- IP SLAs Overview
- Configuring IP SLAs UDP Jitter Operations
- Configuring IP SLAs UDP Jitter Operations for VoIP
- Configuring IP SLAs UDP Echo Operations
- Configuring IP SLAs HTTP Operations
- Configuring IP SLAs TCP Connect Operations
- Configuring Cisco IP SLAs ICMP Jitter Operations
- Configuring IP SLAs ICMP Echo Operations
- Configuring IP SLAs ICMP Path Echo Operations
- Configuring IP SLAs ICMP Path Jitter Operations
- Configuring IP SLAs FTP Operations
- Configuring IP SLAs DNS Operations
- Configuring IP SLAs DHCP Operations
- Configuring an IP SLAs Multioperation Scheduler
- Configuring Proactive Threshold Monitoring for IP SLAs Operations
- Finding Feature Information
- Restrictions for an IP SLAs Multioperation Scheduler
- Prerequisites for an IP SLAs Multioperation Scheduler
- Information About an IP SLAs Multioperation Scheduler
- IP SLAs Multioperations Scheduler
- Default Behavior of IP SLAs Multiple Operations Scheduling
- IP SLAs Multiple Operations Scheduling with Scheduling Period Less Than Frequency
- Multiple Operations Scheduling When the Number of IP SLAs Operations Are Greater Than the Schedule Period
- IP SLAs Multiple Operations Scheduling with Scheduling Period Greater Than Frequency
- IP SLAs Random Scheduler
- IP SLAs Multioperations Scheduler
- How to Configure an IP SLAs Multioperation Scheduler
- Configuration Examples for an IP SLAs Multioperation Scheduler
- Additional References
- Feature Information for a IP SLAs Multioperation Scheduler
Configuring an IP SLAs Multioperation Scheduler
This document describes how to schedule multiple operations at once using the IP Service Level Agreements (SLAs) Multioperations Scheduler feature.
- Finding Feature Information
- Restrictions for an IP SLAs Multioperation Scheduler
- Prerequisites for an IP SLAs Multioperation Scheduler
- Information About an IP SLAs Multioperation Scheduler
- How to Configure an IP SLAs Multioperation Scheduler
- Configuration Examples for an IP SLAs Multioperation Scheduler
- Additional References
- Feature Information for a IP SLAs Multioperation Scheduler
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the feature information table.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Restrictions for an IP SLAs Multioperation Scheduler
Do not use the no ip sla group schedule and ip sla group schedule commands consecutively in a configuration file and copy it into the running configuration. This causes some of the Service Level Agreement (SLA) probes to go down.
Prerequisites for an IP SLAs Multioperation Scheduler
Configure the IP SLAs operations to be included in a group before scheduling the group.
Determine the IP SLAs operations you want to schedule as a single group.
Identify the network traffic type and the location of your network management station.
Identify the topology and the types of devices in your network.
Decide on the frequency of testing for each operation.
Information About an IP SLAs Multioperation Scheduler
IP SLAs Multioperations Scheduler
Normal scheduling of IP SLAs operations allows you to schedule one operation at a time. If you have large networks with thousands of IP SLAs operations to monitor network performance, normal scheduling (scheduling each operation individually) will be inefficient and time-consuming.
Multiple operations scheduling allows you to schedule multiple IP SLAs operations using a single command through the command line interface (CLI) or the CISCO-RTTMON-MIB. This feature allows you to control the amount of IP SLAs monitoring traffic by scheduling the operations to run at evenly distributed times. You must specify the operation ID numbers to be scheduled and the time range over which all the IP SLAs operations should start. This feature automatically distributes the IP SLAs operations at equal intervals over a specified time frame. The spacing between the operations (start interval) is calculated and the operations are started. This distribution of IP SLAs operations helps minimize the CPU utilization and thereby enhances the scalability of the network.
The IP SLAs multiple operations scheduling functionality allows you to schedule multiple IP SLAs operations as a group, using the following configuration parameters:
Group operation number--Group configuration or group schedule number of the IP SLAs operation to be scheduled.
