Scaling / High Availability Cloudron Setup
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@tkd said in Scaling / High Availability Cloudron Setup:
Ability to use floating IPs
Note that this is possible already. Get a floating IP and then go to
Network view
and put the IP there. Cloudron will now use that IP for the DNS. Many users already use it this way with Elastic IP as well.Ability to scale based on the number of applications running / resources needed - adding additional Cloudron nodes?
This is in our radar and definitely doable but the biggest challenge for us has been to justify implementing these features as we haven't found customers who would be willing to pay $ for complex features like these. If you are in the enterprise/medium business bracket and willing to work with us here, please contact us on support@cloudron.io.
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Certainly a fan of Cloudron and subscriber.
Also a fan of (the perhaps lesser known) D2C.io, which does make clustered HA setups pretty easy but doesn't have the same App ecosystem or community yet.
Maybe you guys could collaborate?
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I also note that Hetzner Cloud have just added a load balancers feature which I think could be used to scale Cloudron too, see
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@jdaviescoates I think most hosts offer load balancers - but keeping the LB within the app would keep it more portable.
I respect that D2C has overlap but I still see them as distinct and potential cross-pollination. Any example of the clustered app setups and minimum containers can be seen here: https://docs.d2c.io/getting-started/stack-hub/
D2C is still a hosted and proprietary solution including support services, whereas Clouron is open-source but less GUI to tinker or be intimidating, so the target audiences are different, and it might be that the way D2C works not being open-source is not compatible and Kubernetes (a la https://kubeapps.com) would be a more compatible approach?
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@robi From what I can tell, Portainer seems like a management interface for many orchestrators, which seems a level removed from the actual cluster scheduler itself, and therefore a bit higher-level than the next step we'd need in the cloudron journey to clustered operation. Frankly, even though I've advocated (and will likely continue to ) for a largely HashiCorp-based approach, the first/easiest thing might be to experiment with Docker Swarm. I'm not a particular fan of Swarm, but to be fair it's been a while since I seriously evaluated it. Still a big fan of Nomad specifically for this particular use case, and I think it is the best fit for the problem. I do have a bit of work done on the "HashiStack" approach already, but it's going to be a pretty seismic change if I get it finished, and I've not yet explored all the tendrils from the management/box side that will need to be updated. I can try to get some more serious progress laid down on that around the Christmas holidays, I hope.
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I love the idea of the HashiCorp Nomad but never got around to testing.
Terraform, Vagrant and Vault being their better-known products that became standards for those interested.
The other option being a Cloudron home-cooked solution with HA-Proxy, Nginx-Cluster, Unison, and whatever DB clustered versions.
Caution being that clustered DBs will have performance trade-offs, more-so for mirrored multi-master, and less-so for master-slave failovers.
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Starting from the data perspective:
- DRBD - https://www.linbit.com/drbd/
Distributed Replicated Storage System
DRBD– software is a distributed replicated storage system for the Linux platform. It is implemented as a kernel driver, several userspace management applications, and some shell scripts.
DRBD is traditionally used in high availability (HA) computer clusters, but beginning with DRBD version 9, it can also be used to create larger software defined storage pools with a focus on cloud integration.
- LinStor - https://github.com/LINBIT/linstor-server
LINSTOR is open-source software designed to manage block storage devices for large Linux server clusters. It’s used to provide persistent Linux block storage for cloudnative and hypervisor environments.
- OpenEBS - https://openebs.io/
OpenEBS enables Stateful applications to easily access Dynamic Local Persistent Volumes (PVs) or Replicated PVs. By using the Container Attached Storage pattern users report lower costs, easier management, and more control for their teams.
- Yugabyte DB - https://github.com/yugabyte/yugabyte-db
Developers get low latency reads, ACID transactions and globally consistent secondary indexes and full SQL. Develop both scale-out RDBMS and internet-scale OLTP apps with ease.
DBAs & Operations simplify operations with a single database that delivers linear scalability, automatic global data distribution, multi-TB density per node and rebalancing without performance bottlenecks or down time.
CEOs & Line of Business Owners reign in database sprawl and benefit from reduced infrastructure and software licensing costs. Deliver new features and enter new markets with more speed and agility.
Core Features
- Global Resilience
- Geo-replicated
- Strongly consistent across regions
- Extreme resilience to failures
High Performance
- Single-digit millisecond latency
- High throughput
- Written in C/C++
Internet Scale
- Massive write scalability
- App agility with flexible schemas
- Multi-TB data density per node
Cloud Native
- AWS, GCP, Azure, Pivotal
- Docker, Kubernetes
- Private data centers
Open Source
- 100% Apache 2.0 license
- PostgreSQL compatible
- Built-in enterprise features
Integrations
- Spring microservices
- Apache Kafka & KSQL
- Apache Spark
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I'm not sure I'd want fancy, distributed filesystems on by default for most apps. I feel like most apps would need custom changes to explicitly support distributed storage, and I'm skeptical that a blanket drop-in distributed-fs solution could meet the performance and reliability needs of the diversity of cloudron users.
