I have been working on a chatbot on Dialogflow for an assignment of mine and my lecturer said I need to perform tests on the chatbot. I wanted to inquire if there were any way for me to test how many users the chatbot can handle at once? Would appreciate any help on this matter
According to the documentation, before deploying a chatbot code to production, performing Load Testing is advisable and three main points should be considered:
Ramp up load. Your load test must ramp up the load applied to the Dialogflow service. The service is not designed to handle abrupt bursts of load, which are rarely experienced with real traffic. It takes time for the service to adjust to load demands, so ramp up the request rate slowly, until your test achieves the desired load.
API calls are charged. You will be charged for API calls during a test, and the calls will be limited by project quota.
Use test doubles. You may not need to call the API during your load test. If the purpose of your load test is to determine how your system handles load, it is often best to use a test double in place of actual calls to the API. Your test double can simulate the behavior of the API under load.
Use retries. Your load test must perform retries with a backoff.
Load testing scenarios will depend on the pattern of your Agent actions. This tutorial in the documentation shows how to test a webhook fullfilment for spikes within the requests and soak testing ( constant number of requests):
Spike testing: constant number of requests and suddenly increase the load.
ab -n 60 -c 60 -p ActionRequest.json -T 'application/json' https://example.com/webhookFunctionName
Soak testing: constant number of requests observing the responses.
ab -t 120 -n 1200 -p ActionRequest.json -T 'application/json' https://example.com/webhookFunctionName
In addition to the information above, you should also have in mind the Quotas for Dialogfdlow ES, for example the quota for Dialogflow ES text requests is 600 requests per minute (180 per minute for the trial version). Please check which one applies to you within the table in the linked documentation.
Related
I am conducting a stress testing for a web application but I am quite confused how should I design the test cycle. So I have a test script with few controllers for example homepage, login, product catalogue and a uniform random timer. But How long and how many time should I run the the stress test to make a proper decision. Also for example I am using ultimate thread group for testing and how many user should add each time and how long the ramp up, hold time and shutting time can be for a proper result? Thanks in advance!
Stress test is about finding the boundaries of your application, the simplified approach is:
Design your test to simulate real user(s) activities with 100% accuracy, JMeter should produce the same requests as the real browser, you can cross check the requests sent by JMeter with "Network" tab of your browser developer tools
Start with 1 virtual user
Gradually increase the load
Look into correlation of increasing load (i.e. Active Threads Over Time listener or equivalent) with the other performance metrics, the main ones are response time (i.e. Response Times Over Time or equivalent) and number of hits per second (i.e. Transactions Per Second or equivalent)
On well behaved system when you increase the number of users the number of hits per second should increase proportionally, response time should remain the same, no errors should occur.
However if your system under test has limited hardware/scaling capabilities at certain point of time you will face the situation when the number of virtual users will be growing and the number of hits per second will remain the same or go down or errors will start occurring. This means that you found the bottleneck
I'd like to know what Marketo means by 10 concurrent API calls. If for example 20 people use an API in the same time, is it going to crash ? And if I make the script sleep for X seconds if I get that limit response and try the API call again, will it work ?
Thanks,
Best Regards,
Martin
Maximum of 10 concurrent API calls means, that Marketo will process only 10 simultaneous API requests per subscription at maximum.
So, for example if you have a service that directly queries the API every time it is used, and this very service gets called 11 or more times in the same time, than Marketo will respond with an error message for the eleventh call and the rest. The first 10 calls should be processed fine. According to the docs, the error message the following requests will receive will have an error code of 615.
If your script is single threaded (like standard PHP) and you have more that 10 API calls, and your script is running in one instance, than you are fine, since the calls are performed one after another (so they are not concurrent). However, if your script can run in multiple instance you can hit the limit easily. In case a sleep won't help you, but you can always check the response code in your script and retry the call if it received an error. This retry process is often called Exponential Backoff. Here is a great article on this topic.
I'm using jMeter to make load test on a web application. I use also the plugin "jMeter Plugins" to have more Graphs.
My question is
I can't understand the difference between the server hit rate (Server hit per second graph) and the througput (Transactions per Second). The two graphs are very close but they differ a bit in some locations.
I wonder also if "transaction" here means request .. right ??
Thx a lot :)
Both hits per second and throughput are talking about workload, the hits are the request send from the injector over time, meanwhile the throughput is the load that the system is able to handle, both graphs should look the same as long as the application haven't reach its breaking point, after the breaking point the hits will continue increasing triggering a response times increase.
A test in which you note the difference is the peak test (you increase load until you crash the application), when the application exceeds its throughput the 2 plots will diverge.
As you can see the blue curve differ from from the green one after 650RPS, then response times skyrocket and request start failing.
If we let the test continue running, the injector will run out of threads and the hits curve will be the same as the throughput again. Configuring the injectors pool thread.
The area in between the two curves are active request, request that the injector sent and are waiting to be processed.
The hits plot is measured in RPS, it is counting requests not transactions.
The same plot can be generate using the jmeter's composite graph.
server hit rate gives graph of how many hits can server handle per each second for single unit.
Throughput Rate is the amount of transactions produced over time during a test. It’s also expressed as the amount of capacity that a website or application can handle.
http://www.joecolantonio.com/2011/07/05/performance-testing-what-is-throughput/
I am new in JMeter tool. Can anyone help me for the best way to analyse JMeter reports?
