AWS Certified Solutions Architect – Sample Questions Answered and Discussed

I recently took (and passed!) the Amazon Web Services – AWS Certified Solutions Architect certification.  It was a great way to get immersed in how Amazon Web Services work from a Technology Architecture perspective.

I consider myself quite a fan of new infrastructure solutions and progressive ways to deliver IT.  But when I saw up close the full might of AWS it really changed my outlook even on using the cloud.

Elasticity and designing for failure (aka anti-fragile) aren’t just a pipe-dream, they are first-class capabilities and implementing them is almost as simple as creating a server.

Managing your ENTIRE Production environment (servers, storage, networks, HA, DR, security, etc.) as code isn’t an aspiration, it is a reality, think “export EVERYTHING to script”, then version control it.  Then use it again and again and again.

Find out about this stuff, or get left behind!

If you to start think seriously about getting certified, you’ll quickly find yourself staring at these Sample questions.

In this blog, I’m going to provide worked answers and as much discussion as I can about underlying concepts.  I’ll have a go at including a few helpful links, but keep in mind the AWS documentation in particular the FAQs are excellent and also very easy to find.

Please don’t hesitate to provide suggestions, corrections or ask any clarifications.

Question 1 (of 7): Amazon Glacier is designed for: (Choose 2 answers)

  • A. active database storage.
  • B. infrequently accessed data.
  • C. data archives.
  • D. frequently accessed data.
  • E. cached session data.

Answer: B. infrequently accessed data. C. data archives.

Think “cold storage” and the name Glacier makes a bit more sense.  AWS includes a number of storage solutions and as per the to pass the exam, you are expected to know the appropriate use of all of them.

I picture them on the following scale:

Instance (aka ephemeral, aka local) storage is a device like a RAM disk physically attached to your server (your EC2 instance) and characteristically it gets completely wiped every reboot.  Naturally this makes it suitable for temporary storage, but nothing that needs to survive something as simple as a reboot. You can store the Operating System on there if nothing important gets stored there after the instance is started (and bootstrapping completes).  Micro-sized instance types (low specification servers) don’t have ephemeral storage.  Some larger more expensive instance types come with SSD instance storage for higher performance.

Elastic Block Store (EBS) is a service where you buy devices more akin to a hard disk that can be attached to one (and only one -at the time of writing) EC2 instance.  They can be set to persist after an instance is restarted.  They can be easily “snapshotted”, i.e. backed up in away that you can create a new identical device and attach that to the same or another EC2 instance.  One other thing to know about EBS is that you can pay extra money for what is known as provisioned IOPS which means guaranteed (and very high if you like) disk read and write speeds.

S3 is a cloud file storage service more akin to DropBox or GoogleDrive.  It is possible to attach a storage volume created and stored in S3 to an EC2 instance, but this is no longer recommended (EBS is preferable).  S3 is instead for storing things like your EC2 server images (Amazon Machine Images aka AMIs), static content e.g. for a web site, input or output data files (like you’ve use an SFTP site), or anything that you’d treat like a file.

An S3 store is called a bucket whilst living in one specified global region, has a globally unique name.  S3 integrates extremely will with the CloudFront content distribution service which offers caching of content to a much more globally distributed set of edge locations (thus improving performance and saving bandwidth costs).

Glacier comes next as basically a variant on S3 where you expect to want to view the files either hardly ever or never again.  For example old backups, old data only kept for compliance purposes.  Instead of a bucket, Glacier files are stored in a Vault. Instead of getting instant access to files, you have to make a retrieval request and wait a number of hours. S3 and Glacier play very nicely together because you can set up Lifecycles for S3 objects which cause them to be moved to Glacier after a certain trigger e.g. a certain elapsed “expiry” time passing.

Wrong answers:

A. active database storage.

Obviously databases are written to regularly i.e. the polar (excuse the pun) opposite of Glacier.

Amazon offer a 5 different options for databases.

RDS is the Relational Database Service. This allows Amazon to handle the database software for you (including licenses, replication, backups and more). You aren’t given access to any underlying EC2 servers and instead you simply connect to the database using your preferred method (e.g. JDBC). NB. currently this supports MySQL, Oracle, PostGreSQL and Microsoft SQL Slug.

