Let's take a look at the key API Manager concepts and terminology.
API Manager components
A component is made up of one or more OSGi bundles. A bundle is the modularization unit in OSGi, similar to a JAR file in Java. The component-based architecture of all WSO2 products gives developers flexibility to remove or add features with minimum dependencies.
The API Manager comprises the following high-level components:
API development is usually done by someone who understands the technical aspects of the API, interfaces, documentation, versions etc., while API management is typically carried out by someone who understands the business aspects of the APIs. In most business environments, API development is a responsibility that is distinct from API publication and management.
WSO2 API Manager provides a simple Web interface called WSO2 API Publisher for API development and management. It is a structured GUI designed for API creators to develop, document, scale and version APIs, while also facilitating more API management-related tasks such as publishing API, monetization, analyzing statistics, and promoting.
The API Publisher URL is
//<YourHostName>:9443/publisher and it is accessible on HTTPS only. The default credentials are admin/admin.
The diagram below shows the common lifecycle activities of an API developer/manager:
The API Store Web application provides a collaborative interface for API publishers to host and advertise their APIs and for API consumers to self register, discover, evaluate, subscribe to and use secured, protected, authenticated APIs.
The API Store URL is
//<YourHostName>:9443/store and it is accessible on HTTPS only. The default credentials are admin/admin.
The diagram below shows common API consumer lifecycle activities:
A runtime, backend component (an API proxy) developed using WSO2 ESB. API Gateway secures, protects, manages, and scales API calls. It intercepts API requests, applies policies such as throttling and security using handlers and manages API statistics. Upon validation of a policy, the Gateway passes Web service calls to the actual backend. If the service call is a token request, the Gateway passes it directly to the Key Manager.
When the API Manager is running, you can access the Gateway using the URL You integrate a monitoring and statistics component to the API Manager without any additional configuration effort. This monitoring component integrates with WSO2 Business Activity Monitor, which can be deployed separately to analyze events. For more information, see Publishing API Runtime Statistics Using WSO2 DAS.
Although the API Gateway contains ESB features, it is recommended not to use it for ESB-specific tasks. Use it only for Gateway functionality related to API invocations. For example, if you want to call external services like SAP, use a separate ESB cluster for that.
Manages all clients, security and access token-related operations. The Gateway connects with the Key Manager to check the validity of OAuth tokens, subscriptions and API invocations. When a subscriber creates an application and generates an access token to the application using the API Store, the Store makes a call to the API Gateway, which in turn connects with the Key Manager to create an OAuth client and obtain an access token. Similarly, to validate a token, the API Gateway calls the Key Manager, which fetches and validates the token details from the database.
The Key Manager also provides a token API to generate OAuth tokens that can be accessed via the Gateway. All tokens used for validation are based on the OAuth 2.0.0 protocol. Secure authorization of APIs is provided by the OAuth 2.0 standard for key management. The API Gateway supports API authentication with OAuth 2.0, and enables IT organizations to enforce rate limits and throttling policies.
The Key Manager properly decouples the operations for creating OAuth applications and validating access tokens so that you can even plug in a third party-authorization server for key validations.
You can avoid making the Gateway connect with the Key Manager every time it receives an API invocation call, by enabling API Gateway caching. When is not enabled, a verification call happens every time the Gateway receives an API invocation call. For this verification, the Gateway passes an access token, the API, API version to the Key Manager. Communication between the API Gateway and the Key Manager happens in either of the following ways:
- Through a Web service call
- Through a Thrift call (Thrift is the default communication protocol and is much faster than SOAP over HTTP)
If your setup has a cluster of multiple Key Manager nodes that are fronted by a load balancer that does not support Thrift, change the key management protocol from Thrift to WSClient using the
<KeyValidatorClientType> element in . Thrift uses TCP load balancing.
In a typical production environment, you can configure one of the following setups:
- Configure a WSO2 API Manager instance as the Key Manager in a separate server. See Product Profiles.
- Configure an instance of WSO2 Identity Server as the Key Manager. See Configuring WSO2 Identity Server as the Key Manager.
- Configure a third-party authorization server for key validations and an API Manager instance for the rest of the key management operations. See Configuring a Third-Party Key Manager.
