Introduction
This guide describes a set of HTTP+JSON API design practices, originally extracted from work on the Heroku Platform API.
This guide informs additions to that API and also guides new internal APIs at Heroku. We hope it’s also of interest to API designers outside of Heroku.
Our goals here are consistency and focusing on business logic while avoiding design bikeshedding. We’re looking for a good, consistent, well-documented way to design APIs, not necessarily the only/ideal way.
We assume you’re familiar with the basics of HTTP+JSON APIs and won’t cover all of the fundamentals of those in this guide.
We welcome contributions to this guide.
Contents
Foundations
Separate Concerns
Keep things simple while designing by separating the concerns between the different parts of the request and response cycle. Keeping simple rules here allows for greater focus on larger and harder problems.
Requests and responses will be made to address a particular resource or collection. Use the path to indicate identity, the body to transfer the contents and headers to communicate metadata. Query params may be used as a means to pass header information also in edge cases, but headers are preferred as they are more flexible and can convey more diverse information.
Require Secure Connections
Require secure connections with TLS to access the API, without exception. It’s not worth trying to figure out or explain when it is OK to use TLS and when it’s not. Just require TLS for everything.
Ideally, simply reject any non-TLS requests by not responding to requests for http or port 80 to avoid any insecure data exchange. In environments where this is not possible, respond with 403 Forbidden
.
Redirects are discouraged since they allow sloppy/bad client behaviour without providing any clear gain. Clients that rely on redirects double up on server traffic and render TLS useless since sensitive data will already have been exposed during the first call.
Require Versioning in the Accepts Header
Versioning and the transition between versions can be one of the more challenging aspects of designing and operating an API. As such, it is best to start with some mechanisms in place to mitigate this from the start.
To prevent surprise, breaking changes to users, it is best to require a version be specified with all requests. Default versions should be avoided as they are very difficult, at best, to change in the future.
It is best to provide version specification in the headers, with other metadata, using the Accept
header with a custom content type, e.g.:
Accept: application/vnd.heroku+json; version=3
Support ETags for Caching
Include an ETag
header in all responses, identifying the specific version of the returned resource. This allows users to cache resources and use requests with this value in the If-None-Match
header to determine if the cache should be updated.
Provide Request-Ids for Introspection
Include a Request-Id
header in each API response, populated with a UUID value. By logging these values on the client, server and any backing services, it provides a mechanism to trace, diagnose and debug requests.
Divide Large Responses Across Requests with Ranges
Large responses should be broken across multiple requests using Range
headers to specify when more data is available and how to retrieve it. See the Heroku Platform API discussion of Ranges for the details of request and response headers, status codes, limits, ordering, and iteration.
Requests
Accept serialized JSON in request bodies
Accept serialized JSON on PUT
/PATCH
/POST
request bodies, either instead of or in addition to form-encoded data. This creates symmetry with JSON-serialized response bodies, e.g.:
$ curl -X POST https://service.com/apps \
-H "Content-Type: application/json" \
-d '{"name": "demoapp"}'
{
"id": "01234567-89ab-cdef-0123-456789abcdef",
"name": "demoapp",
"owner": {
"email": "username@example.com",
"id": "01234567-89ab-cdef-0123-456789abcdef"
},
...
}
Use consistent path formats
Resource names
Use the plural version of a resource name unless the resource in question is a singleton within the system (for example, in most systems a given user would only ever have one account). This keeps it consistent in the way you refer to particular resources.
Actions
Prefer endpoint layouts that don’t need any special actions for individual resources. In cases where special actions are needed, place them under a standard actions
prefix, to clearly delineate them:
/resources/:resource/actions/:action
e.g.
