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While Executing 1 perl file .....M getting this problem

Unrecognized character \x03; marked by <-- HERE after PK<-- HERE near column 3 at mibwalk.pl line 1.

AnyBody have any idea about it

Code--->

#!usr/bin/perl
use BER;
use SNMP_util;
use SNMP_Session;
$MIB1 = “sysLocation.0”;
$HOST = “192.168.1.150”;
($value) = &snmpget(“public\@$HOST”,”$MIB1”);
if($value) {
            print “Results :$MIB1: :$value:\n”; 
}   
  else { warn “No response from host :$HOST:\n”; }
share|improve this question
    
Hi daxim ,it is my code –  Gaurav Jul 6 '12 at 11:54

2 Answers 2

up vote 1 down vote accepted

You have to send the string in hex-format. In my case this was not possible with the NET::SNMP module.

So I modifided the source code of this module to make it possible. I used the following version of Net::SNMP:

SNMP.pm,v 5.3 2005/10/20 14:17:01
Version v5.2.0

See at bottom of this post for the details.

Now you can use the set_request() function of Net::SNMP with a new ASN.1 type HEX_STRING.

e.g.:

#! /usr/local/bin/perl
use strict;
use warnings;
use Net::SNMP;

my $OID_sysContact = '1.3.6.1.2.1.1.4.0';

my ($session, $error) = Net::SNMP->session(
      -hostname  => shift || 'localhost',
      -community => shift || 'public',
   );

my $rv = $session->set_request(-varbindlist => [ $OID_sysContact, HEX_STRING, 'FF0a1200' ],);

$session->close();
exit 0;


# ============================================================================
package Net::SNMP;

# $Id: SNMP.pm,v 5.3 2005/10/20 14:17:01 dtown Rel $
# [...]
# ============================================================================

use strict;

## Validate the version of Perl

BEGIN 
{
   die('Perl version 5.6.0 or greater is required') if ($] < 5.006);
}

## Version of the Net::SNMP module

our $VERSION = v5.2.0;

## Load our modules

use Net::SNMP::Dispatcher();
use Net::SNMP::PDU qw( :ALL );
use Net::SNMP::Security();
use Net::SNMP::Transport qw( :ports );

## Handle importing/exporting of symbols

use Exporter();

our @ISA = qw( Exporter );

our @EXPORT = qw(
   INTEGER INTEGER32 OCTET_STRING OBJECT_IDENTIFIER IPADDRESS COUNTER
   COUNTER32 GAUGE GAUGE32 UNSIGNED32 TIMETICKS OPAQUE COUNTER64 NOSUCHOBJECT
   NOSUCHINSTANCE ENDOFMIBVIEW snmp_dispatcher HEX_STRING 
);

our @EXPORT_OK = qw( snmp_event_loop oid_context_match );

our %EXPORT_TAGS = (
   asn1        => [ 
      qw( INTEGER INTEGER32 OCTET_STRING NULL OBJECT_IDENTIFIER SEQUENCE
          IPADDRESS COUNTER COUNTER32 GAUGE GAUGE32 UNSIGNED32 TIMETICKS
          OPAQUE COUNTER64 NOSUCHOBJECT NOSUCHINSTANCE ENDOFMIBVIEW
          GET_REQUEST GET_NEXT_REQUEST GET_RESPONSE SET_REQUEST TRAP
          GET_BULK_REQUEST INFORM_REQUEST SNMPV2_TRAP REPORT HEX_STRING )
   ],
# [...]
# no more changes in source code of Net::SNMP
# [...] only changes in description of Net::SNMP
# [documentation] ------------------------------------------------------------

=head1 EXPORTS

The Net::SNMP module uses the F<Exporter> module to export useful constants 
and subroutines.  These exportable symbols are defined below and follow the
rules and conventions of the F<Exporter> module (see L<Exporter>).