When an API is created, a file with its synapse configuration is added to the API Gateway. You can find it in the
<APIM_HOME>/repository/deployment/server/synapse-configs/default/api folder. It has a set of handlers, each of which is executed on the APIs in the same order they appear in the configuration. You find the default handlers in any API's Synapse definition
For a detailed description of handlers and how to write a custom handler, see Writing Custom Handlers.
Additionally, statistics are provided by the monitoring component, which integrates with WSO2 DAS.
The components are depicted in the diagram below:
Users and roles
The API Manager offers four distinct community roles that are applicable to most enterprises:
- Admin: The API management provider who hosts and manages the . S/he is responsible for creating user roles in the system, assign them roles, managing databases, security etc. The Admin role is available by default with credentials admin/admin.
- Creator: a creator is a person in a technical role who understands the technical aspects of the API (interfaces, documentation, versions etc.) and uses the API publisher to provision APIs into the API store. The creator uses the API Store to consult ratings and feedback provided by API users. Creator can add APIs to the store but cannot manage their lifecycle.
- Publisher : a publisher manages a set of APIs across the enterprise or business unit and controls the API lifecycle, subscriptions and monetization aspects. The publisher is also interested in usage patterns for APIs and has access to all API statistics.
- Subscriber : a subscriber uses the API store to discover APIs, read the documentation and forums, rate/comment on the APIs, subscribes to APIs, obtain access tokens and invoke the APIs.
Tip: See Managing Users and Roles for more information.
An API is the published interface, while the service is the implementation running in the backend. APIs have their own lifecycles that are independent to the backend services they rely on. This lifecycle is exposed in the API publisher Web interface and is managed by the API publisher role.
The following stages are available in the default API lifecycle:
- CREATED: API metadata is added to the API Store, but it is not deployed in the API gateway and therefore, is not visible to subscribers in the API Store.
- PROTOTYPED: the API is deployed and published in the API Store as a prototype. A prototyped API is usually a mock implementation made public in order to get feedback about its usability. Users can invoke the API without a subscription.
- PUBLISHED: The API is visible in the API Store and available for subscription.
- DEPRECATED: When an API is deprecated, new subscriptions are disabled. But the API is still deployed in the Gateway and is available at runtime to existing subscribers. Existing subscribers can continue to use it as usual until the API is retired.
- RETIRED: The API is unpublished from the API gateway and deleted from the store.
- BLOCKED: Access to the API is temporarily blocked. Runtime calls are blocked and the API is not shown in the API Store anymore.
An application is a logical collection of APIs. An application is primarily used to decouple the consumer from the APIs. It allows you to :
- Generate and use a single key for multiple APIs
- Subscribe multiple times to a single API with different SLA levels
You subscribe to APIs through an application. Applications are available at different SLA levels, and have application-level throttling tiers engaged in them. A throttling tier determines the maximum number of calls you can make to an API during a given period of time.
The API Manager comes with a pre-created, default application, which allows unlimited access by default. You can also create your own applications.
An access token is a simple string that is passed as an HTTP header of a request. For example, "
Authorization: Bearer NtBQkXoKElu0H1a1fQ0DWfo6IX4a." Access tokens authenticate API users and applications, and ensure better security (e.g., prevent DoS attacks). If a token that is passed with a request is invalid, the request is discarded in the first stage of processing. Access tokens work equally well for SOAP and REST calls.
For more information about different types of access tokens and how to generate them, see Working with Access Tokens.
Throttling allows you to limit the number of successful hits to an API during a given period of time, typically in cases such as the following:
- To protect your APIs from common types of security attacks such as
- To regulate traffic according to infrastructure availability
- To make an API, application or a resource available to a consumer at different levels of service, usually for monetization purpose
You can define throttling in the API, application and resource levels. The final request limit granted to a given user on a given API is ultimately defined by the consolidated output of all throttling tiers together.
Example: Lets say two users subscribed to an API using the Gold subscription, which allows 20 requests per minute. They both use the application App1 for this subscription, which again has a throttling tier set to 20 requests per minute. All resource level throttling tiers are unlimited. In this scenario, although both users are eligible for 20 requests per minute access to the API, each ideally has a limit of only 10 requests per minute. This is due to the application-level limitation of 20 requests per minute.
