π Welcome to linkerd! π
linkerd is a transparent service mesh, designed to make modern applications safe and sane by transparently adding service discovery, load balancing, failure handling, instrumentation, and routing to all inter-service communication.
linkerd (pronouned "linker-DEE") acts as a transparent HTTP/gRPC/thrift/etc proxy, and can usually be dropped into existing applications with a minimum of configuration, regardles of what language they're written in. It works with many common protocols and service discovery backends, including scheduled environments like Mesos and Kubernetes.
linkerd is built on top of Netty and Finagle, a production-tested RPC framework used by high-traffic companies like Twitter, Pinterest, Tumblr, PagerDuty, and others.
We distribute binaries which you can download from the linkerd releases page.
For instructions on how to configure and run linkerd, see the user documentation on linkerd.io.
The rest of this document will help you build linkerd from source and how to contribute code.
This repo contains two main projects: linkerd itself and namerd, a service for centrally managing routing policy and fronting service discovery.
$ ./sbt linkerd-examples/http:run # build and run linkerd
$ open http://localhost:9990 # open linkerd's admin interface in a browser
More details at linkerd's quickstart
$ ./sbt namerd-examples/basic:run # build and run namerd
$ open http://localhost:9991 # open namerd's admin interface in a browser
$ curl :4180/api/1/dtabs # test namerd's http interface
More details at namerd's quickstart
sbt is used to build and test linkerd. Developers should not
use a system-installed version of sbt, and should instead use the
./sbt
script, which ensures that a compatible version of sbt is
available.
./sbt
accepts commands on the command line, or if it is invoked with
no arguments it loads an interactive sbt shell:
$ ./sbt
>
The sbt project consists of many sub-projects. To list all projects run:
> projects
These projects are configured in
project/LinkerdBuild.scala
, which may
be edited to include additional sub-projects, build configurations,
etc. project/Base.scala
is used to augment
sbt's api.
You may run commands, for instance, compile on the aggregate project, all, by invoking:
> compile
Commands may be scoped by project, as in:
> router-http/test
Or by configuration as in:
> e2e:test
or
> router-http/e2e:test
The inspect command helps describe how a command is configured:
> inspect tree examples/http:run
[info] examples/http:run = InputTask[Unit]
[info] +-examples/http:configFile = examples/http.yaml
[info] | +-examples/http:configuration = http
[info] |
[info] +-examples/http:runtimeConfiguration = minimal
[info] +-*/*:settingsData = Task[sbt.Settings[sbt.Scope]]
[info]
There are several supported test configurations:
test
: pure unit tests that do not require system or networke2e
: tests that compose multiple modules; may allocate random ephemeral ports and write temporary filesintegration
: tests that rely on external services or programs that require external installation and/or configuration.
Both unit and end-to-end tests are run as part of our Continuous Integration setup.
Tests may be run with:
> test
...
[success] Total time: 14 s, completed Jan 29, 2016 4:24:16 PM
> e2e:test
...
[success] Total time: 8 s, completed Jan 29, 2016 4:25:18 PM
sbt also provides a testQuick
command which is especially useful
when actively editing code:
> ~testQuick
The validator
project provides an integration test that operates on
assembled artifacts. It may be run with:
> validator/validateAssembled
Test files for each of the above test configurations are stored in a per-configuration directory structure, e.g.:
$ ls -l router/http/src
e2e
main
test
Tests are written using the ScalaTest testing framework,
and specifically the FunSuite
mixin, which supports
xUnit-like semantics. We avoid using mocking frameworks when testing
our own code, as they tend to introduce as many problems as they
solve. Tests may leverage the test-util
project, which provides some
helpers for writing tests against Finagle's asynchronous APIs.
linkerd provides a plugin system so that features may be chosen at packaging time. To this end, there are multiple configurations for running and packaging linkerd executables.
