An in-memory web api for Angular demos and tests that emulates CRUD operations over a RESTy API.
It intercepts Angular Http
and HttpClient
requests that would otherwise go to the remote server and redirects them to an in-memory data store that you control.
See Austin McDaniel's article for a quick introduction.
Perhaps you installed a new version of this library? Check the CHANGELOG.md for breaking changes that may have affected your app.
If that doesn't explain it, create an issue on github, preferably with a small repro.
-
Demo apps that need to simulate CRUD data persistence operations without a real server. You won't have to build and start a test server.
-
Whip up prototypes and proofs of concept.
-
Share examples with the community in a web coding environment such as Plunker or CodePen. Create Angular issues and StackOverflow answers supported by live code.
-
Simulate operations against data collections that aren't yet implemented on your dev/test server. You can pass requests thru to the dev/test server for collections that are supported.
-
Write unit test apps that read and write data. Avoid the hassle of intercepting multiple http calls and manufacturing sequences of responses. The in-memory data store resets for each test so there is no cross-test data pollution.
-
End-to-end tests. If you can toggle the app into test mode using the in-memory web api, you won't disturb the real database. This can be especially useful for CI (continuous integration) builds.
LIMITATIONS
The in-memory-web-api exists primarily to support the Angular documentation. It is not supposed to emulate every possible real world web API and is not intended for production use.
Most importantly, it is always experimental. We will make breaking changes and we won't feel bad about it because this is a development tool, not a production product. We do try to tell you about such changes in the
CHANGELOG.md
and we fix bugs as fast as we can.
This in-memory web api service processes an HTTP request and
returns an Observable
of HTTP Response
object
in the manner of a RESTy web api.
It natively handles URI patterns in the form :base/:collectionName/:id?
Examples:
// for requests to an `api` base URL that gets heroes from a 'heroes' collection
GET api/heroes // all heroes
GET api/heroes/42 // the hero with id=42
GET api/heroes?name=^j // 'j' is a regex; returns heroes whose name starting with 'j' or 'J'
GET api/heroes.json/42 // ignores the ".json"
The in-memory web api service processes these requests against a "database" - a set of named collections - that you define during setup.
Create an InMemoryDataService
class that implements InMemoryDbService
.
At minimum it must implement createDb
which
creates a "database" hash whose keys are collection names
and whose values are arrays of collection objects to return or update.
For example:
import { InMemoryDbService } from 'angular-in-memory-web-api';
export class InMemHeroService implements InMemoryDbService {
createDb() {
let heroes = [
{ id: 1, name: 'Windstorm' },
{ id: 2, name: 'Bombasto' },
{ id: 3, name: 'Magneta' },
{ id: 4, name: 'Tornado' }
];
return {heroes};
}
}
Notes
-
The in-memory web api library currently assumes that every collection has a primary key called
id
. -
The
createDb
method can be synchronous or asynchronous. It would have to be asynchronous if you initialized your in-memory database service from a JSON file. Return the database object, an observable of that object, or a promise of that object. The tests include an example of all three. -
The in-memory web api calls your
InMemoryDbService
data service class'screateDb
method on two occasions.- when it handles the first HTTP request
- when it receives a
resetdb
command.
In the command case, the service passes in a
RequestInfo
object, enabling thecreateDb
logic to adjust its behavior per the client request. See the tests for examples.
Register your data store service implementation with the HttpClientInMemoryWebApiModule
in your root AppModule.imports
calling the forRoot
static method with this service class and an optional configuration object:
import { HttpClientModule } from '@angular/common/http';
import { HttpClientInMemoryWebApiModule } from 'angular-in-memory-web-api';
import { InMemHeroService } from '../app/hero.service';
@NgModule({
imports: [
HttpClientModule,
HttpClientInMemoryWebApiModule.forRoot(InMemHeroService),
...
],
...
})
export class AppModule { ... }
Notes
-
Always import the
HttpClientInMemoryWebApiModule
after theHttpClientModule
to ensure that the in-memory backend provider supersedes the Angular version. -
You can setup the in-memory web api within a lazy loaded feature module by calling the
.forFeature
method as you would.forRoot
. -
In production, you want HTTP requests to go to the real server and probably have no need for the in-memory provider. CLI-based apps can exclude the provider in production builds like this:
imports: [ HttpClientModule, environment.production ? [] : HttpClientInMemoryWebApiModule.forRoot(InMemHeroService) ... ]
The tests (src/app/*.spec.ts
files) in the
github repository
are a good place to learn how to setup and use this in-memory web api library.