Operation ID numbers--A list of IP SLAs operation ID numbers in the scheduled operation group.
Schedule period--Amount of time for which the IP SLAs operation group is scheduled.
Ageout--Amount of time to keep the operation in memory when it is not actively collecting information. By default, the operation remains in memory indefinitely.
Frequency--Amount of time after which each IP SLAs operation is restarted. When the frequency option is specified, it overwrites the operation frequency of all operations belonging to the group. Note that when the frequency option is not specified, the frequency for each operation is set to the value of the schedule period.
Life--Amount of time the operation actively collects information. The operation can be configured to run indefinitely. By default, the lifetime of an operation is one hour.
Start time--Time when the operation starts collecting information. You can specify an operation to start immediately or at an absolute start time using hours, minutes, seconds, day, and month.
The IP SLAs multiple operations scheduling functionality schedules the maximum number of operations possible without aborting. However, this functionality skips those IP SLAs operations that are already running or those that are not configured and hence do not exist. The total number of operations will be calculated based on the number of operations specified in the command, irrespective of the number of operations that are missing or already running. The IP SLAs multiple operations scheduling functionality displays a message showing the number of active and missing operations. However, these messages are displayed only if you schedule operations that are not configured or are already running.
A main benefit for scheduling multiple IP SLAs operations is that the load on the network is reduced by distributing the operations equally over a scheduled period. This distribution helps you to achieve more consistent monitoring coverage. To illustrate this scenario, consider configuring 60 operations to start during the same 1-second interval over a 60-second schedule period. If a network failure occurs 30 seconds after all 60 operations have started and the network is restored before the operations are due to start again (in another 30 seconds), then this failure would never be detected by any of the 60 operations. However, if the 60 operations are distributed equally at 1-second intervals over a 60-second schedule period, then some of the operations would detect the network failure. Conversely, if a network failure occurs when all 60 operations are active, then all 60 operations would fail, indicating that the failure is possibly more severe than it really is.
Operations of the same type and same frequency should be used for IP SLAs multiple operations scheduling. If you do not specify a frequency, the default frequency will be the same as that of the schedule period. The schedule period is the period of time in which all the specified operations should run.
The following sections focus on the interaction of the schedule period and frequency values, additional values, such as start time and lifetime values, are not included in the illustrations.
- Default Behavior of IP SLAs Multiple Operations Scheduling
- IP SLAs Multiple Operations Scheduling with Scheduling Period Less Than Frequency
- Multiple Operations Scheduling When the Number of IP SLAs Operations Are Greater Than the Schedule Period
- IP SLAs Multiple Operations Scheduling with Scheduling Period Greater Than Frequency
Default Behavior of IP SLAs Multiple Operations Scheduling
The IP SLAs Multiple Operations Scheduling feature allows you to schedule multiple IP SLAs operations as a group.
The figure below illustrates the scheduling of operation group 1 that includes operation 1 to operation 10. Operation group 1 has a schedule period of 20 seconds, which means that all operations in the group will be started at equal intervals within a 20-second period. By default, the frequency is set to the same value as the configured schedule period. As shown in the figure below, configuring the frequencyis optional because 20 is the default.
In this example, the first operation (operation 1) in operation group 1 will start at 0 seconds. All 10 operations in operation group 1 (operation 1 to operation 10) must be started in the schedule period of 20 seconds. The start time of each IP SLAs operation is evenly distributed over the schedule period by dividing the schedule period by the number of operations (20 seconds divided by 10 operations). Therefore, each operation will start 2 seconds after the previous operation.
The frequency is the period of time that passes before the operation group is started again (repeated). If the frequency is not specified, the frequency is set to the value of the schedule period. In the example shown above, operation group 1 will start again every 20 seconds. This configuration provides optimal division (spacing) of operations over the specified schedule period.
IP SLAs Multiple Operations Scheduling with Scheduling Period Less Than Frequency
The frequency value is the amount of time that passes before the schedule group is restarted, if the schedule period is less than the frequency, there will be a period of time in which no operations are started.
