Sharing Protobuf schemas across services

The system that we’re building at Community.com is made of a few services (around fifteen at the time of writing) that interact with each other through a basic version of event sourcing. All events are exchanged (published and consumed) through RabbitMQ and are serialized with Protobuf. With several services already and many more coming in the future, managing the Protobuf schemas becomes a painful part of evolving and maintaining the system. Do we copy the schemas in all services? Do we keep them somewhere and use something akin to Git submodules to keep them in sync in all of our projects? What do we do?! In this post, I’ll go through the tooling that we came up with in order to sanely manage our Protobuf schemas throughout our services and technology stack.

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Breaking Out of Ecto Schemas

Typically, when writing queries with Ecto, we use a module that uses an Ecto.Schema. By default, those queries return all fields defined in that schema. That makes a lot of sense when the intention is to retrieve a fully populated struct from the database.

But sometimes, we only want a subset of the fields defined in the schema. In fact, we may not even want to use a schema at all! For those cases, Ecto gives us the ability to drop one step closer to the raw power of SQL. Let’s take a look at an example.

Getting active users with comments

Suppose we want a report with a list of active users along with how many comments they have made. Instead of using an ecto schema for the query, we can specify the table directly. And instead of preloading all comments to count them in Elixir, we can use our good old SQL friends SELECT,COUNT, and GROUP BY:

query =
  from u in "users",
  join: c in "comments",
  on: c.user_id == u.id,
  where: u.active == true,
  group_by: [u.name, u.email],
  select: [u.name, u.email, count(c.id)]

Repo.all(query)

# => [
    ["Gandalf", "gandalf@greypilgrim.com", 23],
    ["Aragorn", "strider@rangers.com", 45],
    ["Gimli", "sonofgloin@lonelymountain.com", 566],
    [...],
    ...
  ]

Great! By using select, we don’t fetch unnecessary data to populate the full %User{} and %Comment{} structs, and by using count, we avoid having to preload all user comments just to count them in Elixir.

But not all is sunshine and rainbows yet. The return data is a list of lists, which means we can’t pass around that data without also having to specify that the first element of each list is the name, the second is the email, and the third is the number of comments for that user. And what if we were to return four, five, or six columns? It gets out of hand very quickly.

Fortunately, Ecto has a better way!

Mapping your select

Ecto lets us define the structure in which to return the data. For this report we can define a descriptive map:

query =
  from u in "users",
  join: c in "comments",
  on: c.user_id == u.id,
  where: u.active == true,
  group_by: [u.name, u.email],
  select: %{name: u.name, email: u.email, comments_count: count(c.id)}

Repo.all(query)

# => [
    %{comments_count: 23, email: "gandalf@greypilgrim.com", name: "Gandalf"},
    %{comments_count: 45, email: "aragorn@rangers.com", name: "Aragorn"},
    %{comments_count: 566, email: "sonofgloin@lonelymountain.com", name: "Gimli"},
    %{...},
    ...
  ]

That’s so much better! We now have the best of both worlds — a lean query that gets only what we want in a structure we can pass around without having to provide additional context.

What next?

If you liked this, take a look at Programming Ecto. Even though I’ve been using Ecto for quite some time, I recently read it and learned quite a few things. I highly recommend it.

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FinTech and Blockchain an Interview with Keith Bear from the CCAF

During last year’s London FinTech Week and following his appearance on the panel for the ‘Disruptive Forces in FinTech’ discussion, we were pleased to have some time to reflect on the current shape of the industry and the role of blockchain technology within it with Keith Bear from Cambridge University’s Centre for Alternative Finance (CCAF).

Previously, Keith was the Global Leader for financial markets at IBM, working with banks and market infrastructure firms worldwide. His most recent work was on blockchain deployment in financial markets and FinTech innovation. Keith is now a Fellow at Cambridge University’s Centre for Alternative Finance and is also on the advisory board of three FinTechs and mentors at the Barclays/Techstars Rise accelerator. This was of particular interest to us given our expertise in FinTech and blockchain technology.

Can you tell us about the aims of the Centre for Alternative Finance and your role there?

Keith Bear - The department sits within the University’s Business School and has three core elements:

1. Research - survey-based research, we have just published our recent blockchain survey Global Crypto Assets Regulatory Landscape to favourable reviews. Our next survey examines enterprise networks, it’s a deep dive into production networks.
2. Collaboration - with the likes of the World Bank, the IMF and others in the area of FinTech, blockchain and crowdfunding peer-to-peer lending.
3. Client projects - working with various financial institutions to leverage our insights and research.
   

Thoughts on blockchain performance strategies, methods of consensus and centralisation

Keith Bear - In this area there are significant differences between the private permissioned world and the public non-permissioned world.

We recently released our tool for measuring the Bitcoin network’s energy consumption CBECI. This really illustrates the downsides of this area of the technology because of the high energy requirements involved. However, some people may see it as value for money when considering the value of Bitcoin for those who are invested in it and see the future transformative potential.

Consensus methods are less of a problem for private permissioned networks because of dealing with permissioned known actors. The direction of Ethereum is publicly stated as Proof of Stake an alternative to achieving consensus, but it’s a difficult model because of all the complexities currently involved.