=over

=item Default

&snmp_dispatcher, INTEGER, INTEGER32, OCTET_STRING, OBJECT_IDENTIFIER, 
IPADDRESS, COUNTER, COUNTER32, GAUGE, GAUGE32, UNSIGNED32, TIMETICKS, 
OPAQUE, COUNTER64, NOSUCHOBJECT, NOSUCHINSTANCE, ENDOFMIBVIEW HEX_STRING

=item Exportable

&snmp_debug, &snmp_dispatcher, &snmp_type_ntop, &oid_base_match, &oid_lex_sort, 
&ticks_to_time, INTEGER, INTEGER32, OCTET_STRING, NULL, OBJECT_IDENTIFIER, 
SEQUENCE, IPADDRESS, COUNTER, COUNTER32, GAUGE, GAUGE32, UNSIGNED32, TIMETICKS,
OPAQUE, COUNTER64, NOSUCHOBJECT, NOSUCHINSTANCE, ENDOFMIBVIEW, GET_REQUEST,
GET_NEXT_REQUEST, GET_RESPONSE, SET_REQUEST, TRAP, GET_BULK_REQUEST,
INFORM_REQUEST, SNMPV2_TRAP, REPORT, DEBUG_ALL, DEBUG_NONE, DEBUG_MESSAGE,
DEBUG_TRANSPORT, DEBUG_DISPATCHER,DEBUG_PROCESSING, DEBUG_SECURITY, COLD_START,
WARM_START, LINK_DOWN, LINK_UP,AUTHENTICATION_FAILURE, EGP_NEIGHBOR_LOSS,
ENTERPRISE_SPECIFIC, SNMP_VERSION_1,SNMP_VERSION_2C, SNMP_VERSION_3, SNMP_PORT,
SNMP_TRAP_PORT, TRANSLATE_NONE,TRANSLATE_OCTET_STRING, TRANSLATE_NULL,
TRANSLATE_TIMETICKS, TRANSLATE_OPAQUE,TRANSLATE_NOSUCHOBJECT,
TRANSLATE_NOSUCHINSTANCE, TRANSLATE_ENDOFMIBVIEW, TRANSLATE_UNSIGNED, 
TRANSLATE_ALL HEX_STRING

=item Tags

=over 

=item :asn1

INTEGER, INTEGER32, OCTET_STRING, NULL, OBJECT_IDENTIFIER, SEQUENCE, 
IPADDRESS, COUNTER, COUNTER32, GAUGE, GAUGE32, UNSIGNED32, TIMETICKS, OPAQUE, 
COUNTER64, NOSUCHOBJECT, NOSUCHINSTANCE, ENDOFMIBVIEW, GET_REQUEST, 
GET_NEXT_REQUEST, GET_RESPONSE, SET_REQUEST, TRAP, GET_BULK_REQUEST, 
INFORM_REQUEST, SNMPV2_TRAP, REPORT, HEX_STRING

=item :debug

&snmp_debug, DEBUG_ALL, DEBUG_NONE, DEBUG_MESSAGE, DEBUG_TRANSPORT, 
DEBUG_DISPATCHER, DEBUG_PROCESSING, DEBUG_SECURITY

=item :generictrap

COLD_START, WARM_START, LINK_DOWN, LINK_UP, AUTHENTICATION_FAILURE,
EGP_NEIGHBOR_LOSS, ENTERPRISE_SPECIFIC

=item :snmp

&snmp_debug, &snmp_dispatcher, &snmp_type_ntop, &oid_base_match, &oid_lex_sort, 
&ticks_to_time, SNMP_VERSION_1, SNMP_VERSION_2C, SNMP_VERSION_3, SNMP_PORT,
SNMP_TRAP_PORT

=item :translate

TRANSLATE_NONE, TRANSLATE_OCTET_STRING, TRANSLATE_NULL, TRANSLATE_TIMETICKS,
TRANSLATE_OPAQUE, TRANSLATE_NOSUCHOBJECT, TRANSLATE_NOSUCHINSTANCE, 
TRANSLATE_ENDOFMIBVIEW, TRANSLATE_UNSIGNED, TRANSLATE_ALL

=item :ALL

All of the above exportable items.

=back

=back

=head1 EXAMPLES
# [...]