Different levels of throttling
Application-level throttling tiers are defined at the time an application is created in the API Store as shown below:
An application is a logical collection of one or more APIs and is required to subscribe to an API. Applications allow you to use a single access token to invoke a collection of APIs and to subscribe to one API multiple times with different SLA levels.
An application is available to a consumer at different levels of service. For example, if you have infrastructure limitations in facilitating more than a certain number of requests to an application at a time, the throttling tiers can be set accordingly so that the application can have a maximum number of requests within a defined time. The default throttling levels are are as follows:
- Bronze: 1 request per minute
- Silver: 5 requests per minute
- Gold: 20 requests per minute
- Unlimited: Unlimited access. The Default Application, which is provided out of the box has Unlimited tier set. You have the option to set it to a restricted limit.
An API is made up of one or more resources. Each resource handles a particular type of request and is analogous to a method (function) in a larger API. Resource-level throttling tiers are set to HTTP verbs of an API'swhen using the API Publisher portal as shown below:
API-level throttling tiers are defined whenusing the API Publisher portal. The UI looks as follows:
After API-level throttling tiers are set and the API is published,, the consumers of the API can log in to the API Store and select which tier they are interested in as follows:
According to the tiers the subscriber selects, s/he is granted a maximum number of requests to the API. The default tiers are as follows:
- Bronze: 1 request per minute
- Silver: 5 requests per minute
- Gold: 20 requests per minute
- Unlimited: Allows unlimited access (you can disable the Unlimited tier by editing the
<TierManagement>node of the
Setting tier permissions: Users with
Manage Tiers permission can set role-based permissions to API-level access throttling tiers. This is done using the Tier Permissions menu in the API Publisher as shown below. For each tier, you can specify a comma-separated list of roles and either Allow or Deny access to the list.
A subscriber logged into the API Store can consume APIs using a specific tier only if s/he is assigned to a role that is allowed access. In the API Store, the subscriber sees a list of tiers that is filtered based on the subscriber's role. Only the ALLOWED roles appear here. By default, all tiers are allowed to everyone.
In IP-based throttling, you can limit the number of requests sent by a client IP (e.g., 10 calls from single client).
- Log in to the management console and click the Resources -> Browse menu.
Navigate to the
tiers.xmlfile in the registry location
Add your policy. For example, the throttling policy shown below allows only 1 API call per minute for a client from 10.1.1.1 and 2 calls per minute for a client from any other IP address.
If you need to add a list of IPs / subnets for throttling you can derive the IP range from CIDR (Classless Inter-Domain Routing) notation and add it to the throttling policy configuration as follows.
If IP / subnet is "10.1.1.1/27" in CIDR notation, the IP address range is between "10.1.1.1 - 10.1.1.30" (if we keep 31 for broadcast). Therefore you can add throttling for the IP range as follows.
API visibility and subscription
Visibility settings prevent certain user roles from viewing and modifying APIs created by another user role.
- Public: The API is visible to all users (registered and anonymous), and can be advertised in multiple stores (central and non-WSO2 stores).
Restricted by Roles: The API is visible to its tenant domain and only to the user roles that you specify.
Visible to my domain: The API is visible to all users who are registered to the API's tenant domain. This option is available only in a multi-tenanted environment. It's not applicable when there is only one active tenant in the system.
Given below is how visibility levels work for users in different roles:
publisherroles can see all APIs in their tenant store even if you restrict access to them. This is because those roles have permission to view and edit all APIs in the API Publisher, and therefore, does not have to be restricted in the Store.
- Anonymous users can only see APIs that have visibility as
- Registered users can see
- public APIs of all tenant domains
- all APIs in the registered user's tenant domain as long as the API is not restricted to a role that the user is assigned to
The subscription availability option has three values as follows. You can set subscription availability to an API through the API Publisher's Manage tab.
- Available to current Tenant Only: only users in the current organization/tenant domain can subscribe to the API
- Available to All the Tenants: users of all organizations/tenant domains can subscribe to the API
- Available to Specific Tenants: users of the organizations/tenant domains that you specify as well as the current tenant domain can subscribe to the API
Subscription is available only to the current tenant in the following instances:
- When there is only one tenant in your system.
