Goa is a framework for building micro-services and APIs in Go using a unique
design-first approach.
Overview
Goa takes a different approach to building services by making it possible to
describe the design of the service API using a simple Go DSL. goa uses the
description to generate specialized service helper code, client code and
documentation. Goa is extensible via plugins, for example the
goakit plugin
generates code that leverage the go-kit
library.
The service design describes the transport independent layer of the services in
the form of simple methods that accept a context and a payload and return a
result and an error. The design also describes how the payloads, results and
errors are serialized in the transport (HTTP or gRPC). For example a service
method payload may be built from an HTTP request by extracting values from the
request path, headers and body. This clean separation of layers makes it
possible to expose the same service using multiple transports. It also promotes
good design where the service business logic concerns are expressed and
implemented separately from the transport logic.
The Goa DSL consists of Go functions so that it may be extended easily to avoid
repetition and promote standards. The design code itself can easily be shared
across multiple services by simply importing the corresponding Go package again
promoting reuse and standardization across services.
Code Generation
The Goa tool accepts the Go design package import path as input and produces the
interface as well as the glue that binds the service and client code with the
underlying transport. The code is specific to the API so that for example there
is no need to cast or "bind" any data structure prior to using the request
payload or response result. The design may define validations in which case the
generated code takes care of validating the incoming request payload prior to
invoking the service method on the server, and validating the response prior to
invoking the client code.
Installation
Assuming you have a working Go setup:
go get -u goa.design/goa/...
Vendoring
Since goa generates and compiles code vendoring tools are not able to
automatically identify all the dependencies. In particular the generator
package is only used by the generated code. To alleviate this issue simply add
goa.design/goa/codegen/generator
as a required package to the vendor manifest.
For example if you are using dep
add the following line to Gopkg.toml
:
required = ["goa.design/goa/codegen/generator"]
Stable Versions
goa follows Semantic Versioning which is a fancy way of
saying it publishes releases with version numbers of the form vX.Y.Z
and makes
sure that your code can upgrade to new versions with the same X
component
without having to make changes.
Releases are tagged with the corresponding version number. There is also a
branch for each major version (v1
and v2
). The recommended practice is to
vendor the stable branch.
Current Release: v2.2.5
Teaser
1. Design
Create the file $GOPATH/src/calcsvc/design/design.go
with the following
content:
package design
import . "goa.design/goa/dsl"
var _ = API("calc", func() {
Title("Calculator Service")
Description("HTTP service for adding numbers, a goa teaser")
Server("calc", func() {
Host("localhost", func() { URI("http://localhost:8088") })
})
})
var _ = Service("calc", func() {
Description("The calc service performs operations on numbers")
Method("add", func() {
Payload(func() {
Attribute("a", Int, "Left operand")
Attribute("b", Int, "Right operand")
Required("a", "b")
})
Result(Int)
HTTP(func() {
GET("/add/{a}/{b}")
Response(StatusOK)
})
})
})
This file contains the design for a calc
service which accepts HTTP GET
requests to /add/{a}/{b}
where {a}
and {b}
are placeholders for integer
values. The API returns the sum of a
and b
in the HTTP response body.
2. Implement
Now that the design is done, let's run goa
on the design package:
cd $GOPATH/src/calcsvc
goa gen calcsvc/design
This produces a gen
directory with the following directory structure:
gen
├── calc
│ ├── client.go
│ ├── endpoints.go
│ └── service.go
└── http
├── calc
│ ├── client
│ │ ├── cli.go
│ │ ├── client.go
│ │ ├── encode_decode.go
│ │ ├── paths.go
│ │ └── types.go
│ └── server
│ ├── encode_decode.go
│ ├── paths.go
│ ├── server.go
│ └── types.go
├── cli
│ └── calc
│ └── cli.go
├── openapi.json
└── openapi.yaml
7 directories, 15 files
calc
contains the service endpoints and interface as well as a service
client.http
contains the HTTP transport layer. This layer maps the service
endpoints to HTTP handlers server side and HTTP client methods client side.
The http
directory also contains a complete
OpenAPI 2.0
spec of the service.
The goa
tool can also generate example implementations for both the service
and client. These examples provide a good starting point:
goa example calcsvc/design
calc.go
cmd/calc-cli/http.go
cmd/calc-cli/main.go
cmd/calc/http.go
cmd/calc/main.go
The tool generated the main
functions for two commands: one that runs the
server and one the client. The tool also generated a dummy service
implementation that prints a log message. Again note that the example
command
is intended to generate just that: an example, in particular it is not
intended to be re-run each time the design changes (as opposed to the gen
command which should be re-run each time the design changes).
Let's implement our service by providing a proper implementation for the add
method. goa generated a payload struct for the add
method that contains both
fields. goa also generated the transport layer that takes care of decoding the
request so all we have to do is to perform the actual sum. Edit the file
calc.go
and change the code of the add
function as follows:
func (s *calcsrvc) Add(ctx context.Context, p *calcsvc.AddPayload) (res int, err error) {
return p.A + p.B, nil
}
That's it! we have now a full-fledged HTTP service with a corresponding OpenAPI
specification and a client tool.
3. Run
Now let's compile and run the service:
cd $GOPATH/src/calcsvc/cmd/calc
go build
./calc
[calcapi] 16:10:47 HTTP "Add" mounted on GET /add/{a}/{b}
[calcapi] 16:10:47 HTTP server listening on "localhost:8088"
Open a new console and compile the generated CLI tool:
cd $GOPATH/src/calcsvc/cmd/calc-cli
go build
and run it:
./calc-cli calc add -a 1 -b 2
3
The tool includes contextual help:
./calc-cli --help
Help is also available on each command:
./calc-cli calc add --help
Now let's see how robust our code is and try to use non integer values:
./calc-cli calc add -a 1 -b foo
invalid value for b, must be INT
run './calccli --help' for detailed usage.
The generated code validates the command line arguments against the types
defined in the design. The server also validates the types when decoding
incoming requests so that your code only has to deal with the business logic.
4. Document
The http
directory contains the OpenAPI 2.0 specification in both YAML and
JSON format.
The specification can easily be served from the service itself using a file
server. The Files DSL
function makes it possible to server static file. Edit the file
design/design.go
and add:
var _ = Service("openapi", func() {
Files("/swagger.json", "../../gen/http/openapi.json")
})
Re-run goa gen calcsvc/design
and note the new directory gen/openapi
and
gen/http/openapi
which contain the implementation for a HTTP handler that
serves the openapi.json
file.
All we need to do is mount the handler on the service mux. Add the corresponding
import statement to cmd/calc/http.go
:
import openapisvr "calcsvc/gen/http/openapi/server"
and mount the handler by adding the following line in the same file and after
the mux creation (e.g. one the line after the // Configure the mux.
comment):
openapisvr.Mount(mux)
That's it! we now have a self-documenting service. Stop the running service
with CTRL-C. Rebuild and re-run it then make requests to the newly added
/swagger.json
endpoint:
^C[calcapi] 16:17:37 exiting (interrupt)
[calcapi] 16:17:37 shutting down HTTP server at "localhost:8088"
[calcapi] 16:17:37 exited
go build
./calc
In a different console:
curl localhost:8088/swagger.json
{"swagger":"2.0","info":{"title":"Calculator Service","description":...
Resources
Consult the following resources to learn more about goa.
Docs
The Getting Started Guide is
a great place to start.
There is also a FAQ and
a document describing
error handling.
If you are coming from v1 you may also want to read the
Upgrading document.
Examples
The examples directory
contains simple examples illustrating basic concepts.
Contributing
See CONTRIBUTING.