With regards to centralised strategies for blockchain - it very much depends on how various technologies will evolve over time and it’s a little hard to predict at the moment what the future trends will be.

At the CCAF we are working on an enterprise blockchain analysis at the moment, where we are finding that organisations are using elements of blockchain technology but where parts of the architecture are being centralised and so not fully embracing the fully distributed state found with Bitcoin and Ethereum.

Questions over the extent of decentralisation depend upon individual use cases especially in permissioned cases where centralisation is necessary for some level of control to meet regulatory obligations etc.

Blockchain and environmental sustainability

Keith Bear - The CCAF Bitcoin power index shows the high levels of consumption which vary depending on the mining tools employed. On the one hand concerns about energy consumption can be countered by using blockchain as a force for good, i.e. where the technology can be used for environmental causes.

One example of this can be found with a FinTech that’s part of the Rise Accelerator programme Sparkchange.io who focus on a tokenised approach to carbon allowances.

Whether the [environmental] cost is justified or not justified depends on which side of the blockchain industry you are on.

Blockchain identity tracking vs secret identities

Keith Bear - Again it all depends on the type of networks which we are looking at. For private permissioned blockchains identity is important to financial institutions because of AML/KYC requirements.

Bitcoin operates at the other extreme where, although individuals cannot be directly identified, their transactions can be. Therefore, you can start mapping individuals based on transactional movements on the network. In this respect it is less opaque than cash.

For FinTechs, the choice is clear, in that you must either operate wholly within the regulatory environment or try and survive outside of it, usually where regulation isn’t yet well defined or formed. The obligations depend on the jurisdiction in which you’re operating and Libra has been a good trigger for opening up the debate over regulation.

If you’re operating outside of the regulatory environment it can only be a matter of time until the authorities intervene because, since Libra, there is a lot more regulatory debate and focus than was the case previously.

The Libra question

Keith Bear - The Libra white paper made for interesting reading, my main thought is that it’s very, very early days and the regulatory comments already made mean there are still many questions to be answered on how and where it will operate.

It is less a question about the technology but over how it will practically work. I don’t think anyone would dispute the idea of offering financial inclusion to the world’s 1.7 billion unbanked, maybe there’s some hesitancy over whether Facebook is the ideal organisation to be offering the solution.

However, the set-up of the Libra Association is a positive step to help provide a level playing field. It will be interesting to see how things evolve. The key result so far is that it has stimulated debate amongst the regulators of what needs to be done.

Interoperability of blockchain

Keith Bear - This a very important issue, especially in the enterprise permissioned world. Our survey of 60+ production networks has found that they are using many different technologies but that they may well eventually want to connect.

For example, We.Trade in Europe signing an MOU with eTrade Connect, an equivalent network based in Hong Kong. So interoperability is already a significant factor in the business application for blockchain using FinTechs and not just a technical question of how it can be done.

There are a number of projects working on interoperability such as HyperLedger Quilt with Ripple. As blockchain networks mature and offer more value to society, how they join up and work together will become increasingly important.

The best strategy for FinTech startups - disrupt or collaborate?

Keith Bear - There are examples across the board from disruptive models to partner models such as with Transfer Wise who want to work with as well as compete with banks. It’s really dependent upon particular use cases and finding a route to scale.

The future regulatory environment for FinTechs

Keith Bear - Regulation is a key focus of our research. There’s a big range of different perspectives based on jurisdiction especially when looking at what is in place now and what may be required in the future.

The use of regulatory sandboxes like GFIN (Global Financial Innovation Network) which is backed by the FCA provides safe environments for FinTechs to work through their propositions and initiatives.

To discover more about what Erlang Solutions are doing within the FinTech and blockchain space please visit our finance industry page or contact us directly to discuss what’s on your mind. You may also enjoy a recent post by our Scalability Architect and Technical Lead, Dominic Perini on digital asset ownership and blockchain.

You might also be interested in:

Trifork FinTech case studies

Our 2019 FinTech projects

Companies using Erlang

CCAF Regulating Altenrative Finance

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RabbitMQ Quorum Queues explained - what you need to know.

Introduction to Quorum Queues

In RabbitMQ 3.8.0, one of the most significant new features was the introduction of Quorum Queues. The Quorum Queue is a new type of queue, which is expected to replace the default queue (which is now called classic) in the future, for some use cases. This queue type is important when RabbitMQ is used in a clustered installation, it provides less network intensive message replication using the Raft protocol underneath.

Usage of Quorum Queues

A Classic Queue has a master running somewhere on a node in the cluster, while the mirrors run on other nodes. This works the very same way for Quorum Queues, whereby the leader, by default, runs on the node the client application that created it was connected to, and followers are created on the rest of the nodes in the cluster.

In the past, replication of queues was specified by using policies in conjunction with Classic Queues. Quorum queues are created differently, but should be compatible with all client applications which allow you to provide arguments when declaring a queue. The x-queue-type argument needs to be provided with the value quorum when creating the queue.

