Per-Connection Ingress MPS Control

The Per-Connection Ingress MPS Control (PCIMC) feature limits to a configurable level the per-connection ingress message rate of each connection. Correctly configured message rate controls ensure that a single connection cannot use the majority of the resources. (No limiting is done by PCIMC for the egress message rate).

The PCIMC feature:

• Is always available in the system.
• Is applied in the diameter transport function, which is used by all diameter applications.

Capacity management for this feature can be logically separated into:

• Management of the ability of the MP server to process ingress diameter messages - how the MP server's resources are distributed to configured connections.
• Management of the ability of a given connection to process ingress diameter messages - how each connection behaves given its configured reserved and maximum ingress MPS settings.

Per-Connection Capacity Management

Per-connection ingress MPS control allocates a DA-MP's ingress message processing capacity among the diameter peer connections that it hosts. Each peer connection is allocated, through user-configuration, a reserved ingress MPS message processing capacity and a maximum ingress MPS message processing capacity.

The reserved capacity for a connection is available for exclusive use by the connection. The capacity between a connection's reserved and maximum capacity is shared with other connections hosted by the DA-MP.

Per-Connection Ingress Message Coloring

In addition to enforcing ingress message rate limits on a per-connection basis, PCIMC colors ingress messages based on the reserved and average ingress message rates. message color can be used at other traffic shedding points, such as DA-MP Overload Control.

Traffic from under-utilized connections is marked green by per-connection ingress message controls, while traffic from over-utilized connections is marked yellow. Traffic discarded by PCIMC due to capacity exhaustion (per-connection or shared) is marked red and is not considered for any subsequent processing.

The following items describe the numbered items in Figure 14-1:

• When the connection's average ingress MPS rate is equal to or below its configured reserved ingress MPS, all messages processed by the connection are colored green.
• When the connection's average ingress MPS rate is above its configured reserved ingress MPS, all messages up to reserved ingress MPS are colored green and above that are colored green.
• When the connection's ingress MPS rate is above its configured maximum ingress MPS, the messages in excess of maximum ingress MPS are dropped, unless NGN-PS feature is enabled.
• When NGN-PS feature is enabled, then messages in excess of maximum ingress MPS are dropped, except NGN-PS messages.

  Note:

  If the connection's reserved ingress MPS is 0, all the messages processed by the connection are colored yellow.

Figure 14-1 Per-Connection Message Coloring

Message Discard Policy

The Message Discard Policy function considers the priority of the message while discarding the message.

Each peer connection tracks the priority of the ingress message and discards the messages that exceed the maximum ingress MPS configured for the connection.

The request messages are discarded based on the configured resource exhausted action that is set as abandon the request with no answer or send answer. For a description of Resource Exhausted Action see Diameter Routing Option Sets.

Per MP Server Capacity Management

MPS rates and thresholds are used to manage ingress message MPS as it relates to the MP server as a whole.

A DA-MP has two configured ingress message rate capacity limits:

• Engineered Ingress MPS is the maximum ingress message rate that a DA-MP supports without overload.

  This value provides a limit to the total reserved ingress MPS of all diameter connections assigned to the DA-MP. The value is displayed for the MP Profile assigned to the DA-MP.

• MP Engineered Maximum Ingress MPS is a configurable ingress MPS limit that dictates the maximum rate at which the DA-MP attempts to process messages from all diameter connections.

  This value may be greater than the MP engineered ingress MPS.

The DA MP monitors its MPS rate and limits the rate to an MP engineered ingress MPS value. If the MP engineered ingress MPS rate is exceeded, overload can occur and ingress messages can be discarded (due to MP ingress MPS limiting and MP congestion controls).

Diameter Configuration for Per-Connection Ingress MPS Control

Each diameter connection is associated with a capacity configuration set that includes the following configurable elements:

• Reserved Ingress MPS defines the capacity reserved exclusively for the connection and not available for use by other connections.

  The reserved ingress MPS cannot exceed the configured maximum ingress MPS for a given connection. A connection can be configured with a zero reserved ingress MPS value; such connections do not reserve message processing capacity.

  The reserved ingress MPS for a connection cannot be used by any other connection, regardless of the load offered to other connections.

  If the reserved ingress MPS capacity is set to a non-zero value, that value times the number of connections using that capacity configuration set on a given MP server must not be allowed to exceed the MP maximum reserved ingress MPS (which is equal to the MP engineered ingress MPS - the highest MPS rate at which the MP server can process ingress diameter messages).

