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#!/usr/bin/perl

#
#    Copyright (c) 1998-1999 TiVo, Inc.
#    All rights reserved.
#
#    Copyright (c) 1999 Grant Erickson <grant@lcse.umn.edu>
#      Major syntactic and usability rework.
#
#    Module name: mkevimg
#
#    Description:
#      Converts an ELF output file from the linker into the format used by
#      the IBM evaluation board ROM Monitor to load programs from a host
#      onto the evaluation board. The ELF file must be an otherwise execut-
#      able file (with the text and data addresses bound at link time) and
#      have space reserved after the entry point for the load information
#      block:
#
#      typedef struct boot_block {
#        unsigned long magic;	        0x0052504F
#	 unsigned long dest;	        Target address of the image
#	 unsigned long num_512blocks;   Size, rounded-up, in 512 byte blocks
#	 unsigned long debug_flag;      Run the debugger or image after load
#        unsigned long entry_point;	The image address to jump to after load
#	 unsigned long reserved[3];
#      } boot_block_t;
#
#   

use File::Basename;
use Getopt::Std;

#
# usage()
#
# Description:
#   This routine prints out the proper command line usage for this program
#
# Input(s):
#   status - Flag determining what usage information will be printed and what
#            the exit status of the program will be after the information is
#            printed.
#
# Output(s):
#   N/A
#
# Returns:
#   This subroutine does not return.
#

sub usage {
  my($status);
  $status = $_[0];

  printf("Usage: %s [-hlvV] <ELF input file> <Evaluation board output file>\n",
	$program);

  if ($status != 0) {
    printf("Try `%s -h' for more information.\n", $program);
  }

  if ($status != 1) {
    print("  -h         Print out this message and exit.\n");
    print("  -l         Linux mode; if present, copy 'image' and 'initrd' sections.\n");
    print("  -v         Verbose. Print out lots of ELF information.\n");
    print("  -V         Print out version information and exit.\n");
  }

  exit($status);
}

#
# version()
#
# Description:
#   This routine prints out program version information
#
# Input(s):
#   N/A
#
# Output(s):
#   N/A
#
# Returns:
#   This subroutine does not return.
#

sub version {
  print("mkevimg Version 1.1.0\n");
  print("Copyright (c) 1998-1999 TiVo, Inc.\n");
  print("Copyright (c) 1999 Grant Erickson <grant\@lcse.umn.edu>\n");

  exit (0);
}

#
# file_check()
#
# Description:
#   This routine checks an input file to ensure that it exists, is a
#   regular file, and is readable.
#
# Input(s):
#   file - Input file to be checked.
#
# Output(s):
#   N/A
#
# Returns:
#   0 if the file exists, is a regular file, and is readable, otherwise -1.
#

sub file_check {
  my($file);
  $file = $_[0];

  if (!(-e $file)) {
    printf("The file \"%s\" does not exist.\n", $file);
    return (-1);
  } elsif (!(-f $file)) {
    printf("The file \"%s\" is not a regular file.\n", $file);
    return (-1);
  } elsif (!(-r $file)) {
    printf("The file \"%s\" is not readable.\n", $file);
    return (-1);
  }

  return (0);
}

#
# decode_options()
#
# Description:
#   This routine steps through the command-line arguments, parsing out
#   recognzied options.
#
# Input(s):
#   N/A
#
# Output(s):
#   N/A
#
# Returns:
#   N/A
#

sub decode_options {

  if (!getopts("hlvV")) {
    usage(1);
  }

  if ($opt_h) {
    usage(0);
  }

  if ($opt_l) {
    $linux = 1;
  }

  if ($opt_V) {
    version();
    exit (0);
  }

  if ($opt_v) {
    $verbose = 1;
  }

  if (!($ifile = shift(@ARGV))) {
    usage(1);
  }

  if (!($ofile = shift(@ARGV))) {
    usage (1);
  }

  if (file_check($ifile)) {
    exit(1);
  }

}

#
# ELF file and section header field numbers
#

require 'elf.pl';

