NAME Cisco::IronPort - Interface to Cisco IronPort Reporting API SYNOPSIS use Cisco::IronPort; my $ironport = Cisco::IronPort->new( username => $username, password => $password, server => $server ); my %stats = $ironport->incoming_mail_summary_current_hour; print "Total Attempted Messages : $stats{total_attempted_messages}{count}\n"; print "Clean Messages : $stats{clean_messages}{count} ($stats{clean_messages}{percent}%)\n"; # prints... # Total Attempted Messages : 932784938 # Clean Messages : (34%) METHODS new ( %ARGS ) my $ironport = Cisco::IronPort->new( username => $username, password => $password, server => $server ); Creates a Cisco::IronPort object. The constructor accepts a hash containing three mandatory and one optional parameter. username The username of a user authorised to access the reporting API. password The password of the username used to access the reporting API. server The target IronPort device hosting the reporting API. This value must be either a resolvable hostname or an IP address. proto This optional parameter may be used to specify the protocol (either http or https) which should be used when connecting to the reporting API. If unspecified this parameter defaults to https. incoming_mail_summary_current_hour my %stats = $ironport->incoming_mail_summary_current_hour; print "Total Attempted Messages : $stats{total_attempted_messages}{count}\n"; Returns a nested hash containing incoming mail summary statistics for the current hourly period. The hash has the structure show below: $stats = { 'statistic_name_1' => { 'count' => $count, 'percent' => $percent }, 'statistic_name_2' => { 'count' => $count, 'percent' => $percent }, ... 'statistic_name_n => { ... } Valid statistic names are show below - these names are derived from those returned by the reporting API with all spaces converted to underscores and all characters lower-cased. stopped_by_reputation_filtering stopped_as_invalid_recipients stopped_by_content_filter total_attempted_messages total_threat_messages clean_messages virus_detected spam_detected incoming_mail_summary_current_day Returns a nested hash with the same structure and information as described above for the incoming_mail_summary_current_hour method, but for a time period covering the current day. incoming_mail_summary_current_hour_raw Returns a scalar containing the incoming mail summary statistics for the current hour period unformated and as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data from the API call directly. incoming_mail_summary_current_day_raw Returns a scalar containing the incoming mail summary statistics for the current day period unformated and as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data from the API call directly. incoming_mail_details_current_hour # Print a list of sending domains which have sent more than 50 messages # of which over 50% were detected as spam. my %stats = $ironport->incoming_mail_details_current_hour; foreach my $domain (keys %stats) { if ( ( $stats{$domain}{total_attempted} > 50 ) and ( int (($stats{$domain}{spam_detected}/$stats{$domain}{total_attempted})*100) > 50 ) { print "Domain $domain sent $stats{$domain}{total_attempted} messages, $stats{$domain}{spam_detected} were marked as spam.\n" } } Returns a nested hash containing details of incoming mail statistics for the current hour period. The hash has the following structure: sending.domain1.com => { begin_date => a human-readable timestamp at the beginning of the measurement interval (YYYY-MM-DD HH:MM TZ), begin_timestamp => seconds since epoch at the beginning of the measurement interval (resolution of 100ms), clean => total number of clean messages sent by this domain, connections_accepted => total number of connections accepted from this domain, end_date => a human-readable timestamp at the end of the measurement interval (YYYY-MM-DD HH:MM TZ), end_timestamp => seconds since epoch at the end of the measurement interval (resolution of 100ms), orig_value => the domain name originally establishing the connection prior to any relaying or masquerading, sender_domain => the sending domain, spam_detected => the number of messages marked as spam from this domain, stopped_as_invalid_recipients => number of messages stopped from this domain due to invalid recipients, stopped_by_content_filter => number of messages stopped from this domain due to content filtering, stopped_by_recipient_throttling => number of messages stopped from this domain due to recipient throttling, stopped_by_reputation_filtering => number of messages stopped from this domain due to reputation filtering, total_attempted => total number of messages sent from this domain, total_threat => total number of messages marked as threat messages from this domain, virus_detected => total number of messages marked as virus positive from this domain }, sending.domain2.com => { ... }, ... sending.domainN.com => { ... } Where each domain having sent email in the current hour period is used as the value of a hash key in the returned hash having the subkeys listed above. For a busy device this hash may contain hundreds or thousands of domains so caution should be excercised in storing and parsing this structure. incoming_mail_details_current_day This method returns a nested hash as described in the incoming_mail_details_current_hour method above but for a period of the current day. Consequently the returned hash may contain a far larger number of entries. incoming_mail_details_current_hour_raw Returns a scalar containing the incoming mail details for the current hour period as retrieved directly from the reporting API. This method is useful is you wish to access and/or parse the results directly. incoming_mail_details_current_day_raw Returns a scalar containing the incoming mail details for the current day period as retrieved directly from the reporting API. This method is useful is you wish to access and/or parse the results directly. top_users_by_clean_outgoing_messages_current_hour # Print a list of our top internal users and number of messages sent. my %top_users = $ironport->top_users_by_clean_outgoing_messages_current_hour; foreach my $user (sort keys %top_users) { print "$user - $top_users{clean_messages} messages\n"; } Returns a nested hash containing details of the top ten internal users by number of clean outgoing messages sent for the current hour period. The hash has the following structure: 'user1@domain.com' => { begin_date => a human-readable timestamp of the begining of the current hour period ('YYYY-MM-DD HH:MM TZ'), begin_timestamp => a timestamp of the beginning of the current hour period in seconds since epoch, end_date => a human-readable