• Maximum Ingress MPS defines the maximum rate in ingress diameter messages per second that the connection is allowed to process.

  The maximum Ingress MPS must be greater than or equal to the reserved ingress MPS. Any difference between the maximum ingress MPS and the reserved ingress MPS represents MP server resources that are shared among connections that are using the same capacity configuration set.

  The configured maximum ingress MPS of a connection cannot exceed the engineered ingress MPS of the connection (the ingress MPS that a connection can process at a sustained rate without errors). If the connection has reserved ingress MPS, the configured maximum ingress MPS must be greater than or equal to the reserved ingress MPS. All connections must have a non-zero configured maximum ingress MPS; otherwise they would not be allowed to process traffic at all. (The maximum ingress MPS value in the default capacity configuration set is non-zero.)

  The sum of the maximum ingress MPS configured for all connections on a MP server can exceed the MP engineered ingress MPS to the highest MPS rate at which the MP server can process ingress diameter messages.

• Ingress MPS Minor Alarm Threshold defines the percent of the connection's maximum ingress MPS at which a minor alarm is triggered.

  The ingress MPS minor alarm threshold value must be less than the ingress MPS major alarm threshold value

• Ingress MPS Major Alarm Threshold defines the percent of the connection's maximum ingress MPS at which a majoralarm is triggered.

  The ingress MPS major alarm threshold must be greater than the ingress MPS minor alarm threshold.

• Ingress MPS Alarm Abatement Time defines the minimum time that a connection's ingress message rate must remain less than or equal to the respective Abatement threshold before the alarm clears or its severity reduced from major to minor.
• Convergence Time - Defines the time it takes in milliseconds to converge to a per second rate that is used to calculate the ingress MPS of the connection.

A default capacity configuration set is provided; additional capacity configuration sets can be configured. The default capacity configuration set is used for a connection if no other capacity configuration set is assigned to the connection. The elements of the default capacity configuration set have the following default values:

• Reserved Ingress MPS - Zero MPS
• Maximum Ingress MPS - Value equal to the engineered ingress MPS for the connection
• Ingress MPS Minor Alarm Threshold - 50% of the configured maximum ingress MPS
• Ingress MPS Major Alarm Threshold - 80% of the configured maximum ingress MPS
• Ingress MPS Alarm Abatement Time - 2000ms
• Convergence Time - 1000ms

Maintenance and Monitoring for Per-Connection Ingress MPS Control

The PCIMC feature provides the following maintenance and monitoring information:

• Alarms and measurements to assist the network operator to detect and avoid possible capacity issues related to messaging rates
• The ability to view the average ingress diameter MPS for each connection

The PCIMC feature uses the following GUI information:

• Diameter > Configuration > Connections specifies which capacity configuration set the connection uses.
• The Diameter > Configuration > Configuration Sets > Capacity Configuration Sets pages provide elements for configuring capacity configuration sets.
• Diameter > Maintenance > Connections reports KPI 10500 for average ingress MPS for each diameter connection (ingress messages per second).

  For each connection, the MP server maintains the average number of ingress diameter messages per second read from the socket. This is the rate at which ingress diameter messages are read from the socket, not the rate at which ingress diameter messages arrive at the socket. There is no efficient means to know the rate at which messages actually arrive.

Connection Alarm

The PCIMC feature provides a connection alarm with two severities to alert the network operator when the average ingress MPS rate goes above the configured thresholds for percentage of the configured maximum ingress MPS for the connection.

The connection ingress MPS alarm is a per-connection alarm that can be configured in a connection's capacity configuration set to trigger at a minor and major capacity threshold.

The minor alarm is asserted when the MPS rate exceeds the configured ingress MPS minor alarm threshold value for the connection. The minor alarm is cleared when the MPS rate falls 5% below the ingress MPS minor alarm threshold value configured for the connection.

The major alarm is asserted when the MPS rate exceeds the ingress MPS major alarm threshold value configured for the connection. The major alarm is converted to a minor alarm when the MPS rate falls 5% below the ingress MPS major alarm threshold value configured for the connection.

An alarm cannot be abated until an abatement time delay has expired. For example, if a minor alarm is asserted, the alarm cannot be cleared until the abatement time delay has expired and the average ingress MPS for the connection is 5% below the minor alarm assert percentage.

The alarm abatement time delay affects only clearing of alarms, not asserting of alarms. Therefore, it is possible to transition rapidly from a minor alarm to a major alarm.