The assembly plugin can be used to produce an executable containing
all library dependencies. The linkerd
subproject has several build
configurations to support packaging:
> linkerd/assembly
[info] SHA-1: 5599e65540ebe6122da114be4a8b9a763475b789
[info] Packaging ...linkerd/target/scala-2.11/linkerd-0.0.10-SNAPSHOT-exec ...
[info] Done packaging.
[success] Total time: 14 s, completed Jan 29, 2016 4:29:40 PM
The 'minimal' sbt configuration, supporting only the http
protocol
and the io.l5d.fs
namer, is useful for running linkerd during
development. This configuration may be specified explicitly to scope
build commands:
> linkerd/minimal:assembly
[info] Packaging ...linkerd/target/scala-2.11/linkerd-minimal-0.0.10-SNAPSHOT-exec ...
[info] Done packaging.
[success] Total time: 13 s, completed Jan 29, 2016 4:30:58 PM
Similarly, a namerd executable can be produced with the command:
> namerd/assembly
Before releasing ensure that CHANGES.md is updated to include the version that you're trying to release.
By default, the -SNAPSHOT suffix is appended to the version number when building linkerd. In order to build a non-snapshot (i.e. releasable) version of linkerd, the build must occur from a release tag in git.
For example, in order to build the 0.0.10 release of linkerd:
- Ensure that the head version is 0.0.10
git tag 0.0.10 && git push origin 0.0.10
./sbt linkerd/assembly namerd/assembly
will produce executables in linkerd/target/scala-2.11/linkerd-0.0.10-exec and namerd/target/scala-2.11/namerd-0.0.10-exec.
Each of these configurations may be used to build a docker image.
> ;linkerd/docker ;namerd/docker
...
[info] Tagging image 94ab0793addf with name: buoyantio/linkerd:0.0.10-SNAPSHOT
The produced image does not contain any configuration. It's expected that configuration is provided by another docker layer or volume. For example, if you have linkerd configuration in path/to/myapp/linkerd.yml, you could start linkerd in docker with the following command:
$ docker run -p 4140:4140 -p 9990:9990 -v /absolute/path/to/myapp:/myapp buoyantio/linkerd:0.0.10-SNAPSHOT /myapp/linkerd.yml
For local testing convenience, we supply a config that routes to a single backend on localhost:8080.
$ docker run -p 4140:4140 -p 9990:9990 -v /path/to/linkerd/linkerd/examples:/config buoyantio/linkerd:0.8.2-SNAPSHOT /config/static_namer.yaml
The list of image names may be changed with a command like:
> set imageNames in docker in (linkerd, Bundle) += ImageName("gcr.io/gce-project/linkerd:v"+version.value)
...
> show linkerd/bundle:docker::imageNames
[info] List(buoyantio/linkerd:0.0.10-SNAPSHOT, gcr.io/gce-project/linkerd:v0.0.10-SNAPSHOT)
Namerd supports a DCOS-specific configuration. When used in conjunction with
namerd's io.l5d.zk
dtab storage, this
configuration provides bootstrapping of the ZooKeeper pathPrefix
, along with
a default dtab.
This executes only the namerd-dcos-bootstrap command, it does not boot namerd.
$ ./sbt "namerd/dcos:run-main io.buoyant.namerd.DcosBootstrap namerd/examples/zk.yaml"
The assembly script executes two commands serially:
- runs namerd-dcos-bootstrap
- boots namerd
$ ./sbt namerd/dcos:assembly
$ namerd/target/scala-2.11/namerd-0.8.2-SNAPSHOT-dcos-exec namerd/examples/zk.yaml
$ ./sbt namerd/dcos:docker
$ docker run -p 2181:2181 -p 4180:4180 -v /path/to/repo:/myapp -w /myapp buoyantio/namerd:0.8.2-SNAPSHOT-dcos namerd/examples/zk.yaml
See CONTRIBUTING.md for more details about how to contribute.
We generally follow Effective Scala and the Scala Style Guide. When in doubt, we try to use Finagle's idioms.
Copyright 2016, Buoyant Inc. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use these files except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.