An API implementation is deployed to CloudHub. What conditions can be alerted on using the default Anypoint Platform functionality, where the alert conditions depend on the API invocations to an API implementation?
A. When the API invocations are sent directly to the internal DNS record of the API implementation
B. When the API invocations are not over-a- secure TLS/SSL communication channel
C. When the APL invecations originate from a geography different than the API
D. When the number of API invocations are below a threshold
An API implementation is being designed that must invoke an Order API, which is known to
repeatedly experience downtime.
For this reason, a fallback API is to be called when the Order API is unavailable.
What approach to designing the invocation of the fallback API provides the best resilience?
A.
Search Anypoint Exchange for a suitable existing fallback API, and then implement
invocations to this fallback API in addition to the Order API
B.
Create a separate entry for the Order API in API Manager, and then invoke this API as a
fallback API if the primary Order API is unavailable
C.
Redirect client requests through an HTTP 307 Temporary Redirect status code to the
fallback API whenever the Order API is unavailable
D.
Set an option in the HTTP Requester component that invokes the Order API to instead
invoke a fallback API whenever an HTTP 4xx or 5xx response status code is returned from
the Order API
Search Anypoint Exchange for a suitable existing fallback API, and then implement
invocations to this fallback API in addition to the Order API
Explanation: Explanation
Correct Answer: Search Anypoint exchange for a suitable existing fallback API, and then
implement invocations to this fallback API in addition to the order API
*****************************************
>> It is not ideal and good approach, until unless there is a pre-approved agreement with
the API clients that they will receive a HTTP 3xx temporary redirect status code and they
have to implement fallback logic their side to call another API.
>> Creating separate entry of same Order API in API manager would just create an
another instance of it on top of same API implementation. So, it does NO GOOD by using
clone od same API as a fallback API. Fallback API should be ideally a different API
implementation that is not same as primary one.
>> There is NO option currently provided by Anypoint HTTP Connector that allows us to
invoke a fallback API when we receive certain HTTP status codes in response.
The only statement TRUE in the given options is to Search Anypoint exchange for a
suitable existing fallback API, and then implement invocations to this fallback API in
addition to the order API.
When using CloudHub with the Shared Load Balancer, what is managed EXCLUSIVELY
by the API implementation (the Mule application) and NOT by Anypoint Platform?
A.
The assignment of each HTTP request to a particular CloudHub worker
B.
The logging configuration that enables log entries to be visible in Runtime Manager
C.
The SSL certificates used by the API implementation to expose HTTPS endpoints
D.
The number of DNS entries allocated to the API implementation
The SSL certificates used by the API implementation to expose HTTPS endpoints
Explanation: Explanation
Correct Answer: The SSL certificates used by the API implementation to expose HTTPS
endpoints
*****************************************
>> The assignment of each HTTP request to a particular CloudHub worker is taken care by
Anypoint Platform itself. We need not manage it explicitly in the API implementation and in
fact we CANNOT manage it in the API implementation.
>> The logging configuration that enables log entries to be visible in Runtime Manager is
ALWAYS managed in the API implementation and NOT just for SLB. So this is not
something we do EXCLUSIVELY when using SLB.
>> We DO NOT manage the number of DNS entries allocated to the API implementation
inside the code. Anypoint Platform takes care of this.
It is the SSL certificates used by the API implementation to expose HTTPS endpoints that
is to be managed EXCLUSIVELY by the API implementation. Anypoint Platform does NOT
do this when using SLBs.
A system API is deployed to a primary environment as well as to a disaster recovery (DR)
environment, with different DNS names in each environment. A process API is a client to
the system API and is being rate limited by the system API, with different limits in each of
the environments. The system API's DR environment provides only 20% of the rate limiting
offered by the primary environment. What is the best API fault-tolerant invocation strategy
to reduce overall errors in the process API, given these conditions and constraints?
A.
Invoke the system API deployed to the primary environment; add timeout and retry logic to
the process API to avoid intermittent failures; if it still fails, invoke the system API deployed
to the DR environment
B.