SimpleDB is a non-relational database service that works in a similar way to RDS.

Redshift is Amazon’s relational data warehouse solution capable of much larger (and efficient at large scale) storage.

DynamoDB is Amazons NoSQL managed database service. For this storage Amazon apparently uses Solid Stage Devices for high performance.

Finally of course, you can create servers with EC2 and install the database software yourself and work as you would in your data centre. This is the only time that you would need to consider what storage solution you actually want to use for a database.  EBS would be most appropriate.  Clearly Instance storage is a very risky option due to not persisting after restarts.  S3 is inappropriate for databases especially for Oracle which can efficiently manage raw storage devices rather than writing files to a file system.

D. frequently accessed data.

Clearly this is the opposite of Glacier.  Obviously if your data doesn’t need to persist after restarts, Instance storage would be the best choice for Frequently accessed data. Otherwise EBS is the choice if you applications are reading and writing the data. S3 (plus CloudFront) is the option if end users access your data over the www.

E. cached session data.

ElasticCache is the AWS that provides a  Memcached or Redis compliant caching server that your applications can make use of.  Your web application front end consists of multiple EC2 instances behind an Elastic Load Balancer.

Question 2 (of 7): You configured ELB to perform health checks on these EC2 instances. If an instance fails to pass health checks, which statement will be true?

  • A. The instance is replaced automatically by the ELB.
  • B. The instance gets terminated automatically by the ELB.
  • C. The ELB stops sending traffic to the instance that failed its health check.
  • D. The instance gets quarantined by the ELB for root cause analysis.

Answer: C. The ELB stops sending traffic to the instance that failed its health check.

This question tests that you properly understand how auto-scaling works. If you don’t, you might take a guess that load balancers take the more helpful sounding option A, i.e. automatically replacing a failed server.

The fact is, an elastic load balancer is still just a load balancer. Arguably when you ignore the elastic part, it is quite a simple load balancer in that (currently) it only supports round robin routing as opposed to anything more clever (perhaps balancing that takes into account the load on each instance).

The elastic part just means that when new servers are added to an “auto-scaling group”, the load balancer recognises them and starts sending them traffic. In fact to make answer A above, you need the following:

  • A launch configuration This tells AWS how to stand up a bootstrapped server that once up is ready to do work without any human intervention
  • An auto-scaling group This tells AWS where it can create servers (could be subnets in different Availability Zones in one region (NB. subnets can’t span AZ’s), but not across multiple regions).  Also: which launch configuration to use, the minimum and maximum allowed servers in the group, and how to scale up and down. By how to scale up and down, it means for example 1 at a time, 10% more and various other things.  With both of these configured, the when an instance fails the heath checks (presumably because it is down), it is the auto scaling group that will decide whether we now need to add another server t to compensate.

Just to complete the story about auto scaling, it is worth mentioning the CloudWatch service. This is the name for the monitoring service in AWS. You can add custom checks and use these to trigger scaling policies to expand or contract your group of servers (and of course the ELB keeps up and routes traffic appropriately).

Wrong answers:

A. The instance is replaced automatically by the ELB.

As described above, you need an Auto Scaling group to handle replacements.

B. The instance gets terminated automatically by the ELB.

As discussed above, load balancers aren’t capable of manipulating EC2 like this.

D. The instance gets quarantined by the ELB for root cause analysis.

There is no concept of quarantining.

Question 3 (of 7):You are building a system to distribute confidential training videos to employees. Using CloudFront, what method could be used to serve content that is stored in S3, but not publically accessible from S3 directly?

  • A. Create an Origin Access Identity (OAI) for CloudFront and grant access to the objects in your S3 bucket to that OAI.
  • B. Add the CloudFront account security group “amazon-cf/amazon-cf-sg” to the appropriate S3 bucket policy.
  • C. Create an Identity and Access Management (IAM) User for CloudFront and grant access to the objects in your S3 bucket to that IAM User.
  • D. Create a S3 bucket policy that lists the CloudFront distribution ID as the Principal and the target bucket as the Amazon Resource Name (ARN).

Answer: A. Create an Origin Access Identity (OAI) for CloudFront and grant access to the objects in your S3 bucket to that OAI.

An Origin Access Identity is a special user that you will set up the CloudFront service to use to access you restricted content, see here.