The figure below illustrates the scheduling of operation 1 to operation 10 within operation group 2. Operation group 2 has a schedule period of 20 seconds and a frequency of 30 seconds.
In this example, the first operation (operation 1) in operation group 2 will start at 0 seconds. All 10 operations in operation group 2 (operation 1 to operation 10) must be started in the schedule period of 20 seconds. The start time of each IP SLAs operation is evenly distributed over the schedule period by dividing the schedule period by the number of operations (20 seconds divided by 10 operations). Therefore, each operation will start 2 seconds after the previous operation.
In the first iteration of operation group 2, operation 1 starts at 0 seconds, and the last operation (operation 10) starts at 18 seconds. However, because the group frequency has been configured to 30 seconds each operation in the operation group is restarted every 30 seconds. So, after 18 seconds, there is a gap of 10 seconds as no operations are started in the time from 19 seconds to 29 seconds. Hence, at 30 seconds, the second iteration of operation group 2 starts. As all ten operations in the operation group 2 must start at an evenly distributed interval in the configured schedule period of 20 seconds, the last operation (operation 10) in the operation group 2 will always start 18 seconds after the first operation (operation 1).
As illustrated in the figure above, the following events occur:
At 0 seconds, the first operation (operation 1) in operation group 2 is started.
At 18 seconds, the last operation (operation 10) in operation group 2 is started. This means that the first iteration (schedule period) of operation group 1 ends here.
From 19 to 29 seconds, no operations are started.
At 30 seconds, the first operation (operation 1) in operation group 2 is started again. The second iteration of operation group 2 starts here.
At 48 seconds (18 seconds after the second iteration started) the last operation (operation 10) in operation group 2 is started, and the second iteration of operation group 2 ends.
At 60 seconds, the third iteration of operation group 2 starts.
This process continues until the lifetime of operation group 2 ends. The lifetime value is configurable. The default lifetime for an operation group is forever.
Multiple Operations Scheduling When the Number of IP SLAs Operations Are Greater Than the Schedule Period
The minimum time interval between the start of IP SLAs operations in a group operation is 1 second. Therefore, if the number of operations to be multiple scheduled is greater than the schedule period, the IP SLAs multiple operations scheduling functionality will schedule more than one operation to start within the same 1-second interval. If the number of operations getting scheduled does not equally divide into 1-second intervals, then the operations are equally divided at the start of the schedule period with the remaining operations to start at the last 1-second interval.
The figure below illustrates the scheduling of operation 1 to operation 10 within operation group 3. Operation group 3 has a schedule period of 5 seconds and a frequency of 10 seconds.
In this example, when dividing the schedule period by the number of operations (5 seconds divided by 10 operations, which equals one operation every 0.5 seconds) the start time of each IP SLAs operation is less than 1 second. Since the minimum time interval between the start of IP SLAs operations in a group operation is 1 second, the IP SLAs multiple operations scheduling functionality instead calculates how many operations it should start in each 1-second interval by dividing the number of operations by the schedule period (10 operations divided by 5 seconds). Therefore, as shown in the figure above, two operations will be started every 1 second.
As the frequency is set to 10 in this example, each iteration of operation group 3 will start 10 seconds after the start of the previous iteration. However, this distribution is not optimal as there is a gap of 5 seconds (frequency minus schedule period) between the cycles.
If the number of operations getting scheduled does not equally divide into 1-second intervals, then the operations are equally divided at the start of the schedule period with the remaining operations to start at the last 1-second interval.
The figure below illustrates the scheduling of operation 1 to operation 10 within operation group 4. Operation group 4 has a schedule period of 4 seconds and a frequency of 5 seconds.
In this example, the IP SLAs multiple operations scheduling functionality calculates how many operations it should start in each 1-second interval by dividing the number of operations by the schedule period (10 operations divided by 4 seconds, which equals 2.5 operations every 1 second). Since the number of operations does not equally divide into 1-second intervals, this number will be rounded off to the next whole number (see the figure above) with the remaining operations to start at the last 1-second interval.
