputfs) != 1) {
        perror("readfile_elf");
        exit(1);
      }
 
      syms = ELF_LONG_H(elf_spnt->sh_size) / ELF_LONG_H(elf_spnt->sh_entsize);
    }
  }
 
  if (ELF_SHORT_H(elfhdr.e_shstrndx) != SHN_UNDEF) {
    elf_spnt = &elf_shdata[ELF_SHORT_H(elfhdr.e_shstrndx)];
 
    if((s_str = (char *)malloc(ELF_LONG_H(elf_spnt->sh_size))) == NULL) {
      perror("readfile_elf");
      exit(1);
    }
 
    if (fseek(inputfs, ELF_LONG_H(elf_spnt->sh_offset), SEEK_SET) != 0) {
      perror("readfile_elf");
      exit(1);
    }
 
    if (fread(s_str, ELF_LONG_H(elf_spnt->sh_size), 1, inputfs) != 1) {
      perror("readfile_elf");
      exit(1);
    }
  }
 
 
  for(i = 0, elf_spnt = elf_shdata; i < ELF_SHORT_H(elfhdr.e_shnum); i++, elf_spnt++) {
 
    if((ELF_LONG_H(elf_spnt->sh_type) & SHT_PROGBITS) && (ELF_LONG_H(elf_spnt->sh_flags) & SHF_ALLOC)) {
 
      padd = ELF_LONG_H(elf_spnt->sh_addr);
      for(j = 0; j < ELF_SHORT_H(elfhdr.e_phnum); j++) {
        if(ELF_LONG_H(elf_phdata[j].p_offset) &&
           ELF_LONG_H(elf_phdata[j].p_offset) <= ELF_LONG_H(elf_spnt->sh_offset) &&
          (ELF_LONG_H(elf_phdata[j].p_offset) + ELF_LONG_H(elf_phdata[j].p_memsz)) > ELF_LONG_H(elf_spnt->sh_offset))
          padd = ELF_LONG_H(elf_phdata[j].p_paddr) + ELF_LONG_H(elf_spnt->sh_offset) - ELF_LONG_H(elf_phdata[j].p_offset);
      }
 
 
 
      if (ELF_LONG_H(elf_spnt->sh_name) && s_str)
        PRINTF("Section: %s,", &s_str[ELF_LONG_H(elf_spnt->sh_name)]);
      else
        PRINTF("Section: noname,");
      PRINTF(" vaddr: 0x%.8lx,", ELF_LONG_H(elf_spnt->sh_addr));
      PRINTF(" paddr: 0x%.8lx,", padd);
      PRINTF(" offset: 0x%.8lx,", ELF_LONG_H(elf_spnt->sh_offset));
      PRINTF(" size: 0x%.8lx\n", ELF_LONG_H(elf_spnt->sh_size));
 
      freemem = padd;
      sectsize = ELF_LONG_H(elf_spnt->sh_size);
 
      if (fseek(inputfs, ELF_LONG_H(elf_spnt->sh_offset), SEEK_SET) != 0) {
        perror("readfile_elf");
        exit(1);
      }
 
      while (sectsize > 0 && (len = fread(&inputbuf, sizeof(inputbuf), 1, inputfs))) {
        insn = ELF_LONG_H(inputbuf);
        len = insn_len (insn_decode (insn));
        if (len == 2)
          {
            fseek(inputfs, -2, SEEK_CUR);
            debug(8, "readfile_elf: %x 0x%x   \n", sectsize, insn >> 16);
          }
        else
          debug(8, "readfile_elf: %x 0x%x   \n", sectsize, insn);
        addprogram (freemem, insn, &breakpoint);
        sectsize -= len;
      }
    }
  }
 
  if (str_tbl) {
    i = 0;
    while(syms--) {
      if (sym_tbl[i].st_name && sym_tbl[i].st_info && ELF_SHORT_H(sym_tbl[i].st_shndx) < 0x8000) {
        add_label(ELF_LONG_H(sym_tbl[i].st_value), &str_tbl[ELF_LONG_H(sym_tbl[i].st_name)]);
        debug (8, "%08lx(%s): %x %x %x\n", ELF_LONG_H(sym_tbl[i].st_value), &str_tbl[ELF_LONG_H(sym_tbl[i].st_name)], sym_tbl[i].st_info, sym_tbl[i].st_other, ELF_SHORT_H(sym_tbl[i].st_shndx));
      }
      i++;
    }
  }
}
 