For example, using the Elixir AMQP client¹, declaring a Quorum Queue is as follows:

Queue.declare(publisher_chan, "my-quorum-queue", durable: true, arguments: [

 "x-queue-type": "quorum"

])

An important difference between Classic and Quorum Queues is that Quorum Queues can only be declared durable, otherwise the following error message is raised:

:server_initiated_close, 406, "PRECONDITION_FAILED - invalid property 'non-durable' for queue 'my-quorum-queue'

After declaring the queue, we can observe that it is indeed a quorum type on the Management Interface:

We can see that a Quorum queue has a Leader, this roughly serves the same purpose as it did for the Classic Queue Master. All communication is routed to the Queue Leader, which means the queue leader locality has an effect on the latency and bandwidth requirement of the messages, however the effect should be lower than it was in Classic Queues.

Consuming from a Quorum Queue is done in the same fashion as other types of queues.

New for Quorum Queues

Quorum queues come with a few special features and restrictions. They can not be non-durable, because the Raft log is always written to disk, so they can never be declared as transient. They also do not support, as of 3.8.2, message TTLs and message priorities ².

As the use case for Quorum Queues is data safety, they also cannot be declared as exclusive, which would mean they get deleted as soon as the consumer disconnects.

Since all messages in Quorum Queues are persistent, the AMQP “delivery-mode” option has no effect on their operation.

Single Active Consumer

This is not unique to Quorum Queues, but it’s still important to mention, that even though the Exclusive Queue feature was lost, we gain a new feature that is even better in many ways and was a frequently requested enhancement.

Single Active Consumer enables you to attach multiple consumers to a queue, while only one of the consumers is active. This lets you create highly available consumers while ensuring that at any moment in time, only one of them receives messages, which until now was not possible to attain with RabbitMQ.

An example of how to declare a queue with the Single Active Consumer feature in Elixir:

Queue.declare(publisher_chan, "single-active-queue", durable: true, arguments: [

 "x-queue-type": "quorum",

 "x-single-active-consumer": true

])

The queue with the Single Active Consumer setting enabled is marked as SAC. In the image above, we can see that two consumers are attached to it (two channels executed Basic.consume on the queue). When publishing to the queue, only one of the consumers will receive the message. When that consumer disconnects the other one should take exclusive ownership of the stream of messages.

Basic.get, or inspecting the message on the Management Interface, can not be done with Single Active Consumer queues.

Keeping Track of Retries, Poison Messages

Keeping a count of how many times a message was rejected is also one of the most requested features for RabbitMQ, which has finally arrived with Quorum Queues. This lets you handle the so-called poison-messages more effectively than before, as previous implementations often suffered from the inability to give up retrying in the case of a stuck message, or had to keep track of how many times a message was delivered in an external database.

NOTE: For Quorum Queues, it is best practice to always have some limit on the number of times a message can be rejected. Letting this message reject count grow forever can lead to erroneous queue behaviour due to the Raft implementation.

Using Classic Queues, when a message was requeued for any reason, with the redelivered flag being set, what this flag essentially means is, “the message may have been processed already”. This helps you to check if the message is a duplicate or not. The same flag exists, however it was extended with the x-delivery-count header, which keeps track of how often this requeueing has occurred.

We can observe this header on the Management Interface:

As we can see, the redelivered flag is set and the x-delivery-count header is 2.

Now your Application is better equipped to decide when to give up retrying.

If that is not good enough, you can now define the rules based on the delivery count to send the message to a different Exchange instead of requeuing. This can be done right from RabbitMQ, your application does not have to know about the retrying. Let me illustrate this with an example!

Example: Re-routing rejected messages! Our use case is that we receive messages which we need to process, from an application which, however, may send us messages which cannot be processed. The reason could either be because the messages are malformed, or because the application itself cannot process them for some reason or another, but we do not have a way to notify the Sending Application of these errors. These errors are common when RabbitMQ serves as a message bus in the system and the Sending Application is not under the control of the Receiving Application Team.

We then declare a queue for the messages which we could not process:

And we also declare a fanout exchange, which we will use as a Dead Letter Exchange:

And bind the unprocessable-messages queue to it.

We create the application queue called my-app-queue and corresponding policy:

We can use either Basic.reject or Basic.nack to reject the message, we must use the requeue property set to true.

Here’s a simplified example in Elixir:

def get_delivery_count(headers) do

   case headers do

       :undefined -> 0

       headers ->

           { _ , _, delivery_cnt } = List.keyfind(headers, "x-delivery-count", 0, {:_, :_, 0} )

           delivery_cnt

   end

 end


  receive do

   {:basic_deliver, msg, %{ delivery_tag: tag, headers: headers} = meta } ->
    delivery_count = get_delivery_count(headers)

     Logger.info("Received message: '#{msg}' delivered: #{delivery_count} times")

     case msg do

       "reject me" ->

         Logger.info("Rejected message")

         :ok = Basic.reject(consumer_chan, tag)

       _ -> \

         Logger.info("Acked message")

         :ok = Basic.ack(consumer_chan, tag)

     end

   end

First we publish the message, “this is a good message”:

13:10:15.717 [info]  Received message: 'this is a good message' delivered: 0 times
13:10:15.717 [info]  Acked message

Then we publish a message which we reject:

13:10:20.423 [info]  Received message: 'reject me' delivered: 0 times
13:10:20.423 [info]  Rejected message
13:10:20.447 [info]  Received message: 'reject me' delivered: 1 times
13:10:20.447 [info]  Rejected message
13:10:20.470 [info]  Received message: 'reject me' delivered: 2 times
13:10:20.470 [info]  Rejected message

And after it was delivered three times it is routed to the unprocessed-messages queue.