/runs/{run_id}/actions/stop
Downcase paths and attributes
Use downcased and dash-separated path names, for alignment with hostnames, e.g:
service-api.com/users
service-api.com/app-setups
Downcase attributes as well, but use underscore separators so that attribute names can be typed without quotes in JavaScript, e.g.:
service_class: "first"
Support non-id dereferencing for convenience
In some cases it may be inconvenient for end-users to provide IDs to identify a resource. For example, a user may think in terms of a Heroku app name, but that app may be identified by a UUID. In these cases you may want to accept both an id or name, e.g.:
$ curl https://service.com/apps/{app_id_or_name}
$ curl https://service.com/apps/97addcf0-c182
$ curl https://service.com/apps/www-prod
Do not accept only names to the exclusion of IDs.
Minimize path nesting
In data models with nested parent/child resource relationships, paths may become deeply nested, e.g.:
/orgs/{org_id}/apps/{app_id}/dynos/{dyno_id}
Limit nesting depth by preferring to locate resources at the root path. Use nesting to indicate scoped collections. For example, for the case above where a dyno belongs to an app belongs to an org:
/orgs/{org_id}
/orgs/{org_id}/apps
/apps/{app_id}
/apps/{app_id}/dynos
/dynos/{dyno_id}
Responses
Return appropriate status codes
Return appropriate HTTP status codes with each response. Successful responses should be coded according to this guide:
200
: Request succeeded for aGET
call, for aDELETE
orPATCH
call that completed synchronously, or for aPUT
call that synchronously updated an existing resource201
: Request succeeded for aPOST
call that completed synchronously, or for aPUT
call that synchronously created a new resource202
: Request accepted for aPOST
,PUT
,DELETE
, orPATCH
call that will be processed asynchronously206
: Request succeeded onGET
, but only a partial response returned: see above on ranges
Pay attention to the use of authentication and authorization error codes:
401 Unauthorized
: Request failed because user is not authenticated403 Forbidden
: Request failed because user does not have authorization to access a specific resource
Return suitable codes to provide additional information when there are errors:
422 Unprocessable Entity
: Your request was understood, but contained invalid parameters429 Too Many Requests
: You have been rate-limited, retry later500 Internal Server Error
: Something went wrong on the server, check status site and/or report the issue
Refer to the HTTP response code spec for guidance on status codes for user error and server error cases.
Provide full resources where available
Provide the full resource representation (i.e. the object with all attributes) whenever possible in the response. Always provide the full resource on 200 and 201 responses, including PUT
/PATCH
and DELETE
requests, e.g.:
$ curl -X DELETE \
https://service.com/apps/1f9b/domains/0fd4
HTTP/1.1 200 OK
Content-Type: application/json;charset=utf-8
...
{
"created_at": "2012-01-01T12:00:00Z",
"hostname": "subdomain.example.com",
"id": "01234567-89ab-cdef-0123-456789abcdef",
"updated_at": "2012-01-01T12:00:00Z"
}
202 responses will not include the full resource representation, e.g.:
$ curl -X DELETE \
https://service.com/apps/1f9b/dynos/05bd
HTTP/1.1 202 Accepted
Content-Type: application/json;charset=utf-8
...
{}
Provide resource (UU)IDs
Give each resource an id
attribute by default. Use UUIDs unless you have a very good reason not to. Don’t use IDs that won’t be globally unique across instances of the service or other resources in the service, especially auto-incrementing IDs.
Render UUIDs in downcased 8-4-4-4-12
format, e.g.:
"id": "01234567-89ab-cdef-0123-456789abcdef"
Provide standard timestamps
Provide created_at
and updated_at
timestamps for resources by default, e.g:
{
// ...
"created_at": "2012-01-01T12:00:00Z",
"updated_at": "2012-01-01T13:00:00Z",
// ...
}
These timestamps may not make sense for some resources, in which case they can be omitted.
Use UTC times formatted in ISO8601
Accept and return times in UTC only. Render times in ISO8601 format, e.g.:
"finished_at": "2012-01-01T12:00:00Z"
Nest foreign key relations
Serialize foreign key references with a nested object, e.g.:
{
"name": "service-production",
"owner": {
"id": "5d8201b0..."