/* Identify file type and call appropriate readfile_X routine. It only
handles orX-coff-big executables at the moment. */
 
void identifyfile(char *filename)
{
  FILE *inputfs;
  struct COFF_filehdr coffhdr;
  struct elf32_hdr elfhdr;
 
  if (!(inputfs = fopen(filename, "r"))) {
    perror(filename);
    fflush(stdout);
    fflush(stderr);
    exit(1);
  }
 
  if (fread(&coffhdr, sizeof(coffhdr), 1, inputfs) == 1) {
    if (COFF_SHORT_H(coffhdr.f_magic) == 0x17a) {
          unsigned long opthdr_size;
      PRINTF("COFF magic: 0x%.4x\n", COFF_SHORT_H(coffhdr.f_magic));
      PRINTF("COFF flags: 0x%.4x\n", COFF_SHORT_H(coffhdr.f_flags));
      PRINTF("COFF symptr: 0x%.8lx\n", COFF_LONG_H(coffhdr.f_symptr));
      if ((COFF_SHORT_H(coffhdr.f_flags) & COFF_F_EXEC) != COFF_F_EXEC) {
        PRINTF("This COFF is not an executable.\n");
        exit(1);
      }
      opthdr_size = COFF_SHORT_H(coffhdr.f_opthdr);
      if (opthdr_size != sizeof(COFF_AOUTHDR)) {
        PRINTF("COFF optional header is missing or not recognized.\n");
        PRINTF("COFF f_opthdr: 0x%.2lx\n", opthdr_size);
        exit(1);
      }
      fclose(inputfs);
      readfile_coff(filename, COFF_SHORT_H(coffhdr.f_nscns));
      readsyms_coff(filename, COFF_LONG_H(coffhdr.f_symptr), COFF_LONG_H(coffhdr.f_nsyms));
      return;
    }
    else {
      PRINTF("Not COFF file format\n");
      fseek(inputfs, 0, SEEK_SET);
    }
  }
  if (fread(&elfhdr, sizeof(elfhdr), 1, inputfs) == 1) {
    if (elfhdr.e_ident[0] == 0x7f && elfhdr.e_ident[1] == 0x45 && elfhdr.e_ident[2] == 0x4c && elfhdr.e_ident[3] == 0x46) {
      PRINTF("ELF type: 0x%.4x\n", ELF_SHORT_H(elfhdr.e_type));
      PRINTF("ELF machine: 0x%.4x\n", ELF_SHORT_H(elfhdr.e_machine));
      PRINTF("ELF version: 0x%.8lx\n", ELF_LONG_H(elfhdr.e_version));
      PRINTF("ELF sec = %d\n", ELF_SHORT_H(elfhdr.e_shnum));
      if (ELF_SHORT_H(elfhdr.e_type) != ET_EXEC ) {
        PRINTF("This ELF is not an executable.\n");
        exit(1);
      }
      fclose(inputfs);
      readfile_elf(filename);
      return;
    }
    else {
      PRINTF("Not ELF file format.\n");
      fseek(inputfs, 0, SEEK_SET);
    }
  }
 
  perror("identifyfile2");
  fclose(inputfs);
 
  return;
}
 
 
/* Loads file to memory starting at address startaddr and returns freemem. */
unsigned long loadcode(char *filename, oraddr_t startaddr, oraddr_t virtphy_transl)
{
  int breakpoint = 0;
 
  transl_error = 0;
  transl_table = virtphy_transl;
  freemem = startaddr;
  PRINTF("loadcode: filename %s  startaddr=%"PRIxADDR"  virtphy_transl=%"PRIxADDR"\n",
         filename, startaddr, virtphy_transl);
  identifyfile(filename);
 