Invoke the system API deployed to the primary environment; add retry logic to the process
API to handle intermittent failures by invoking the system API deployed to the DR
environment
C.
In parallel, invoke the system API deployed to the primary environment and the system API
deployed to the DR environment; add timeout and retry logic to the process API to avoid
intermittent failures; add logic to the process API to combine the results
D.
Invoke the system API deployed to the primary environment; add timeout and retry logic to
the process API to avoid intermittent failures; if it still fails, invoke a copy of the process API
deployed to the DR environment
Invoke the system API deployed to the primary environment; add timeout and retry logic to
the process API to avoid intermittent failures; if it still fails, invoke the system API deployed
to the DR environment
Explanation: Explanation
Correct Answer: Invoke the system API deployed to the primary environment; add timeout
and retry logic to the process API to avoid intermittent failures; if it still fails, invoke the
system API deployed to the DR environment
*****************************************
There is one important consideration to be noted in the question which is - System API in
DR environment provides only 20% of the rate limiting offered by the primary environment.
So, comparitively, very less calls will be allowed into the DR environment API opposed to
its primary environment. With this in mind, lets analyse what is the right and best faulttolerant
invocation strategy.
1. Invoking both the system APIs in parallel is definitely NOT a feasible approach because
of the 20% limitation we have on DR environment. Calling in parallel every time would
easily and quickly exhaust the rate limits on DR environment and may not give chance to
genuine intermittent error scenarios to let in during the time of need.
2. Another option given is suggesting to add timeout and retry logic to process API while
invoking primary environment's system API. This is good so far. However, when all retries
failed, the option is suggesting to invoke the copy of process API on DR environment which
is not right or recommended. Only system API is the one to be considered for fallback and
not the whole process API. Process APIs usually have lot of heavy orchestration calling
many other APIs which we do not want to repeat again by calling DR's process API. So this
option is NOT right.
3. One more option given is suggesting to add the retry (no timeout) logic to process API to
directly retry on DR environment's system API instead of retrying the primary environment
system API first. This is not at all a proper fallback. A proper fallback should occur only
after all retries are performed and exhausted on Primary environment first. But here, the
option is suggesting to directly retry fallback API on first failure itself without trying main
API. So, this option is NOT right too.
This leaves us one option which is right and best fit.
- Invoke the system API deployed to the primary environment
- Add Timeout and Retry logic on it in process API
- If it fails even after all retries, then invoke the system API deployed to the DR
environment.
A company uses a hybrid Anypoint Platform deployment model that combines the EU
control plane with customer-hosted Mule runtimes. After successfully testing a Mule API
implementation in the Staging environment, the Mule API implementation is set with
environment-specific properties and must be promoted to the Production environment.
What is a way that MuleSoft recommends to configure the Mule API implementation and
automate its promotion to the Production environment?
A.
Bundle properties files for each environment into the Mule API implementation's deployable
archive, then promote the Mule API implementation to the Production environment using
Anypoint CLI or the Anypoint Platform REST APIsB.
B.
Modify the Mule API implementation's properties in the API Manager Properties tab, then
promote the Mule API implementation to the Production environment using API Manager
C.
Modify the Mule API implementation's properties in Anypoint Exchange, then promote the
Mule API implementation to the Production environment using Runtime Manager
D.
Use an API policy to change properties in the Mule API implementation deployed to the
Staging environment and another API policy to deploy the Mule API implementation to the
Production environment
Bundle properties files for each environment into the Mule API implementation's deployable
archive, then promote the Mule API implementation to the Production environment using
Anypoint CLI or the Anypoint Platform REST APIsB.
Explanation: Explanation
Correct Answer: Bundle properties files for each environment into the Mule API
implementation's deployable archive, then promote the Mule API implementation to the
Production environment using Anypoint CLI or the Anypoint Platform REST APIs
*****************************************
>> Anypoint Exchange is for asset discovery and documentation. It has got no provision to
modify the properties of Mule API implementations at all.
>> API Manager is for managing API instances, their contracts, policies and SLAs. It has
also got no provision to modify the properties of API implementations.