},
// ...
}
Instead of e.g.:
{
"name": "service-production",
"owner_id": "5d8201b0...",
// ...
}
This approach makes it possible to inline more information about the related resource without having to change the structure of the response or introduce more top-level response fields, e.g.:
{
"name": "service-production",
"owner": {
"id": "5d8201b0...",
"name": "Alice",
"email": "alice@heroku.com"
},
// ...
}
Generate structured errors
Generate consistent, structured response bodies on errors. Include a machine-readable error id
, a human-readable error message
, and optionally a url
pointing the client to further information about the error and how to resolve it, e.g.:
HTTP/1.1 429 Too Many Requests
{
"id": "rate_limit",
"message": "Account reached its API rate limit.",
"url": "https://docs.service.com/rate-limits"
}
Document your error format and the possible error id
s that clients may encounter.
Show rate limit status
Rate limit requests from clients to protect the health of the service and maintain high service quality for other clients. You can use a token bucket algorithm to quantify request limits.
Return the remaining number of request tokens with each request in the RateLimit-Remaining
response header.
Keep JSON minified in all responses
Extra whitespace adds needless response size to requests, and many clients for human consumption will automatically “prettify” JSON output. It is best to keep JSON responses minified e.g.:
{"beta":false,"email":"alice@heroku.com","id":"01234567-89ab-cdef-0123-456789abcdef","last_login":"2012-01-01T12:00:00Z","created_at":"2012-01-01T12:00:00Z","updated_at":"2012-01-01T12:00:00Z"}
Instead of e.g.:
{
"beta": false,
"email": "alice@heroku.com",
"id": "01234567-89ab-cdef-0123-456789abcdef",
"last_login": "2012-01-01T12:00:00Z",
"created_at": "2012-01-01T12:00:00Z",
"updated_at": "2012-01-01T12:00:00Z"
}
You may consider optionally providing a way for clients to retrieve more verbose response, either via a query parameter (e.g. ?pretty=true
) or via an Accept
header param (e.g. Accept: application/vnd.heroku+json; version=3; indent=4;
).
Artifacts
Provide machine-readable JSON schema
Provide a machine-readable schema to exactly specify your API. Use prmd to manage your schema, and ensure it validates with prmd verify
.
Provide human-readable docs
Provide human-readable documentation that client developers can use to understand your API.
If you create a schema with prmd as described above, you can easily generate Markdown docs for all endpoints with prmd doc
.
In addition to endpoint details, provide an API overview with information about:
- Authentication, including acquiring and using authentication tokens.
- API stability and versioning, including how to select the desired API version.
- Common request and response headers.
- Error serialization format.
- Examples of using the API with clients in different languages.
Provide executable examples
Provide executable examples that users can type directly into their terminals to see working API calls. To the greatest extent possible, these examples should be usable verbatim, to minimize the amount of work a user needs to do to try the API, e.g.:
$ export TOKEN=... # acquire from dashboard
$ curl -is https://$TOKEN@service.com/users
If you use prmd to generate Markdown docs, you will get examples for each endpoint for free.
Describe stability
Describe the stability of your API or its various endpoints according to its maturity and stability, e.g. with prototype/development/production flags.
See the Heroku API compatibility policy for a possible stability and change management approach.
Once your API is declared production-ready and stable, do not make backwards incompatible changes within that API version. If you need to make backwards-incompatible changes, create a new API with an incremented version number.
Translations
- Portuguese version (based on fba98f08b5), by @Gutem
- Spanish version (based on 2a74f45), by @jmnavarro
- Korean version (based on f38dba6), by @yoondo
- Simplified Chinese version (based on 337c4a0), by @ZhangBohan
- Traditional Chinese version (based on 232f8dc), by @kcyeu
- Turkish version (based on c03842f), by @hkulekci