#if IMM_STATS  
  {
    int i = 0, a = 0, b = 0, c = 0;
    PRINTF ("index:arith/branch/jump\n");
    for (i = 0; i < 33; i++)
      PRINTF ("%2i:\t%3.0f%% / %3.0f%%/ %3.0f%%\t%5i / %5i / %5i\n", i,
              100.* (a += bcnt[i][0])/bsum[0], 100.* (b += bcnt[i][1])/bsum[1],
              100.* (c += bcnt[i][2])/bsum[2], bcnt[i][0], bcnt[i][1], bcnt[i][2]);
    PRINTF ("\nsum %i %i %i\n", bsum[0], bsum[1], bsum[2]);
  }
#endif
 
  if (transl_error)
    return -1;
  else
    return translate(freemem,&breakpoint);
 
}

Line No.	Rev	Author	Line
1	138	markom	`/* parce.c -- Architecture independent load`
2	2	cvs	`Copyright (C) 1999 Damjan Lampret, lampret@opencores.org`
3
4			`This file is part of OpenRISC 1000 Architectural Simulator.`
5
6			`This program is free software; you can redistribute it and/or modify`
7			`it under the terms of the GNU General Public License as published by`
8			`the Free Software Foundation; either version 2 of the License, or`
9			`(at your option) any later version.`
10
11			`This program is distributed in the hope that it will be useful,`
12			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
13			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
14			`GNU General Public License for more details.`
15
16			`You should have received a copy of the GNU General Public License`
17			`along with this program; if not, write to the Free Software`
18			`Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */`
19
20			`#include <stdio.h>`
21			`#include <ctype.h>`
22			`#include <string.h>`
23			`#include <stdlib.h>`
24
25	1350	nogj	`#include "config.h"`
26
27			`#ifdef HAVE_INTTYPES_H`
28			`#include <inttypes.h>`
29			`#endif`
30
31			`#include "port.h"`
32			`#include "arch.h"`
33	2	cvs	`#include "abstract.h"`
34	67	lampret	`#include "dmmu.h"`
35	28	lampret	`#include "coff.h"`
36	808	simons	`#include "elf.h"`
37	138	markom	`#include "debug_unit.h"`
38	134	markom	`#include "opcode/or32.h"`
39	138	markom	`#include "parse.h"`
40	242	markom	`#include "sim-config.h"`
41	1308	phoenix	`#include "labels.h"`
42			`#include "debug.h"`
43	2	cvs
44	221	markom	`#define MEMORY_LEN 0x100000000`
45	361	markom	`#define MAXLINE_LEN 18000`
46	2	cvs
47	694	markom	`/* Whether to do immediate statistics */`
48			`#define IMM_STATS 0`
49
50	28	lampret	`extern char *disassembled;`
51
52	2	cvs	`/* Unused mem memory marker. It is used when allocating program and data memory`
53			`during parsing */`
54			`unsigned int freemem;`
55
56	67	lampret	`/* Translation table provided by microkernel. Only used if simulating microkernel. */`
57	1350	nogj	`static oraddr_t transl_table;`
58	67	lampret
59			`/* Used to signal whether during loading of programs a translation fault occured. */`
60			`static unsigned long transl_error;`
61
62	304	markom	`char *`
63			`stripwhite (string)`
64			`char *string;`
65			`{`
66			`register char s, t;`
67
68			`for (s = string; whitespace (*s); s++)`
69			`;`
70
71			`if (*s == 0)`
72			`return (s);`
73
74			`t = s + strlen (s) - 1;`
75			`while (t > s && whitespace (*t))`
76			`t--;`
