Events in an event store (event sourcing) are most often persisted in a serialized format with versions to represent a changed in the model or schema for an event type. I haven't been able to find good documentation showing the actual model or schema for an actual event (often data table in event store schema if using a RDBMS) but understand that ideally it should be generic.
What are the most basic fields/properties that should exist in an event?
I've contemplated using json-api as a specification for my events but perhaps that's too "heavy". The benefits I see are flexibility and maturity.
Am I heading down the "wrong path"?
Any well defined examples would be greatly appreciated.
I've contemplated using json-api as a specification for my events but perhaps that's too "heavy". The benefits I see are flexibility and maturity.
Am I heading down the "wrong path"?
Don't overlook forward and backward compatibility.
You should plan to review Greg Young's book on event versioning; it doesn't directly answer your question, but it does cover a lot about the basics of interpreting an event.
Short answer: pretty much everything is optional, because you need to be able to change it later.
You should also review Hohpe's Enterprise Integration Patterns, in particular his work on messaging, which details a lot of cases you may care about.
de Graauw's Nobody Needs Reliable Messaging helped me to understan an important point.
To summarize: if reliability is important on the business level, do it on the business level.
So while there are some interesting bits of meta data tracking that you may want to do, the domain model is really only going to look at the data; and that is going to tend to be specific to your domain.
You also have the fun that the representation of events that you use in the service that produces them may not match the representation that it shares with other services, and in particular may not be the same message that gets broadcast.
I worked through an exercise trying to figure out what the minimum amount of information necessary for a subscriber to look at an event to understand if it cares. My answers were an id (have I seen this specific event before?), a token that tells you the semantic meaning of the message (is that something I care about?), and a location (URI) to get a richer representation if it is something I care about.
But outside of the domain -- for example, when you are looking at the system as a whole trying to figure out what is going on, having correlation identifiers and causation identifiers, time stamps, signatures of the source location, and so on stored in a consistent location in the meta data can be a big help.
Just modelling with basic types that map to Json to write as you would for an API can go a long way.
You can spend a lot of time generating overly complex models if you throw too much tooling at it - things like Apache Thrift and/or Protocol Buffers (or derived things) will provide all sorts of IDL mechanisms for you to generate incidental complexity with.
In .NET land and many other platforms, if you namespace the types you can do various projections from the types
Personally, I've used records and DUs in F# as a design and representation tool
you get intellisense, syntax hilighting, and types you can use from F# or C# for free
if someone wants to look, types.fs has all they need
Related
Anyone who has experience with the Salesforce platform will know it can essentially be used as a backend for a lot of web applications. They let the end user define custom objects and the fields on those objects. So for instance, rather than having some entity as a strongly-typed class in the code, they have a generic "custom object", whose behaviour and data is defined by the fields you choose and the triggers and rules you apply to it. So they don't have to update the code, recompile and redeploy every time a user adds one (which, given they are a web service would be both impractical and cause serious downtime, a lot).
I was thinking how this could be implemented, and I think Salesforce may do it in a very complex way but I'm specifically thinking how I can implement this. So far I've come up with this:
An "object defintion", which contains all the metadata for a specific record type. Equivalent to a hardcoded class definition.
A generic "record", probably with some sort of dictionary/map tying values to field identifiers that exist in the object definition.
When operating on user data, both the record and the object defintion need to be in memory so that the integrity of the data can be checked. Behaviour normally provided by methods can be applied using some kind of trigger system (again, I'm using a Salesforce example here because it's the best example I know of) with defined actions/events.
This whole system seems very clunky, slow (without serious optimisation), and like it would be prone to problems which wouldn't plague 99% of software projects, so I'd like to learn more about it, but I have no idea where to start looking.
Is the idea I've laid out above already an existing paradigm and if so what is it called?