timestamp of the end of the current hour period ('YYYY-MM-DD HH:MM TZ'), end_timestamp => a timestamp of the end of the current hour period in seconds since epoch, internal_user => the email address of the user (this may also be 'unknown user' if the address cannot be determined), clean_messages => the number of clean messages sent by this user for the current hour period }, 'user2@domain.com' => { ... }, ... user10@domain.com' => { ... } top_users_by_clean_outgoing_messages_current_day Returns a nested hash containing details of the top ten internal users by number of clean outgoing messages sent for the current day period. top_users_by_clean_outgoing_messages_current_hour_raw Returns a scalar containing the details of the top ten internal users by number of clean outgoing messages sent for the current hour period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. top_users_by_clean_outgoing_messages_current_day_raw Returns a scalar containing the details of the top ten internal users by number of clean outgoing messages sent for the current day period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_time_in_workqueue_current_hour my %stats = $ironport->average_time_in_workqueue_current_day; foreach my $i (sort keys %stats) { print "$stats{$i}{end_date} : $stats{$i}{time}\n" } # Prints the average time a message spent in the workqueue for the current hourly period # e.g. # 2012-08-07 03:34 GMT : 1.76650943396 # 2012-08-07 03:39 GMT : 4.97411003236 # 2012-08-07 03:44 GMT : 0.955434782609 # 2012-08-07 03:49 GMT : 3.38574040219 # 2012-08-07 03:54 GMT : 2.32837301587 # ... This method returns a nested hash containing statistics for the average time a message spent in the workqueue for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), time => the average time in seconds a message spent in the workqueue for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } average_time_in_workqueue_current_day Returns a nested hash containing statistics for the average time a message spent in the workqueue for the previous daily period - the hash has the same structure as detailed in the average_time_in_workqueue_current_hour above. average_time_in_workqueue_current_hour_raw Returns a scalar containing statistics for the average time a message spent in the workqueue for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_time_in_workqueue_current_day_raw Returns a scalar containing statistics for the average time a message spent in the workqueue for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_incoming_message_size_current_hour my %avg_msg_size = $ironport->average_incoming_message_size_current_hour; foreach my $mdata (sort keys %avg_msg_size) { print "$avg_msg_size{$mdata}{end_date} : $avg_msg_size{$mdata}{message_size}\n"; } # Prints the average incoming message size in bytes for the time sample periods in the previous hour. # e.g. # 2012-09-13 22:04 GMT : 111587.886555 # 2012-09-13 22:09 GMT : 84148.6127168 # 2012-09-13 22:14 GMT : 26486.8187919 # 2012-09-13 22:19 GMT : 58772.1949153 # ... This method returns a nested hash containing statistics for the average incoming message size in bytes for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), message_size => the average incoming message size in bytes for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } average_incoming_message_size_current_hour_raw Returns a scalar containing statistics for the average incoming message size in bytes for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_incoming_message_size_current_day Returns a nested hash containing statistics for the average incoming message size in bytes for the previous daily period - the hash has the same structure as detailed in the average_incoming_message_size_current_hour above. average_incoming_message_size_current_day_raw Returns a scalar containing statistics for the average incoming message size in bytes for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_messages_in_workqueue_current_hour This method returns a nested hash containing statistics for the average number of messages in the workqueue for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), messages => the average number of messages in the workqueue for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } average_messages_in_workqueue_current_hour_raw Returns a scalar containing statistics for the average number of messages in the workqueue for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_messages_in_workqueue_current_day Returns a nested hash containing statistics for the average number of messages in the workqueue for the previous daily period - the hash has the same structure as detailed in the average_messages_in_workqueue_current_hour above. average_messages_in_workqueue_current_day_raw Returns a scalar containing statistics for the average number of messages in the workqueue for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_outgoing_message_size_current_hour This method returns a nested hash containing statistics for the average outgoing message size in bytes for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), message_size => the average outgoing message size in bytes for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } average_outgoing_message_size_current_hour_raw Returns a scalar containing statistics for the average outgoing message size in bytes for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. average_outgoing_message_size_current_day Returns a nested hash containing statistics for the average outgoing message size in bytes for the previous daily period - the hash has the same structure as detailed in the average_outoging_message_size_current_hour above. average_outgoing_message_size_current_day_raw Returns a scalar containing statistics for the average outgoing message size in bytes for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. cpu_by_function_current_hour This method returns a nested hash containing statistics for the CPU usage by function for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), anti-spam => the percentage of CPU time used for anti-spam functions, anti-virus => the percentage of CPU time used for anti-virus functions, mail_processing => the percentage of CPU time used for mail processing functions, reporting => the percentage of CPU time used for reporting functions, quarantine => the percentage of CPU time used for quarantine functions, }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } cpu_by_function_current_hour_raw Returns a scalar containing statistics for the CPU usage by function for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. cpu_by_function_current_day Returns