77			`*++t = '\0';`
78
79			`return s;`
80			`}`
81
82	897	markom	`/* This function is very similar to strncpy, except it null terminates the string */`
83			`char strstrip (char dst, const char *src, int n)`
84			`{`
85			`strncpy (dst, src, n);`
86			`*(dst + n) = '\0';`
87			`return dst;`
88			`}`
89
90	221	markom	`/* Used only by the simulator loader to translate logical addresses into physical.`
91	67	lampret	`If loadcode() is called with valid virtphy_transl pointer to a table of`
92			`translations then translate() performs translation otherwise phy address is`
93			`equal to logical. */`
94	1350	nogj	`static oraddr_t translate(oraddr_t laddr,int* breakpoint)`
95	67	lampret	`{`
96	361	markom	`int i;`
97
98	1308	phoenix	`/* No translation (i.e. when loading kernel into simulator) */`
99	997	markom	`/* PRINTF("transl_table=%x laddr=%x\n", transl_table, laddr);`
100			`PRINTF("laddr=%x\n", laddr);*/`
101	361	markom	`if (transl_table == 0)`
102			`return laddr;`
103
104			`/* Try to find our translation in the table. */`
105			`for(i = 0; i < (MEMORY_LEN / PAGE_SIZE) * 16; i += 16)`
106			`if ((laddr & ~(PAGE_SIZE - 1)) == evalsim_mem32(transl_table + i)) {`
107			`setsim_mem32(transl_table + i + 8, -2); /* Page modified */`
108	1350	nogj	`PRINTF("found paddr=%"PRIx32"\n",`
109			`evalsim_mem32(transl_table + i + 4) \| (laddr & (PAGE_SIZE - 1)));`
110			`return (oraddr_t)evalsim_mem32(transl_table + i + 4) \| (laddr & (oraddr_t)(PAGE_SIZE - 1));`
111	361	markom	`}`
112	67	lampret
113	361	markom	`/* Allocate new phy page for us. */`
114			`for(i = 0; i < (MEMORY_LEN / PAGE_SIZE) * 16; i += 16)`
115			`if (evalsim_mem32(transl_table + i + 8) == 0) {`
116			`setsim_mem32(transl_table + i, laddr & ~(PAGE_SIZE - 1)); /* VPN */`
117			`setsim_mem32(transl_table + i + 4, (i/16) * PAGE_SIZE); /* PPN */`
118			`setsim_mem32(transl_table + i + 8, -2); /* Page modified */`
119	1350	nogj	`PRINTF("newly allocated ppn=%"PRIx32"\n",`
120			`evalsim_mem32(transl_table + i + 4));`
121			`PRINTF("newly allocated .ppn=%"PRIxADDR"\n", transl_table + i + 4);`
122			`PRINTF("newly allocated ofs=%"PRIxADDR"\n", (laddr & (PAGE_SIZE - 1)));`
123			`PRINTF("newly allocated paddr=%"PRIx32"\n",`
124			`evalsim_mem32(transl_table + i + 4) \| (laddr & (PAGE_SIZE - 1)));`
125			`return (oraddr_t)evalsim_mem32(transl_table + i + 4) \| (laddr & (oraddr_t)(PAGE_SIZE - 1));`
126	361	markom	`}`
127			`/* If we come this far then all phy memory is used and we can't find our page`
128			`nor allocate new page. */`
129			`transl_error = 1;`
130
131	1350	nogj	`PRINTF("can't translate %"PRIxADDR"\n", laddr);`
132	361	markom	`exit(1);`
133			`return -1;`
134	67	lampret	`}`
135
136	694	markom	`#if IMM_STATS`
137	703	markom	`int bcnt[33][3] = {0};`
138			`int bsum[3] = {0};`
139			`unsigned long movhi = 0;`
140	694	markom
141			`int bits (unsigned long val) {`
142			`int i = 1;`
143			`if (!val) return 0;`
144	703	markom	`while (val != 0 && (signed long)val != -1) {i++; val = (signed long)val >> 1;}`
145	694	markom	`return i;`
146			`}`
147