See also the example source code in the official Angular.io documentation such as the HttpClient guide and the Tour of Heroes.
Some features are not readily apparent in the basic usage described above.
The InMemoryBackendConfigArgs
defines a set of options. Add them as the second forRoot
argument:
InMemoryWebApiModule.forRoot(InMemHeroService, { delay: 500 }),
Read the InMemoryBackendConfigArgs
interface to learn about these options.
This service can evaluate requests in multiple ways depending upon the configuration. Here's how it reasons:
- If it looks like a command, process as a command
- If the HTTP method is overridden, try the override.
- If the resource name (after the api base path) matches one of the configured collections, process that
- If not but the
Config.passThruUnknownUrl
flag istrue
, try to pass the request along to a real XHR. - Return a 404.
See the handleRequest
method implementation for details.
By default this service adds a 500ms delay to all data requests to simulate round-trip latency.
Command requests have zero added delay as they concern in-memory service configuration and do not emulate real data requests.
You can change or eliminate the latency by setting a different delay
value:
InMemoryWebApiModule.forRoot(InMemHeroService, { delay: 0 }), // no delay
InMemoryWebApiModule.forRoot(InMemHeroService, { delay: 1500 }), // 1.5 second delay
Pass custom filters as a regex pattern via query string. The query string defines which property and value to match.
Format: /app/heroes/?propertyName=regexPattern
The following example matches all names start with the letter 'j' or 'J' in the heroes collection.
/app/heroes/?name=^j
Search pattern matches are case insensitive by default. Set
config.caseSensitiveSearch = true
if needed.
If an existing, running remote server should handle requests for collections
that are not in the in-memory database, set Config.passThruUnknownUrl: true
.
Then this service will forward unrecognized requests to the remote server
via the Angular default XHR
backend (it depends on whether your using Http
or HttpClient
).
The client may issue a command request to get configuration state from the in-memory web api service, reconfigure it, or reset the in-memory database.
When the last segment of the api base path is "commands", the collectionName
is treated as the command.
Example URLs:
commands/resetdb // Reset the "database" to its original state
commands/config // Get or update this service's config object
Usage:
http.post('commands/resetdb', undefined);
http.get('commands/config');
http.post('commands/config', '{"delay":1000}');
Command requests do not simulate real remote data access. They ignore the latency delay and respond as quickly as possible.
The resetDb
command
calls your InMemoryDbService
data service's createDb
method with the RequestInfo
object,
enabling the createDb
logic to adjust its behavior per the client request.
In the following example, the client includes a reset option in the command request body:
http
// Reset the database collections with the `clear` option
.post('commands/resetDb', { clear: true }))
// when command finishes, get heroes
.concatMap(
()=> http.get<Data>('api/heroes')
.map(data => data.data as Hero[])
)
// execute the request sequence and
// do something with the heroes
.subscribe(...)
See the tests for other examples.
The parseRequestUrl
parses the request URL into a ParsedRequestUrl
object.
ParsedRequestUrl
is a public interface whose properties guide the in-memory web api
as it processes the request.
Default parsing depends upon certain values of config
: apiBase
, host
, and urlRoot
.
Read the source code for the complete story.
Configuring the apiBase
yields the most interesting changes to parseRequestUrl
behavior:
-
For
apiBase=undefined
andurl='http://localhost/api/customers/42'
{apiBase: 'api/', collectionName: 'customers', id: '42', ...}
-
For
apiBase='some/api/root/'
andurl='http://localhost/some/api/root/customers'
{ apiBase: 'some/api/root/', collectionName: 'customers', id: undefined, ... }
-
For
apiBase='/'
andurl='http://localhost/customers'
{ apiBase: '/', collectionName: 'customers', id: undefined, ... }
The actual api base segment values are ignored. Only the number of segments matters. The following api base strings are considered identical: 'a/b' ~ 'some/api/' ~ `two/segments'
This means that URLs that work with the in-memory web api may be rejected by the real server.
You can override the default parser by implementing a parseRequestUrl
method in your InMemoryDbService
.
The service calls your method with two arguments.