IP SLAs Multiple Operations Scheduling with Scheduling Period Greater Than Frequency
The value of frequency is the amount of time that passes before the schedule group is restarted. If the schedule period is greater than the frequency, there will be a period of time in which the operations in one iteration of an operation group overlap with the operations of the following iteration.
The figure below illustrates the scheduling of operation 1 to operation 10 within operation group 5. Operation group 5 has a schedule period of 20 seconds and a frequency of 10 seconds.
In this example, the first operation (operation 1) in operation group 5 will start at 0 seconds. All 10 operations in operation group 5 (operation 1 to operation 10) must be started in the schedule period of 20 seconds. The start time of each IP SLAs operation is evenly distributed over the schedule period by dividing the schedule period by the number of operations (20 seconds divided by 10 operations). Therefore, each operation will start 2 seconds after the previous operation.
In the first iteration of operation group 5, operation 1 starts at 0 seconds, and operation 10, the last operation in the operation group, starts at 18 seconds. Because the operation group is configured to restart every 10 seconds (frequency 10), the second iteration of operation group 5 starts again at 10 seconds, before the first iteration is completed. Therefore, an overlap of operations 6 to 10 of the first iteration occurs with operations 1 to 5 of the second iteration during the time period of 10 to 18 seconds (see the figure above). Similarly, there is an overlap of operations 6 to 10 of the second iteration with operations 1 to 5 of the third iteration during the time period of 20 to 28 seconds.
In this example, the start time of operation 1 and operation 6 need not be at exactly the same time, but will be within the same 2-second interval.
The configuration described in this section is not recommended as you can configure multiple operations to start within the same 1-second interval by configuring the number of operations greater than the schedule period. For information, see the "Multiple Operations Scheduling When the Number of IP SLAs Operations Are Greater Than the Schedule Period" section.
IP SLAs Random Scheduler
The IP SLAs Random Scheduler feature is an enhancement to the existing IP SLAs Multioperation Scheduling feature. The IP SLAs Multioperation Scheduling feature provides the capability to easily schedule multiple IP SLAs operations to begin at intervals equally distributed over a specified duration of time and to restart at a specified frequency. With the IP SLAs Random Scheduler feature, you can now schedule multiple IP SLAs operations to begin at random intervals uniformly distributed over a specified duration of time and to restart at uniformly distributed random frequencies within a specified frequency range. Random scheduling improves the statistical metrics for assessing network performance.
Note | The IP SLAs Random Scheduler feature is not in compliance with RFC2330 because it does not account for inter-packet randomness. |
The IP SLAs random scheduler option is disabled by default. To enable the random scheduler option, you must set a frequency range when configuring a group schedule in global configuration mode. The group of operations restarts at uniformly distributed random frequencies within the specified frequency range. The following guidelines apply for setting the frequency range:
The starting value of the frequency range should be greater than the timeout values of all the operations in the group operation.
The starting value of the frequency range should be greater than the schedule period (amount of time for which the group operation is scheduled). This guideline ensures that the same operation does not get scheduled more than once within the schedule period.
The following guidelines apply if the random scheduler option is enabled:
The individual operations in a group operation will be uniformly distributed to begin at random intervals over the schedule period.
The group of operations restarts at uniformly distributed random frequencies within the specified frequency range.
The minimum time interval between the start of each operation in a group operation is 100 milliseconds (0.1 seconds). If the random scheduler option is disabled, the minimum time interval is 1 second.
Only one operation can be scheduled to begin at any given time. If the random scheduler option is disabled, multiple operations can begin at the same time.
The first operation will always begin at 0 milliseconds of the schedule period.
The order in which each operation in a group operation begins is random.