148	1350	nogj	`void check_insn (uint32_t insn) {`
149	694	markom	`int insn_index = insn_decode (insn);`
150			`struct insn_op_struct *opd = op_start[insn_index];`
151	1350	nogj	`uint32_t data = 0;`
152	694	markom	`int dis = 0;`
153	703	markom	`const char *name;`
154	694	markom	`if (!insn \|\| insn_index < 0) return;`
155			`name = insn_name (insn_index);`
156	703	markom	`if (strcmp (name, "l.nop") == 0 \|\| strcmp (name, "l.sys") == 0) return;`
157	694	markom
158			`while (1)`
159			`{`
160	1350	nogj	`uint32_t tmp = 0`
161			`unsigned int nbits = 0;`
162	694	markom	`while (1)`
163			`{`
164	1350	nogj	`tmp \|= ((insn >> (opd->type & OPTYPE_SHR)) & ((1 << opd->data) - 1)) << nbits;`
165	694	markom	`nbits += opd->data;`
166			`if (opd->type & OPTYPE_OP)`
167			`break;`
168			`opd++;`
169			`}`
170
171			`/* Do we have to sign extend? */`
172			`if (opd->type & OPTYPE_SIG)`
173			`{`
174			`int sbit = (opd->type & OPTYPE_SBIT) >> OPTYPE_SBIT_SHR;`
175			`if (tmp & (1 << sbit))`
176			`tmp \|= 0xFFFFFFFF << sbit;`
177			`}`
178			`if (opd->type & OPTYPE_DIS) {`
179			`/* We have to read register later. */`
180			`data += tmp;`
181			`dis = 1;`
182			`} else`
183			`{`
184			`if (!(opd->type & OPTYPE_REG) \|\| dis) {`
185			`if (!dis) data = tmp;`
186	703	markom	`if (strcmp (name, "l.movhi") == 0) {`
187			`movhi = data << 16;`
188			`} else {`
189			`data \|= movhi;`
190	997	markom	`//PRINTF ("%08x %s\n", data, name);`
191	703	markom	`if (!(or32_opcodes[insn_index].flags & OR32_IF_DELAY)) {`
192			`bcnt[bits(data)][0]++; bsum[0]++;`
193			`} else {`
194			`if (strcmp (name, "l.bf") == 0 \|\| strcmp (name, "l.bnf") == 0) {`
195			`bcnt[bits(data)][1]++; bsum[1]++;`
196			`} else {`
197			`bcnt[bits(data)][2]++; bsum[2]++;`
198			`}`
199			`}`
200			`}`
201	694	markom	`}`
202			`data = 0;`
203			`dis = 0;`
204			`}`
205			`if(opd->type & OPTYPE_LAST) {`
206			`return;`
207			`}`
208			`opd++;`
209			`}`
210			`}`
211			`#endif`
212
213	123	markom	`/* Replaced several calls to translate(freemem) with vaddr */`
214			`/* Added new mode execution code */`
215			`/* Changed parameters so address can be passed as argument */`
216	1350	nogj	`void addprogram(oraddr_t address, uint32_t insn, int* breakpoint)`
217	2	cvs	`{`
218	361	markom	`int vaddr = (!runtime.sim.filename) ? translate(address,breakpoint) : translate(freemem,breakpoint);`
219	138	markom
220			`setsim_mem32 (vaddr, insn);`
221	694	markom	`#if IMM_STATS`
222			`check_insn (insn);`
223			`#endif`
224	361	markom	`if(runtime.sim.filename)`
225	138	markom	`freemem += insn_len (insn_decode (insn));`
226	2	cvs	`}`
227
228	694	markom	`/* Load big-endian COFF file. */`
229	28	lampret
230			`void readfile_coff(char *filename, short sections)`
231			`{`
232	361	markom	`FILE *inputfs;`
233			`char inputbuf[4];`
234	1350	nogj	`uint32_t insn;`
235	361	markom	`signed long sectsize;`
236			`COFF_AOUTHDR coffaouthdr;`
237			`struct COFF_scnhdr coffscnhdr;`
238	1350	nogj	`int len;`
239			`int firstthree = 0;`
240	361	markom	`int breakpoint = 0;`
241	123	markom
242	361	markom	`if (!(inputfs = fopen(filename, "r"))) {`
