Internet Archive and Wayback Machine have been facing DDoS cyberattacks for the last few days. The non-profit assured that collections are safe despite the service being inconsistent since Sunday.
A quick search indicates that they’ve archived ~100PB of data.
Now I’m trying to come up with a way to archive the internet archive in a peer-to-peer/federated fashion while maintaining fidelity as much as possible…
Can DDOS attacks actually erase/corrupt stored data though? There’s no way they’re running all of this on a single server, with hundreds of PB’s worth of storage, right?
DDOS attacks block connection to the servers, they don’t actually harm the data itself. You could probably overload a server to the point of it shutting down, which might affect data in transit, but data at rest usually wouldn’t be harmed in any way; unless through some freak accident a server crash would render a drive unusable. But even then, servers are usually fully redundant, and have RAID systems in place that mirror the data, so kind of a dual redundancy. Plus actual backups on top of that; though with that amount of data they might have a priority system in place and not everything is fully backed up.
From what I’ve learned, it is possible to create a vulnerability within the system of a ddos attack would overload and cause a reset or fault. At that point, it’s possible to inject code and initiate a breach or takeover.
I can’t find the documentation on it so… Take it with a grain of salt. I thought I learned about it in college. Unsure.
That wouldn’t distribute the load of storing it though. Anyone on the torrent would need to set aside 100PBs of storage for it, which is clearly never going to happen.
You’d want a federated (or otherwise distributed) storage scheme where thousands of people could each contribute a smaller portion of storage, while also being accessible to any federated client. 100,000 clients each contributing 1TB of storage would be enough to get you one copy of the full data set with no redundancy. Ideally you’d have more than that so that a single node going down doesn’t mean permanent data loss.
That wouldn’t distribute the load of storing it though. Anyone on the torrent would need to set aside 100PBs of storage for it, which is clearly never going to happen.
Torrents are designed for incomplete storage of data. You can store and verify few chunks without any problem.
You’d want a federated (or otherwise distributed) storage scheme where thousands of people could each contribute a smaller portion of storage, while also being accessible to any federated client.
Torrents. You may not have entirety of data, but you can request what you need from swarm. The only limitation is you need to know in which chunk data you need.
Ideally you’d have more than that so that a single node going down doesn’t mean permanent data loss.
True. Until you responded I actually completely forgot that you can selectively download torrents. Would be nice to not have to manually manage that at the user level though.
Some kind of bespoke torrent client that managed it under the hood could probably work without having to invent your own peer-to-peer protocol for it. I wonder how long it would take to compute the torrent hash values for 100PB of data? :D
~300MB/s on one core of 13-years old i5 SHA-256(used in BitTorrent v2). Newer cores can about half a gig per one. Less than 3 days on one core then. Less than day on 3 cores.*
* assuming no additional performance penalty for increased power consumption and memory bandwith usage
My guess storage bandwidth would be biggest bottleneck.
Found relatively old article(in Russian, just search for openssl and look at graph that mentions SHA-512 which is SHA-2 too) that says i7-2500 all-cores throughput is slightly over 1GB/s.
Not sure you’d be able to find 100k people to host a 1TB server though. Plus, redundancy would be better anyway since it would provide more download avenues in case some node is slow or has gone down.
Yes, it’s a big ask, because it’s a lot of data. Any distributed solution will require either a large number of people or a huge commitment of storage capacity. Both 100,000 people and 1TB per node is a lot to ask for, but that’s basically the minimum viable level for that much data. Ten million people each committing 50GB would be great, and offer sufficient redundancy that you could lose 80% of the nodes before losing data, but that’s not a realistic number to expect to participate.
It’d be a lot more complicated than that, I think, if one wanted to effectively be able to address it like a file system, as well as holistically verify the integrity of the data and preventing unintentional and unwanted tampering
A quick search indicates that they’ve archived ~100PB of data.
Now I’m trying to come up with a way to archive the internet archive in a peer-to-peer/federated fashion while maintaining fidelity as much as possible…
That’s what IPFS is for. It’s ideal for that kind of stuff
Can DDOS attacks actually erase/corrupt stored data though? There’s no way they’re running all of this on a single server, with hundreds of PB’s worth of storage, right?
No. It affects availability. Not integrity or confidentiality.
DDOS attacks block connection to the servers, they don’t actually harm the data itself. You could probably overload a server to the point of it shutting down, which might affect data in transit, but data at rest usually wouldn’t be harmed in any way; unless through some freak accident a server crash would render a drive unusable. But even then, servers are usually fully redundant, and have RAID systems in place that mirror the data, so kind of a dual redundancy. Plus actual backups on top of that; though with that amount of data they might have a priority system in place and not everything is fully backed up.
Not technically by itself as far as I know
From what I’ve learned, it is possible to create a vulnerability within the system of a ddos attack would overload and cause a reset or fault. At that point, it’s possible to inject code and initiate a breach or takeover.
I can’t find the documentation on it so… Take it with a grain of salt. I thought I learned about it in college. Unsure.
Torrent?
That wouldn’t distribute the load of storing it though. Anyone on the torrent would need to set aside 100PBs of storage for it, which is clearly never going to happen.
You’d want a federated (or otherwise distributed) storage scheme where thousands of people could each contribute a smaller portion of storage, while also being accessible to any federated client. 100,000 clients each contributing 1TB of storage would be enough to get you one copy of the full data set with no redundancy. Ideally you’d have more than that so that a single node going down doesn’t mean permanent data loss.
Torrents are designed for incomplete storage of data. You can store and verify few chunks without any problem.
Torrents. You may not have entirety of data, but you can request what you need from swarm. The only limitation is you need to know in which chunk data you need.
True.
True. Until you responded I actually completely forgot that you can selectively download torrents. Would be nice to not have to manually manage that at the user level though.
Some kind of bespoke torrent client that managed it under the hood could probably work without having to invent your own peer-to-peer protocol for it. I wonder how long it would take to compute the torrent hash values for 100PB of data? :D
~300MB/s on one core of 13-years old i5 SHA-256(used in BitTorrent v2). Newer cores can about half a gig per one. Less than 3 days on one core then. Less than day on 3 cores.*
* assuming no additional performance penalty for increased power consumption and memory bandwith usage
My guess storage bandwidth would be biggest bottleneck.
Found relatively old article(in Russian, just search for openssl and look at graph that mentions SHA-512 which is SHA-2 too) that says i7-2500 all-cores throughput is slightly over 1GB/s.
Not sure you’d be able to find 100k people to host a 1TB server though. Plus, redundancy would be better anyway since it would provide more download avenues in case some node is slow or has gone down.
Yes, it’s a big ask, because it’s a lot of data. Any distributed solution will require either a large number of people or a huge commitment of storage capacity. Both 100,000 people and 1TB per node is a lot to ask for, but that’s basically the minimum viable level for that much data. Ten million people each committing 50GB would be great, and offer sufficient redundancy that you could lose 80% of the nodes before losing data, but that’s not a realistic number to expect to participate.
It’d be a lot more complicated than that, I think, if one wanted to effectively be able to address it like a file system, as well as holistically verify the integrity of the data and preventing unintentional and unwanted tampering
Torrents. Their hashes are derived from hashes of chunks. Just verify chunks.
https://github.com/johang/btfs
Sick. TIL!
Block chain
Overkill chain
ia already serves all their uploads as torrents
There is this, yes.