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# -*- mode: perl -*- # ============================================================================ package Net::SNMP::MessageProcessing; # $Id: MessageProcessing.pm,v 3.1 2010/09/10 00:01:22 dtown Rel $ # Object that implements the Message Processing module. # Copyright (c) 2001-2010 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 the Perl 5 programming language system itself. # ============================================================================ use strict; use Net::SNMP::PDU qw( :types :msgFlags :securityLevels asn1_itoa SNMP_VERSION_3 TRUE FALSE ); srand( time() ^ ($$ + ($$ <<15)) ); ## Version of the Net::SNMP::MessageProcessing module our $VERSION = v3.0.1; ## Package variables our $INSTANCE; # Reference to the Singleton object our $DEBUG = FALSE; # Debug flag ## Object array indexes sub _ERROR { 0 } # Error message sub _HANDLES { 1 } # Cached request messages BEGIN { # See if there is a better pseudorandom number generator (PRNG) available. if (eval 'require Math::Random::MT::Auto') { Math::Random::MT::Auto->import('rand'); } } # [public methods] ----------------------------------------------------------- sub instance { return $INSTANCE ||= Net::SNMP::MessageProcessing->_new(); } sub prepare_outgoing_msg { my ($this, $pdu) = @_; # Clear any previous errors $this->_error_clear(); if ((@_ != 2) || (!ref $pdu)) { return $this->_error('The PDU object is missing or invalid'); } # We must have a Security Model in order to prepare the message. if (!defined $pdu->security()) { return $this->_error('The Security Model object is not defined'); } # Create a new Message my ($msg, $error) = Net::SNMP::Message->new( -callback => $pdu->callback(), -leadingdot => $pdu->leading_dot(), -requestid => $pdu->request_id(), -security => $pdu->security(), -translate => $pdu->translate(), -transport => $pdu->transport(), -version => $pdu->version() ); return $this->_error($error) if !defined $msg; if ($pdu->version() == SNMP_VERSION_3) { # ScopedPDU::=SEQUENCE if (!defined $pdu->prepare_pdu_scope()) { return $this->_error($pdu->error()); } # We need to copy the contextEngineID and contextName to the # request message so that they are available for comparison # with the response message. $msg->context_engine_id($pdu->context_engine_id()); $msg->context_name($pdu->context_name()); # Set a new msgID for each message unless the PDU type is a # GetResponse-PDU or a Report-PDU. if (($pdu->pdu_type() != GET_RESPONSE) && ($pdu->pdu_type() != REPORT)) { $pdu->msg_id($this->msg_handle_alloc()); } # msgGlobalData::=SEQUENCE if (!defined $this->_prepare_global_data($pdu, $msg)) { return $this->_error(); } } # Pass off to the Security Model if (!defined $pdu->security()->generate_request_msg($pdu, $msg)) { return $this->_error($pdu->security()->error()); } # If a response to the message is expected, add the message to the # cache using the msgId (request-id) has the lookup "handle". if ($pdu->expect_response()) { $this->[_HANDLES]->{$msg->msg_id()} = $msg; } # Return the new message. return $msg; } sub prepare_data_elements { my ($this, $msg) = @_; # Clear any previous errors $this->_error_clear(); if ((@_ != 2) || (!ref $msg)) { return $this->_error('The Message object is missing or invalid'); } # message::=SEQUENCE return $this->_error($msg->error()) if !defined $msg->process(SEQUENCE); # version::=INTEGER if (!defined $msg->version($msg->process(INTEGER))) { return $this->_error($msg->error()); } # Find the request message in the cache. We are assuming this # message is a response to an outstanding request. my $request; if ($msg->version() == SNMP_VERSION_3) { # msgGlobalData::=SEQUENCE if (!defined $this->_process_global_data($msg)) { return $this->_error(); } $request = $this->msg_handle_delete($msg->msg_id()); } else { # community::=OCTET STRING if (!defined $msg->security_name($msg->process(OCTET_STRING))) { return $this->_error($msg->error()); } # Cast the Message to a PDU if (!defined($msg = Net::SNMP::PDU->new($msg))) { return $this->_error('Failed to allocate a new PDU object'); } # PDU::=SEQUENCE if (!defined $msg->process_pdu_sequence()) { return $this->_error($msg->error()); } if ($msg->pdu_type() != GET_RESPONSE) { return $this->_error( 'A %s was expected, but %s was found', asn1_itoa(GET_RESPONSE), asn1_itoa($msg->pdu_type()) ); } $request = $this->msg_handle_delete($msg->request_id()); } # Was a matching request found? if (!defined $request) { return $this->_error('No matching request message was found'); } # Update the received message with the relevant request data. $msg->callback($request->callback()); $msg->timeout_id($request->timeout_id()); $msg->transport($request->transport()); # Now that we have found the matching request for this response # we return a FALSE error instead of undefined so that the error # gets propagated back to the user. # Compare the Security Models if ($msg->msg_security_model() != $request->msg_security_model()) { $this->_error( 'The msgSecurityModel %d was expected, but %d was found', $request->msg_security_model(), $msg->msg_security_model() ); return FALSE; } $msg->security($request->security()); # Pass off to the Security Model if (!defined $request->security()->process_incoming_msg($msg)) { $this->_error($request->security()->error()); return FALSE; } if ($msg->version() == SNMP_VERSION_3) { # Adjust our maxMsgSize if necessary if ($msg->msg_max_size() < $request->max_msg_size()) { DEBUG_INFO('new maxMsgSize = %d', $msg->msg_max_size()); if (!defined $request->max_msg_size($msg->msg_max_size())) { $this->_error($request->error()); return FALSE; } } # Cast the Message to a PDU if (!defined($msg = Net::SNMP::PDU->new($msg))) { $this->_error('Failed to allocate new PDU object'); return FALSE; } # ScopedPDU::=SEQUENCE if (!defined $msg->process_pdu_scope()) { $this->_error($msg->error()); return FALSE; } # PDU::=SEQUENCE if (!defined $msg->process_pdu_sequence()) { $this->_error($msg->error()); return FALSE; } if ($msg->pdu_type() != REPORT) { if ($msg->pdu_type() != GET_RESPONSE) { $this->_error( 'A %s was expected, but %s was found', asn1_itoa(GET_RESPONSE), asn1_itoa($msg->pdu_type()) ); return FALSE; } # Compare the contextEngineID if ($msg->context_engine_id() ne $request->context_engine_id()) { $this->_error( 'The contextEngineID "%s" was expected, but "%s" was found', unpack('H*', $request->context_engine_id()), unpack('H*', $msg->context_engine_id()), ); return FALSE; } # Compare the contextName if ($msg->context_name() ne $request->context_name()) { $this->_error( 'The contextName "%s" was expected, but "%s" was found', $request->context_name(), $msg->context_name() ); return FALSE; } # Check the request-id if ($msg->request_id() != $request->request_id()) { $this->_error( 'The request-id %d was expected, but %d was found', $request->request_id(), $msg->request_id() ); return FALSE; } } } # Now update the message with format parameters. $msg->leading_dot($request->leading_dot()); $msg->translate($request->translate()); # VarBindList::=SEQUENCE OF VarBind if (!defined $msg->process_var_bind_list()) { $this->_error($msg->error()); return FALSE; } # Return the PDU return $msg; } sub msg_handle_alloc { my ($this) = @_; # Limit message handles by RFC 3412 - msgID::=INTEGER (0..2147483647) my $handle = int rand(2147483648); while (exists $this->[_HANDLES]->{$handle} && keys %{$this->[_HANDLES]->{$handle}} < 2147483648) { $handle = int rand(2147483648); } return $handle; } sub msg_handle_delete { my ($this, $handle) = @_; # Clear any previous errors $this->_error_clear(); return $this->_error('No msgHandle was specified') if (@_ < 2); if (!exists $this->[_HANDLES]->{$handle}) { return $this->_error('The msgHandle %d was not found', $handle); } return delete $this->[_HANDLES]->{$handle}; } sub error { return $_[0]->[_ERROR] || q{}; } sub debug { return (@_ == 2) ? $DEBUG = ($_[1]) ? TRUE : FALSE : $DEBUG; } # [private methods] ---------------------------------------------------------- sub _new { my ($class) = @_; # The constructor is private since we only want one MessageProcessing # object. We also reserve message handle (request-id/msgID) 0 so that # it is not used for valid messages. return bless [ undef, { 0, undef } ], $class; } sub _prepare_global_data { my ($this, $pdu, $msg) = @_; # msgSecurityModel::=INTEGER if (!defined $msg->prepare( INTEGER, $msg->msg_security_model($pdu->msg_security_model()) ) ) { return $this->_error($msg->error()); } # msgFlags::=OCTET STRING my $security_level = $pdu->security_level(); my $msg_flags = MSG_FLAGS_NOAUTHNOPRIV | MSG_FLAGS_REPORTABLE; if ($security_level > SECURITY_LEVEL_NOAUTHNOPRIV) { $msg_flags |= MSG_FLAGS_AUTH; if ($security_level > SECURITY_LEVEL_AUTHNOPRIV) { $msg_flags |= MSG_FLAGS_PRIV; } } if (!$pdu->expect_response()) { $msg_flags &= ~MSG_FLAGS_REPORTABLE; } if (!defined $msg->prepare(OCTET_STRING, pack 'C', $msg_flags)) { $this->_error($msg->error()); } $msg->msg_flags($msg_flags); # msgMaxSize::=INTEGER if (!defined $msg->prepare(INTEGER, $msg->msg_max_size($pdu->max_msg_size())) ) { return $this->_error($msg->error()); } # msgID::=INTEGER if (!defined $msg->prepare(INTEGER, $msg->msg_id($pdu->msg_id()))) { return $this->_error($msg->error()); } # msgGlobalData::=SEQUENCE if (!defined $msg->prepare(SEQUENCE)) { return $this->_error($msg->error()); } return TRUE; } sub _process_global_data { my ($this, $msg) = @_; # msgGlobalData::=SEQUENCE return $this->_error($msg->error()) if !defined $msg->process(SEQUENCE); # msgID::=INTEGER if (!defined $msg->msg_id($msg->process(INTEGER))) { return $this->_error($msg->error()); } # msgMaxSize::=INTEGER if (!defined $msg->msg_max_size($msg->process(INTEGER))) { return $this->_error($msg->error()); } # msgFlags::=OCTET STRING my $msg_flags = $msg->process(OCTET_STRING); if (!defined $msg_flags) { return $this->_error($msg->error()); } if (CORE::length($msg_flags) != 1) { return $this->_error( 'The msgFlags length of %d is invalid', CORE::length($msg_flags) ); } $msg->msg_flags($msg_flags = unpack 'C', $msg_flags); # Validate the msgFlags and derive the securityLevel. my $security_level = SECURITY_LEVEL_NOAUTHNOPRIV; if ($msg_flags & MSG_FLAGS_AUTH) { $security_level = SECURITY_LEVEL_AUTHNOPRIV; if ($msg_flags & MSG_FLAGS_PRIV) { $security_level = SECURITY_LEVEL_AUTHPRIV; } } elsif ($msg_flags & MSG_FLAGS_PRIV) { # RFC 3412 - Section 7.2 1d: "If the authFlag is not set # and privFlag is set... ...the message is discarded..." return $this->_error('The msgFlags value 0x%02x is invalid', $msg_flags); } # RFC 3412 - Section 7.2 1e: "Any other bits... ...are ignored." if ($msg_flags & ~MSG_FLAGS_MASK) { DEBUG_INFO('questionable msgFlags value 0x%02x', $msg_flags); } $msg->security_level($security_level); # msgSecurityModel::=INTEGER if (!defined $msg->msg_security_model($msg->process(INTEGER))) { return $this->_error($msg->error()); } return TRUE; } sub _error { my $this = shift; if (!defined $this->[_ERROR]) { $this->[_ERROR] = (@_ > 1) ? sprintf(shift(@_), @_) : $_[0]; if ($this->debug()) { printf "error: [%d] %s(): %s\n", (caller 0)[2], (caller 1)[3], $this->[_ERROR]; } } return; } sub _error_clear { return $_[0]->[_ERROR] = undef; } sub DEBUG_INFO { return $DEBUG if (!$DEBUG); return printf sprintf('debug: [%d] %s(): ', (caller 0)[2], (caller 1)[3]) . ((@_ > 1) ? shift(@_) : '%s') . "\n", @_; } # ============================================================================ 1; # [end Net::SNMP::MessageProcessing]