a nested hash containing statistics for the CPU usage by function for the previous daily period - the hash has the same structure as detailed in the cpu_by_function_current_hour above. cpu_by_function_current_day_raw Returns a scalar containing statistics for the CPU usage by function for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. incoming_content_filter_matches_current_hour This method returns a nested hash containing statistics for incoming content filter matches for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), content_filter => the name of the content filter, messages => the number of incoming messages matched by the content filter in the previous hour period, total_outgoing_matches=> the number of outgoing messages matched by the content filter in the previous hour period, }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } incoming_content_filter_matches_current_hour_raw Returns a scalar containing statistics for incoming content filter matches for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. incoming_content_filter_matches_current_day Returns a nested hash containing statistics for incoming content filter matches for the previous daily period - the hash has the same structure as detailed in the incoming_content_filter_matches_current_hour above. incoming_content_filter_matches_current_day_raw Returns a scalar containing statistics for the incoming content filter matches for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. maximum_messages_in_workqueue_current_hour This method returns a nested hash containing statistics for the maximum number of messages in the workqueue for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), messages => the maximum number of messages in the workqueue for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } maximum_messages_in_workqueue_current_hour_raw Returns a scalar containing statistics for the maximum number of messages in the workqueue for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. maximum_messages_in_workqueue_current_day Returns a nested hash containing statistics for the maximum number of messages in the workqueue for the previous daily period - the hash has the same structure as detailed in the maximum_messages_in_workqueue_current_hour above. maximum_messages_in_workqueue_current_day_raw Returns a scalar containing statistics for the maximum messages in the workqueue for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. memory_page_swapping_current_hour This method returns a nested hash containing statistics for the number of memory pages swapped for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), pages_swapped => the number of memory pages swapped for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } memory_page_swapping_current_hour_raw Returns a scalar containing statistics for the number of memory pages swapped for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. memory_page_swapping_current_day Returns a nested hash containing statistics for the number of memory pages swapped for the previous daily period - the hash has the same structure as detailed in the memory_page_swapping_current_hour above. memory_page_swapping_current_day_raw Returns a scalar containing statistics for the number of memory pages swapped for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. overall_cpu_usage_current_hour This method returns a nested hash containing statistics for the overall CPU usage for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), cpu_usage => the total CPU usage for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } overall_cpu_usage_current_hour_raw Returns a scalar containing statistics for the overall CPU usage for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. overall_cpu_usage_current_day Returns a nested hash containing statistics for the overall CPU usage for the previous daily period - the hash has the same structure as detailed in the overall_cpu_usage_current_hour above. overall_cpu_usage_current_day_raw Returns a scalar containing statistics for the overall CPU usage for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. top_incoming_virus_types_detected_current_hour This method returns a nested hash containing statistics for the top incoming virus types detected in the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), messages => the number of messages detected for the measurement period, virus_type => a comma-seperated list of the incoming virus types detected for this measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } top_incoming_virus_types_detected_current_hour_raw Returns a scalar containing statistics for the top incoming virus types detected in the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. top_incoming_virus_types_detected_current_day Returns a nested hash containing statistics for the top incoming virus types detected in the previous daily period - the hash has the same structure as detailed in the top_incoming_virus_types_detected_current_hour above. top_incoming_virus_types_detected_current_day_raw Returns a scalar containing statistics for the top incoming virus types detected for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. top_outgoing_content_filter_matches_current_hour This method returns a nested hash containing statistics for the top outgoing content filter matches for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), content_filter => the name of the content filter, messages => the number of outgoing messages matched by the content filter in the previous hour period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } top_outgoing_content_filter_matches_current_hour_raw Returns a scalar containing statistics for the top outgoing content content filter matches for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. top_outgoing_content_filter_matches_current_day Returns a nested hash containing statistics for the top outgoing content filter matches for the previous daily period - the hash has the same structure as detailed in the top_outgoing_content_filter_matches_current_hour above. top_outgoing_content_filter_matches_current_day_raw Returns a scalar containing statistics for the average time a message spent in the workqueue for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_incoming_connections_current_hour This method returns a nested hash containing statistics for the total number of incoming connections for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), connections => the total number of connections for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } total_incoming_connections_current_hour_raw Returns a scalar containing