JBender makes it easy to build load testers for services using protocols like HTTP and Thrift (and many others). JBender provides a library of flexible, easy-to-use primitives that can be combined (with plain Java code) to build high performance load testers customized to any use case, and that can evolve with your service over time.
JBender provides two different approaches to load testing. The first,
gives the tester control over the throughput (queries per second), but not over the concurrency
(number of active connections). This approach is well suited for services that are open to the
Internet, like web services, and the backend services to which they speak. The primary benefit of
this approach is that the load tester will maintain the requested throughput, even if the service
is struggling (or failing) to support it. As a result, a much more clear picture of how the target
service responds to load is provided.
The second approach,
JBender.loadTestConcurrency, gives the tester control over the concurrency
(number of active connections), but not the throughput (queries per second). This approach is well
suited to applications that need to test a large number of concurrent, inactive connections, like
chat servers. This approach is not suitable for testing request latency, as the load tester will
slow down to match the server (because it cannot start more connections than requested).
That JBender is a library makes it flexible and easy to extend, but means it takes longer to create an initial load tester. As a result, we've focused on creating easy-to-follow tutorials.
The tutorials, linked below, will help you get up and running with Quasar and JBender, and provide some background on how Quasar works (hint: it's very straightforward to use Quasar!). Here are some links for more information:
The easiest way to get started with JBender is to use one of the tutorials:
The Linux TCP stack for a default server installation is usually not tuned to high
throughput servers or load testers. After some experimentation, we have settled on adding these
/etc/sysctl.conf, after which you can run
sysctl -p to load them (although it is
recommended to restart your host at this point to make sure these take effect).
# /etc/sysctl.conf # Increase system file descriptor limit fs.file-max = 100000 # Increase ephermeral IP ports net.ipv4.ip_local_port_range = 1024 65000 # Increase Linux autotuning TCP buffer limits # Set max to 16MB for 1GE and 32M (33554432) or 54M (56623104) for 10GE # Don't set tcp_mem itself! Let the kernel scale it based on RAM. net.core.rmem_max = 16777216 net.core.wmem_max = 16777216 net.core.rmem_default = 16777216 net.core.wmem_default = 16777216 net.core.optmem_max = 40960 net.ipv4.tcp_rmem = 4096 87380 16777216 net.ipv4.tcp_wmem = 4096 65536 16777216 # Make room for more TIME_WAIT sockets due to more clients, # and allow them to be reused if we run out of sockets # Also increase the max packet backlog net.core.netdev_max_backlog = 100000 net.ipv4.tcp_max_syn_backlog = 100000 net.ipv4.tcp_max_tw_buckets = 2000000 net.ipv4.tcp_tw_reuse = 1 net.ipv4.tcp_tw_recycle = 1 net.ipv4.tcp_fin_timeout = 10 # Disable TCP slow start on idle connections net.ipv4.tcp_slow_start_after_idle = 0 # From https://people.redhat.com/alikins/system_tuning.html net.ipv4.tcp_sack = 0 net.ipv4.tcp_timestamps = 1
This is a slightly modified version of advice taken from this source: http://www.nateware.com/linux-network-tuning-for-2013.html#.VBjahC5dVyE
In addition, it helps to increase the open file limit with something like:
ulimit -n 100000
What Is Missing
JBender does not provide any support for sending load from more than one machine. If you need to send more load than a single machine can handle, or you need the requests to come from multiple physical hosts (or different networks, or whatever), you currently have to write your own tools. In addition, the histogram implementation used by JBender is inefficient to send over the network, unlike q-digest or t-digest, which we hope to implement in the future.
JBender does not provide any visualization tools, and has a relatively simple set of measurements, including a customizable histogram of latencies, an error rate and some other summary statistics. JBender does provide a complete log of everything that happens during a load test, so you can use existing tools to graph any aspect of that data, but nothing in JBender makes that easier right now.
JBender only provides helper functions for HTTP and Thrift currently, because that is all we use internally at Pinterest.
The load testers we have written internally with JBender have a lot of common command line arguments, but we haven't finalized a set to share as part of the library.
Comparison to Other Load Testers
JBender is a port of Bender to the JVM platform with Quasar lightweight threads (fibers) and channels.
JMeter provides a GUI to configure and run load tests, and can also be configured via XML (really, really not recommended by hand!) and run from the command line. JMeter's is not a good approach to load testing services (see the JBender docs and the Iago philosophy for more details on why that is). It isn't easy to extend JMeter to handle new protocols, so it doesn't have support for Thrift or Protobuf. It is relatively easy to extend other parts of JMeter by writing Java code, however, and the GUI makes it easy to plug all the pieces together.
Iago is Twitter's load testing library and it is the inspiration for JBender's
function. Iago is a Scala library written on top of Netty and the Twitter Finagle libraries. As a
result, Iago is powerful, but difficult to understand, extend and configure. It was frustration with
making Iago work that led to the creation of JBender.
The Grinder has the same load testing approach as JMeter, but allows scripting via Jython, which
makes it more flexible and extensible. The Grinder uses threads, which limits the concurrency at
which it can work, and makes it hard to implement things like JBender's
The Grinder does have support for conveniently running distributed load tests.
Copyright 2015 Pinterest.com
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JBender includes open source from the following sources: