However, if I want to support SSH tunneling, my understanding is that my Android app would still post to my PHP API, but instruct to open an SSH tunnel, for example forwarding local port 3307 to remote host example.com on port 3306. Then PHP would connect to MySQL via 127.0.0.1 on port 3307.
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This is fine, except if another user then decides to use port 3307 at the same time another user is doing a tunnel the second user would clash as the first user already has 3307 open so they would need to pick a new port.
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Now, it is not as if a server listening on a port like 3306 is a one time use thing
that is the listening port. You can have hundreds of users on that port
Yea that's right, but if a user chooses to port forward from 3307 to 3306 my server would create a local port to 3306 and then port forward to the remote host on port 3306. If two users do the same thing, although different remote hosts, my server would attempt to create a new 3307 port locally which would get rejected.
e.g. user 1 > goes from my server on port 3307 to forward to example1.com on 3306.
User 2 > goes from my server on port 3307 to forward to example2.com on port 3306. User 1 will already have 3307 bound on my web server so user would get an error as it wouldn't be able to create a new port, or it would send the request to user1 server not the user 2 server
no, the users data would be there own database server, my server is just acting a middle ground to talk between the users mysql database and my android app
fyi, everything sent between the API and the app is encrypted and we do not store any information retrieved from the database. They have the option through the setting to use our server or install our API on there own server and point the app to post to their server and not ours
Both ideally, but if the API only supports B to avoid ports conflicts and accidental cross server connection, i.e. user 2 accidently trying to auth with user 1 server then that is fine
Ok, so Android user, going B, then the user goes direct to Acme Corp on PHP, and your concern is that the Acme mixes up clients and servers completely on their end?
No. I'm assuming if they've chosen option B, they're technically minded and no what their doing and if they mix up clients and servers that's their kinda problem. My worry is if using option A then 2 completely unrelated users accessing 2 completely unrelated database servers accidently going to the others database
Yea, when I said both I meant tunnelling working on both versions but the issue to solve is if going via option A. Sorry I confused things a tad I think
mysqli. So what happens is the app posts to the API the mysql host, user, password etc. We use this posted data to use mysqli to connect PHP to the database, run whatever query on the connected database and pass the result back to the app, as soon as the result is returned we close the database
At the moment they can't collide with each other, they're 2 completely different PHP sessions and PHP is directly connecting to their database so there is no way for them to accidentally hit the others server
like I said, we aren't even talking about their mysql servers yet. Just from your Android app, on its first handshake with you, have you nailed that down as to who that user is? Is that secure?
There is no authentication between the app and the API, there's no need, they just enter there mysql details and click submit it sends to the server and does its thing. Its only secure in the sense that the data sent between the app and the server is encrypted on the device/api side
so make sure that is the case. Encrypted over the wire. So now Jim gets into you. You say you have no Jim authentication, but rather a connection string. Same for Kate
I see that needing to change perhaps.
Give me a bit. I need to get my head into the SSH side of it
btw what other programming languages do you program in just in case
Yea don't forget though the connection string itself isn't posted, only the various parts of the connection string, which are encrypted, then posted, decrypted by the server and then connects, so the connecting string isn't sent in plain text over the wire.
I did think about C# for this but I was a bit reluctant as I think it would be a bit odd to have a mix API of C# and PHP, either one or the other, but rather stick with PHP for ease of install for the user if they want to install the API themselves.
PHP tunnel support does seem to be a bit naf, but I think I may be able to do what I want to achieve by using PHP terminal commands to create the tunnel instead, although would still have the issue with the port conflicts but if tunnel is only supported on there server may get a way with it
Although would still have the port conflict problem if it was C# doing it instead thinking about it
With the tunnel, I don't know if you know much about SSH tunnels, admittidely I've only just learnt about it, but the tunneling works on port forwarding
So basically, the idea is you create an SSH tunnel from server a on port 3307 to server b on 3306. This will create a tunnel on the local server so all traffic that hits port 3307 locally will be sent to server b on 3306 so once the tunnel is set up you can then connect to mysql using 127.0.0.1 on port 3307.
Although you are connecting to mysql on 127.0.0.1 on port 3307 you are actually talking to the mysql server on server b on port 3306
Yea that's right, so the user would need generate the SSH key on their server and this key would need to be stored into the app so it doesn't require a password when SSH'ing to the server
Jim comes in first time without a SESSION. You give him one. You find that BillyBob is already talking to ACME7. You know you are on port 3314. Jim uses that one too and that info is jammed in his SESSION
I'm not sure I follow. Are you saying then that the user chooses the local server port, so they choose 3307 to forward to their 3306 port. I'm not worried about the tunnel closing, it won't be persistent, it will open the tunnel do the required query and then close again
OK, still not following completely, so Jim connects the API says port 3307 is free use that local port forwarding to 3306. Store that in Jims session. What happens when Kate joins, the API won't be able to access Jims sessions so therefore won't know 3307 is in use
Jim sends first request. It contains encrypted info. PHP uses the block cipher to decrypt. Determines target is data2.acme7.com ... and you have other stuff in that connection string that you say Android passes. PHP determines that there is or isn't an active tunnel. Rectifies that by opening if necessary. Let's say it is housed in Boardy db that acme7 is port 3312 (always), or let's say it is dynamic and assigns one. Either way, acme7 is port N.
Port N is crammed into Jim's SESSION, and uses that. After some time-out period, Jim's session is destroyed. Along comes Susie. She needs ACME7 also. Boardy determines that the same tunnel can be re-used, as it is still open due to Jim's actions. Susie's session gets Port N jammed in her SESSION too
OK, that sounds like though that once the tunnel is open its never closed it can just keep getting reused. This could become a problem if later on down the line, lots and lots of users start tunnelling, my server could get overloaded with SSH sessions. The thing I'm not sure on though is how does the API allocate the port how would it know that acme7 is 33212 and general electric is 3323.
Ah I see, what I was thinking is if doing via php, when I create the SSH tunnel through the terminal command, I end the command with a & so it puts in the background. When it puts it in the background it outputs the pid and then when its finished I can just call kill <pid>.
Hehe. Thanks for your help, I'll have a think over it tomorrow and come up with a plan hopefully, tunnel support is a bit more complicated than I expected, if PHP tunnel functions would a bit better it would have been a lot easier