# ============================================================================
1; # [end Net::SNMP]

Net::SNMP::Message

# ============================================================================
package Net::SNMP::Message;

# $Id: Message.pm,v 2.3 2005/10/20 14:17:01 dtown Rel $

# Object used to represent a SNMP message. 

# Copyright (c) 2001-2005 David M. Town <dtown@cpan.org>
# All rights reserved.

# This program is free software; you may redistribute it and/or modify it
# under the same terms as Perl itself.

# ============================================================================

use strict;
use bytes;

use Math::BigInt();

## Version of the Net::SNMP::Message module

our $VERSION = v2.0.3;

## Handle importing/exporting of symbols

use Exporter();

our @ISA = qw( Exporter );

our @EXPORT_OK = qw( TRUE FALSE );

our %EXPORT_TAGS = (
   generictrap    => [
      qw( COLD_START WARM_START LINK_DOWN LINK_UP AUTHENTICATION_FAILURE
          EGP_NEIGHBOR_LOSS ENTERPRISE_SPECIFIC )
   ],
   msgFlags       => [ 
      qw( MSG_FLAGS_NOAUTHNOPRIV MSG_FLAGS_AUTH MSG_FLAGS_PRIV 
          MSG_FLAGS_REPORTABLE MSG_FLAGS_MASK )
   ],
   securityLevels => [
      qw( SECURITY_LEVEL_NOAUTHNOPRIV SECURITY_LEVEL_AUTHNOPRIV
          SECURITY_LEVEL_AUTHPRIV )
   ],
   securityModels => [
      qw( SECURITY_MODEL_ANY SECURITY_MODEL_SNMPV1 SECURITY_MODEL_SNMPV2C
          SECURITY_MODEL_USM )
   ],
   translate      => [
      qw( TRANSLATE_NONE TRANSLATE_OCTET_STRING TRANSLATE_NULL 
          TRANSLATE_TIMETICKS TRANSLATE_OPAQUE TRANSLATE_NOSUCHOBJECT 
          TRANSLATE_NOSUCHINSTANCE TRANSLATE_ENDOFMIBVIEW TRANSLATE_UNSIGNED 
          TRANSLATE_ALL )
   ],
   types          => [
      qw( INTEGER INTEGER32 OCTET_STRING NULL OBJECT_IDENTIFIER SEQUENCE
          IPADDRESS COUNTER COUNTER32 GAUGE GAUGE32 UNSIGNED32 TIMETICKS
          OPAQUE COUNTER64 NOSUCHOBJECT NOSUCHINSTANCE ENDOFMIBVIEW
          GET_REQUEST GET_NEXT_REQUEST GET_RESPONSE SET_REQUEST TRAP
          GET_BULK_REQUEST INFORM_REQUEST SNMPV2_TRAP REPORT HEX_STRING )
   ],
   utilities      => [ qw( asn1_ticks_to_time asn1_itoa ) ],
   versions       => [ qw( SNMP_VERSION_1 SNMP_VERSION_2C SNMP_VERSION_3 ) ]
);

Exporter::export_ok_tags( 
   qw( generictrap msgFlags securityLevels securityModels translate types 
       utilities versions ) 
);

$EXPORT_TAGS{ALL} = [ @EXPORT_OK ];

## ASN.1 Basic Encoding Rules type definitions

sub INTEGER()                  { 0x02 }  # INTEGER
sub INTEGER32()                { 0x02 }  # Integer32           - SNMPv2c
sub OCTET_STRING()             { 0x04 }  # OCTET STRING
sub HEX_STRING()               { 0xfe }  # OCTET STRING in HEX  # Work a Round
# [...]
# [public methods] -----------------------------------------------------------

sub new
{
   my ($class, %argv) = @_;

   # Create a new data structure for the object
   my $this = bless {
      '_buffer'      =>  '',              # Serialized message buffer
      '_error'       =>  undef,           # Error message
      '_index'       =>  0,               # Buffer index
      '_leading_dot' =>  FALSE,           # Prepend leading dot on OIDs
      '_length'      =>  0,               # Buffer length
      '_security'    =>  undef,           # Security Model object
      '_translate'   =>  TRANSLATE_NONE,  # Translation mode
      '_transport'   =>  undef,           # Transport Layer object
      '_version'     =>  SNMP_VERSION_1   # SNMP version
   }, $class;