We can see on the Management Interface that the message is routed to the queue:

Controlling the members of the quorum

Quorum queues do not automatically change the group of followers / leaders. This means that adding a new node to the cluster will not automatically ensure that the new node is being used for hosting quorum queues. Classic Queues in previous versions handled adding queues on new cluster nodes through the policy interface, however this could pose problematic as cluster sizes were scaled up or down. An important new feature in the 3.8.x series for Quorum Queues and Classic Queues, is the in-built queue master rebalancing operations. Previously this was only attainable using external scripts and plugins.

Adding a new member to the quorum can be achieved using the grow command:

rabbitmq-queues grow rabbit@$NEW_HOST all

Removing a now stale, for example deleted, host from the members can be done through the shrink command:

rabbitmq-queues shrink rabbit@$OLD_HOST

We can also rebalance the queue masters so that the load is equal on the nodes:

rabbitmq-queues rebalance all

Which (in bash) will display a nice table with statistics on the number of masters on nodes. On Windows, use the --formatter json flag to get a readable output.

Summary

RabbitMQ 3.8.x comes with a lot of new features. Quorum Queues are just one of them. They provide a more understandable, in some cases less resource intensive, new implementation for achieving replicated queues and high availability. They are built on Raft and support different features than Classic Queues, which fundamentally, are based on the custom Guaranteed Multicast protocol³, (a variant of Paxos⁴,). As this type and class of queues are still quite new, only time will tell if they become the more used and preferred queue type for the majority of distributed installations of RabbitMQ in comparison to their counterparts, the Classic Mirrored Queues. Until then, use both as best fitting for your Rabbit needs! :)

Need help with your RabbitMQ?

Our world-leading RabbitMQ team offers a variety of options to suit your needs. We have everything from health checks, to support and monitoring, to help you ensure an efficient and reliable RabbitMQ system.

Or, if you’d like to have full visibility of your RabbitMQ system from an easily readable dashboard, why not take advantage of our free trial to WombatOAM.

We thought you might also be interested in:

Our RabbitMQ solutions

RabbitMQ monitoring with WombatOAM

RabbitMQ | Topic Exchanges

Footnotes

<sup>1.https://github.com/pma/amqp.↩
2. [Quorum Queue Feature Matrix]https://www.rabbitmq.com/quorum-queues.html#feature-comparison) .↩
3.https://github.com/rabbitmq/rabbitmq-server/blob/master/src/gm.erl.↩
4.https://www.microsoft.com/en-us/research/wp-content/uploads/2016/06/RingPaxos.pdf.↩</sup>

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#codeforgood

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Improving push notifications with MongooseIM

Customised, scalable enterprise Instant Messaging.

MongooseIM offers a completely customisable enterprise Instant Messaging solution. This helps large organisations build solutions that meet the unique requirements of their users. As a result, we’ve built many best-in-class instant messaging platforms for household names in social media, telecoms and the health industry. In our latest release, MongooseIM 3.6.0, we’ve continued to empower our application owners, and their end users by improving and evolving the push notification functionality. Find out more about how MongooseIM can build a bespoke instant messaging solution for your needs, or read on to find out more about the improvements to push notifications.

Creating a better Push Notification Experience in MongooseIM

MongooseIM is continuing its evolution to improve the user experience for mobile applications. Push notifications aren’t just a standard requirement for instant messaging applications; they are also one of the most used features for end-users. As a result, there is an increased need to have a seamless experience for both application owners and the user themselves. Push notifications were added to MongooseIM 3 years ago. The implementation was based on an XMPP extension XEP-0357: Push Notifications and a dedicated, standalone component called MongoosePush. Since then, we have been lucky enough to work with several customers using this functionality. We have also been given great feedback from our community including people who use MongooseIM, MongoosePush or both in their projects. We listened to them, observed their issues and decided to create a better experience in MongooseIM 3.6.0 and MongoosePush 2.0.

How has the MongooseIM end-user experience changed?

Immediate push notifications

Push notifications are delivered when the server observes a message addressed to a user who is offline. What does this mean exactly? From the server perspective, it means that the user has no connected devices. This works well enough in cases where users only have one device and don’t use session resumption as described in XEP-0198: Stream Management. Today, this is not the most common use case when it comes to mobile applications. First of all XEP-0198 is used because it helps to make sure that stanzas are delivered from the server to the client and the other way around. What is also important to note is that mobile applications are not always active. People switch applications or put their phone down. In this case, the app goes into the background and the network communication is limited to save battery. This leads to a situation where a device may not respond to regular TCP communication (because it’s disconnected or in the background) and the server still thinks the user is online. Push notifications are often used to notify the user that there is new information for them to check, so it is important that the notification is delivered in seconds, not minutes. In order to solve the problem, MongooseIM 3.6.0 and later versions, can send push notifications to such user sessions which are in the “undecided” state. More technical details and information on how to configure this behaviour can be found in the push notifications documentation.

