Not morons, just not educated enough about them to understand exactly what the implications of that action are.
Not morons, just not educated enough about them to understand exactly what the implications of that action are.
Look, I’m not attacking them over this, as you rightly said, it has plenty of other drawbacks and concerns, I’m just emphasising that Google do have a large degree of influence over them. For instance, Chromium is dropping manifest v2 support, so Brave pretty much has to do the same. They’ve said that, as Chromium has a switch to keep it enabled until June (iirc) they’ve enabled that, but after Chromium drops manifest v2 the most they can do is try to support a subset of it as best they can. The Brave devs may not want to drop support, but Google have decreed it will be dropped, so they end up dropping it and having to put in extra work to keep even a subset working for some period of time.
If Brave gets even a moderate market share, Google will continue to mess them around like this as they really don’t like people not seeing their adverts.
Ultimately it’s software, so the Brave devs can do pretty much whatever they want, limited by the available time and money. Google’s influence extends to making that either easier or harder, it much the same way as they influence the Android ecosystem.
Both Brave and Chrome are built on the open-source Chromium browser engine
That’s from the Brave website: https://brave.com/compare/chrome-vs-brave/
Yes there are plenty of changes, but it’s built on it, and shaped by it, and Chromium is heavily influenced by Google. If chromium doesn’t support v2 manifests it is unlikely that Brave will. In this particular case it may be that Brave’s ad blocking and privacy features are equivalent to uBO, but it’s still underpinned by an engine that Google has strong influence over, so it can’t completely shake their influence.
It’s a non-starter for me because I sync my notes, and sometimes a subset of my notes, to multiple devices and multiple programs. For instance, I might use Obsidian, Vim and tasks.md to access the same repository, with all the documents synced between my desktop and server, and a subset synced to my phone. I also have various scripts to capture data from other sources and write it out as markdown files. Trying to sync all of this to a database that is then further synced around seems overly complicated to say the least, and would basically just be using Trillium as a file store, which I’ve already got.
I’ve also be burnt by various export/import systems either losing information or storing it in a incompatible way.
It’s been years since I had to admin Windows servers, but I was quite impressed with the number of MS products where the install and configuration tools would output the Powershell commands to carry out the changes you’d asked for. It made it quite a lot easier to automate. I’d love to see that paradigm catch on more widely, with the GUI and CLI having the same functionality and the GUI giving you the commands to run.
I’ve found HSBC to be ok using Firefox on Linux. I don’t know if they have integrations with any accounting software, but the web access works well, and you can export your transactions for processing locally.
ETA: I’ve run small business accounting on Gnucash, I found the learning curve a bit steep, but once you ‘get it’ it’s handy.
Sorry for the slow reply, life occurred.
I think I understand where you’re coming from with the desired to be productive and not reinstall. I think I’ve been there too! One thing that I can suggest, if you do have the time, is to learn a system like Ansible and use it to setup and configure your machine. The discipline of keeping all of the config as source rather than making ad-hoc changes reduces the chance of thinking you’ll make just one little change and breaking something, and, if something does go wrong, you can get back to your working configuration quickly.
Bearing in mind that there really isn’t anything you can do to stop yourself if you’re really determined to not lose the data, because if you can read it at any time you can back it up, the closest you are likely to come is something like creating new key with GPG then using the TPM to wrap your secret key and deleting the original. That way the key is only usable on that specific machine. Then use the key-pair to encrypt your ‘guard’ files. You can still decrypt them because you have the wrapped secret keys and you’re on the same machine, but if you wipe the drive and lose those keys the data is gone. The TPM wrapping prevents you from taking the keys to a different machine to decrypt your data.
There’s an article with some examples here,
Having said all of that, this still doesn’t help if you just clone the disk as all of the data, including the wrapped key and the encrypted files will be cloned. The one difference there is that the serial number of the hard drive will be different. Maybe you could use that, combined with a passphrase as the passphrase for your GPG key, but we’re getting into pretty esoteric territory here. So you could generate a secret key with a command like:
( lsblk -dno SERIAL /dev/sdb ; zenity --title "Enter decrypt password" --password) | sha1sum | cut -c1-40
Where /dev/sdb
is the device your root partition is on. zenity
is a handy utility for displaying dialogs, there are others available. In this use it just prompts for a passsword. We then concatenate the drive serial number from lsblk
with the password you entered and hash the result. The hashing is really only a convenient way to mix the two without worrying about the newline lsblk
spits out. Don’t record the result of this command, but use it to set the passphrase on your new GPG
key. Wrapping the secret key in the manner the article above suggests is a nice extra step to make it harder to move the drive to another machine or mess around in that sort of way, but not strictly necessary as that wasn’t in the scope of your original question.
