wag
sWAGger - Web API Generator
Usage
Wag requires Go 1.7+.
Generating Code
Create a swagger.yml file with your service definition. Wag supports a subset of the Swagger spec.
Copy the latest wag.mk
from the dev-handbook.
Set up a generate
target in your Makefile
that will generate server and client code:
include wag.mk
WAG_VERSION := latest
generate: wag-generate-deps
$(call wag-generate,./swagger.yml, $(PKG))
Define global BadRequest and InternalError response types. These are used internally for validation errors and unknown errors respectively. They must reference a definition with a message field. For example:
responses:
BadRequest:
description: Bad Request
schema:
$ref: "#/definitions/BadRequest"
InternalError:
description: Internal Error
schema:
$ref: "#/definitions/InternalError"
definitions:
BadRequest:
type: object
properties:
message:
type: string
InternalError:
type: object
properties:
message:
type: string
For more information on error definitions see the Errors section below.
Then generate your code:
make generate
This generates four directories. You should not have to modify any of the generated code:
- gen-go/models: contains all the definitions in your Swagger file as well as the API input / output definitions
- gen-go/server: contains the router, middleware, and handler logic
- gen-go/client: contains the Go client library
- gen-js: contains the javascript client library
Implementing and Running the Server
To implement and run the generated server you need to:
- Implement the controller interface defined in
gen-go/server/interface.go
- Pass the controller into the Server constructor. For example:
s := server.New(myController, ":8000")
// Serve should not return
log.Fatal(s.Serve())
Or, with custom middleware:
s := server.NewWithMiddleware(myController, ":8000", []func(http.Handler) http.Handler{
myFirstMiddlware, mySecondMiddlware})
// Serve should not return
log.Fatal(s.Serve())
Interface
The server interface defined in gen-go/server/interface.go
has one method for each operation defined in the swagger.yml. We generate the interface based on the following rules:
- The first argument to each Wag operation is a
context.Context
. See below for more details on how Wag uses contexts.
- If one parameter is defined then Wag uses that input directly in the function definition.
func F(ctx context.Context, input string) error
- If more than one parameter is defined then Wag generates a input struct with all the parameters:
func F(ctx context.Context, input *models.{{OperationID}}Input) error
- Optional parameters that don't have defaults are pointers in the input struct so that the server can distinguish between parameters that aren't set and parameters that are set to the zero value.
Response Parameters
- Wag only supports defining a single 2XX response status code and doesn't support 3XX status codes.
- If the success response type has a data type associated with it then Wag generates an interface that takes a pointer to that data type as the first argument.
func(...) (*SuccessType, error)
- If the operation uses
x-paging
, then Wag generates the an interface that takes the type of the page ID parameter as the second return type.
func(...) (*SuccessType, PageParamType, error)
- If the success response type doesn't define a data type then Wag generates an interface with only an error response. A nil error tells the client that the request succeeded.
func(...) error
Logging
The kayvee middleware logger is automatically added to the context object.
It can be pulled out of the context object and used via the kayvee FromContext
method:
import "gopkg.in/Clever/kayvee-go.v6/logger"
...
logger.FromContext(ctx).Info(...)
You should use this logger for all logging within your controller implementation.
Application Log Routing
Note: This is an internal Clever feature. Ignore this if you are using wag
outside of Clever (also, hi!)
wag
is already set up for log routing if you so wish. To set up application log routing in your service, add your kvconfig.yml
file to the same directory as your service executable. e.g. in your Dockerfile:
COPY kvconfig.yml /usr/bin/kvconfig.yml
COPY bin/my-wag-service /usr/bin/my-wag-service
Errors
-
Wag supports three types of errors
- Global error response types
- Response types for a specific operation
- Unexpected errors
-
Any of these can be returned from a controller. To return a global or response specific error type return a pointer to the model defintion for that error type. To return an unexpected error return any Go error. Wag automatically converts errors not defined swagger yml into the default 500 response.
-
All error responses defined in the swagger yml must have a Message
field. The field is used as the return value of the Error()
for the corresponding Go error type.
-
Wag has two built-in errors: #/definitions/BadRequest
(400) and '#/responses/InternalError' (500). Any operation that doesn't explicitly define a 400 and/or 500 response gets these automatically so Wag can use them to return validation and internal errors respectively.
-
Errors returned from your controller are logged by the
autogenerated handler code, so there is no need to separately log errors
yourself. If you use the github.com/go-errors/errors
package, the
stacktrace will also be logged, making debugging easier.
For undefined error types the best practices are:
* If you receive an error from an external dependency, use
errors.WrapPrefix(err, "foopackage.func", 0)
to return an error with a
stacktrace and prefix the source of the error (in this example, we received
an error from the function func
in the package foopackage
).
- If you generate a new error, use
errors.Errorf
or errors.New
to build
the error.
- If you receive an error from an internal function, just return the error
directly since it should already have stacktrace information (either it is
a wrapped external error or a
go-errors
-generated internal error).
- Wag supports four types of parameters
- Path parameters
- Must be required
- Must be a simple type (e.g. string, integer)
- Will not be pointers
- Body parameters
- Must reference a 'definition' schema
- Will be pointers
- Cannot have defaults
- Query parameters
- Must be a simple or array type. If an array must be an array of strings
- If the type is 'simple' and the parameter is not required, the type will be a pointer
- If the type is 'array' it won't be a pointer. Query parameters can't distinguish between an empty array and an nil array so it converts both these cases to a nil array. If you need to distinguish between the two use a body parameter
- In other cases the parameter is not a pointer
- Header parameters
- Must be simple types
- If marked required will ensure that the input isn't the nil value. Headers cannot have pointer types since HTTP doesn't distinguish between empty and missing headers.
