overload

19962009 Ericsson AB. All Rights Reserved. The contents of this file are subject to the Erlang Public License, Version 1.1, (the "License"); you may not use this file except in compliance with the License. You should have received a copy of the Erlang Public License along with this software. If not, it can be retrieved online at http://www.erlang.org/. Software distributed under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. overload Peter Högfeldt Peter Högfeldt (Joe Armstrong) 1996-10-29 A overload.sgml

overload An Overload Regulation Process

overload is a process which indirectly regulates CPU usage in the system. The idea is that a main application calls the request/0 function before starting a major job, and proceeds with the job if the return value is positive; otherwise the job must not be started.

overload is part of the sasl application, and all configuration parameters are defined there.

A set of two intensities are maintained, the total intensity and the accept intensity. For that purpose there are two configuration parameters, the MaxIntensity and the Weight value (both are measured in 1/second).

Then total and accept intensities are calculated as follows. Assume that the time of the current call to request/0 is T(n), and that the time of the previous call was T(n-1).

The current total intensity, denoted TI(n), is calculated according to the formula,

TI(n) = exp(-Weight*(T(n) - T(n-1)) * TI(n-1) + Weight,

where TI(n-1) is the previous total intensity.

The current accept intensity, denoted AI(n), is determined by the formula,

AI(n) = exp(-Weight*(T(n) - T(n-1)) * AI(n-1) + Weight,

where AI(n-1) is the previous accept intensity, provided that the value of exp(-Weight*(T(n) - T(n-1)) * AI(n-1) is less than MaxIntensity; otherwise the value is

AI(n) = exp(-Weight*(T(n) - T(n-1)) * AI(n-1).

The value of configuration parameter Weight controls the speed with which the calculations of intensities will react to changes in the underlying input intensity. The inverted value of Weight,

T = 1/Weight

can be thought of as the "time constant" of the intensity calculation formulas. For example, if Weight = 0.1, then a change in the underlying input intensity will be reflected in the total and accept intensities within approximately 10 seconds.

The overload process defines one alarm, which it sets using alarm_handler:set_alarm(Alarm). Alarm is defined as:

{overload, []}

This alarm is set when the current accept intensity exceeds MaxIntensity.

A new overload alarm is not set until the current accept intensity has fallen below MaxIntensity. To prevent the overload process from generating a lot of set/reset alarms, the alarm is not reset until the current accept intensity has fallen below 75% of MaxIntensity, and it is not until then that the alarm can be set again.

request() -> accept | reject Request to proceed with current job

Returns accept or reject depending on the current value of the accept intensity.

The application calling this function should be processed with the job in question if the return value is accept; otherwise it should not continue with that job.

get_overload_info() -> OverloadInfo Return current overload information data OverloadInfo = [{total_intensity, TotalIntensity}, {accept_intensity, AcceptIntensity}, {max_intensity, MaxIntensity}, {weight, Weight}, {total_requests, TotalRequests}, {accepted_requests, AcceptedRequests}]. TotalIntensity = float() > 0 AcceptIntensity = float() > 0 MaxIntensity = float() > 0 Weight = float() > 0 TotalRequests = integer() AcceptedRequests = integer()

Returns the current total and accept intensities, the configuration parameters, and absolute counts of the total number of requests, and accepted number of requests (since the overload process was started).