Now you can encrypt your file with: gpg -e -r <your key name> <your file>'. That will produce an encrypted version of
<your file>called
<your file>.gpg. To decrypt the file you can get
gpg` to use the hashing command from above to get the passphrase with something like:
gpg -d --pinentry-mode=loopback --batch --passphrase-fd 3 <your file>.gpg 3< <( ( lsblk -dno SERIAL /dev/sdb ; zenity --title "Enter decrypt password" --password) | sha1sum | cut -c1-40 )
Once you’ve tested that you can decrypt the file successfully you can remove the original, plaintext, file. Your data is now encrypted with a key that is secured with a passphrase made of a string you know and the serial number of your disk and optionally wrapped with a key from the TPM that is tied to your physical machine. If you change the disk or the machine the data is irretrievable (ignoring the caveats discussed above). I think that’s about as close to your original goal as you can get. It’s rough around the edges, and I’m not sure I’d trust my data to it, but I believe it’ll work. If you do something like this, please test it thoroughly, I can’t guarantee it!
This seems like a very complicated way to achieve your goal! It sounds like sitting yourself down and giving you a stern talking to might be a beter aporoach.
Having said that, if you have these very important files that you don’t want to lose, please make sure they’re backed up somewhere off of your machine. Storage fails, and it’s a horrible feeling losing something important. Unfortunately doing so would defeat the approach you’re thinking of.
This might be a case of needing to reframe the question to get to the cause of the issue, and then solve that. So, why do you want to make it hard to reinstall your machine? Is it the amount of time you spend on it, the chance of screwing it up, needing it working, has it become a compulsion or something else? Maybe if we can get to the root of the issue we can find a solution.
With regard to TPM, it’s basically just a key store, so you can use it fir anything really, althought it’s normally used by generating a TPM key and using it to encrypt the key that’s actually used to encrypt your data, storing the encrypted key with the OS. Just reinstalling won’t wipe the TPM, but unless you made an effort to save the encrypted key it’ll be gone. Given your problem statement above it just adds to the data you’d need to save, which isn’t helpful.
Ok, I’m still not clear on exactly what you’re trying to achieve as I can’t quite see the connection between somehow preventing certain files being duplicated when cloning the disk and preventing yourself from reinstalling the system.
Bear in mind that reinstalling the system would replace all of the OS, so there’s no way to leave counter-measures there, and the disk itself can’t do anything to your data, even if it could detect a clone operation.
If what you’re trying to protect against is someone who knows everything you do accessing your data, you could look to use TPM to store the encryption key for your FDE. That way you don’t know the password, it’s stored encrypted with a secret key that is, in turn, stored and protected by your CPU. That way a disk clone couldn’t be used on any hardware except your specific machine.
Nothing can prevent a disk clone cloning the data, and there’s no way to make something happen when a disk is cloned as you’re not in control of the process.
If you wish to mask the existence of the files, use either full disk encryption, in which case cloning the disk doesn’t reveal the existence of the files without the decrypt password, or use a file based encrypted partition such as veracrypt in which case the cloner would just see a single encrypted blob rather than your file names.
Ultimately encrypting the files with gpg means they have already effectively ‘destroyed or corrupted’ themselves when cloned. If you don’t want to reveal the filenames, just call them something else.
If you could be a bit more specific about your threat model people may have better ideas to help.
It sounds like you’re actually more concerned about the data in the files not being able to ‘pop up’ elsewhere, rather than the files themselves. In thus case I’d suggest simply encrypting them, probably using gpg
. That’ll let you set a password that is distinct from the one used for sudo
or similar.
You should also be using full disk encryption to reduce the risk of a temporary file being exposed, or even overwritten sectors/pages being available to an attacker.
While I agree with most people here that finding a keyboard and screen would be the easiest option, you do have a couple of other options:
Use a preseed file A preseed lets the installer run completely automatically, without user intervention. Get it to install a basic system with SSH and take it from there. You’ll want to test the install in a VM, where you can see what’s going on before letting it run on the real server. More information here: https://wiki.debian.org/DebianInstaller/Preseed
Boot from a live image with SSH Take a look at https://wiki.debian.org/LiveCD in particular ‘Debian Live’. It looks like ssh is included, but you’d want to check the service comes up on boot. You can then SSH to the machine and install to the harddrive that way. Again, test on a VM until you know you have the image working, and know how to run the install, then write it to a USB key and boot the tsrget server from that.
This all assumes the target server has USB or CD at the top of its boot order. If it doesn’t you’ll have to change that first, either with a keyboard and screen, or via a remote management interface sych as IPMI.
It depends what you want to do with it. If it’s just for storing files/backups then encrypt them before uploading and make sure the key never goes anywhere near the VPS. If it’s for serving up something like a simple website, you probably care more about data integrity than exfiltration, so make sure you have the security, including selinux or equivalent, locked down, and regularly run integrity checks. If it’s for running something interactive, or where data will be generated or downloaded to the machine, you’re out of luck, there’s no even theoretical way of securing that against an adversary with that much access.