-
url
- the request URL string -
requestInfoUtils
- utility methods in aRequestInfoUtilities
object, including the default parser. Note that some values have not yet been set as they depend on the outcome of parsing.
Your method must either return a ParsedRequestUrl
object or null
|undefined
,
in which case the service uses the default parser.
In this way you can intercept and parse some URLs and leave the others to the default parser.
Collection items are presumed to have a primary key property called id
.
You can specify the id
while adding a new item.
The service will blindly use that id
; it does not check for uniqueness.
If you do not specify the id
, the service generates one via the genId
method.
You can override the default id generator with a method called genId
in your InMemoryDbService
.
Your method receives the new item's collection and collection name.
It should return the generated id.
If your generator returns null
|undefined
, the service uses the default generator.
You can change the response returned by the service's default HTTP methods. A typical reason to intercept is to add a header that your application is expecting.
To intercept responses, add a responseInterceptor
method to your InMemoryDbService
class.
The service calls your interceptor like this:
responseOptions = this.responseInterceptor(responseOptions, requestInfo);
You may have HTTP requests that the in-memory web api can't handle properly.
You can override any HTTP method by implementing a method
of that name in your InMemoryDbService
.
Your method's name must be the same as the HTTP method name but all lowercase.
The in-memory web api calls it with a RequestInfo
object that contains request data and utility methods.
For example, if you implemented a get
method, the web api would be called like this:
yourInMemDbService["get"](requestInfo)
.
Your custom HTTP method must return either:
-
Observable<Response>
- you handled the request and the response is available from this observable. It should be "cold". -
null
/undefined
- you decided not to intervene, perhaps because you wish to intercept only certain paths for the given HTTP method. The service continues with its default processing of the HTTP request.
The RequestInfo
is an interface defined in src/in-mem/interfaces.ts
.
Its members include:
req: Request; // the request object from the client
collectionName: string; // calculated from the request url
collection: any[]; // the corresponding collection (if found)
id: any; // the item `id` (if specified)
url: string; // the url in the request
utils: RequestInfoUtilities; // helper functions
The functions in utils
can help you analyze the request
and compose a response.
The github repository demonstrates library usage with tested examples.
The HeroInMemDataService
class (in src/app/hero-in-mem-data.service.ts
) is a Hero-oriented InMemoryDbService
such as you might see in an HTTP sample in the Angular documentation.
The HeroInMemDataOverrideService
class (in src/app/hero-in-mem-data-override.service.ts
)
demonstrates a few ways to override methods of the base HeroInMemDataService
.
The tests (see below) exercise these examples.
Follow these steps for updating the library.
-
gulp bump
- up the package version number. -
update
CHANGELOG.md
to record the change. Call out breaking changes. -
update
README.md
if usage or interfaces change. -
consider updating the dependency versions in
package.json
. -
npm install
the new package(s) if you did. -
npm list --depth=0
to make sure they really did install! -
gulp clean
to delete all generated files. -
npm test
to dev-build and run tests (see "Testing" below). -
gulp build
to build for distribution. -
git add, commit, and push.
-
npm publish
-
Confirm that angular.io docs samples still work
-
Add two tags to the release commit in github
- the version number
- 'latest'
The "app" for this repo is not a real app.
It's an Angular data service (HeroService
) and a bunch of tests.
Note that the
tsconfig.json
produces acommonjs
module. That's what Angular specs require. But when building for an app, it should be aes2015
module, as is thetsconfig-ngc.json
for AOT-ready version of this library.
These tests are a work-in-progress, as tests often are.
The src/
folder is divided into
-
app/
- the test "app" and its tests -
in-mem/
- the source code for the in-memory web api library
A real app would reference the in-memory web api node module; these tests reference the library source files.
The karma-test-shim.js
adds the in-mem
folder to the list of folders that SystemJS should resolve.
The gulp "umd" task runs rollup for tree-shaking.
I don't remember if it ever worked without a lot of warnings.
The v0.4.x
release updated to rollup@0.49
which required updates to the rollup.config.js
.
Still weirdly runs cjs
rollup config first that I canât find (which produces numerous warnings) before doing the right thing and running the umd
config.
Also does not work if you follow instructions and use the output
property of rollup.config.js
; does work when configure it âwrongâ and put the options in the root.
Ignoring these issues for now.