Simply list of related links you can possibly find useful:
Native graphs:
JMeter Report Dashboard
Real-time plotting with 3rd party real-time series database like influxdb
Free Open source solutions for automated graphs:
JMeter Plugins - look onto custom graphs in this package; some of them provide better results reporting out-of-box than jmeter's original ones;
JMeter Result Analysis Plugin
JWeter tool for logs analyzing & visualization
Recipes with custom development:
JMeter Wiki: Suggestions and Recipes for Log Analysis
Better JMeter Graphs
Plotting your load test with JMeter
3rd party solutions:
Blazemeter Sense
Tricentis flood.io
RedLine13
JAnalyser: browser based results analysis tool
UPD.
Please find, use and feel free to extend this Awesome JMeter collection continued as github repo.
There are 3 test that are must when doing performance testing, there should always be a baseline, a peak test and a stress test. These test relate to each other because of the little's law. The long-term average number of customers in a stable system L is equal to the long-term average effective arrival rate, λ, multiplied by the time a customer spends in the system, W; or expressed algebraically: L = λW..
Jmeter already provides means to check this values, the standar plugin provides plots for reponse times, hits as well as throughput. There is no way to directly tell how many users were active on the system, it is not the same concurrent users than active users. The plugins are enough to produce the reports, but they do not allow to control much of the presentation, i will use some plots produced using python(they add labels, and have 2 y axis).
Baseline Test:
This case is an special case of the law, in this case the active users is constant and it is one, then:
L = λW
1 = λW
1/W = λ
If the application run the same piece of code, the response time will stabilize over time, then the arrival rate will be constant over time too.
There is a service that does nothing else than wait some time to go by:
2 Seconds service: The arrival rate was 1/2TPS.
3 Seconds service: The arrival rate was 1/3TPS.
Peak Test:
This is nother special case, in this case load incrase until it surpass the system thoughput, because the load is greater than throughput the response times do increase. During the test the threads number should increase fast enough to recover from long response times.
This time instead of running the peak, i will stress the system with more load than it is able to handle during the whole test. To control the service throughput:
The active transactions are those that had leave the injector but haven't get a reponse, those are transactions that are queue in some place whitin the system.
λ(t ) = c, T(t) = k; both the load as well as the thoughput are constant over time.
L = Σλ - ΣT = ct - kt; The active transactions is the difference in between the cumulative load and the cumulative thoughput.
L = (c - k)t
λW= (c - k)t
cW(t) = (c - k)t
W(t) = t(c - k)/c
Because response times do grow as active users do, we will need the injector to create new threads as fast as new conections are requiered, most of the pool threads are going to be busy.
2TPS arrival rate, 1 TPS throughput:
The response times function is 1/2t
The injector stress the system during 300 seconds.
The test last 600 seconds.
4TPS arrival rate, 1 TPS throughput:
The response times function is 3/4t
The injector stress the system during 300 seconds.
The test last 1200 seconds.
6TPS arrival rate, 5 TPS throughput:
The response times function is 1/6t
The injector stress the system during 300 seconds.
The test last 360 seconds.
In simple word if you want to analyze your JMeter report...
Start with server CPU and RAM utilization. When you run a performance test on your server, see how much CPU and RAM is utilized by the current test.
Issue the following command on hosted site server; it will create a log file of CPU usage.
while true; do
( echo "%CPU %MEM ARGS $(date)" &&
ps -e -o pcpu,pmem,args --sort=pcpu | cut -d" " -f1-5 |
tail ) >> ps.log
sleep 1
done
See overall response time, it should not exceed your expected response time criteria.
See below image. My expectation is response time should not go above 525 microseconds, but some requests are crossing it. Find these kind of requests which are taking time.
Overall Response Times:
See Transaction per second, how many transaction are made per second and is there any drop in the test time frame?
Inspect the summary report, Average time, and max time to see which requests are taking the most time.
Currently many listeners are available in JMeter as add-ons or built in, but these are the major things to look at in order to be able to guess properly what's going on. And you can use other reports like that.
Follow my blog for more details https://softwaretesterfriend.blogspot.in/
Starting with version 3.0, JMeter includes a dynamic HTML report that can be generated either at the end of a load test or from a result file.
See generating-dashboard
In order to analyze your JMeter results, you can use
Listeners in JMeter
Blazemeter Sense
Reports Dashboard
In addition to all the other answers: there is a nice site of BlazeMeter where you can upload your test result file (.jtl) and it will generate all kinds of (interactive) reports for it. It even analyzes it for you and points out when the first error occurs, what the saturation point is, etc. https://sense.blazemeter.com/gui/
If you have a graphite/grafana infrastructure I can recommend to add the Backend Listener to the project. It will send real-time metrics to the graphite server and you can monitor the test in graphite (or grafana).
If you are new JMeter understanding JMeter listeners and other components will help you . check the tutorial
- https://www.youtube.com/watch?v=FfDVIklNjgw
I am using Jmeter to carry out load and stress tests on a RESTful web service for a university project. I have used JMeter to successfully return results but I am not sure what constitutes an acceptable level of performance. What level of throughput etc. should i be looking to achieve with my web service?
Aim for less than 50us (microsecond) if you can. Use other 'good' sites' response time as your yardstick. Check out google.com and bing.com load times. For more 'heavy' sites see cnn.com or nytimes.com for examples. Depending on how heavy your site is in term of calculation or database reads milliseconds response time are still ok. Be unhappy if it takes more than 300ms because that is an insanely long CPU time these days.