Hi Andy,I just submitted a JIRA and PR. I also put a pre-built docker image on 
docker hub. Here are the links:
https://issues.apache.org/jira/browse/NIFI-5922https://github.com/apache/nifi/pull/3241
 https://hub.docker.com/r/samhjelmfelt/nifi-fn
I am open to communication on any platform.
Thanks,
Sam Hjelmfelt
 

    On Wednesday, January 2, 2019, 6:27:02 PM MST, Andy LoPresto 
<[email protected]> wrote:  
 
 Hi Sam,

Thanks for writing all this up. I’m wondering if you are prepared to share the 
code you referenced below so people can take a look. Do you have a preferred 
communication mechanism (GitHub issues, direct PRs, etc.?). Once there is more 
discussion from the community on this, I think (if it moves forward), the 
standard platform choices would apply. Thanks. 


Andy LoPresto
[email protected]
[email protected]
PGP Fingerprint: 70EC B3E5 98A6 5A3F D3C4  BACE 3C6E F65B 2F7D EF69

> On Jan 2, 2019, at 5:04 PM, Samuel Hjelmfelt <[email protected]> 
> wrote:
> 
> 
> Hello,
> 
> I have not been very active on theNiFi mailing lists, but I have been working 
> with NiFi for several years acrossdozens of companies. I have a great 
> appreciation for NiFi’s value in real-worldscenarios. Its growth over the 
> last few years has been very impressive, and Iwould like to see a further 
> expansion of NiFi’s capabilities.
> 
>  
> 
> Over the last few months, I have beenworking on a new NiFi run-time to 
> address some of the limitation that I haveseen in the field. Its intent is 
> not to replace the existing NiFi engine, butrather to extend the possible 
> applications. Similar to MiNiFi extendingNiFi to the edge, NiFi-Fn is an 
> alternate run-time that expands NiFi’s reach tocloud scale. Given the 
> similarities, MagNiFi might have been a bettername, but it was already 
> trademarked.
> 
>  
> 
> Here are some of the limitations thatI have seen in the field. In many cases, 
> there are entirely valid reasons forthis behavior, but this behavior also 
> prevents NiFi from being used for certainuse cases.
> 
>  - NiFi flows do not succeed or fail as a unit. Part of a flow can succeed 
>while the other part fails
> 
>  - For example, ConsumeKafka acks beforedownstream processing even starts.
>  - Given this behavior, data deliveryguarantees require writing all incoming 
>data to local disk in order to handlenode failures.    
> 
>  - While this helps to accommodate non-resilient sources (e.g.TCP), it has 
>downsides:
> 
>  - Increases cost significantly as throughput requirements rise(especially in 
>the cloud)
>  - Increases HA complexity, because the state on each node must bedurable
> 
>  - e.g. content repository replicationsimilar to Kafka is a common ask to 
>improve this
> 
>  - Reduces flexibility, because data has to be migrated off of nodesto scale 
>down
> 
>  - NiFi environments must be sized forthe peak expected volumes given the 
>complexity of scaling up and down.
>  - Resources are wasted when use caseshave periods of lower volume (such as 
>overnight or on weekends)
>  - This improved in 1.8, but it isnowhere near as fluid as DistCp or Sqoop 
>(i.e. MapReduce)
> 
>  - Flow-specific error handling isrequired (such as this processor group)
> 
>  - NiFi’s content repository is now the source of truth and the flowcannot be 
>restarted easily.
>  - This is useful for multi-destination flows, because errors can behandled 
>individually, but unnecessary in other cases (e.g. Kafka to Solr).
> 
>  - Job/task oriented data movement usecases do not fit well with NiFi
> 
>  - For example: triggering data movement as part of a scheduler job
> 
>  - Every hour,run a MySQL extract, load it into HDFS using NiFi, run a spark 
>ETL job to loadit into Hive, then run a report and send it to users.
> 
>  - In every other way, NiFi fits this use case. It just needs a joboriented 
>interface/runtime that returns success or fail and allows fortimeouts.
>  - I have seen this “macgyvered” using ListenHTTP and the NiFi RESTAPIs, but 
>it should be a first class runtime option
> 
>  -  NiFi does not provide resource controls for multi-tenancy, requiring 
>organizations to have multiple clusters
> 
>  - Granular authorization policies are possible, but there are no resource 
>usage policies such as what YARN and other container engines provide.
>  - The items listed in #1 make this even more challenging to accommodate than 
>it would be otherwise.  
> 
> 
> NiFi-Fn is a library for running NiFiflows as stateless functions. It 
> provides similar delivery guarantees as NiFiwithout the need for on-disk 
> repositories by waiting to confirm receipt ofincoming data until it has been 
> written to the destination. This is similar toStorm’s acking mechanism and 
> Spark’s interface for committing Kafka offsets,except that in nifi-fn, this 
> is completely handled by the framework while stillsupporting all NiFi 
> processors and controller services natively without change.This results in 
> the ability to run NiFi flows as ephemeral, stateless functionsand should be 
> able to rival MirrorMaker, Distcp, and Scoop for performance,efficiency, and 
> scalability while leveraging the vast library of NiFiprocessors and the NiFi 
> UI for building custom flows.
> 
> 
> 
> 
> By leveraging container engines (e.g.YARN, Kubernetes), long-running NiFi-Fn 
> flows can be deployed that take fulladvantage of the platform’s scale and 
> multi-tenancy features. By leveragingFunction as a Service engines (FaaS) 
> (e.g. AWS Lambda, Apache OpenWhisk), NiFi-Fn flows can be attached to event 
> sources (or just cron) for event-drivendata movement where flows only run 
> when triggered and pricing is measured atthe 100ms granularity. By combining 
> the two, large-scale batch processing couldalso be performed.
> 
> 
> 
> 
> An additional opportunity is tointegrate NiFi-Fn back into NiFi. This could 
> provide a clean solution for aNiFi jobs interface. A user could select a 
> run-time on a per process group basisto take advantage of the NiFi-Fn 
> efficiency and job-like execution whenappropriate without requiring a 
> container engine or FaaS platform. A newmonitoring interface could then be 
> provided in the NiFi UI for thesejob-oriented workloads.
> 
> 
> 
> 
> Potential NiFi-Fn run-times include:
> 
>  - Java (done)
>  - Docker (done)
>  - OpenWhisk
> 
>  - Java (done)
>  - Custom (done)
> 
>  - YARN (done)
>  - Kubernetes (TODO)
>  - AWS Lambda (TODO)
>  - Azure Functions (TODO)
>  - Google Cloud Functions (TODO)
>  - Oracle Fn (TODO)
>  - CloudFoundry (TODO)
>  - NiFi custom processor (TODO)
>  - NiFi jobs runtime (TODO)
> 
>  
> 
> The core of NiFi-Fn is complete,but it could use some improved testing, more 
> run-times, and better reporting forlogs, metrics, and provenance.
> 
>  
> 
>  
> 
> Sam Hjelmfelt
> 
> Principal Software Engineer
> 
> Hortonworks
> 
  

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