- Even if there are multiple tenants in your system, when you select Visible to my domain or Restricted by roles as the API's visibility in the previous step.
The diagram below depicts the relationship between the API's visibility and subscription availability:
API documentation visibility
By default, any document associated with an API has the same visibility level of the API. That is, if the API is public, its documentation is also visible to all users (registered and anonymous). To enable other visibility levels to the documentation, go to
<AM_HOME>/repository/conf/api-manager.xml file, uncomment and set the following element to true:
Then, log in to the API Publisher, go to the Doc tab and click Add new Document to see a new drop-down list added to select visibility from:
You set visibility in the following ways:
- Same as API visibility: Visible to the same user roles who can see the API. For example, if the API's visibility is public, its documentation is visible to all users.
- Visible to my domain: Visible to all registered users in the API's tenant domain.
- Private: Visible only to the users who have permission to log in to the API Publisher Web interface and create and/or publish APIs to the API Store.
An API is made up of one or more resources, each of which handles a particular type of request. A resource has a set of methods that operate on it. The methods is analogous to a method or a function, and a resource is analogous to an object instance or a class in an object-oriented programming language. There are a few standard methods defined for a resource (corresponding to the standard HTTP GET, POST, PUT and DELETE methods.)
The diagram below shows a resource by the name
CheckPhoneNumber added with four HTTP methods.
A URL pattern can be one of the following types:
The terms url-mapping and uri-template come from synapse configuration language. When an API is published in the API Publisher, a corresponding XML definition is created in the API Gateway. This XML file has a dedicated section for defining resources. See examples below:
url-mapping performs a one-to-one mapping with the request URL, whereas the uri-template performs a pattern matching.
Parametrizing the URL allows the API Manager to map the incoming requests to the defined resource templates based on the message content and request URI. Once a uri-template is matched, the parameters in the template are populated appropriately. As per the above example, a request made to http://gatewa_host:gateway_port/api/v1/texas/houston sets the value of
Also see http://tools.ietf.org/html/rfc6570 on URI templates.
Once a request is accepted by a resource, it will be mediated through an in-sequence. Any response from the backend is handled through the out-sequence. Fault sequences are used to mediate errors that might occur in either sequence. The default in-sequence, out-sequence and fault sequences are generated when the API is published.
HTTP methods specify the desired action to be performed on an API's resource. You can select multiple methods from GET, POST, PUT, DELETE and OPTIONS. A method has attributes such as an OAuth scope, authentication type, response content type, parameters etc. as the diagram below shows:
The main attributes of a method are described below:
You can define a list of OAuth scopes to an API's resource and assign one of them to each HTTP method.
The authentication type can be one of the following:
Note that for the resources that have HTTP verbs (GET, POST etc.) requiring authentication (i.e., Auth Type is not NONE), set None as the Auth type of OPTIONS. This is to support CORS (Cross Origin Resource Sharing) between the API Store and Gateway. (The above screenshot shows this).
The auth type is cached in the API Manager for better performance. If you change the auth type through the UI, it takes about 15 minutes to refresh the cache. During that time, the server returns the old auth type from the cache. If you want the changes to be reflected immediately, please restart the server after changing the auth type.
|Response content type||You can use this attribute to document in what type the backend sends the response back to the API Manager. Note that this attribute doesn't do any message type conversion, but used simply as a way of letting the user know what type the response will be.|
|Parameters||Parameters of an HTTP method are analogous to arguments of a function in an object-oriented programming language. A resource's parameters are cached in the resource cache at the API Gateway.|
Cross-origin resource sharing
The CORS configuration is in
<APIM_HOME>/repository/conf/api-manager.xml file. Given below is a sample code.
The elements are described below:
|<Enabled>||True/False||Used to enable/disable sending CORS headers from the Gateway. By default, CORS is enabled (True). This is needed for Swagger to function properly.|
|<Access-Control-Allow-Origin>||HTTP and HTTPS Store Address. Change the Host and Port for correct values of your store. For example, ||The value of the |
Header values you need to pass when invoking the API. For example,
|Default values are sufficient for Swagger to function.|
Change your code according to the sample given here.