>> API policies are to address Non-functional requirements of APIs and has again got no
provision to modify the properties of API implementations.
So, the right way and recommended way to do this as part of development practice is to
bundle properties files for each environment into the Mule API implementation and just
point and refer to respective file per environment.
A company stores financial transaction data in two legacy systems. For each legacy
system, a separate, dedicated System API (SAPI) exposes data for that legacy system. A
Process API (PAPI) merges the data retrieved from ail of the System APIs into a common
format. Several API clients call the PAPI through its public domain name.
The company now wants to expose a subset of financial data to a newly developed mobile
application that uses a different Bounded Context Data Model. The company wants to
follow MuleSoft's best practices for building out an effective application network.
Following MuleSoft's best practices, how can the company expose financial data needed
by the mobile application in a way that minimizes the impact on the currently running API
clients, API implementations, and support asset reuse?
A. Add two new Experience APIs (EAPI-i and EAPI-2}.
Add Mobile PAPI-2 to expose the Intended subset of financial data as requested.
Both PAPIs access the Legacy Systems via SAPI-1 and SAP]-2.
B. Add two new Experience APIs (EAPI-i and EAPI-2}.
Add Mobile PAPI-2 to expose the Intended subset of financial data as requested.
Both PAPIs access the Legacy Systems via SAPI-1 and SAP]-2.
C. Create a new mobile Experince API (EAPI) chat exposes that subset of PAPI endpoints.
Add transformtion login to the mobile Experince API implementation to make mobile data
compatible with the required PAPIs.
D. Develop and deploy is new PAPI implementation with data transformation and ... login to
support this required endpoints of both mobile and web clients.
Deploy an API Proxy with an endpoint from API Manager that redirect the existing PAPI
endpoints to the new PAPI.
Explanation:
To achieve the goal of exposing financial data to a new mobile application while following
MuleSoft’s best practices, the company should follow an API-led connectivity approach.
This approach ensures minimal disruption to existing clients, maximizes reusability, and
respects the separation of concerns across API layers.
Explanation of Solution:
Experience APIs for Client-Specific Requirements:
Process API Layer for Data Transformation:
Reuse of System APIs:
Why Option A is Correct:
Explanation of Incorrect Options:
Option B: This option seems similar but lacks clarity on the separation of mobilespecific
requirements and does not explicitly mention data transformation, which is
essential in this scenario.
Option C: Creating a single mobile Experience API that exposes a subset of PAPI
endpoints directly adds unnecessary complexity and may violate the separation of
concerns, as transformation logic should not be in the Experience layer.
Option D: Deploying a new PAPI and using an API Proxy to redirect existing
endpoints would add unnecessary complexity, disrupt the current API clients, and
increase maintenance efforts.
References:
For additional guidance, refer to MuleSoft documentation on API-led
connectivity best practices and best practices for structuring Experience, Process, and
System APIs.
An auto manufacturer has a mature CI/CD practice and wants to automate packaging and deployment of any Mule applications to various deployment targets, including CloudHub workers/replicas, customer-hosted Mule runtimes, and Anypoint Runtime Fabric. Which MuleSoft-provided tool or component facilitates automating the packaging and deployment of Mule applications to various deployment targets as part of the company's CI/CD practice?
A. Anypoint Runtime Manager
B. Mule Maven plugin
C. Anypoint Platform CLI
D. Anypoint Platform REST APIs
Explanation:
For organizations with established CI/CD practices, the Mule Maven plugin
is the recommended tool for automating packaging and deployment across multiple
environments, including CloudHub, on-premise Mule runtimes, and Anypoint Runtime
Fabric. Here’s why:
Which three tools automate the deployment of Mule applications? (Choose 3 answers)
A. Runtime Manager
B. Anypoint Platform CLI
C. Platform APIs
D. Anypoint Studio
E. Mule Mayen plugin
F. API Community Manager
Explanation:
MuleSoft offers various tools to automate the deployment of Mule
applications, which can streamline deployment and management processes. Here’s how
each tool supports automated deployment:
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