You have encountered the custom-fields. The design is to enable tenant specific fields against a fixed entity. Since multi-tenancy at the highest level demand That a single codebase / database be used for all tenants with the options to full Customization. This design is the best approach. The below link points to a patent That was granted for managing the custom-fields per tenant.
https://www.google.com/patents/US7779039
I have a question about Nifi and its capabilities as well as the appropriate use case for it.
I've read that Nifi is really aiming to create a space which allows for flow-based processing. After playing around with Nifi a bit, what I've also come to realize is it's capability to model/shape the data in a way that is useful for me. Is it fair to say that Nifi can also be used for data modeling?
Thanks!
Data modeling is a bit of an overloaded term, but in the context of your desire to model/shape the data in a way that is useful for you, it sounds like it could be a viable approach. The rest of this is under that assumption.
While NiFi employs dataflow through principles and design closely related to flow based programming (FBP) as a means, the function is a matter of getting data from point A to B (and possibly back again). Of course, systems aren't inherently talking in the same protocols, formats, or schemas, so there needs to be something to shape the data into what the consumer is anticipating from what the producer is supplying. This gets into common enterprise integration patterns (EIP) [1] such as mediation and routing. In a broader sense though, it is simply getting the data to those that need it (systems, users, etc) when and how they need it.
Joe Witt, one of the creators of NiFi, gave a great talk that may be in line with this idea of data shaping in the context of Data Science at a Meetup. The slides of which are available [2].
If you have any additional questions, I would point you to check out the community mailing lists [3] and ask any additional questions so you can dig in more and get a broader perspective.
[1] https://en.wikipedia.org/wiki/Enterprise_Integration_Patterns
[2] http://files.meetup.com/6195792/ApacheNiFi-MD_DataScience_MeetupApr2016.pdf
[3] http://nifi.apache.org/mailing_lists.html
Data modeling might well mean many things to many folks so I'll be careful to use that term here. What I do think in what you're asking is very clear is that Apache NiFi is a great system to use to help mold the data into the right format and schema and content you need for your follow-on analytics and processing. NiFi has an extensible model so you can add processors that can do this or you can use the existing processors in many cases and you can even use the ExecuteScript processors as well so you can write scripts on the fly to manipulate the data.
Systems have to sometimes accommodate the possibility of real world bad data. Consider that some data originates with paper forms. And forms inherently have a limited means of validating data.
Example 1: On one form users are expected to enter an integer distance (in miles) into a blank. We capture the information as written as a string since we don't always end up getting integer values.
Example 2: On another form we capture a code. That code should map to one of the codes in our system. However, sometimes the code written on the form is incorrect. We capture the code and allow it to exist with an invalid value until some future time of resolution. That is, we temporarily allow bad data since it's important to record the record even if some of it is invalid.
I'm interested in learning more about how systems accommodate bad data, that is, human error. Databases are supposed to be bastions of data integrity, but the real world is messy and people make mistakes. Systems must allow us to reflect those mistakes.
What are some ways systems you've developed accommodate human error? What practices have you used? What lessons have you learned?
Any further reading on the topic? (I had trouble Googling it.)
I agree with you, whatever we do there's no guarantee that we can get rid of bad or incorrect data. Especially, but not only, if it comes to user input. In my experience the same problems exist in complex integration projects, in which you have to integrate and merge (often inconsistent) data retrieved from different systems.
A good strategy is to decouple the input from the operational system itself. First, place user (or external system) provided data in a separate datastore (e.g. different schema). In a second step load this data into your operational datastore, but only if it confirms to strict rules (e.g. use address verification software to verify a given address). This Extract, Transform, Load (ETL) approach is fairly common in Data Warehousing (DWH) solutions, but can be applied programmatically in transactional systems as well (in my experience).
The above approach often leads to asynchronous processes in which the input is subitted first and (maybe) at a later time the external entity (user or system) retrives feedback whether its data was correct or not.