Wrong Answers:

B. Add the CloudFront account security group “amazon-cf/amazon-cf-sg” to the appropriate S3 bucket policy.

The CloudFront OAI solution is more tightly integrated with S3 and you don’t need to know implementation level details like the actual user name as that gets handled under the covers by the service.

C. Create an Identity and Access Management (IAM) User for CloudFront and grant access to the objects in your S3 bucket to that IAM User.

IAM is the service for controlling who can do what within your AWS account. The fact is that an AWS account is so incredibly powerful, that it would be far too dangerous to have many people in a company with full access to create servers, remove storage, etc. etc.

IAMs allows you to create that fine grained access to use of services. It doesn’t work down to the level suggested in this answer of specific objects. IAMs could stop a user accessing S3 admin functions, but not specific objects.

D. Create a S3 bucket policy that lists the CloudFront distribution ID as the Principal and the target bucket as the Amazon Resource Name (ARN). When configuring Bucket policies, a Principal is one or more named individuals in receipt of a particular policy statement. For example, you could be listed as a principal so that you can be denied access to delete objects in an S3 bucket. So the terminology is misused.

Question 4 (of 7): Which of the following will occur when an EC2 instance in a VPC (Virtual Private Cloud) with an associated Elastic IP is stopped and started? (Choose 2 answers)

  • A. The Elastic IP will be dissociated from the instance
  • B. All data on instance-store devices will be lost
  • C. All data on EBS (Elastic Block Store) devices will be lost
  • D. The ENI (Elastic Network Interface) is detached
  • E. The underlying host for the instance is changed

Answers: B. All data on instance-store devices will be lost

(See storage explanations above)

E. The underlying host for the instance is changed

Not a great answer here.  You are completely abstracted from underlying hosts.  So you have no way of knowing this.  But by elimination, I picked this.

Wrong Answers:

A. The Elastic IP will be dissociated from the instance

This is the opposite of the truth. Elastic IPs are sticky until re-assigned for a good reason (such as the instance has been terminated i.e. it is never coming back).

C. All data on EBS (Elastic Block Store) devices will be lost

EBS devices are independent of EC2 instances and by default outlive them (unless configured otherwise). All data on Instance storage however will be lost and also on the root (/dev/sda1) partition of S3 backed servers.

D. The ENI (Elastic Network Interface) is detached

As far as I know, just as silly answer!

Question 5 (of 7): In the basic monitoring package for EC2, Amazon CloudWatch provides the following metrics:

  • A. web server visible metrics such as number failed transaction requests
  • B. operating system visible metrics such as memory utilization
  • C. database visible metrics such as number of connections
  • D. hypervisor visible metrics such as CPU utilization

Answer: D. hypervisor visible metrics such as CPU utilization

Amazon needs to know this anyway to provide IaaS, so it seems natural that they share it.

Wrong Answers:

A. web server visible metrics such as number failed transaction requests

Too detailed for EC2 – Amazon don’t even want to know whether you have or haven’t even installed a web server.

B. operating system visible metrics such as memory utilization

Too detailed for EC2 – Amazon don’t want to interact with your operating system.

C. database visible metrics such as number of connections

Too detailed for EC2 – Amazon don’t even want to know whether you have or haven’t even installed a web server.  NB. the question states Ec2 monitoring, RDS monitoring does include this.

Question 6 (of 7): Which is an operational process performed by AWS for data security?

  • A. AES-256 encryption of data stored on any shared storage device
  • B. Decommissioning of storage devices using industry-standard practices
  • C. Background virus scans of EBS volumes and EBS snapshots
  • D. Replication of data across multiple AWS Regions E. Secure wiping of EBS data when an EBS volume is un-mounted

Answer: B. Decommissioning of storage devices using industry-standard practices

Clearly there is no way you could do this, so AWS take care.

Wrong Answers:

A. AES-256 encryption of data stored on any shared storage device

Encryption of storage devices (EBS) is your concern.

C. Background virus scans of EBS volumes and EBS snapshots

Too detailed for EC2 – Amazon don’t want to interact with your data.

D. Replication of data across multiple AWS Regions

No, you have to do this yourself.