243			`perror("readfile_coff");`
244			`exit(1);`
245			`}`
246	28	lampret
247	361	markom	`if (fseek(inputfs, sizeof(struct COFF_filehdr), SEEK_SET) == -1) {`
248			`fclose(inputfs);`
249			`perror("readfile_coff");`
250			`exit(1);`
251			`}`
252	28	lampret
253	361	markom	`if (fread(&coffaouthdr, sizeof(coffaouthdr), 1, inputfs) != 1) {`
254			`fclose(inputfs);`
255			`perror("readfile_coff");`
256			`exit(1);`
257			`}`
258
259			`while(sections--) {`
260			`long scnhdr_pos = sizeof(struct COFF_filehdr) + sizeof(coffaouthdr)`
261			`+ sizeof(struct COFF_scnhdr) * firstthree;`
262			`if (fseek(inputfs, scnhdr_pos, SEEK_SET) == -1) {`
263			`fclose(inputfs);`
264			`perror("readfile_coff");`
265			`exit(1);`
266			`}`
267			`if (fread(&coffscnhdr, sizeof(struct COFF_scnhdr), 1, inputfs) != 1) {`
268			`fclose(inputfs);`
269			`perror("readfile_coff");`
270			`exit(1);`
271			`}`
272	997	markom	`PRINTF("Section: %s,", coffscnhdr.s_name);`
273	1308	phoenix	`PRINTF(" paddr: 0x%.8lx,", COFF_LONG_H(coffscnhdr.s_paddr));`
274			`PRINTF(" vaddr: 0x%.8lx,", COFF_LONG_H(coffscnhdr.s_vaddr));`
275			`PRINTF(" size: 0x%.8lx,", COFF_LONG_H(coffscnhdr.s_size));`
276			`PRINTF(" scnptr: 0x%.8lx\n", COFF_LONG_H(coffscnhdr.s_scnptr));`
277	361	markom
278			`sectsize = COFF_LONG_H(coffscnhdr.s_size);`
279	221	markom	`#if 0`
280	361	markom	`/* A couple of sanity checks. */`
281			`if (translate(COFF_LONG_H(coffscnhdr.s_vaddr),&breakpoint) < MEMORY_START) {`
282	997	markom	`PRINTF("Section %s starts out of ", coffscnhdr.s_name);`
283			`PRINTF("memory (at %x)\n", COFF_LONG_H(coffscnhdr.s_vaddr));`
284	361	markom	`exit(1);`
285			`}`
286			`if (translate(COFF_LONG_H(coffscnhdr.s_vaddr) + sectsize,&breakpoint) >`
287			`MEMORY_START + MEMORY_LEN) {`
288	997	markom	`PRINTF("Section %s ends out of ", coffscnhdr.s_name);`
289			`PRINTF("memory.\n");`
290	361	markom	`exit(1);`
291			`}`
292	221	markom	`#endif`
293	167	markom	`#if 0`
294	361	markom	`if (++firstthree == 1 && strcmp(coffscnhdr.s_name, ".text") != 0) {`
295	997	markom	`PRINTF("First section should be .text (%s instead)\n", coffscnhdr.s_name);`
296	361	markom	`exit(1);`
297			`}`
298			`if (firstthree == 2 && strcmp(coffscnhdr.s_name, ".data") != 0) {`
299	997	markom	`PRINTF("Second section should be .data (%s instead)\n", coffscnhdr.s_name);`
300	361	markom	`exit(1);`
301			`}`
302			`if (firstthree == 3 && strcmp(coffscnhdr.s_name, ".bss") != 0) {`
303	997	markom	`PRINTF("Third section should be .bss (%s instead)\n", coffscnhdr.s_name);`
304	361	markom	`exit(1);`
305			`}`
306	167	markom	`#else`
307	361	markom	`++firstthree;`
308	167	markom	`#endif`
309	28	lampret
310	361	markom	`/* loading section */`
311			`freemem = COFF_LONG_H(coffscnhdr.s_paddr);`
312			`debug(2,"Starting to load at 0x%x\n", freemem);`
313			`if (fseek(inputfs, COFF_LONG_H(coffscnhdr.s_scnptr), SEEK_SET) == -1) {`
314			`fclose(inputfs);`
315			`perror("readfile_coff");`
316			`exit(1);`
317			`}`
318			`while (sectsize > 0 && (len = fread(&inputbuf, sizeof(inputbuf), 1, inputfs))) {`
