Corfu is a consistency platform designed around the abstraction of a shared log. CorfuDB objects are in-memory, highly available data structures providing linearizable read/write operations and strictly serializable transactions. CorfuDB is based on peer-reviewed research, see References.
Check the Corfu Wiki for a detailed overview of the software architecture and example usage.
The Corfu infrastructure can run on any system which has Java 11 support. We do not impose any requirements on the kind of storage used - Corfu works with any device that your operating system will allow Java to work with: traditional hard disks, SSDs, and even NVM. We also provide an in-memory mode for nodes which do not require persistence.
Even though Corfu is a distributed system, you can start working with Corfu using just a single machine. In addition, you can easily simulate a distributed Corfu system on a single machine using just a few commands.
Corfu is built upon the abstraction of a distributed shared log. The Corfu infrastructure provides this log to clients, which use the log for coordination, communication and storage. The log is a highly available, dynamic and high performance scalable fabric: it is resilient to failures and can be reconfigured at any time.
The Corfu infrastructure consists of three components: a layout server, which helps Corfu clients locate the rest of the Corfu infrastructure, a sequencer server, which is used to order updates to the log, and a log server, which stores updates to the log. At minimum a Corfu infrastructure must have one of each server type, but for scalability and high availability a real-world deployment will have many. An administrator need not worry about installing each role separately as they are provided as a single monolithic binary.
Corfu clients interact with the infrastructure through the Corfu runtime. The runtime is currently only available in Java, but we plan on providing it in several other languages in the future. Given the address to a layout server in a Corfu infrastructure, the runtime enables clients to access distributed high-level data structures as if they were local data structures. We provide a mechanism to automatically distribute most Java objects as well.
For more details on the inner workings of Corfu, see the Corfu wiki.
To build Corfu, you will need the Java JDK 11 as well as Apache Maven 3.3 or later to invoke the build system.
Your major release number of Debian/Ubuntu will determine whether the simple command below is sufficient to install Maven 3.3 or later.
$ sudo apt-get install maven
Use the command mvn --version
to confirm that Maven 3.3 or later is
installed. If an older version is installed, then use the
instructions at
Installing maven 3.3 on Ubuntu
to install manually.
PLEASE NOTE: Please substitute the version number 3.3.9
in place of this
blog's instructions for an older & unavailable 3.3.3
.
On Mac OS X, the homebrew package manager should help. After installing homebrew, run:
$ brew install maven
The OS X package manager MacPorts can also
install Maven 3 via sudo port install maven3
.
Use the command mvn --version
to confirm that Maven 3.3 or later is
installed. Output should look like:
% mvn --version
Apache Maven 3.3.9 (bb52d8502b132ec0a5a3f4c09453c07478323dc5; 2015-11-10T08:41:47-08:00)
Maven home: /opt/local/share/java/maven3
Java version: 1.8.0_91, vendor: Oracle Corporation
Java home: /Library/Java/JavaVirtualMachines/jdk1.8.0_91.jdk/Contents/Home/jre
Default locale: en_US, platform encoding: UTF-8
OS name: "mac os x", version: "10.11.6", arch: "x86_64", family: "mac"
Some OS X users have had problems where the version of Maven installed
by MacPorts uses a different Java version than expected. Java version 11 or later is required.
If Java 1.7 or earlier is reported, then refer to this
StackOverflow Maven JDK mismatch question.
Once you've installed the prerequisites, you can build Corfu.
$ mvn clean install
The binaries which will be referenced in the following sections will be located in the bin
directory.
The Corfu infrastructure is provided by the monolithic binary corfu_server
. For testing purposes, you will want to run the server in in-memory, single-server mode. To do this, run:
$ ./CorfuDB/bin/corfu_server -ms 9000
This starts an in-memory single node Corfu infrastructure on port 9000. To point clients at this infrastructure, point them at localhost:9000.
