Deciding to use a managed NoSQL datastore is a great step in ensuring you run a fast, scalable and resilient application without needing to be an expert in highly available architecture. How do you know which technology is the best for your application? How do you know whether the provider’s performance claims are true? You are putting your application on someone else’s infrastructure and that requires some hard answers about their claims.
To determine the suitability of a provider, your first port of call is to benchmark. Choosing a service provider is often done in a number of stages. First is to shortlist providers based on capabilities and claimed performance, ruling out those that do not meet your application requirements. Second is to look for benchmarks conducted by third parties, if any. The final stage is to benchmark the service yourself.
In this article we will show you how to run some preliminary benchmarks against two managed NoSQL systems. For this test we will compare Instaclustr and Amazon DynamoDB using the Yahoo Cloud Serving Benchmark (YCSB). Instaclustr provides managed Apache Cassandra hosting and DynamoDB is Amazons own managed key value store solution.
Both Cassandra and DynamoDB are very similar architecturally and both Instaclustr and DynamoDB services run on Amazon’s cloud infrastructure, so it will be an excellent performance test and comparison of the two.
Step 1 – Client Setup
YCSB is a cloud service testing client that performs reads, writes and updates according to specified workloads. Running from the command line it can create an arbitrary number of threads that will query the system under test. It will measure throughput in operations per second and record the latency in performing these operations.
YCSB can run in parallel from multiple hosts. For this article we will deploy YCSB across 4 High-CPU Extra Large EC2 instances (c1.xlarge), however you can just as easily run this from a single instance. Investigate EC2 spot pricing to reduce the cost of benchmarking.
Launch each instance with a Ubuntu based AMI. Make a note of the security group you assign to the instances and the region you deployed them in. Once the instances have booted, SSH into each instance (replacing ec2-XXX-XXX-XXX-XXX.compute-1.amazonaws.com with the DNS name of your instance):
ssh –i /path/to/your/key.pem ubuntu@ec2-XXX-XXX-XXX-XXX.compute-1.amazonaws.com
Install the required dependencies using apt-get:
sudo apt-get update
sudo apt-get -y install --fix-missing libjna-java htop sysstat iftop binutils pssh pbzip2 openssl maven2 ant liblzo2-dev ntp tree xfsprogs openjdk-6-jdk git
Clone the YCSB and Cassandra git repositories:
git clone https://github.com/apache/cassandra.git
git clone https://github.com/brianfrankcooper/YCSB.git
Change to the Cassandra directory and build Cassandra:
Copy the Cassandra libraries to the YCSB directory:
cp ~/Cassandra/build/*.jar ~/YCSB/Cassandra/lib
cp ~/Cassandra/lib/*.jar ~/YCSB/Cassandra/lib
Change to the YCSB directory:
Edit the pom.xml file. Under the modules tag, remove all the services you do not wish to test (except core). For this example the modules portion of the pom.xml should look like this:
<span style="font-size: medium;"><code><modules> <module>cassandra</module> <module>core</module> <module>dynamodb</module></modules></code></span>
Step 2 – Service Setup
Sign up to Instaclustr and create a new cluster.
Select the region you wish to deploy to, ensuring that the region you choose is the same region containing your test client instances (created in step 1). For this test we will choose Instaclustr’s professional tier as it roughly corresponds to the same price as DynamoDB’s highest capacity table you can request without needing to ask Amazon to increase your account limits.
Instaclustr will ask you to select a SSH key to associate with the cluster (you can also generate a new key from the cluster creation page). Accept the terms and conditions and hit “Create Cluster”. This will cost around $8.88 an hour plus transfer and S3 costs.
While Instaclustr deploys your Cassandra cluster we will create the DynamoDB table.
Log into your AWS console and go to the DynamoDB console page. Click “Create Table”.
Set the Name for your DynamoDB table to be
usertable and set the Primary Key Type to
Hash. Set the Hash Attribute Name to
firstname. Click next and set the Read and Writecapacities to
10000. Click next until done, skipping the cloud watch configuration page, to create the table. This will cost around $7.80 plus storage and transfer costs per hour.
While you are in the AWS console, go to the EC2 console page. Click on security groups and allow All TCP, All UDP and All IMCP packets between the test client security group you selected in step 1 and your Instaclustr security group (called instaclustr-yourname-yourclustername-group). You can do this by entering the security group id into the source box when setting security group rules.
Your DynamoDB table will take a little while to create. While waiting let’s go back to the test clients and configure the tests.
Step 3 – Test Configuration
Edit the file ~/YCSB/dynamodb/conf/AWSCredentials.properties and set the AccessKey and SecretKey properties to those of your account (remember to uncomment the lines by deleting the #).
Edit ~/YCSB/dynamodb/conf/dynamodb.properties and set the path to the AWSCredentials.properties file. If you created your test clients in a different region to us-east1 change the DynamoDB endpoint to match and leave the rest of the settings as is.
