Several times a week, an API implementation shows several thousand requests per minute
in an Anypoint Monitoring dashboard, Between these bursts, the
dashboard shows between two and five requests per minute. The API implementation is
running on Anypoint Runtime Fabric with two non-clustered replicas, reserved vCPU 1.0
and vCPU Limit 2.0.
An API consumer has complained about slow response time, and the dashboard shows the
99 percentile is greater than 120 seconds at the time of the complaint. It also shows greater than 90% CPU usage during these time periods.
In manual tests in the QA environment, the API consumer has consistently reproduced the
slow response time and high CPU usage, and there were no other API requests at
this time. In a brainstorming session, the engineering team has created several proposals
to reduce the response time for requests.
Which proposal should be pursued first?
A. Increase the vCPU resources of the API implementation
B. Modify the API client to split the problematic request into smaller, less-demanding requests
C. Increase the number of replicas of the API implementation
D. Throttle the APT client to reduce the number of requests per minute
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.
A company deployed an API to a single worker/replica in the shared cloud in the U.S. West Region. What happens when the Availability Zone experiences an outage?
A. CloudHub will auto-redeploy the APL in the U.S. East Region
B. The APT will be unavailable until the availability comes back online, at which time the worker/replica will be auto-restarted
C. CloudHub will auto-redeploy the API in another Availability Zone in the U.S. West Region
D. The Anypoint Platform admin is alerted when the AP] is experiencing an outage and needs the trigger the CI/CD pipeline to redeploy to the US. East Region
Explanation:
In a CloudHub deployment with a single worker/replica located in a specific
Availability Zone (AZ), if an AZ experiences an outage, here’s what happens:
Worker Availability: Since the application is deployed in a single AZ, CloudHub
does not automatically redeploy the application in a different zone or region during
an outage. Thus, if the current AZ is unavailable, the application will be offline.
Auto-Restart upon AZ Recovery: Once the affected AZ is back online, CloudHub
will auto-restart the worker in the same AZ without manual intervention. This ensures that as soon as the AZ is functional, the application resumes
automatically.
Refer to the exhibit.
A developer is building a client application to invoke an API deployed to the STAGING
environment that is governed by a client ID enforcement policy.
What is required to successfully invoke the API?
A.
The client ID and secret for the Anypoint Platform account owning the API in the STAGING environment
B.
The client ID and secret for the Anypoint Platform account's STAGING environment
C.
The client ID and secret obtained from Anypoint Exchange for the API instance in the
STAGING environment
D.
A valid OAuth token obtained from Anypoint Platform and its associated client ID and
secret
The client ID and secret obtained from Anypoint Exchange for the API instance in the
STAGING environment
Explanation: Explanation
Correct Answer: The client ID and secret obtained from Anypoint Exchange for the API
instance in the STAGING environment
*****************************************
>> We CANNOT use the client ID and secret of Anypoint Platform account or any individual
environments for accessing the APIs
>> As the type of policy that is enforced on the API in question is "Client ID Enforcment
Policy", OAuth token based access won't work.
Right way to access the API is to use the client ID and secret obtained from Anypoint
Exchange for the API instance in a particular environment we want to work on.
References:
Managing API instance Contracts on API Manager
https://docs.mulesoft.com/api-manager/1.x/request-access-to-api-task
https://docs.mulesoft.com/exchange/to-request-access
https://docs.mulesoft.com/api-manager/2.x/policy-mule3-client-id-based-policies
An enterprise is embarking on the API-led digital transformation journey, and the central IT team has started to define System APIs. Currently there is no Enterprise Data Model being defined within the enterprise, and the definition of a clean Bounded Context Data Model requires too much effort. According to MuleSoft's recommended guidelines, how should the System API data model be defined?
A. If there are misspellings of the data fields in the back-end system, Systerm APIs should not correct it, and expose it as-is to mirror the back-end systems
B. The data model of the System APIs should make use of data types that approximately mirror those from the back-end systems
C. The data model should define its own naming convention, and not follow the same naming as the back-end systems
D. The System APIs should expose all back-end system fields
Explanation: When defining data models for System APIs without an established
Enterprise Data Model, MuleSoft recommends mirroring the back-end systems' data
types to achieve quick and effective integration without adding complexity. This approach
has several benefits:
What do the API invocation metrics provided by Anypoint Platform provide?
A.
ROI metrics from APIs that can be directly shared with business users
B.
Measurements of the effectiveness of the application network based on the level of reuse
C.
Data on past API invocations to help identify anomalies and usage patterns across various APIs
D.
Proactive identification of likely future policy violations that exceed a given threat
threshold
Data on past API invocations to help identify anomalies and usage patterns across various APIs
Explanation: Explanation
Correct Answer: Data on past API invocations to help identify anomalies and usage
patterns across various APIs
*****************************************
API Invocation metrics provided by Anypoint Platform:
>> Does NOT provide any Return Of Investment (ROI) related information. So the option
suggesting it is OUT.
>> Does NOT provide any information w.r.t how APIs are reused, whether there is effective
usage of APIs or not etc...
>> Does NOT prodive any prediction information as such to help us proactively identify any
future policy violations.
So, the kind of data/information we can get from such metrics is on past API invocations to
help identify anomalies and usage patterns across various APIs.
Reference:
https://usermanual.wiki/Document/APAAppNetstudentManual02may2018.991784750.pdf
4A developer for a transportation organization is implementing exactly one processing
functionality in a Reservation Mule application to process and store passenger
records. This Reservation application will be deployed to multiple CloudHub
workers/replicas. It is possible that several external systems could send duplicate
passenger records
to the Reservation application.
An appropriate storage mechanism must be selected to help the Reservation application
process each passenger record exactly once as much as possible. The selected storage
mechanism must be shared by all the CloudHub workers/replicas in order to synchronize
the state information to assist attempting exactly once processing of each passenger
record by the deployed Reservation Mule application.
Which type of simple storage mechanism in Anypoint Platform allows the Reservation Mule
application to update and share data between the CloudHub workers/replicas exactly
once, with minimal development effort?
A. Persistent Object Store
B. Runtime Fabric Object Store
C. Non-persistent Object Store
D. In-memory Mule Object Store
An API has been updated in Anypoint Exchange by its API producer from version 3.1.1 to
3.2.0 following accepted semantic versioning practices and the changes have been
communicated via the API's public portal.
The API endpoint does NOT change in the new version.
How should the developer of an API client respond to this change?
A.
The update should be identified as a project risk and full regression testing of the functionality that uses this API should be run
B.
The API producer should be contacted to understand the change to existing functionality
C.
The API producer should be requested to run the old version in parallel with the new one
D.
The API client code ONLY needs to be changed if it needs to take advantage of new
features
The API client code ONLY needs to be changed if it needs to take advantage of new
features
Reference: https://docs.mulesoft.com/exchange/to-change-raml-version
| Page 1 out of 19 Pages |
Contact Us - Privacy Policy ... Copyright © - All Rights Reserved