A scalable time series database based on Bigtable, Cassandra, and Elasticsearch.
Go to https://spotify.github.io/heroic/ for documentation, please join #heroic at Freenode if you need help or want to chat.
This project adheres to the Open Code of Conduct. By participating, you are expected to honor this code.
Stability Disclaimer: Heroic is an evolving project, and should in its current state be considered unstable. Do not use in production unless you are willing to spend time with it, experiment and contribute. Not doing so might result in losing your data to goblins. It is currently not on a release schedule and is not versioned. At Spotify we rely on multiple release forks that we actively maintain and flip between.
Java 8 is required.
There are some repackaged dependencies that you have to make available, you do
this by running tools/install-repackaged.
$ tools/install-repackaged
Installing repackaged/x
...After this, the project is built using Maven:
$ mvn packageThis will cause the heroic-dist module to produce a shaded jar that contains
all required dependencies.
After building, the entry point of the service is
com.spotify.heroic.HeroicService.
The following is en example of how this can be run:
$ java -cp $PWD/heroic-dist/target/heroic-dist-0.0.1-SNAPSHOT-shaded.jar com.spotify.heroic.HeroicService <config>
Heroic has been tested with the following services:
- Cassandra (
2.1.x,3.5) when using metric/datastax. - Cloud Bigtable when using metric/bigtable.
- Elasticsearch (
1.7.x) when using metadata/elasticsearch or suggest/elasticsearch.- Support for
2.xis in progress, but is being delayed by elastic/elasticsearch#13273
- Support for
- Kafka (
0.8.x) when using consumer/kafka.
Logging is captured using SLF4J, and forwarded to Log4j.
To configure logging, define the -D -Dlog4j.configurationFile==<path>
parameter. You can use docs/log4j2-file.xml as a base.
We run unit tests with Maven:
$ mvn test
A more comprehensive test suite is enabled with the environment=test
property.
$ mvn -D environment=test verify
This adds:
It is strongly recommended that you run the full test suite before setting up a pull request, otherwise it will be rejected by Travis.
Integration tests are configured to run remotely depending on a set of system properties.
| Property | Description |
|---|---|
| -D elasticsearch.version=<version> | Use the given client version when building the project |
| -D it.elasticsearch.remote=true | Run Elasticsearch tests against a remote database |
| -D it.elasticsearch.seed=<seed> | Use the given seed (default: localhost) |
| -D it.elasticsearch.clusterName=<clusterName> | Use the given cluster name (default: elasticsearch) |
| ----------------------------------------------------- | -------------------------------------------------------- |
| -D datastax.version=<version> | Use the given client version when building the project |
| -D it.datastax.remote=true | Run Datastax tests against a remote database |
| -D it.datastax.seed=<seed> | Use the given seed (default: localhost) |
| ----------------------------------------------------- | -------------------------------------------------------- |
| -D bigtable.version=<version> | Use the given client version when building the project |
| -D it.bigtable.remote=true | Run Bigtable tests against a remote database |
| -D it.bigtable.project=<project> | Use the given project |
| -D it.bigtable.zone=<zone> | Use the given zone |
| -D it.bigtable.cluster=<cluster> | Use the given cluster |
| -D it.bigtable.credentials=<credentials> | Use the given credentials file |
| ----------------------------------------------------- | -------------------------------------------------------- |
The following is an example Elasticsearch remote integration test:
$> mvn -P integration-tests \
-D elasticsearch.version=1.7.5 \
-D it.elasticsearch.remote=true \
clean verify
Full cluster tests are defined in heroic-dist/src/test/java.
This way, they have access to all the modules and parts of Heroic.
The JVM RPC module is specifically designed to allow for rapid execution of integration tests. It allows multiple cores to be defined and communicate with each other in the same JVM instance.
See ClusterIT for a basic example of this.
There's an ongoing project to improve test coverage. Clicking the above graph will bring you to codecov.io, where you can find areas to focus on.
For a speedy build without tests and checks, you can run:
$ mvn -D maven.test.skip=true packageThis project does not provide a single debian package, this is primarily because the current nature of the service (alpha state) does not mesh well with stable releases.
Instead, you are encouraged to build your own using the provided scripts in this project.
First run the prepare-sources script:
$ debian/bin/prepare-sources myrel 1myrel will be the name of your release, it will be part of your package name
debian-myrel, it will also be suffixed to all helper tools (e.g.
heroic-myrel).
For the next step you'll need a Debian environment:
$ dpkg-buildpackage -uc -usIf you encounter problems, you can troubleshoot the build with DH_VERBOSE:
$ env DH_VERBOSE=1 dpkg-buildpackage -uc -usThe Heroic project is split into a couple of modules.
The most critical one is heroic-component. It contains
interfaces, value objects, and the basic set of dependencies necessary to glue
different components together.
Submodules include metric, suggest,
metadata, and aggregation. The first three
contain various implementations of the given backend type, while the latter
provides aggregation methods.
heroic-core contains the
com.spotify.heroic.HeroicCore
class which is the central building block for setting up a Heroic instance.
heroic-elasticsearch-utils is a collection of
utilities for interacting with Elasticsearch. This is separate since we have
more than one backend that needs to talk with elasticsearch.
heroic-parser provides an Antlr4 implementation of
com.spotify.heroic.grammar.QueryParser,
which is used to parse the Heroic DSL.
heroic-shell contains
com.spotify.heroic.HeroicShell,
a shell capable of either running a standalone, or connecting to an existing
Heroic instance for administration.
heroic-all contains dependencies and references to all modules
that makes up a Heroic distribution. This is also where profiles are defined
since they need to have access to all dependencies.
Anything in the repackaged directory is dependencies that
include one or more Java packages that must be relocated to avoid conflicts.
These are exported under the com.spotify.heroic.repackaged groupId.
Finally there is heroic-dist, a small project that depends on
heroic-all, heroic-shell, and a logging
implementation. Here is where everything is bound together into a distribution
— a shaded jar. It also provides the entry-point for services, namely
com.spotify.heroic.HeroicService.
To bypass automatic formatting and checkstyle validation you can use the following stanza:
// @formatter:off
final List<String> list = ImmutableList.of(
"Welcome to...",
"... The Wild West"
);
// @formatter:onTo bypass a FindBugs error, you should use the @SupressFBWarnings annotation.
@SupressFBWarnings(value="FINDBUGS_ERROR_CODE", justification="I Know Better Than FindBugs")
public class IKnowBetterThanFindbugs() {
// ...
}Heroic comes with a shell that contains many useful tasks, these can either be run in a readline-based shell with some basic completions and history, or standalone.
You can use the following helper script to run the shell directly from the project.
$ tools/heroic-shell [opts]There are a few interesting options available, most notably is --connect that
allows the shell to connect to a remote heroic instance.
See -h for a full listing of options.
You can run individual tasks in standalone mode, giving you a bit more options (like redirecting output) through the following.
$ tools/heroic-shell <heroic-options> -- com.spotify.heroic.shell.task.<task-name> <task-options>There are also profiles that can be activated with the -P <profile> switch,
available profiles are listed in --help.
These are third-party dependencies that has to be repackaged to avoid binary incompatibilities with dependencies.
Every time these are upgraded, they must be inspected for new conflicts. The easiest way to do this, is to build the project and look at the warnings for the shaded jar.
$> mvn clean package -D maven.test.skip=true
...
[WARNING] foo-3.5.jar, foo-4.5.jar define 10 overlapping classes:
[WARNING] - com.foo.ConflictingClass
...
This would indicate that there is a package called foo with overlapping classes.
You can find the culprit using the dependency plugin.
$> mvn package dependency:tree