319			`insn = COFF_LONG_H(inputbuf);`
320			`len = insn_len (insn_decode (insn));`
321			`if (len == 2)`
322			`{`
323			`fseek(inputfs, -2, SEEK_CUR);`
324	1350	nogj	`debug(8,"readfile_coff: %lx 0x%x \n", sectsize, insn >> 16);`
325	361	markom	`}`
326			`else`
327	1350	nogj	`debug(8,"readfile_coff: %lx 0x%x \n", sectsize, insn);`
328	361	markom	`addprogram (freemem, insn, &breakpoint);`
329			`sectsize -= len;`
330			`}`
331			`}`
332			`if (firstthree < 3) {`
333	997	markom	`PRINTF("One or more missing sections. At least");`
334			`PRINTF(" three sections expected (.text, .data, .bss).\n");`
335	361	markom	`exit(1);`
336			`}`
337			`if (firstthree > 3) {`
338	997	markom	`PRINTF("Warning: one or more extra sections. These");`
339			`PRINTF(" sections were handled as .data sections.\n");`
340	361	markom	`}`
341	41	lampret
342	361	markom	`fclose(inputfs);`
343	997	markom	`PRINTF("Finished loading COFF.\n");`
344	361	markom	`return;`
345	28	lampret	`}`
346
347			`/* Load symbols from big-endian COFF file. */`
348
349			`void readsyms_coff(char *filename, unsigned long symptr, long syms)`
350			`{`
351	173	markom	`FILE *inputfs;`
352			`struct COFF_syment coffsymhdr;`
353			`int count = 0;`
354			`long nsyms = syms;`
355			`if (!(inputfs = fopen(filename, "r"))) {`
356			`perror("readsyms_coff");`
357			`exit(1);`
358			`}`
359
360			`if (fseek(inputfs, symptr, SEEK_SET) == -1) {`
361			`fclose(inputfs);`
362			`perror("readsyms_coff");`
363			`exit(1);`
364			`}`
365
366			`while(syms--) {`
367			`int i, n;`
368			`if (fread(&coffsymhdr, COFF_SYMESZ, 1, inputfs) != 1) {`
369			`fclose(inputfs);`
370			`perror("readsyms_coff");`
371			`exit(1);`
372			`}`
373
374			`n = (unsigned char)coffsymhdr.e_numaux[0];`
375	513	markom
376			`/* check whether this symbol belongs to a section and is external symbol; ignore all others */`
377			`if (COFF_SHORT_H(coffsymhdr.e_scnum) >= 0 && coffsymhdr.e_sclass[0] == C_EXT) {`
378			`#if 0`
379	173	markom	`/* If not important or not in text, skip. */`
380	513	markom	`if(COFF_SHORT_H(coffsymhdr.e_type) & COFF_N_TMASK & COFF_STYP_TEXT) {`
381			`#endif`
382
383	173	markom	`if (((unsigned long )coffsymhdr.e.e.e_zeroes)) {`
384	513	markom	`if (strlen(coffsymhdr.e.e_name) && strlen(coffsymhdr.e.e_name) < 9)`
385			`add_label(COFF_LONG_H(coffsymhdr.e_value), coffsymhdr.e.e_name);`
386			`debug(8, "[%i] Symbol: %s,", count++, coffsymhdr.e.e_name);`
387	173	markom	`} else {`
388	513	markom	`long fpos = ftell (inputfs);`
389	361	markom
390	513	markom	`if (fseek(inputfs, symptr + nsyms * COFF_SYMESZ + COFF_LONG_H(coffsymhdr.e.e.e_offset), SEEK_SET) == 0) {`
391			`char tmp[33], *s = &tmp[0];`
392			`while (s != &tmp[32])`
393			`if ((*(s++) = fgetc(inputfs)) == 0) break;`
394			`tmp[32] = 0;`
395			`add_label(COFF_LONG_H(coffsymhdr.e_value), &tmp[0]);`
396			`debug(8, "[%i] Symbol: %s,", count++, &tmp[0]);`
397			`}`
398			`fseek(inputfs, fpos, SEEK_SET);`
399	173	markom	`}`
400
401	1350	nogj	`debug(9, " val: 0x%.8lx,", COFF_LONG_H(coffsymhdr.e_value));`