If you try to invoke an API with inline endpoints, you add the CORS Handler in the
<handlers> section of the API's configuration as follows. Find the API's configuration in the
Scopes enable fine-grained access control to API resources based on user roles. You define scopes to an API's resources. When a user invokes the API, his/her OAuth 2 bearer token cannot grant access to any API resource beyond its associated scopes.
How scopes work
To illustrate the functionality of scopes, assume you have the following scopes attached to resources of an API:
Assume that users named Tom and John are assigned the employee role and both the employee and manager roles respectively.
Tom requests a token through the Token API as
grant_type=password&username=tom&password=xxxx&scope=news_read news_write. However, as Tom is not in the manager role, he will only be granted a token bearing the
news_read scope. The response from the Token API will be similar to the following:
Next, John requests a token as
grant_type=password&username=john&password=john123&scope=news_read news_write. As john has both roles assigned, the token will bear both the requested scopes and the response will be similar to the following:
This means that Tom can only access the GET operation of the API while John can access both as he is assigned to both the employee and manager roles. If Tom tries to access the POST operation, there will be an HTTP 403 Forbidden error as follows:
Applying a scope
You apply scopes to an API resource at the time the API is created or modified. In the API Publisher, click the API -> Add menu (to add a new API) or the Edit link next to an existing API. Then, navigate to the Manage tab and scroll down to see the Add Scopes button under Resources. A screen such as the following appears:
|Scope Key||A unique key for identifying the scope. Typically, it is prefixed by part of the API's name for uniqueness, but is not necessarily reader-friendly.|
|Scope Name||A human-readable name for the scope. It typically says what the scope does.|
The user role(s) that are allowed to obtain a token against this scope. E.g., manager, employee.
When the role you specify is in a secondary user store, you have to specify the role as
Tip: When you generate access tokens to APIs protected by scope/s, a Select Scopes button is displayed in the My Subscriptions page for you to select the scope/s first and then generate the token to it.
A scope is not always used for controlling access to a resource. You can also use it to simply mark an access token. There are scopes that cannot be associated to roles (e.g., openid, device_). Such scopes do not have to have roles associated with them. Skipping role validation for scopes is called scope whitelisting.
If you do not want a role validation for a scope in an API's request, add the scope under the
APIKeyValidation element in the
<APIM_HOME>/repository/conf/api-manager.xml file and restart the server. It will be whitelisted. For example,
Next, invoke the Token API to get a token for the scope that you just whitelisted. For example,
Note that the issued token has the scope you requested. You get the token without any role validation as the scope is whitelisted.
An API template is its XML representation, which is saved in
file. This file comes with the API Manager by default. You can edit this default template to change the synapse configuration of all APIs that are created.
If you are using a distributed API Manager setup (i.e., Publisher, Store, Gateway and Key Manager components are running on separate JVMs), edit the template in the Publisher node.
An endpoint is a specific destination for a message such as an address, WSDL, a failover group, a load-balance group etc.
WSO2 API Manager has support for a range of different endpoint types, allowing the API Gateway to connect with advanced types of backends. It supports HTTP endpoints, URL endpoints (also termed as address endpoint), WSDL endpoints, Failover endpoints, Load-balanced endpoints. For more information about endpoints and how to add, edit or delete them, see the WSO2 ESB documentation.
The system reads gateway endpoints from the
<JAVA_HOME>/Repository/conf/api-manager.xmlfile. When there are multiple gateway environments defined, it picks the gateway endpoint of the production environment. You can define both HTTP and HTTPS gateway endpoints as follows:
If both types of endpoints are defined, the HTTPS endpoint will be picked as the server endpoint.
Tip: When you define secure (HTTPS) endpoints, set the
<parameter name="HostnameVerifier">element to
<APIM_HOME>/repository/conf/axis2/axis2.xmlfile's HTTPS transport sender configuration
If not, the server throws an exception.
When creating (or updating) Failover endpoints through the Publisher UI (in the Implement tab), you need to go into the Advanced Options of each endpoint and specify a set of Error Codes for the endpoint to fail over on and take off the Initial Duration by setting its value to -1.
The API Manager has a default mediation flow that is executed in each API invocation. There are 3 default sequences engaged as
For information on configuring caching response messages and caching API calls at the Gateway and Key Manager server, see Configuring Caching.