I'd rather have multi-node app management than distributed app runtime. Manage all your cloudron nodes and assign apps between them, migrate them etc, but most apps can still only be deployed to one cloudron instance at a time. At least I think this would be a better scaling/ha goal for a v1 implementation.
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@infogulch said in Scaling / High Availability Cloudron Setup:
I'd rather have multi-node app management than distributed app runtime. Manage all your cloudron nodes and assign apps between them, migrate them etc, but most apps can still only be deployed to one cloudron instance at a time. At least I think this would be a better scaling/ha goal for a v1 implementation.
I totally agree, and I think it's the way the cloudron team is headed for the V1
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@infogulch Yes, I recall overthinking it that way (i.e trying to scale and distribute etc) but @mehdi corrected my thoughts a while ago about this and mentioned focusing on just managing nodes. I remember writing this somewhere, but I cannot find my notes.
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Having been down the high-availability setup path with K8S, it isn't a small ask and without compromises. I prefer to think of HA on the server level - so good servers with RAID10 or VPS that does all that for you, couple that with a solid backup and restore setup and you can get as close to HA as those more complex solutions.
I'd rather see focus on the multi-cloud control panel and granular backup policies first.
It's the same as encryption - everyone thinks they want it, until they realise how many people and policies there needs to be for key holders because of the vulnerability for loss moving from the technology to the people.
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@marcusquinn More like common hypervisor HA features instead of full blow K8 HA? Mainly the ability to migrate an app to a different node and further move/manage its backup and DNS
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k8s is not a great fit imo for cloudron without introducing much bigger changes...there are roads to that runtime with some intermediary schedulers as well though, which is why I like Nomad in this space the most. I've actually been working up a prototype using the HashiStack Consul/Nomad (plus or minus vault) to provide a distributed runtime, but that's a reasonably long way off seeing any sort of integration into the core of things. It's a big shift on its own, and needs a lot of refinement. Obviously so would a k8s approach. In the immediate term, managing across multiple full-on cloudron instances is fairly clean, and if implemented correctly, could actually still be useful in that world as well. It's the first, easiest, smallest thing to do and therefore in my opinion is valuable, regardless of where the higher-powered distributed runtime ideas go.
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@plusone-nick I mean as in disk hardware redundancy. Most racks have 2 of everything else. In my experience a simple server setup on a good hardware rack will outperform K8S for uptime. I lost count of the times we were restarting one thing or another with Rancher to get something working that had no reason to fail than K8S getting it's knickers in a twist.
The biggest risk to data loss is always the simple minds of the users!
The biggest risk to availability is always the complex minds of the tools!
No-one really needs high-availability, online banking goes offline frequently for maintenance. If Google has a bad day, people make a beverage and talk to each other.
HA is snake oil in my experience.
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@marcusquinn
You can just not have live HA, but like a soft one.
If a container is on a node that is not responding you can start it on a new node. -
@moocloud_matt Thanks, I know what HA is, and how it works, and far too many options for it - it's still the wrong approach for almost all online services.
One thing I've learned in all my years is to always discount, ignore and do the opposite of anyone that says "just" in any comments, because they always represent the vast difference in time and cost between saying and doing.
I'm well aware of the vast industry of people peddling HA pipe-dreams - I'm pretty sure I could beat all of them for uptime, by specifically avoiding doing every single thing they recommend, and just having the tried and tested strategy of keeping it simple.
If you can't take a month off and then another month doing different things without having to do any maintenance or explain anything to anyone, your stack is too complicated.
All HA ever did for me was cost me an additional couple of employees just to continually maintain it, and generally take away resources and attention from the actual things users wanted.
No K8S, no excessive expertise costs, and no uptime problems since because there's just less to go wrong, and less opinion to distract from the actual usage of services that funds them.
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HA is a bit overpower for most customer that's true, but is the idea that people have of it, that push MSP and CSP to have some lvl of HA.
Good hardware components can be a good solution, but if you have to restore a raid from a backup it will take a lot of time, and some customer don't want to take that risk.
They just prefer to have an soft HA set-up.KISS is always the good way in the IT, but not always it's possible to "keep it simple s*" .
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@moocloud_matt In 20 years of hosting web apps, I cannot recall a single instance of hardware failure causing service or data loss. Not one.
There are network interruptions but they usually get solved through mutual interests in that being solved.
I have however see frequent data loss from software issues, and in the absolute vast majority of cases it was human error.
Software High Availability is a contradiction because it is adding the element of human reliance to a system, and my experience was that the software was never finished, always being updated and frequently failing.
Hardware resilience and redundancy is the only method of data security that is almost immune to interference.
In my experience "Customers" have no idea or interest in risk assessment, and they just want things to work - it is "solutions" sales people that try to sell them solutions to risks they didn't know they had to have in the first place for the sake of securing support retainers.
I'm sure you know what you want - but I would never invest in what you suggest purely because you are trying to sell it.
To me the best solution is one that does not need the person selling it, and that is where actually the oldest solutions have stood the test of time and new solutions are creating the problems they want to sell the solutions for because they cannot scare their customers into support retainers if they were given solutions that just worked because they don't need to keep changing.