Fine grained push notifications priority control

Not all Push Notifications will have the same level of priority. Sometimes you will want to change the priority in order to have a different behaviour on the client device. Before MongooseIM 3.6.0 it was not possible to change the priority level, even though MongoosePush, which talks to FCM or APNS, has that functionality. In order to address this limitation, we decided to give the control of the priority to the application developer. Now the priority can be set while enabling push notifications. Take a look at the enabling push notifications documentation to see the possible values and the other options you can set while enabling push notifications.

How has MongooseIM changed from for the operator?

No PubSub

The other thing we learned from our users was that they always use MongooseIM as both the instant messaging server and the service responsible for sending push notifications. The XEP-0357: Push Notifications is very generic and allows you to configure a PubSub service responsible for delivering push notifications on a different server. This was not the case in all the installations we were aware of. Because of that, we decided to bypass the PubSub communication in a situation where we know MongooseIM is responsible for sending push notifications. This makes the MongooseIM configuration easier, with no need to configure the PubSub service. What is more important is that it reduces the load on the nodes and minimises delays in delivering push notifications. In the PubSub-less configuration, MongooseIM can talk directly to MongoosePush in order to deliver push notifications. This was implemented in a way that allows smooth migrations for older versions of MongooseIM where push notifications were already used in the full version. More details about all the possible setups, their advantages and drawbacks can be found in our push notification tutorial.

RDBMS backend

In production systems it’s more convenient to store persistent data in an external database. It makes life easier when it comes to clustering MongooseIM and using it in containers. One of the previous releases introduced an RDBMS backend for PubSub but this kind of backend was still missing for push notifications. Now we have it, so you can start storing all the details, passed from the app when enabling push notifications and required to deliver them in Postgres, MySQL or even MSSQL.

Inactive device id removed

The device ids (in other words device tokens you get from APNS or FCM) are not valid indefinitely. Generating push notifications to expired tokens doesn’t make sense and introduces unneeded load in the system. Thanks to integrating with MongoosePush 2.0 and it’s new API v3 for push notifications, MongooseIM can detect if a push notification was sent to a device token which is no longer active and remove it from its database. Thanks to that we eliminate stale data as soon as we know it is no longer useful.

MongoosePush 2.0.0

The last 6 months were also busy around MongoosePush development. It’s a standalone service written in Elixir. It exposes a simple HTTP (1.1 and 2.0) API which can be used to trigger push notifications to FCM and APNS. The recent version added support for new authentication methods to APNS, support for new FCM v1 protocol and unified error codes which allows for instances to detect if the device token is active or not.

More information can be found in MongoosePush 2.0.0 changelog and its documentation on GitHub esl/MongoosePush.

Other changes

Push notification improvements are not the only change in MongooseIM 3.6.0. Take a look at 3.6.0 changelog to learn more and give it a try and share feedback!

Help us improve the MongooseIM platform:

1. Star our repo: esl/MongooseIM
2. Report issues: esl/MongooseIM/issues
3. Share your thoughts via Twitter
4. Download MongooseIM 3.6.0 Docker image
   
5. Download MongoosePush 2.0.0 Docker image
6. Sign up to our dedicated mailing list to stay up to date about MongooseIM, messaging innovations and industry news.
7. Check out our MongooseIM product page for more information on the MongooseIM platform.

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Ibid.

During my interview with Gene Kim on for Functional Geekery, Episode 128, Gene talked about how he had a problem he was asking different people for how they would solve it nicely with a functional approach, to see how to improve his Clojure solution to be more idiomatic.

His problem was on “rewriting” Ibid. entries in citation references, to get the authors names instead of the Ibid. value, as Ibid. is a shorthand that stands for “the authors listed in the entry before this”.

As he was describing this problem, I was picturing the general pseudo-code with a pattern match in my head. To be fair, this has come from a number of years of getting used to thinking in a functional style as well as thinking in a pattern matching style.

The following Erlang code is a close representation to the pseudo-code that was in my head.

-module(ibid).

-export([ibid/1]).

ibid(Authors) ->
    ibid(Authors, []).

ibid([], UpdatedAuthors) ->
    {ok, lists:reverse(UpdatedAuthors)};
ibid(["Ibid." | _], []) ->
    {error, "No Previous Author for 'Ibid.' citation"};
ibid(["Ibid." | T], UpdatedAuthors=[H | _]) ->
    ibid(T, [H | UpdatedAuthors]);
ibid([H | T], UpdatedAuthors) ->
    ibid(T, [H | UpdatedAuthors]).