   # Validate the passed arguments

   foreach (keys %argv) {

      if (/^-?callback$/i) {
         $this->callback($argv{$_});
      } elsif (/^-?debug$/i) {
         $this->debug($argv{$_});
      } elsif (/^-?leadingdot$/i) {
         $this->leading_dot($argv{$_});
      } elsif (/^-?msgid$/i) {
         $this->msg_id($argv{$_}); 
      } elsif (/^-?requestid$/i) {
         $this->request_id($argv{$_});
      } elsif (/^-?security$/i) {
         $this->security($argv{$_});
      } elsif (/^-?translate$/i) {
         $this->translate($argv{$_});
      } elsif (/^-?transport$/i) {
         $this->transport($argv{$_});
      } elsif (/^-?version$/i) {
         $this->version($argv{$_});
      } else {
         $this->_error("Invalid argument '%s'", $_);
      }

      if (defined($this->{_error})) {
         return wantarray ? (undef, $this->{_error}) : undef;
      }

   }

   return wantarray ? ($this, '') : $this;
}

{
   my $prepare_methods = {
      INTEGER,            \&_prepare_integer,
      OCTET_STRING,       \&_prepare_octet_string,
      NULL,               \&_prepare_null,
      OBJECT_IDENTIFIER,  \&_prepare_object_identifier,
      SEQUENCE,           \&_prepare_sequence,
      IPADDRESS,          \&_prepare_ipaddress,
      COUNTER,            \&_prepare_counter,
      GAUGE,              \&_prepare_gauge,
      TIMETICKS,          \&_prepare_timeticks,
      OPAQUE,             \&_prepare_opaque,
      COUNTER64,          \&_prepare_counter64,
      NOSUCHOBJECT,       \&_prepare_nosuchobject,
      NOSUCHINSTANCE,     \&_prepare_nosuchinstance,
      ENDOFMIBVIEW,       \&_prepare_endofmibview,
      GET_REQUEST,        \&_prepare_get_request,
      GET_NEXT_REQUEST,   \&_prepare_get_next_request,
      GET_RESPONSE,       \&_prepare_get_response,
      SET_REQUEST,        \&_prepare_set_request,
      TRAP,               \&_prepare_trap,
      GET_BULK_REQUEST,   \&_prepare_get_bulk_request,
      INFORM_REQUEST,     \&_prepare_inform_request,
      SNMPV2_TRAP,        \&_prepare_v2_trap,
      REPORT,             \&_prepare_report,
      HEX_STRING,         \&_prepare_hex_string
   };

   sub prepare 
   {
#     my ($this, $type, $value) = @_;

      return $_[0]->_error('ASN.1 type not defined') unless (@_ > 1);
      return $_[0]->_error if defined($_[0]->{_error});

      if (exists($prepare_methods->{$_[1]})) {
         $_[0]->${\$prepare_methods->{$_[1]}}($_[2]);
      } else {
         $_[0]->_error('Unknown ASN.1 type [%s]', $_[1]);
      }
   }
}

{
   my $process_methods = {
      INTEGER,            \&_process_integer32,
      OCTET_STRING,       \&_process_octet_string,
      NULL,               \&_process_null,
      OBJECT_IDENTIFIER,  \&_process_object_identifier,
      SEQUENCE,           \&_process_sequence,
      IPADDRESS,          \&_process_ipaddress,
      COUNTER,            \&_process_counter,
      GAUGE,              \&_process_gauge,
      TIMETICKS,          \&_process_timeticks,
      OPAQUE,             \&_process_opaque,
      COUNTER64,          \&_process_counter64,
      NOSUCHOBJECT,       \&_process_nosuchobject,
      NOSUCHINSTANCE,     \&_process_nosuchinstance,
      ENDOFMIBVIEW,       \&_process_endofmibview,
      GET_REQUEST,        \&_process_get_request,
      GET_NEXT_REQUEST,   \&_process_get_next_request,
      GET_RESPONSE,       \&_process_get_response,
      SET_REQUEST,        \&_process_set_request,
      TRAP,               \&_process_trap,
      GET_BULK_REQUEST,   \&_process_get_bulk_request,
      INFORM_REQUEST,     \&_process_inform_request,
      SNMPV2_TRAP,        \&_process_v2_trap,
      REPORT,             \&_process_report
   };