EDIT: For further readings I recommend to have a look at DWH concepts. Alhtough, you may not want to build such a thing, you could partially apply those concepts:
http://en.wikipedia.org/wiki/Extract,_transform,_load
http://en.wikipedia.org/wiki/Data_warehouse
http://en.wikipedia.org/wiki/Data_cleansing
A government department I worked in does a lot of surveys, most of which are (were) still paper based.
All the results were OCR'd into the system.
As part of the OCR process a digital scan of the forms is kept.
Data is then validated, data that is undecipherable or which fails validation is flagged.
When a human operator reviews the digital data they can modify the data if they are confident that they can correctly interpret what the code could not; they (here's the cool bit) can also bring up the scan of the paper based original, and use that to determine what the user was trying to say.
On a different thread; at some point you want to validate the data coming in against any expected data ranges that you want it to conform to; buy rejecting it at the point of entry you give the user a chance to correct it - the trade off is that every time you reject it you increase the chance of them abandoning the whole process.
At some point in your system you need to specify the rules which will be used for validation. At the end of the day a system is only going to be as smart as those rules. You can develop these yourself into the code (probably the business logic) or you might use a 3rd party component.
having flexible control over the validation is pretty important as they are likely to change overtime.
To be honest with you, one point of migrating from paper-based systems to IT is to remove these errors and make sure all data is always correct. I doubt any correctly planned and developed IT system (especially business financial systems) would allow such errors. Not in the company I am working for anyway...
There are lots of software tools that address the kinds of problems you mention. There are platforms and tools that let you define rules for scrubbing and transforming data and handling validation errors. Those techniques are widely used for Data Integration and Business Intelligence applications. Google for "Data Quality" or "Data Integration".
The easiest thing to do is to (this is not always possible) design the interface where users enter the data to limit as much as possible the amount of text that they need to enter. In my experience this seems to be where a lot of problems come from. One simple example of this is to provide a select, or auto-complete select field
One thing that you could do is do everything possible to determine if the data is correct before going into the db. I try to give the user entering the data as much feedback as possible so they can (ideally) fix some of the issues before the data gets persisted. For example, it is a very quick check to determine if the data being entered is of the correct type.
I got started in legal systems before the PC era. Litigation support databases routinely have to accommodate factually incorrect, incomplete, and contradictory information. It takes a different way of thinking.
The short version . . .
Instead of recording a single fact, you record multiple assertions about a fact. It boils down to designing a database to store data from assertions like these.
In an interview at 2011-01-03 08:13, Neil Rimes told Officer Cane
that he was at home from 2011-01-02 20:00 until 2011-01-03 08:13.
In an interview at 2011-01-03 08:25, Liza Nevers told Officer Cane
that Neil Rimes came home at 2011-01-02 23:45.
In a deposition at 2011-05-13 10:22, Cody Maxon told attorney Kurt
Schlagel that he saw Neil Rimes at Kroger at 2011-01-03 03:00
Together with another developer, I have embarked on a journey to create a hosted 'CRM Style' application that will cater to enterprise level businesses. These businesses will be accessing our application remotely and so the hosted nature of the application will require certain features. For example, to guarantee a level of professional service the following things must be true:
internationalization requires multiple languages and presentation of date/time for various timezones and locales
transactional capability for batch processing of tasks and rollback capabilities
security concerns for keeping data safe and remote invocations secure from attack
etcetera, the list goes on and on
Due to these concerns and my role as the developer most responsible for the server side development, I am very interested in the choices I make early on. Regarding timezones and languages for example, are there issues related to my choice of database or data fields? Do I choose to use a UTC timestamp or date field throughout the application and if so is there a standard format for that? Also, regarding different languages, am I supposed to ensure the data is stored in the database as UTF-8 or unicode?
I really want to avoid laying down the infustructure of the system only to discover later that a fundamental decision was incorrect or not big enough, wide enough, smart enough, etc. Can someone point me in the right direction regarding these basic 'early' decisions?
EDIT _ Ok I appreciate the broad responses and now I see my question was a little too non-specific. I'd like to focus on the more specific elements that WERE present in the question, such as how to choose the proper format for storing a UTC Date/Time or how to save my text data (do I specify a UTF format?)