Running this in the Erlang shell using erl results in the following

> ibid:ibid(["Mike Nygard", "Gene Kim", "Ibid.", "Ibid.", "Nicole Forsgren", "Ibid.", "Jez Humble", "Gene Kim", "Ibid."]).
{ok,["Mike Nygard","Gene Kim","Gene Kim","Gene Kim",
     "Nicole Forsgren","Nicole Forsgren","Jez Humble","Gene Kim",
     "Gene Kim"]}
> ibid:ibid(["Ibid."]).
{error,"No Previous Author for 'Ibid.' citation"}

Throughout the editing of the podcast, I continued to think about his problem, and how I would approach it in Clojure without built-in pattern matching, and came up with the following using a cond instead of a pure pattern matching solution:

(defn
  update_ibids
  ([authors] (update_ibids authors []))
  ([[citation_author & rest_authors :as original_authors] [last_author & _ :as new_authors]]
    (let [ibid? (fn [author] (= "Ibid." author))]
      (cond
        (empty? original_authors) (reverse new_authors)
        (and (ibid? citation_author) (not last_author))
          (throw (Exception. "Found `Ibid.` with no previous author"))
        :else (recur
          rest_authors
          (cons
            (if (ibid? citation_author)
                last_author
                citation_author)
            new_authors))))))

And if we run this in the Clojure REPL we get the following:

user=> (def references ["Gene Kim", "Jez Humble", "Ibid.", "Gene Kim", "Ibid.", "Ibid.", "Nicole Forsgren", "Micheal Nygard", "Ibid."])

user=> (update_ibids [])
()
user=> (update_ibids ["Ibid."])
Execution error at user/update-ibids (REPL:8).
Found `Ibid.` with no previous author
user=> (update_ibids references)
("Gene Kim" "Jez Humble" "Jez Humble" "Gene Kim" "Gene Kim" "Gene Kim" "Nicole Forsgren" "Micheal Nygard" "Micheal Nygard")

That solution didn’t sit well with me (and if there is a more idiomatic way to write it I would love some of your solutions as well), and because of that, I wanted to see what could be done using the core.match library, which moves towards the psuedo-code I was picturing.

(ns ibid
  (:require [clojure.core.match :refer [match]]))


(defn
  update_ibids
  ([authors] (update_ibids authors []))
  ([orig updated]
    (match [orig updated]
      [[] new_authors] (reverse new_authors)
      [["Ibid." & _] []] (throw (Exception. "Found `Ibid.` with no previous author"))
      [["Ibid." & r] ([last_author & _] :seq) :as new_authors] (recur r (cons last_author new_authors))
      [[author & r] new_authors] (recur r (cons author new_authors)) )))

And if you are trying this yourself, don’t forget to add to your deps.edn file:

{:deps
  {org.clojure/core.match {:mvn/version "0.3.0"}}

After the first couple of itches were scratched, Gene shared on Twitter Stephen Mcgill’s solution and his solution inspired by Stephen’s.

And then, just for fun (or “just for defun” if you prefer the pun intended version), I did a version in LFE (Lisp Flavored Erlang) due to it being a Lisp with built in pattern matching from being on the Erlang runtime.

(defmodule ibid
  (export (ibid 1)))


(defun ibid [authors]
  (ibid authors '[]))


(defun ibid
  ([[] updated]
    (tuple 'ok (: lists reverse updated)))
  (((cons "Ibid." _) '[])
    (tuple 'error "No Previous Author for 'Ibid.' citation"))
  ([(cons "Ibid." authors) (= (cons h _) updated)]
    (ibid authors (cons h updated)))
  ([(cons h rest) updated]
    (ibid rest (cons h updated))))

Which if we call it in LFE’s REPL gives us the following:

lfe> (: ibid ibid '["Mike Nygard" "Gene Kim" "Ibid." "Ibid." "Nicole Forsgren" "Ibid." "Jez Humble" "Gene Kim" "Ibid."])
#(ok
  ("Mike Nygard"
   "Gene Kim"
   "Gene Kim"
   "Gene Kim"
   "Nicole Forsgren"
   "Nicole Forsgren"
   "Jez Humble"
   "Gene Kim"
   "Gene Kim"))
lfe> (: ibid ibid '["Ibid."])
#(error "No Previous Author for 'Ibid.' citation")

If you have different solutions shoot them my way as I would love to see them, and if there looks to be interest, and some responses, I can create a catalog of different solutions similar to what Eric Normand does on his weekly challenges with his PurelyFunctional.tv Newsletter.

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Erlang: Minesweeper

I’ve been sick the last two days and utterly uninspired to do anything productive. I’ve instead procrastinated by writing a “minesweeper” clone in Erlang.

Why? I have no idea. I was just sort of thinking of simple desktop classics to mess around with that are de-facto standard to populate a GUI app launcher like Vapor… and several hours later I had this thing. By that point I figured I was invested enough to swap text for graphics, and poof! There we are.

I still need to add win/loss conditions, a wall-clock timer and some kind of score thingy, but anyway, this was actually a much more fun way to tool around on a sick day than I expected and makes me feel just barely less of a dirtbag than I would have been had I wrapped up in bed all day feeling crappy.

I hate being sick. Ugh.

Update

I went ahead and finished it (except for recording scores — does anyone ever look at that since they can’t be sanely shared and aggregated?) and put it on gitlab just in case someone wants to see what a really hasty/disorganized codebase looks like.

It even has settings! Hahaha! “Settings” really being code for me messing around and seeing if I remembered how wxSlider widgets work (turns out I do and they are boringly easy to use).

If I find myself not feeling in the mood and going to the gym is out of the question, I suppose I could do one of these in 3D next time. Seems like “minesensor” would be a slightly more involved sort of game.

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Periodic jobs in Elixir with Periodic

Periodic jobs in Elixir with Periodic

2020-01-27

Periodic.start_link(
  run: fn -> IO.puts("Hello, World!") end,
  every: :timer.seconds(5)
)

# after 5 seconds
Hello, World

# after 10 seconds
Hello, World

# ...

       MySystem
      /        \
    Db     CacheCleanup
   /  \
Repo  DbCleanup

Periodic.start_link(
  every: :timer.minutes(1),
  when: fn -> match?(%Time{hour: 0, minute: 0}, Time.utc_now()) end,
  run: &run_job/0
)

defmodule NaiveDaily do
  def start_link(hour, minute, run_job) do
    Periodic.start_link(
      every: :timer.minutes(1),
      when: fn -> match?(%Time{hour: ^hour, minute: &minute}, Time.utc_now()) end,
      run: run_job
    )
  end
end

NaiveDaily.start_link(0, 0, &do_something/0)
NaiveDaily.start_link(8, 0, &do_something_else/0)

Periodic.start_link(
  every: :timer.minutes(1),
  when: fn -> not job_executed_today?() end,
  run: fn ->
    run_job()
    mark_job_as_executed_today()
  end
)

Periodic.start_link(
  on_overlap: :ignore,
  every: :timer.minutes(1),
  when: fn -> Time.utc_now().hour in 0..4 and not job_executed_today?() end,
  run: fn ->
    with_exclusive_lock(fn ->
      run_job()
      mark_job_as_executed_today()
    end)
  end
)

Periodic.start_link(
  on_overlap: :ignore,
  every: :timer.minutes(1),
  when: &should_run?/0,
  run: fn ->
    with_exclusive_lock(fn ->
      # The repeated check makes sure the job hasn't been executed
      # on some other machine while we were waiting for the lock.
      if should_run?() do
        run_job()
        mark_job_as_executed()
      end
    end)
  end
)

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Elixir v1.10 released

Elixir v1.10 comes with improvements to the standard library, the compiler, as well as several additions to the mix release feature added in v1.9. In particular, this version adds a lot of polish to existing features, such as our configuration system and our sorting APIs.

Also note Elixir v1.10 requires Erlang/OTP 21+. This allows us to provide tighter integration with Erlang/OTP’s new logger. This means that the logger level, logger metadata, as well as all log messages are now shared between Erlang and Elixir APIs.

Let’s take a look at what else is new.

Releases improvements

Elixir v1.9 introduced releases as a mechanism to package self-contained applications. Elixir v1.10 further improves releases with bug fixes and new enhancements based on feedback we got from the community. The highlights are:

• Allow the dual boot system of releases to be disabled on environments that are boot-time sensitive, such as embedded devices

• Track and raise if compile-time configuration is set or changes at runtime (more in the next section)

• Support overlays to easily add extra files to a packaged releases

• Allow RELEASE_DISTRIBUTION to be set to none in order to fully disable distribution

• Add a built-in :tar step that automatically packages releases

See the full release notes for more improvements.

Improvements to sort-based APIs in Enum

Enum.sort/1 in Elixir by default sorts from lowest to highest:

iex> Enum.sort(["banana", "apple", "pineapple"])
["apple", "banana", "pineapple"]

If you want to sort from highest to lowest, you need to call Enum.sort/2 with a custom sorting function, such as Enum.sort(collection, &>=/2), which is not immediately obvious to someone reading the code:

iex> Enum.sort(["banana", "apple", "pineapple"], &>=/2)
["pineapple", "banana", "apple"]

Furthermore, comparison operators, such as <= and >=, perform structural sorting, instead of a semantic one. For example, using >= to sort dates descendingly won’t yield the correct result:

iex> Enum.sort([~D[2019-12-31], ~D[2020-01-01]])
[~D[2020-01-01], ~D[2019-12-31]]

To perform proper semantic comparison for dates, one would also need to pass a custom sorting function:

iex> Enum.sort([~D[2019-12-31], ~D[2020-01-01]], &(Date.compare(&1, &2) != :lt))
[~D[2019-12-31], ~D[2020-01-01]]

Elixir v1.10 streamlines the sorting functions by introducing both :asc and :desc shortcuts:

iex> Enum.sort(["banana", "apple", "pineapple"], :asc)
["apple", "banana", "pineapple"]
iex> Enum.sort(["banana", "apple", "pineapple"], :desc)
["pineapple", "banana", "apple"]

As well as adding the possibility to pass a module to perform semantic comparisons. For example, to sort dates, one now only needs to pass the Date module or even {:desc, Date} for descending semantical sort:

iex> Enum.sort([~D[2019-12-31], ~D[2020-01-01]], Date)
[~D[2019-12-31], ~D[2020-01-01]]
iex> Enum.sort([~D[2019-12-31], ~D[2020-01-01]], {:desc, Date})
[~D[2020-01-01], ~D[2019-12-31]]

These API improvements make the code more concise and readable and they have also been added to Enum.sort_by, Enum.min_by, Enum.max_by, and friends.