   sub process 
   {
#     my ($this, $expected, $found) = @_;

      return $_[0]->_error if defined($_[0]->{_error});
      return $_[0]->_error unless defined(my $type = $_[0]->_buffer_get(1));

      $type = unpack('C', $type);

      if (exists($process_methods->{$type})) {
         if ((@_ >= 2) && (defined($_[1])) && ($type != $_[1])) {
            return $_[0]->_error(
               'Expected %s, but found %s', asn1_itoa($_[1]), asn1_itoa($type)
            );
         }
         $_[2] = $type if (@_ == 3);
         $_[0]->${\$process_methods->{$type}}($type);
      } else {
         $_[0]->_error('Unknown ASN.1 type [0x%02x]', $type);
      }
   }
}

# [...]
# [private methods] ----------------------------------------------------------

#
# Basic Encoding Rules (BER) prepare methods
#

sub _prepare_type_length
{
#  my ($this, $type, $value) = @_;

   return $_[0]->_error('ASN.1 type not defined') unless defined($_[1]);

   my $length = CORE::length($_[2]);

   if ($length < 0x80) {
      $_[0]->_buffer_put(pack('C2', $_[1], $length) . $_[2]);
   } elsif ($length <= 0xff) {
      $_[0]->_buffer_put(pack('C3', $_[1], 0x81, $length) . $_[2]);
   } elsif ($length <= 0xffff) {
      $_[0]->_buffer_put(pack('CCn', $_[1], 0x82, $length) . $_[2]);
   } else {
      $_[0]->_error('Unable to prepare ASN.1 length');
   }
}

sub _prepare_integer
{
   my ($this, $value) = @_;

   return $this->_error('INTEGER value not defined') unless defined($value);

   if ($value !~ /^-?\d+$/) {
      return $this->_error('Expected numeric INTEGER value');
   }

   $this->_prepare_integer32(INTEGER, $value);
}

sub _prepare_unsigned32
{
   my ($this, $type, $value) = @_;

   if (!defined($value)) {
      return $this->_error('%s value not defined', asn1_itoa($type));
   }

   if ($value !~ /^\d+$/) {
      return $this->_error(
         'Expected positive numeric %s value', asn1_itoa($type)
      );
   }

   $this->_prepare_integer32($type, $value);
}

sub _prepare_integer32
{
   my ($this, $type, $value) = @_;

   # Determine if the value is positive or negative
   my $negative = ($value =~ /^-/);

   # Check to see if the most significant bit is set, if it is we
   # need to prefix the encoding with a zero byte.

   my $size   = 4;     # Assuming 4 byte integers
   my $prefix = FALSE;
   my $bytes  = '';

   if ((($value & 0xff000000) & 0x80000000) && (!$negative)) {
      $size++;
      $prefix = TRUE;
   }

   # Remove occurances of nine consecutive ones (if negative) or zeros
   # from the most significant end of the two's complement integer.

   while ((((!($value & 0xff800000))) ||
           ((($value & 0xff800000) == 0xff800000) && ($negative))) &&
           ($size > 1))
   {
      $size--;
      $value <<= 8;
   }

   # Add a zero byte so the integer is decoded as a positive value
   if ($prefix) {
      $bytes = pack('x');
      $size--;
   }

   # Build the integer
   while ($size-- > 0) {
      $bytes .= pack('C*', (($value & 0xff000000) >> 24));
      $value <<= 8;
   }

   # Encode ASN.1 header
   $this->_prepare_type_length($type, $bytes);
}

sub _prepare_octet_string
{
   my ($this, $value) = @_;

   if (!defined($value)) {
      return $this->_error('OCTET STRING value not defined');
   }