statistics for the total number of incoming connections for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_incoming_connections_current_day Returns a nested hash containing statistics for the total number of incoming connections for the previous daily period - the hash has the same structure as detailed in the total_incoming connections_current_hour above. total_incoming_connections_current_day_raw Returns a scalar containing statistics for the total number of incoming connections for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_incoming_message_size_current_hour This method returns a nested hash containing statistics for the total incoming message size in bytes for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), message_size => the total incoming message size in bytes for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } total_incoming_message_size_current_hour_raw Returns a scalar containing statistics for the total incoming message size in bytes for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_incoming_message_size_current_day Returns a nested hash containing statistics for the total incoming message size in bytes for the previous daily period - the hash has the same structure as detailed in the total_incoming_message_size_current_hour above. total_incoming_message_size_current_day_raw Returns a scalar containing statistics for the total incoming message size in bytes for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_incoming_messages_current_hour This method returns a nested hash containing statistics for the total number of incoming messages for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), messages => the total number of incoming messages for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } total_incoming_messages_current_hour_raw Returns a scalar containing statistics for the total number of incoming messages for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_incoming_messages_current_day Returns a nested hash containing statistics for the total number of incoming messages for the previous daily period - the hash has the same structure as detailed in the total_number_of_incoming_messages_current_hour above. total_incoming_messages_current_day_raw Returns a scalar containing statistics for the total number of incoming messages for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_outgoing_connections_current_hour This method returns a nested hash containing statistics for the total number of outgoing connections for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), connections => the total number of outgoing connections for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } total_outgoing_connections_current_hour_raw Returns a scalar containing statistics for the total number of outgoing connections for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_outgoing_connections_current_day Returns a nested hash containing statistics for the total number of outgoing connections for the previous daily period - the hash has the same structure as detailed in the total_number_outgoing_connections_current_hour above. total_outgoing_connections_current_day_raw Returns a scalar containing statistics for the total number of outgoing connections for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_outgoing_message_size_current_hour This method returns a nested hash containing statistics for the total outgoing message size in bytes for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), message_size => the total outgoing message size in bytes for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } total_outgoing_message_size_current_hour_raw Returns a scalar containing statistics for the total outgoing message size in bytes for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_outgoing_message_size_current_day Returns a nested hash containing statistics for the total outgoing message size in bytes for the previous daily period - the hash has the same structure as detailed in the total_outgoing_message_size_current_hour above. total_outgoing_message_size_current_day_raw Returns a scalar containing statistics for the total outgoing message size for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_outgoing_messages_current_hour This method returns a nested hash containing statistics for the total outgoing number of messages for the previous hourly period - the hash has the following structure: measurement_period_1_begin_timestamp => { begin_timestamp => a timestamp marking the beginning of the measurement period in seconds since epoch, end_timestamp => a timestamp marking the ending of the measurement period in seconds since epoch, begin_date => a human-readable timestamp marking the beginning of the measurement period (YYYY-MM-DD HH:MM:SS TZ), end_date => a human-readable timestamp marking the ending of the measurement period (YYYY-MM-DD HH:MM:SS TZ), messages => the total number of outgoing messages for the measurement period }, measurement_period_2_begin_timestamp => { ... }, ... measurement_period_n_begin_timestamp => { ... } total_outgoing_messages_current_hour_raw Returns a scalar containing statistics for the total number of outgoing messages for the previous hourly period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. total_outgoing_messages_current_day Returns a nested hash containing statistics for the total number of outgoing messages for the previous daily period - the hash has the same structure as detailed in the total_number_of_outgoing_messages_current_hour above. total_outgoing_messages_current_day_raw Returns a scalar containing statistics for the total number of outgoing messages for the previous daily period as retrieved directly from the reporting API. This method may be useful if you wish to process the raw data retrieved from the API yourself. AUTHOR Luke Poskitt, "" BUGS Please report any bugs or feature requests to "bug-cisco-ironport at rt.cpan.org", or through the web interface at . I will be notified, and then you'll automatically be notified of progress on your bug as I make changes. SUPPORT You can find documentation for this module with the perldoc command. perldoc Cisco::IronPort You can also look for information at: * RT: CPAN's request tracker (report bugs here) * AnnoCPAN: Annotated CPAN documentation * CPAN Ratings * Search CPAN ACKNOWLEDGEMENTS LICENSE AND COPYRIGHT Copyright 2012 Luke Poskitt. This program is free software; you can redistribute it and/or modify it under the terms of either: the GNU General Public License as published by the Free Software Foundation; or the Artistic License. See http://dev.perl.org/licenses/ for more information.