E. Secure wiping of EBS data when an EBS volume is un-mounted

An un-mount doesn’t cause an EBS volume to be wiped.

Question 7 (of 7): To protect S3 data from both accidental deletion and accidental overwriting, you should:

  • A. enable S3 versioning on the bucket
  • B. access S3 data using only signed URLs
  • C. disable S3 delete using an IAM bucket policy
  • D. enable S3 Reduced Redundancy Storage
  • E. enable Multi-Factor Authentication (MFA) protected access

Answer: A. enable S3 versioning on the bucket

As the name suggests, S3 versioning means that all versions of a file are kept and retrievable at a later date (by making a request to the bucket, using the object ID and also the version number). The only charge for having this enabled is from the fact that you will incur more storage. When an object is deleted, it will still be accessible just not visible.

Wrong Answers:

B. access S3 data using only signed URLs

Signed URLs are actually part of CloudFront which as I mentioned earlier is the content distribution service. These protect content from un-authorised access.

C. disable S3 delete using an IAM bucket policy

No such thing as an IAM bucket policy.  There are IAM policies and there are Bucket policies.

D. enable S3 Reduced Redundancy

Reduced Redundancy Storage RRS is a way of storing something on S3 with a lower durability, i.e. a lower assurance from Amazon that they won’t lose the data on your behalf. Obviously this lower standard of service comes at a lower price. RRC is designed for things that you need to store for convenience e.g. software binaries, but if they got deleted you could recreate (or re-download). So with this in mind enabling RRC reduces the level of protection rather than increases it. It is worth noticing the incredible level of durance that S3 provides. Without RRC enabled, durability is 11 9s, which equates to

“If you store 10,000 objects with us, on average we may lose one of them every 10 million years or so. This storage is designed in such a way that we can sustain the concurrent loss of data in two separate storage facilities.”

(see here, thanks to here).

With RRC, this drops to 4 9s which is still probably probably better than most IT departments can offer.

E. enable Multi-Factor Authentication (MFA) protected access

This answer is of little relevance. As I mentioned accounts on AWS are incredibly powerful due to the logical nature of what they control. In the physical world it isn’t possible for someone to press a button and delete an entire data centre (servers, storage, backups and all). In AWS, you could press a few buttons and do that, not just in one data centre, but in ever data centre you’ve used globally. So MFA is a mechanism for increasing security over people accessing your AWS account. As I mentioned earlier IAMS is the mechanism for further restricting what authenticated people are authorised to do.

Good Luck!!

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42 thoughts on “AWS Certified Solutions Architect – Sample Questions Answered and Discussed

  1. I have been so frustrated by question 4 in my studying. I’ve tested it a couple of times, uneasily ending on the same conclusion as you. Good to see someone else’s perspective on this…

  2. Question 4 is a tough one, but my conclusion is: elastic IP will be dissasiociated from the instance when its stopped and started (mind you this is not the same as reboot!) . I just shut down my test linux instance and its elastic IP is back in the avilalble pool..

    • Yes, but a stop/start cycle is not the same as a reboot. Stopping removes your lease on that physical host and hence you lose the instance storage.

    • A “Stop” and a “Start” is different from a “Reboot”. Reboot implies a continuous activity, whereas there can be a big time difference with stop and start. The above URL says it is lost on a “Stop” or “Terminate”

  3. I landed in your page as i started preparatory work for the exam.

    I believe, the answer to 4th question is correct as you said. I did shutdown the instance and the EIP was never disassociated.

    So, logically, only ” All data on instance-store devices will be lost ” is correct.

    • Correct. Only in EC2 Classic will an EIP be disassociated. If you start, stop, or reboot an EC2 instance in a VPC (including the default VPC) the EIP will still remain allocated to the EC2 instance.

  4. I just completed the certification. Its not that difficult. But you should have hands on experience on aws. I went for a course on udemy and that was quite useful for me. The curriculum is designed is such a way that you get exposure to almost each and every service that is important. You get familiar with aws.
    I would seriously recommend everybody to go for this course.

    Here is the link to the course:

    http://tinyurl.com/k62oc3v

  5. The other correct answer for 4 is E. As I described when in relation to losing instance storage when you stop/start, you end up on different host hardware. This is a common mitigation technique against noisy neighbors or if a host is the other side of an AZ to another host and you have longer ping times that you might expect. I agree that the answer is a bit vague as AWS generally doesn’t let you concern yourself with hosts all that much. When launching in placement groups this becomes all too apparent.