Tracking of compile-time configuration

In Elixir, we organize our code in applications. Libraries, your dependencies, and your own project are all separate applications. All applications in Elixir also come with an application environment.

The application environment is a key-value store that allows us to configure said application. While reading the application environment at runtime is the preferred approach, in some rare occasions you may want to use the application environment to configure the compilation of a certain project. This is often done by calling Application.get_env/3 outside of a function:

defmodule MyApp.DBClient do
  @db_host Application.get_env(:my_app, :db_host, "db.local")

  def start_link() do
    SomeLib.DBClient.start_link(host: @db_host)
  end
end

This approach has one big limitation: if you change the value of the application environment after the code is compiled, the value used at runtime is not going to change! For example, if you are using mix release and your config/releases.exs has:

config :my_app, :db_host, "db.production"

Because config/releases.exs is read after the code is compiled, the new value will have no effect as the code was compiled to connect to “db.local”.

Of course, the obvious solution to this mismatch is to not read the application environment at compilation time in the first place, and instead move the code to inside a function:

defmodule MyApp.DBClient do
  def start_link() do
    SomeLib.DBClient.start_link(host: db_host())
  end

  defp db_host() do
    Application.get_env(:my_app, :db_host, "db.local")
  end
end

While this is the preferred approach, there are still two scenarios we need to address:

1. Not everyone may be aware of this pitfall, so they will mistakenly read the application environment at compile-time, until they are bitten by this behaviour

2. In rare occasions, you trully need to read the application environment at compile-time, and you want to be warned when you try to configure at runtime something that is valid only at compilation time

Elixir v1.10 aims to solve these two scenarios by introducing a Application.compile_env/3 function. For example, to read the value at compile time, you can now do:

@db_host Application.compile_env(:my_app, :db_host, "db.local")

By using compile_env/3, Elixir will store the values used during compilation and compare them with the runtime values whenever your system starts, raising an error in case they differ. This helps developers ensure they are running their production systems with the configuration they intend to.

In future versions, we will deprecate the use Application.get_env/3 at compile-time with a clear message pointing users to configuration best practices, effectively addressing the scenario where users read from the application environment at compile time unaware of its pitfalls.

Compiler tracing

This release brings enhancements to the Elixir compiler and adds new capabilities for developers to listen to compilation events.

In previous Elixir versions, Elixir would compile a database of cross references between modules (such as function calls, references, structs, etc) for each project in order to perform all kinds of checks, such as deprecations and undefined functions.

Although this database was not public, developers would still use it to run their own checks against their projects. With time, developers would request more data to be included in the database, which was problematic as Elixir itself did not have a use for the additional data, and the database was not meant to be used externally in the first place.

In Elixir v1.10, we have addressed these problems by introducing compiler tracing. The compiler tracing allows developers to listen to events as they are emitted by the compiler, so they can store all of the information they need - and only the information they need.

Elixir itself is using the new compiler tracing to provide new functionality. One advantage of this approach is that developers can now disable undefined function warnings directly on the callsite. For example, imagine you have an optional dependency which may not be available in some cases. You can tell the compiler to skip warning on calls to optional modules with:

@compile {:no_warn_undefined, OptionalDependency}
defdelegate my_function_call(arg), to: OptionalDependency

Previously, this information had to be added to the overall project configuration, which was far away from where the optional call effectively happened.

Other enhancements

Elixir’s calendar data types got many improvements, such as sigil support for third-party calendars, as well as the additions of DateTime.now!/2, DateTime.shift_zone!/3, and NaiveDateTime.local_now/0.

There are many improvements related to Elixir’s AST in this release too. Code.string_to_quoted/2 has two new options, :token_metadata and :literal_encoder, that give more control over Elixir’s parser. This information was already available to the Elixir code formatter and has now been made public. These changes alongside compiler tracing means tools like Credo, Boundary, and IDE integrations have an even better foundation to analyze the source code.

ExUnit, our test framework, ships two small but important improvements: ExUnit.CaptureIO can now be used by tests that run concurrently and we have added “pattern-matching diffing”. To understand the last feature, take this code:

assert %{"status" => 200, "body" => %{"key" => "foo"}} = json_payload

Now imagine that json_payload is a large JSON blob and the "key" inside the "body" did not have value of "foo". In previous Elixir versions, if the assertion failed, Elixir would print the right side and let you up to your own devices to figure out what went wrong. In Elixir v1.10, we diff the data structure against the pattern so you can see exactly which parts of the data matched the pattern and which ones did not. Note ExUnit already performed diffing when comparing data types, this new version adds diffing when matching data against a pattern.

Finally, this release also adds two new guards, is_struct/1 and is_map_key/2, thanks to the strict requirement on Erlang/OTP 21+.

To learn what else is new, you can read the full release notes.

Check the Install section to get Elixir installed and read our Getting Started guide to learn more.

Have fun!

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