Your dynamodb properties file should contain something similar to the following:
<span style="font-size: medium;"><code>dynamodb.awsCredentialsFile = dynamodb/conf/AWSCredentials.propertiesdynamodb.primaryKey = firstnamedynamodb.endpoint = http://dynamodb.us-east-1.amazonaws.com</code></span>
Go back to your Instaclustr dashboard and open OpsCenter for your cluster. Click Data Modeling (in the left hand menu) and click Add Keyspace. Set the Name to
usertable andreplicationfactor_ to
3. Untick I would like to create a Column Family and click Save Keyspace. Go back to your Instaclustr dashboard and make note of the public DNS names for the nodes in your Cassandra cluster.
On one of your test client instances run the following command, replacing ec2-XXX-XXX-XXX-XXX.compute-1.amazonaws.com with the DNS name for one of your Cassandra nodes:
~/Cassandra/bin/Cassandra-cli –h ec2-XX-XX-XX-XX.compute-1.amazonaws.com
Run the following commands in the Cassandra CLI:
<span style="font-size: medium;">USE usertable;CREATE COLUMN FAMILY data with column_type = 'Standard' and comparator = 'UTF8Type' and default_validation_class = 'UTF8Type' and key_validation_class = 'UTF8Type' and read_repair_chance = 0.1 and dclocal_read_repair_chance = 0.0 and caching = 'ALL';</span>QUIT;
On each of your test client instances, create a file in the ~/YCSB directory called Cassandra.props containing the following. For each separate test client set the insertstartproperty to be
7500000 respectively. This means they will write different portions of data to the cluster. Set the hosts property to the DNS names of the Cassandra nodes (replacing ec2-XX-XX-XX-XX.compute-1.amazonaws.com etc with the DNS names of your Cassandra nodes).
<span style="font-size: medium;">recordcount=10000000insertstart=0 # This should be different for each client instanceinsertcount=2500000hosts=ec2-XX-XX-XX-XX.compute-1.amazonaws.com,ec2-YY-YY-YY- YY.compute-1.amazonaws.com, ec2-AA-AA-AA-AA.compute-</span>1.amazonaws.com …
Create a file in the ~/YCSB directory called dynamo.props and fill it with the same information as the Cassandra.props file leaving the hosts setting out. Again, for each separate test client set the insertstart property to be
7500000respectively. So it should look something like this:
<span style="font-size: medium;"><code>recordcount=10000000insertstart=0 # This should be different for each client instanceinsertcount=2500000</code></span>
If you are using a single test client you can leave insertstart and insertcount out of both files.
Step 4 – Running The Benchmark
Now for the fun bit, running the tests!
On each test client instance, from inside the ~/YCSB directory, run:
./bin/ycsb load cassandra-10 -P workloads/workloada -P cassandra.props -threads 50 -s > loaddata-cassandra.results
This command tells YCSB to run the load component of workload A (which inserts data that subsequent tests rely on) using the cassandra-1.* client (
load cassandra-10 -P workloads/workloada), it also tells YCSB to load our configuration file (
-P cassandra.props), use 50 client threads (
-threads 50) and output status updates to stderr and test results to the loaddata-cassandra.results file (
-s > loaddata-cassandra.results).
This will load data into Instaclustr and test its write throughput. YCSB will output status updates about the test every 10 seconds during the test.
To load data into your DynamoDB table run:
./bin/ycsb load dynamodb -P workloads/workloada -P dynamodb.props -P dynamodb/conf/dynamodb.properties -threads 50 -s > loaddata-dynamodb.results
Once the workload A data is loaded into both Instaclustr and DynamoDB you can execute different YCSB workloads. Different workloads will have different proportions of read, write and update operations that they test. Each workload is split into a load and run portion. The load component will pre-fill the database with the required data and the run component will perform the workload to be measured. For example the run portion of workload A (which we used to load some data) consists of a 50 / 50 split of read and write operations. The load operation for workload A is similar to that of the other tests and hence the data generated from it can be reused.
To start workload A, run:
./bin/ycsb run cassandra-10 -P workloads/workloada -P cassandra.props -threads 50 -p operationcount=10000000 -s > workloada-cassandra.results
and for DynamoDB, run:
./bin/ycsb run dynamodb -P workloads/workloada -P dynamodb.props -P dynamodb/conf/dynamodb.properties -threads 50 -p operationcount=10000000 -s > workloada-dynamodb.results
Other workloads have different usage patterns and may be more appropriate for testing a particular technology for your specific use case. You can also use the load stage of Workload A as a measure of system write performance.
At the end of each test, YCSB will output a summary of the test. This will be found in the piped output results files created in the YCSB directory (workloada-cassandra.results, etc).
For more information on YCSB workloads and tests see the core workloads page.
Step 5 – The Results
Evaluate the results against your application throughput and latency requirements. Remember to sum the average throughput of each YCSB client to get the total average throughput. YCSB also reports the 95th and 99th percentile latencies for each test.