#
# Main program body
#

{
  $program = basename($0);

  decode_options();

  open(ELF, "<$ifile") || die "Cannot open input file";

  $ifilesize = (-s $ifile);

  if ($verbose) {
    print("Output file: $ofile\n");
    print("Input file: $ifile, $ifilesize bytes.\n");
  }

  if (read(ELF, $ibuf, $ifilesize) != $ifilesize) {
    print("Failed to read input file!\n");
    exit(1);
  }

  # 
  # Parse ELF header
  #

  @eh = unpack("a16n2N5n6", $ibuf);

  #
  # Make sure this is actually a PowerPC ELF file.
  #

  if (substr($eh[$e_ident], 0, 4) ne "\177ELF") {
    printf("The file \"%s\" is not an ELF file.\n", $ifile);
    exit (1);
  } elsif ($eh[$e_machine] != 20) {
    printf("The file \"%s\" is not a PowerPC ELF file.\n", $ifile);
    exit (1);
  }

  if ($verbose) {
    print("File header:\n");
    printf("  Identifier:            %s\n",	$eh[$e_ident]);
    printf("  Type:                  %d\n",	$eh[$e_type]);
    printf("  Machine:               %d\n",	$eh[$e_machine]);
    printf("  Version:               %d\n",	$eh[$e_version]);
    printf("  Entry point:           0x%08x\n", $eh[$e_entry]);
    printf("  Program header offset: 0x%x\n",	$eh[$e_phoff]);
    printf("  Section header offset: 0x%x\n",	$eh[$e_shoff]);
    printf("  Flags:                 0x%08x\n", $eh[$e_flags]);
    printf("  Header size:           %d\n", $eh[$e_ehsize]);
    printf("  Program entry size:    %d\n", $eh[$e_phentsize]);
    printf("  Program table entries: %d\n", $eh[$e_phnum]);
    printf("  Section header size:   %d\n", $eh[$e_shentsize]);
    printf("  Section table entries: %d\n", $eh[$e_shnum]);
    printf("  String table section:  %d\n", $eh[$e_shstrndx]);
  }

  #
  # Find the section header for the string table.
  #

  $strtable_section_offset =  $eh[$e_shoff] +
    $eh[$e_shstrndx] * $eh[$e_shentsize];

  if ($verbose) {
    printf("String table section header offset: 0x%x\n",
	   $strtable_section_offset);
  }
  
  #
  # Find the start of the string table.
  #

  @strh = unpack("N10", substr($ibuf, $strtable_section_offset, 
			       $eh[$e_shentsize]));

  if ($verbose) {
    printf("Section name strings start at: 0x%x, %d bytes.\n",
	   $strh[$sh_offset], $strh[$sh_size]);
  }

  $names = substr($ibuf, $strh[$sh_offset], $strh[$sh_size]);

  # Grab each section header and find '.text' and '.bss' sections in
  # particular.

  if ($verbose) {
  print("Section headers:\n");
  print("Idx  Name                      Size      Address   File off  Algn\n");
  print("---  ------------------------  --------  --------  --------  ----\n");
  }

  $off = $eh[$e_shoff];

  for($i = 0; $i < $eh[$e_shnum]; $i++, $off += $eh[$e_shentsize]) {
    @sh = unpack("N10", substr($ibuf, $off, $eh[$e_shentsize]));

    # Take the first section name from the array returned by split.

    ($name) = split(/\000/, substr($names, $sh[$sh_name]));
    
    if ($verbose) {
      printf("%3d  %-24s  %8x  %08x  %08x  %4d\n", 
	     $i, $name, $sh[$sh_size], $sh[$sh_addr], 
	     $sh[$sh_offset], $sh[$sh_addralign]);
    }

    # Attempt to find the .text and .bss sections

    if ($name =~ /^\.bss$/) {
      ($bss_addr, $bss_offset, $bss_size) =
	($sh[$sh_addr], $sh[$sh_offset], $sh[$sh_size]);

    } elsif ($name =~ /^\.text$/) {
      ($text_addr, $text_offset, $text_size) = 
	($sh[$sh_addr], $sh[$sh_offset], $sh[$sh_size]);

    } elsif ($linux && ($name =~ /^\image$/)) {
      $image_found = 1;

      ($image_addr, $image_offset, $image_size) = 
	($sh[$sh_addr], $sh[$sh_offset], $sh[$sh_size]);

    } elsif ($linux && ($name =~ /^\initrd$/)) {
      $initrd_found = 1;

      ($initrd_addr, $initrd_offset, $initrd_size) = 
	($sh[$sh_addr], $sh[$sh_offset], $sh[$sh_size]);

    }
  }

  printf("Text section   - Address: 0x%08x, Size: 0x%08x\n",
	 $text_addr, $text_size);
  printf("Bss  section   - Address: 0x%08x, Size: 0x%08x\n",
	 $bss_addr, $bss_size);

  if ($linux) {
    if ($image_found) {
      printf("Image section  - Address: 0x%08x, Size: 0x%08x\n",
	     $image_addr, $image_size);
    }

    if ($initrd_found) {
      printf("Initrd section - Address: 0x%08x, Size: 0x%08x\n",
	     $initrd_addr, $initrd_size);
    }
  }

  #
  # Open output file
  #

  open(BOOT, ">$ofile") || die "Cannot open output file";

  #
  # Compute image size
  #

  $output_size = $bss_offset - $text_offset + $bss_size;

  if ($linux && $image_found) {
    $output_size += $image_size;
  }

  if ($linux && $initrd_found) {
    $output_size += $initrd_size;
  }

  $num_blocks = $output_size / 512 + 1;

  #
  # Write IBM PowerPC evaluation board boot_block_t header
  #

  $header = pack("H8N7", "0052504f", $text_addr, $num_blocks, 0,
		 $text_addr, 0, 0, 0);

  $bytes = length($header);
  
  if (($resid = syswrite(BOOT, $header, $bytes)) != $bytes) {
    die("Could not write boot image header to output file.");
  }

  printf("Entry point = 0x%08x\n", $text_addr);
  printf("Image size  = 0x%08x (%d bytes) (%d blocks).\n", 
	 $output_size, $output_size, $num_blocks);

  #
  # Write image starting after ELF and program headers and 
  # continuing to beginning of bss
  #

  $bytes = $bss_offset - $text_offset + $bss_size;

  if (($resid = syswrite(BOOT, $ibuf, $bytes, $text_offset)) != $bytes) {
    die("Could not write boot image to output file.\n");
  }

  #
  # If configured, write out the image and initrd sections as well
  #

  if ($linux) {
    if ($image_found) {
      $bytes = $image_size;
      if (($resid = syswrite(BOOT, $ibuf, $bytes, $image_offset)) != $bytes) {
	die("Could not write boot image to output file.\n");
      }
    }

    if ($initrd_found) {
      $bytes = $initrd_size;
      if (($resid = syswrite(BOOT, $ibuf, $bytes, $initrd_offset)) != $bytes) {
	die("Could not write boot image to output file.\n");
      }
    }
  }

  #
  # Pad to a multiple of 512 bytes
  #

  $pad_size = 512 - (length($header) + $output_size) % 512;

  if ($verbose) {
    print("Padding boot image by an additional $pad_size bytes.\n");
  }

  $pad_string = pack(("H8","deadbeef") x 128);

  syswrite(BOOT, $pad_string, $pad_size) or
    die "Could not pad boot image in output file.\n";

  #
  # Clean-up and leave
  #

  close(BOOT);

  print("\nBoot image file \"$ofile\" built successfuly.\n\n");

  exit(0);
}