To test your Corfu infrastructure, you can use the Corfu utilities. One of the first things you might want to do is check is the layout, which described the configuration of servers in the Corfu infrastructure. To run this, try:
$ ./CorfuDB/bin/corfu_layouts -c localhost:9000 query
You should get output similar to this:
{
"layoutServers": [
"localhost:9000"
],
"sequencers": [
"localhost:9000"
],
"segments": [
{
"replicationMode": "CHAIN_REPLICATION",
"start": 0,
"end": -1,
"stripes": [
{
"logServers": [
"localhost:9000"
]
}
]
}
],
"unresponsiveServers": [],
"epoch": 0,
"clusterId": "fd3802dc-9db4-4a7c-98d6-1aecfbc964ae"
}
This means that the infrastructure is currently configured with a single layout server, a single sequencer, and a single replica which is replicated using chain replication.
Now we can try writing to the instance. The stream utility can be used to write to the instance:
$ echo "hello world" | ./CorfuDB/bin/corfu_stream append -c localhost:9000 -i test
This utility takes input from stdin and writes it into the log. This command invocation writes a entry named "hello world" to a stream called "test". Streams are a kind of virtualized log in Corfu - think of them as append-only files.
Next, we can try reading back that stream. This can be done by running:
$ ./CorfuDB/bin/corfu_stream read -c localhost:9000 -i test
The utility should print back "hello world".
Now that you have a working Corfu deployment, you'll probably want to make it distributed.
Let's start by adding 2 non-provisioned Corfu server instances. We'll start these on ports 9000 and 9001 respectively.
$ ./CorfuDB/bin/corfu_server -m 9000 &
$ ./CorfuDB/bin/corfu_server -m 9001 &
Now let's bootstrap these corfu_server
instances into a cluster.
To do that edit the json obtained from the layouts query above in a file called, say layout.json and add in the second server:
{
"layoutServers": [
"localhost:9000",
"localhost:9001"
],
"sequencers": [
"localhost:9000",
"localhost:9001"
],
"segments": [
{
"replicationMode": "CHAIN_REPLICATION",
"start": 0,
"end": -1,
"stripes": [
{
"logServers": [
"localhost:9000",
"localhost:9001"
]
}
]
}
],
"epoch": 0
}
Note that we are adding the second server in port 9001 as a layoutServer, a sequencer and a logServer all in one. Once you have edited the file layout.json add it to the cluster using the following command:
$ ./CorfuDB/bin/corfu_bootstrap_cluster -l layout.json
If you check the current layout using the query command:
$ ./CorfuDB/bin/corfu_layouts query -c localhost:9000,localhost:9001
You will see that you now have two servers in the layout. Recall that corfu_server
is a monolithic binary
containing all servers. The above layout.json provisions the second server as another replica so the cluster can tolerate
a single failure.
To learn more about segments, see the Corfu wiki.
To add more nodes, begin by
starting a new corfu_server
on port 9002:
./CorfuDB/bin/corfu_server -m 9002
The server can be added to the existing cluster:
./CorfuDB/bin/corfu_add_node -c localhost:9000,localhost:9001 -n localhost:9002
If you now check the layout of the cluster:
./CorfuDB/bin/corfu_layouts query -c localhost:9000,localhost:9001,localhost:9002
You will see that the cluster contains the new node.
To remove the added node from the cluster:
./CorfuDB/bin/corfu_remove_node -c localhost:9000,localhost:9001,localhost:9002 -n localhost:9002
To write your first program that uses Corfu, you will want to add all Corfu dependencies from the Corfu Package Page.
For instructions on how to add the dependency from GitHub, refer to this page.
Once you have Corfu added as a dependency, you can start writing Corfu code. Let's start with a map:
CorfuRuntime rt = new CorfuRuntime("localhost:9000")
.connect();
Map<String,Integer> map = rt.getObjectsView()
.build()
.setStreamName("A")
.setType(CorfuTable.class)
.open();
Integer previous = map.get("a");
if (previous == null) {
System.out.println("This is the first time we were run!");
map.put("a", 1);
}
else {
map.put("a", ++previous);
System.out.println("This is the " + previous + " time we were run!");
}
You can run this code multiple times from many clients, and each client should display a unique "run".
In addition to the github wiki more documentation can be found in the docs folder. An API spec and
class diagrams can be generated by running doxygen
in the parent directory, the output will be
in docs/doxygen.