402	344	markom	`debug(9, " type: %x, %x, auxs: %i\n", COFF_SHORT_H(coffsymhdr.e_type), ((unsigned short )coffsymhdr.e_type), n);`
403	173	markom	`}`
404	28	lampret
405	173	markom	`for (i = 0; i < n; i++)`
406			`if (fread(&coffsymhdr, COFF_SYMESZ, 1, inputfs) != 1) {`
407	513	markom	`fclose(inputfs);`
408			`perror("readsyms_coff3");`
409			`exit(1);`
410	173	markom	`}`
411			`syms -= n;`
412			`count += n;`
413			`}`
414	28	lampret
415	173	markom	`fclose(inputfs);`
416	997	markom	`PRINTF("Finished loading symbols.\n");`
417	173	markom	`return;`
418	28	lampret	`}`
419
420	808	simons	`void readfile_elf(char *filename)`
421			`{`
422
423			`FILE *inputfs;`
424			`struct elf32_hdr elfhdr;`
425			`struct elf32_phdr *elf_phdata;`
426			`struct elf32_shdr elf_spnt, elf_shdata;`
427			`struct elf32_sym sym_tbl = (struct elf32_sym )0;`
428			`unsigned long syms = 0;`
429			`char str_tbl = (char )0;`
430			`char s_str = (char )0;`
431			`int breakpoint = 0;`
432			`unsigned long inputbuf;`
433	1350	nogj	`unsigned long padd;`
434			`uint32_t insn;`
435	808	simons	`int i, j, sectsize, len;`
436
437			`if (!(inputfs = fopen(filename, "r"))) {`
438			`perror("readfile_elf");`
439			`exit(1);`
440			`}`
441
442			`if (fread(&elfhdr, sizeof(elfhdr), 1, inputfs) != 1) {`
443			`perror("readfile_elf");`
444			`exit(1);`
445			`}`
446
447			`if ((elf_shdata = (struct elf32_shdr )malloc(ELF_SHORT_H(elfhdr.e_shentsize) ELF_SHORT_H(elfhdr.e_shnum))) == NULL) {`
448			`perror("readfile_elf");`
449			`exit(1);`
450			`}`
451
452			`if (fseek(inputfs, ELF_LONG_H(elfhdr.e_shoff), SEEK_SET) != 0) {`
453			`perror("readfile_elf");`
454			`exit(1);`
455			`}`
456
457			`if (fread(elf_shdata, ELF_SHORT_H(elfhdr.e_shentsize) * ELF_SHORT_H(elfhdr.e_shnum), 1, inputfs) != 1) {`
458			`perror("readfile_elf");`
459			`exit(1);`
460			`}`
461
462			`if (ELF_LONG_H(elfhdr.e_phoff)) {`
463
464			`if((elf_phdata = (struct elf32_phdr )malloc(ELF_SHORT_H(elfhdr.e_phnum) ELF_SHORT_H(elfhdr.e_phentsize))) == NULL) {`
465			`perror("readfile_elf");`
466			`exit(1);`
467			`}`
468
469			`if (fseek(inputfs, ELF_LONG_H(elfhdr.e_phoff), SEEK_SET) != 0) {`
470			`perror("readfile_elf");`
471			`exit(1);`
472			`}`
473
474			`if (fread(elf_phdata, ELF_SHORT_H(elfhdr.e_phnum) * ELF_SHORT_H(elfhdr.e_phentsize), 1, inputfs) != 1) {`
475			`perror("readfile_elf");`
476			`exit(1);`
477			`}`
478			`}`
479
480			`for(i = 0, elf_spnt = elf_shdata; i < ELF_SHORT_H(elfhdr.e_shnum); i++, elf_spnt++) {`
481
482			`if(ELF_LONG_H(elf_spnt->sh_type) == SHT_STRTAB) {`
483
484			`if((str_tbl = (char *)malloc(ELF_LONG_H(elf_spnt->sh_size))) == NULL) {`
485			`perror("readfile_elf");`
486			`exit(1);`
487			`}`
488
489			`if (fseek(inputfs, ELF_LONG_H(elf_spnt->sh_offset), SEEK_SET) != 0) {`
490			`perror("readfile_elf");`
491			`exit(1);`
492			`}`
493
494			`if (fread(str_tbl, ELF_LONG_H(elf_spnt->sh_size), 1, inputfs) != 1) {`
495			`perror("readfile_elf");`
496			`exit(1);`
497			`}`
498			`}`
499			`else if(ELF_LONG_H(elf_spnt->sh_type) == SHT_SYMTAB) {`
500

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