  6. I enjoyed this post. I just passed the professional level exam and I’d be interested in seeing a similar discussion on the sample questions there. The AWS blog doesn’t allow comments anymore 😦

  7. Hello All, the question 4 sounds bit tricky for me I use ec2-classic instances and the data on root device stable or retained every restart, is that not the case for ec2-vpc ?

    • The data on a root device will not be erased unless it is the ephemeral storage or as it is also called – Instance storage. EBS is different and retains its information after restart/turn off.

      EBS is the default option when setting up an instance and instance storage is only available to larger instances.

  8. Regarding question 7, it appears exactly as above on the official paid practice exam – and they want two answers for it.

    • Would like to see some discussion on what a 2nd answer is. This is probably more aobut tricky test making than aws skills

      • I would guess that C is the 2nd correct answer – From the S3 FAQ: ” With IAM policies, companies can grant IAM users fine-grained control to their Amazon S3 bucket or objects while also retaining full control over everything the users do. ” ( bucket or object ) ( from https://aws.amazon.com/s3/faqs/ )

  9. Pingback: AWS Certified Solutions Architect – Associate – Passed! | Susta's Log: Sharing my experience in IT

  10. Q7, if it wants two answers is (a) and (e), if it’s just one it’s (e). I think you are mixing up MFA protected logins and MFA protected deletions from S3. Versioning doesn’t completely protect from accidental deletions, as you/a script could delete all versions. Enabling MFA delete makes accidents much harder. MFA delete requires versioning to be enabled as well.

  11. I just completed the certification. Its not that difficult. But you should have hands on experience on aws. I went for a course on udemy and that was quite useful for me. The curriculum is designed is such a way that you get exposure to almost each and every service that is important. You get familiar with aws.
    I would seriously recommend everybody to go for this course.

    Also you can take a single practice exam valued at $40 USD. Enter promo code MKCPRAC315 when you register. This special offer ends September 30, 2015.

    Here is the link to the course:

    http://tinyurl.com/ptv3qvw

  12. Passed today with 89%.
    Honestly the Udemy course was not that useful.

    I used this app. Call it my luck. But i had 8 to 10 questions straight from this app.

    https://play.google.com/store/apps/details?id=com.ionicframework.awsArch

    I feel I wasted a lot of money on un-necessary course material and the $20 practice exam. In the end I think the questions from that app were a game changer.

    Good luck guys and spend your money wisely when shopping for this. There are a lot of people exploiting this exam for commercial use.

  13. Certified today, and wanted to thank Mark for the inputs and forum on here. Certainly did help the cause. EBS Volumes, Auto scaling and S3 feature heavily in the exam. Certainly a lot of content that I went through just didn’t feature at all. Therefore suggest to ensure you know the fundamentals well and you’ll be fine 🙂

  14. Question 4 (of 7): Which of the following will occur when an EC2 instance in a VPC (Virtual Private Cloud) with an associated Elastic IP is stopped and started?

    B & E for sure.

    E – When we stop and start an ec2 instances it technically started from random root host available, we have practically experienced this as well once suggested by AWS support for an issue we raised for a maintenance we fell in with short notice on the hardware where our ec2 instance was running on.

    When we stopped and started the ec2 instance the mother host where the ec2 instance was running on changed.

  15. The instructions are very clear and I could setup the full CDH cluster successfully within few minutes. Basically I wanted to use it to test Impala on HDFS and HBASE and it seems working fine for me.

    I have a question at this point. I would like to automate provisioning of the CDH and program these steps which currently we are doing manually using Web UI. It will be nice if Chef can be avoided – earlier we tried provisioning CDH using Chef scripts and unfortunately it was a painful experience though we could bring up cluster there as well.

  16. Pingback: Passed AWS Certified Solutions Architect – Associate exam on 1st Feb.2017 – Xiong Hui Lin's Personal page

  17. It is a tough exam for sure. You have to be prepared and the best way is to take the right training course. Thanks for sharing your sample questions and answers. They will help to give us all an idea of what to expect on exam day.

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