- If it doesn't have a default value specified, the default value will be the nil value for the type
Paging
Contexts
-
The first argument to every Wag function is a context.Context
(https://blog.golang.org/context). Contexts play a few important roles in Wag.
- They can be used to set request specific behavior like a retry policy in client libraries. This includes timeouts and cancellation.
- They are used to pass metadata, like tracing information, across API requests.
-
To get these benefits pass the context object to any subsequent network requests you make.
Many client libraries accept the context object, e.g.:
- net/http: If you're making HTTP requests, use the golang.org/x/net/context/ctxhttp package.
- wag If your handler consumes a
wag
-generated client, then pass the context object to these client methods.
-
If you don't have a context to pass to a Wag function you have two options
- context.Background() - use this when this is the creator of the request chain, like a test or a top-level service.
- context.TODO() - use this when you haven't been passed a context from a caller yet, but you expect the caller to send you one at some point.
Tracing
wag
instruments the context object with tracing-related metadata.
This is done via opentracing.
In order for it to work, you are required to do two things:
- Configure your
main()
function to report tracing data to LightStep.
We are testing Lightstep as a way to view tracing-related data:
package main
import (
lightstep "github.com/lightstep/lightstep-tracer-go"
opentracing "github.com/opentracing/opentracing-go"
)
func main() {
tags := make(map[string]interface{})
tags[lightstep.ComponentNameKey] = "<name of the repo>"
lightstepTracer := lightstep.NewTracer(lightstep.Options{
AccessToken: os.Getenv("LIGHTSTEP_ACCESS_TOKEN"),
Tags: tags,
})
defer lightstep.FlushLightStepTracer(lightstepTracer)
opentracing.InitGlobalTracer(lightstepTracer)
...
}
Using the Go Client
Initialize the client with New
c := client.New("https://url_of_your_service:port")
Make an API call
books, err := c.GetBooks(ctx, GetBookByIDInput{Authors: []string{"Twain"}})
if err != nil {
// Do something with the error
}
If you're using the client from another WAG-ified service you should pass in the ctx
object you get in your server handler. Otherwise you can use context.Background()
Custom String Validation
We've added custom string validation for mongo-ids to avoid repeating: "^[0-9a-f]{24}$"` throughout the swagger.yml. To use it you have must:
- Change you swagger.yml file to have the
mongo-id
format. For example:
authorID:
type: string
format: mongo-id
- Import
github.com/Clever/wag/swagger
and call swagger.InitCustomFormats()
in your server code.
Note that custom string validation only applies to input parameters and does not have any impact on objects defined in '#/definitions'.
Right now we do not allow user-defined custom strings, but this is something we may add if there's sufficient demand.
Using the Javascript Client
You can initialize the client by either passing a url or by using discovery.
import * as SampleClientLib from 'sample-client-lib-js';
const sampleClient = new SampleClientLib({address: "https://url_of_your_service:port"}); // Explicit url
// OR
const sampleClient = new SampleClientLib({discovery: true}); // Using discovery
You may also configure a global timeout for requests when initalizing the client.
const sampleClient = new SampleClientLib({discovery: true, timeout: 1000}); // Timeout any requests taking longer than 1 second
You may then call methods on the client. Methods support callbacks and promises.
// Promises
sampleClient.getBookById("bookID").then((book) => {
// ...
}).catch((err) => {
// ...
});
// Callbacks
sampleClient.getBookById("bookID", (err, book) => {
// ...
});
You can also pass an optional options argument. This can have the following options
timeout
- overide the global timeout for this specific call
span
- Pass an opentracing span to instrument with the call - More on this below
const options = {
timeout: 5000 // Timeout after 5 seconds
}
sampleClient.getBookById("bookID", options, (err, book) => {
// ...
});
Tracing
To utilize the span
option above you need to pass an opentracing span into the request. The below
example shows you how to setup an express app to track requests and any calls made via a wag client.
npm install --save tracing-middleware
import * as express from "express";
import middleware from "tracing-middleware";
import * as SampleClientLib from 'sample-client-lib-js';
const app = express();
const sampleClient = new SampleClientLib({discovery: true}); // Using discovery
const LIGHTSTEP_ACCESS_TOKEN = "access_token";
app.use(middleware({access_token: LIGHTSTEP_ACCESS_TOKEN}));
app.get("/my-url", (req, res) => {
sampleClient.getBookById("bookID", {span: req.span}, (err, book) => {
if (book.isSpecial) {
// guarantee that this trace instance will be sampled
req.span.setTag("sampling.priority", 1);
}
});
});
Tests
make test
Swagger Spec
Currently, Wag doesn't implement the entire Swagger Spec. A couple things to keep in mind:
- All schemas should reference type definitions in /definitions. Any schemas defined in /paths will cause an error.
- Scheme, produces, and consumers can only be defined in the top-level swagger object, not individual operations. On the top level object the scheme must be 'http', produces must be 'application/json' and consumes must be 'application/json'
Below is a more comprehensive list of the features we don't yet support
Unsupported Features
Mime Types
Multi-File Swagger Definitions
Schema:
- host
- tags
- scheme (must be http)
- consumes
- produces
- securityDefinitions
- security
Consumes:
- produces (must be application/json)
- consumes (must be application/json)
- schemes
- security
Form parameter type
Parameter:
- file parameter type
- collectionFormat
- global definitions
- possibly the json schema requirements? (uniqueItems, multipleOf, etc...)
Schema object (all these have to be defined in /definitions and are generated by go-swagger)
Discriminators
XML Modeling
Security Objects
Response:
Development
The following directories and files are generated and should not be manually edited:
- samples/gen-*/*
- hardcoded/hardcoded.go
Once you've made your changes, run make test
and check that the generated code looks ok, then check in those changes.