   $this->_prepare_type_length(OCTET_STRING, $value);
}

sub _prepare_hex_string
{
   my ($this, $value) = @_;

   if (!defined($value)) {
      return $this->_error('HEX STRING value not defined');
   }

   $this->_prepare_type_length(OCTET_STRING, pack("H*", $value));
}

sub _prepare_null
{
   $_[0]->_prepare_type_length(NULL, '');
}

# [...]

#
# Abstract Syntax Notation One (ASN.1) utility functions
#

{
   my $types = {
      INTEGER,            'INTEGER',
      OCTET_STRING,       'OCTET STRING',
      NULL,               'NULL',
      OBJECT_IDENTIFIER,  'OBJECT IDENTIFIER',
      SEQUENCE,           'SEQUENCE',
      IPADDRESS,          'IpAddress',
      COUNTER,            'Counter',
      GAUGE,              'Gauge',
      TIMETICKS,          'TimeTicks',
      OPAQUE,             'Opaque',
      COUNTER64,          'Counter64',
      NOSUCHOBJECT,       'noSuchObject',
      NOSUCHINSTANCE,     'noSuchInstance',
      ENDOFMIBVIEW,       'endOfMibView',
      GET_REQUEST,        'GetRequest-PDU',
      GET_NEXT_REQUEST,   'GetNextRequest-PDU',
      GET_RESPONSE,       'GetResponse-PDU',
      SET_REQUEST,        'SetRequest-PDU',
      TRAP,               'Trap-PDU',
      GET_BULK_REQUEST,   'GetBulkRequest-PDU',
      INFORM_REQUEST,     'InformRequest-PDU',
      SNMPV2_TRAP,        'SNMPv2-Trap-PDU',
      REPORT,             'Report-PDU',
      HEX_STRING,         'HEX STRING'
   };

   sub asn1_itoa
   {
      my ($type) = @_;

      return '??' unless (@_ == 1);

      if (exists($types->{$type})) {
         $types->{$type};
      } else {
         sprintf('?? [0x%02x]', $type);
      }
   }
}

sub asn1_ticks_to_time
{
   my $ticks = shift || 0;

   my $days = int($ticks / (24 * 60 * 60 * 100));
   $ticks %= (24 * 60 * 60 * 100);

   my $hours = int($ticks / (60 * 60 * 100));
   $ticks %= (60 * 60 * 100);

   my $minutes = int($ticks / (60 * 100));
   $ticks %= (60 * 100);

   my $seconds = ($ticks / 100);

   if ($days != 0){
      sprintf('%d day%s, %02d:%02d:%05.02f', $days,
         ($days == 1 ? '' : 's'), $hours, $minutes, $seconds);
   } elsif ($hours != 0) {
      sprintf('%d hour%s, %02d:%05.02f', $hours,
         ($hours == 1 ? '' : 's'), $minutes, $seconds);
   } elsif ($minutes != 0) {
      sprintf('%d minute%s, %05.02f', $minutes,
         ($minutes == 1 ? '' : 's'), $seconds);
   } else {
      sprintf('%04.02f second%s', $seconds, ($seconds == 1 ? '' : 's'));
   }
}

#
# Error handlers
#

#[...]
# ============================================================================
1; # [end Net::SNMP::Message]
share|improve this answer

There seems to be a character \x03 in your file. That is "end of text" in ASCII. It might be either your .pl file itself or something that is loaded by it.

If you see something like ^C or ^B at the start of your file, delete it. You might have to use a hex editor otherwise.

One thing that strikes me, though, is the mentioning of "PK". Could it be that you are trying to execute a pk-zipped file?

share|improve this answer
    
Hi Svante if u have a look at my code u can easily find out that there is no /x03 in my file & its not pk-zipped file ,my file name is snmpget.pl. –  Gaurav Jul 6 '12 at 12:01
    
What I do see is that there seems to be a / missing at the indicated place (line 1, column 3). Could it be that it has been replaced by \x03, which is unprintable? You should perhaps really verify this with a hex editor. –  Svante Jul 6 '12 at 18:36

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