If you are targeting enterprise CRM, then you will need a very high level of customizability and integrations with all kinds of systems. You will make mistakes in the design. Your only hope is to isolate each little piece of the code so that you can have a chance of fixing it later.
In short, basic software engineering principles are your best bet.
What you are discussing is called a multi-tenant application wherein you have the same code base used by multiple customers (tenants) with logical or physical separation of data. Remember the fundamental rule of development: flexibility is relational to complexity. The more flexible you make the system, the more complicated it will be.
RE: UTC
For a CRM application that stores things like when calls were made and when meetings took place, I would definitely store all those in UTC and let the user set their local timezone. However, you might run into dates which are timezone agnostic and for those, I would store whatever date was entered.
RE: Unicode
Yes, I would use Unicode for all user-entered data. However, that will not get you localization. If for a single company for example, you have a user in Hong Kong entering text in Chinese and user in Amsterdam entering text in Dutch, you are not going to get automatic translation. Things like dates and number formats can be localized, but raw text like names used in drop lists and such can be a chore to localize.
As you have not mentioned what you think about the issue, you may find my answer or parts of it rather basic.
If you don't need to, don't use a low-level language. I'd use python usually for the first version of a CRM application (with the hope that it would be good enough for the next versions), but this decision depends also on the domain community.
Try to write the minimal code on your own, instead relying on the third-party libraries. People may disagree on this, but I would write the code myself as the last option. But the next point is important.
When selecting a library/framework to use, make sure the party behind it is going to last, the library is stable and the software license suits you needs.
Other general rules apply: focus on the customer, use continuous integration/testing, etc., use good software practices like logging etc.
Nothing is ever stored as "unicode" because this is an abstract concept. Unicode is always stored in some kind of unicode transformation format (UTF) (well or UCS but I never saw that used somewhere). The most commonly used UTF is UTF-8 but I suggest to use what is native/default to your platform. wikipedia
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I work for a CMMI level 5 certified company and one thing I hate about is the amount of documents we prepare (As a programmer I already hate documents). We have lots and lots of documents like PID(project initiation doc), Business requirements, System requirements,tech spec, Code review checklist, issue logs, Defect logs, Configuration management plan, Configuration management check list(s), Release documents and lots...
Almost 90% of these docs are just done for the sake of QA audit :) .. What do you think are the most important documents for a project? What documents can be used in the long run by another developer?
Please share your good practices here. I would like to use them for my own projects or the company I am planning to start in the long run.
Thanks
The key document is a good functional spec. There should be one and only one reference document for a system.
Overdoing documentation proliferates a large number of small requirements and spec documents every time someone changes a system or interface. For a system of any complexity, before long you have your spec distributed around several hundred assorted word, excel, visio and even powerpoint files. When this happens you lose clarity about what is current or even whether you have located and identified all pertinent documentation.
The BRD-SRD-Tech spec progression is based on an assumption that the business signs off the BRD, a business analyst signs off the SRD against requirements documented in the BRD and the technical specification is signed off against the SRD. This generates a web of sign-offs, multiple documents with redundant information and makes it difficult and clumsy to keep the spec documents up to date.
Because of this, subsequent requirements documentatation tends to take the form of a series of change request and supplemental requirement and spec docs, each with their own sign-off and audit process. You gain CYA and audit trail (or at least the appearance of an audit trail), but you lose clarity. There is now no definitive reference document for the system and it is difficult to establish what is current or relevant to any particular activity. The net result is that your business analysis process gets bogged down in forensic research, which adds overheads and latency to delivery schedules.
A spec document should be built in such a way that there is one definitive reference for any given system or subsystem. The document should be kept up to date and versioned. Get a good technical documentation tool like Framemaker, so your process can scale, and the document has some structural integrity of the sort lacking on Word.