How to Configure an IP SLAs Multioperation Scheduler
- Scheduling Multiple IP SLAs Operations
- Enabling the IP SLAs Random Scheduler
- Verifying IP SLAs Multiple Operations Scheduling
Scheduling Multiple IP SLAs Operations
Note |
1.
enable
2.
configure
terminal
3.
ip
sla
group
schedule
group-operation-number
operation-id-numbers
schedule-period
schedule-period-range
[ageout
seconds] [frequency
group-operation-frequency] [life{forever |
seconds}] [start-time{hh:mm[:ss] [month
day |
day
month] |
pending |
now |
after
hh:mm:ss}]
4.
exit
5.
show
ip
sla
group
schedule
6.
show
ip
sla
configuration
DETAILED STEPS
Enabling the IP SLAs Random Scheduler
1.
enable
2.
configure
terminal
3.
ip
sla
group
schedule
group-operation-number
operation-id-numbers
schedule-period
seconds
[ageout
seconds] [frequency [seconds|
range
random-frequency-range]] [life{forever |
seconds}] [start-time{hh:mm[:ss] [month
day |
day
month] |
pending |
now |
after
hh:mm:ss}]
4.
exit
DETAILED STEPS
Verifying IP SLAs Multiple Operations Scheduling
1.
show
ip
sla
statistics
2.
show
ip
sla
group
schedule
3.
show
ip
sla
configuration
DETAILED STEPS
Examples
After you have scheduled the multiple IP SLAs operations, you can verify the latest operation details using the appropriate show commands.
The following example schedules IP SLAs operations 1 through 20 in the operation group 1 with a schedule period of 60 seconds and a life value of 1200 seconds. By default, the frequency is equivalent to the schedule period. In this example, the start interval is 3 seconds (schedule period divided by number of operations).
Device# ip sla group schedule 1 1-20 schedule-period 60 life 1200
The following example shows the details of the scheduled multiple IP SLAs operation using the show ip sla group schedule command.
Device# show ip sla group schedule Group Entry Number: 1 Probes to be scheduled: 1-20 Total number of probes: 20 Schedule period: 60 Group operation frequency: Equals schedule period Status of entry (SNMP RowStatus): Active Next Scheduled Start Time: Start Time already passed Life (seconds): 1200 Entry Ageout (seconds): never
The following example shows the details of the scheduled multiple IP SLAs operation using the show ip sla configuration command. The last line in the example indicates that the IP SLAs operations are multiple scheduled (TRUE).
Device# show ip sla configuration 1 Entry number: 1 Owner: Tag: Type of operation to perform: udpEcho Target address: 10.2.31.121 Source address: 0.0.0.0 Target port: 9001 Source port: 0 Request size (ARR data portion): 16 Operation timeout (milliseconds): 5000 Type Of Service parameters: 0x0 Verify data: No Data pattern: Vrf Name: Control Packets: enabled Operation frequency (seconds): 60 Next Scheduled Start Time: Start Time already passed Life (seconds): 1200 Entry Ageout (seconds): never Recurring (Starting Everyday): FALSE Status of entry (SNMP RowStatus): Active Threshold (milliseconds): 5000 Number of statistic hours kept: 2 Number of statistic distribution buckets kept: 1 Statistic distribution interval (milliseconds): 20 Enhanced History: Number of history Lives kept: 0 Number of history Buckets kept: 15 History Filter Type: None Group Scheduled : TRUE
The following example shows the latest operation start time of the scheduled multiple IP SLAs operation, when the operations are scheduled at equal intervals, using the show ip sla statistics command:
Device# show ip sla statistics | include Latest operation start time Latest operation start time: *03:06:21.760 UTC Tue Oct 21 2003 Latest operation start time: *03:06:24.754 UTC Tue Oct 21 2003 Latest operation start time: *03:06:27.751 UTC Tue Oct 21 2003 Latest operation start time: *03:06:30.752 UTC Tue Oct 21 2003 Latest operation start time: *03:06:33.754 UTC Tue Oct 21 2003 Latest operation start time: *03:06:36.755 UTC Tue Oct 21 2003 Latest operation start time: *03:06:39.752 UTC Tue Oct 21 2003 Latest operation start time: *03:06:42.753 UTC Tue Oct 21 2003 Latest operation start time: *03:06:45.755 UTC Tue Oct 21 2003 Latest operation start time: *03:06:48.752 UTC Tue Oct 21 2003 Latest operation start time: *03:06:51.753 UTC Tue Oct 21 2003 Latest operation start time: *03:06:54.755 UTC Tue Oct 21 2003 Latest operation start time: *03:06:57.752 UTC Tue Oct 21 2003 Latest operation start time: *03:07:00.753 UTC Tue Oct 21 2003 Latest operation start time: *03:07:03.754 UTC Tue Oct 21 2003 Latest operation start time: *03:07:06.752 UTC Tue Oct 21 2003 Latest operation start time: *03:07:09.752 UTC Tue Oct 21 2003 Latest operation start time: *03:07:12.753 UTC Tue Oct 21 2003 Latest operation start time: *03:07:15.755 UTC Tue Oct 21 2003 Latest operation start time: *03:07:18.752 UTC Tue Oct 21 2003
Configuration Examples for an IP SLAs Multioperation Scheduler
Example Scheduling Multiple IP SLAs Operations
The following example shows how to scheduls IP SLAs operations 1 to 10 in the operation group 1 with a schedule period of 20 seconds. By default, the frequency is equivalent to the schedule period.
Device# ip sla group schedule 1 1-10 schedule-period 20
The following example shows the details of the scheduled multiple IP SLAs operation using the show ip sla group schedule command. The last line in the example indicates that the IP SLAs operations are multiple scheduled (TRUE).
Device# show ip sla group schedule Multi-Scheduling Configuration: Group Entry Number: 1 Probes to be scheduled: 1-10 Schedule period :20 Group operation frequency: 20 Multi-scheduled: TRUE
Example Enabling the IP SLAs Random Scheduler
The following example shows how to schedule IP SLAs operations 1 to 3 as a group (identified as group 2). In this example, the operations are scheduled to begin at uniformly distributed random intervals over a schedule period of 50 seconds. The first operation is scheduled to start immediately. The interval is chosen from the specified range upon every invocation of the probe. The random scheduler option is enabled and the uniformly distributed random frequencies at which the group of operations will restart is chosen within the range of 80-100 seconds.
ip sla group schedule 2 1-3 schedule-period 50 frequency range 80-100 start-time now
Additional References
Related Documents
Related Topic |
Document Title |
---|---|
Cisco IOS commands |
|
Cisco IOS IP SLAs commands |
|
Cisco IOS IP SLAs: general information |
“Cisco IOS IP SLAs Overview” module of the Cisco IOS IP SLAs Configuration Guide. |
Multioperation scheduling for IP SLAs |
“Configuring Multioperation Scheduling of IP SLAs Operations” module of the Cisco IOS P SLAs Configuration Guide |
Proactive threshold monitoring for IP SLAs |
“Configuring Proactive Threshold Monitoring of IP SLAs Operations” module of the Cisco IOS IP SLAs Configuration Guide |
MIBs
MIBs |
MIBs Link |
---|---|
CISCO-RTTMON-MIB |
To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL: |
Technical Assistance
Description |
Link |
---|---|
The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password. |
Feature Information for a IP SLAs Multioperation Scheduler
The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to . An account on Cisco.com is not required.
Feature Name |
Releases |
Feature Information |
---|---|---|
IP SLAs Multioperation Scheduler |
Cisco IOS XE Release 3.2SE |
The IP SLAs Multioperation Scheduler feature provides a highly scalable infrastructure for IP SLAs by allowing you to schedule multiple IP SLAs operations using a single command. |
IP SLAs Random Scheduler |
Cisco IOS XE Release 3.2SE |
The IP SLAs Random Scheduler feature provides the capability to schedule multiple IP SLAs operations to begin at random intervals uniformly distributed over a specified duration of time and to restart at uniformly distributed random frequencies within a specified frequency range. |