For me the only real document I ever use is a spec. The more detail the better. However it doesnt need to be all completed at one time, and it doesnt need to be particularly formal. What is far more useful to me than documents that are checked and signed and double checked and double signed is always being able to get the latest version of a document. And being able to talk to people about what they have written, and get a decision in the case of any ambiguity. this is far more useful to me than anything else.
To sum up: a spec is the only document I have ever found useful, however it pales in comparison to having a project manager who knows the proposed system inside out, and can make sensible decisions based on what they know.
Documentation is like tofu -- most people hate it until they realize that under the right conditions, it can be really good.
The problem is that what you consider documentation is mostly made for documentation's sake. You, as a developer, don't see any immediate value in the documents you produce because you know you can do your job without all the TPS reports which you're required to make.
Unfortunately, I'm going to wager that there's not a lot you can do about in a company where you're being forced to eat raw tofu all the time. You'll probably just have to suck it up and write the docs which your company requires, but you can at least do one thing... you can write documents which at least are useful to you, and you can pass them along with your code for others who will maintain it.
Aside from inline documentation, you could set up a wiki to be used by yourself and people on your team. This type of documentation is searchable, which is already a big plus to developers, plus it's more of a living document instead of a homework-like paper you had to write. You already post to SO, so just think of your documentation as pooling your knowledge in a more useful place.
What do you think are the most important documents for a project?
Different people have different needs: for example the documents which the owner needs (e.g. the business contract) aren't the same as the documents which QA needs.
What documents can be used in the long run by another developer?
IMO the most important document (except for the source code) is the functional specification: because what the software is supposed to do (as opposed to, what it is doing) is the one thing that can't necessarily be reverse-engineered. See also How does a good developer keep from creating code with a low bus hit factor?
User Stories, burndown chart, code
I'm a fan of the old 4+1 views:
Use Case view (a/k/a user stories). There are several forms: proper use cases, forward-looking use cases that aren't as well defined and epics which need to be decomposed.
Logical view. The "static" view. UML Class diagrams and the like work well here as a design document. This also includes request and response formats for various protocols. Here is where we document the RESTful requests and responses. This includes the REST URI design.
Process view. The "dynamic" view. UML activity diagrams, sequence diagrams and statecharts and the like for here for design documents. In some cases, simple narratives work well. In other cases, there's a State design pattern, and it requires a combination of class diagrams and statecharts to show how the stateful objects interact.
This also includes protocols (e.g. REST). Here is where we define any special processing for the various REST requests.
This also includes an authentication or authorization rules, and any other cross-cutting aspects like security, logging, etc.
Component view. The pieces we're building for deployment. This includes the stuff we depend on, the structure of the modules and packages, etc. This is often a simple component diagram or a list of components and their dependencies.
Deployment view. We try to generate this from the code as deployed. Since we're using Python, we use epydoc to create the API documentation. We also use Sphinx to import module documentation into this view of the software.
This also includes the parameters, settings, and configuration details.
This, however, isn't sufficient.
When projects start, you have to work up to this through a series of sprints.
The first sprints build just the use case view.
Subsequent sprints build an "architecture" to implement the use cases. The architecture document has 4+1 views, but at a high level of abstraction. It summarizes the structure of the model schemas, the requests and replies, the RESTful processing, other processing, the expected componentry, etc. It never has a Deployment view. We generally reference operator guide and API documents as the deployment view of an architecture.
Then design-and-construction sprints build (and update) detailed 4+1 view documents for various components.
Then release sprints build (and update) the deployment views.
From the project point of view, the most important documents are those that normally include the word Plan, such as the Project Plan, Configuration Management Plan, Quality Plan, etc.
What you are describing is common in process improvements, and normally responds to two major causes. One is that the system really is overeaching and getting in the way of real work being done. Another is actually answered in your question: it is not that the documents are only done for the sake of audits, and your focus should not just be how usefull is the doc for other developers, but for the project or the company as a whole.
One usually looks at things from it's own perspective, sometimes it's necessary to look at the general picture.