You’re literally describing the system that controlled employee keyscan badges a couple of jobs ago…
That thing was fun to try and tie into the user disable/termination script that I wrote. I ended up having to just manipulate its DB tables manually in the script instead of going through an API that the software exposed, because it didn’t do that. Figuring out their tucked-up DB schema was an adventure on its own too.
I’m also describing the machine in my office that runs my $20,000 laser plotter/large format scanner. The software in the machine uses (Java?) over a web interface which was deprecated and removed from all browsers around 2012-14, iirc. The machine isn’t supported anymore and the only way to clear an error or update where it sends scans is using that interface. I have a XPSP2 machine running the internal IE6 browser which will still display the interface. Since I’m now a one-person office, and I use the scanner about 6 times a year, I keep that machine around in case I need to turn it on to update the scanner or clear a print error. Buying a new plotter isn’t worth the time/money - when it dies I’ll just farm out the work to a 3rd party vendor; but while it does work it’s convenient to have in-house.
If it’s that old, I’m betting it doesn’t use HTTPS for its connections. You could do a network packet capture on the XP machine (or if you can find one, hook it up to a network hub with another computer attached and capture there) while performing the “clear error” action and find out how it works/what you need to send to it to clear the error. You could also set up a SPAN port on a switch and mirror the traffic on the port going to the printer to capture the traffic, if you have a switch capable of doing that. If not, you can get one off Amazon for about $100.
It’d be pretty simple to put together a script that sends the “clear error” action to the printer after seeing how it’s done in the packet capture. I’ve done this numerous times, the latest of which was for a network-connected temperature sensor that I wanted to tie into but didn’t (publicly) expose an API of any kind.
It’s more than that, though - it’s used to setup custom sheet widths as well as enter new server and login details for sending scans via FTP to a server. If I’m doing billable work, I’m charging $225/hr. If I’m snooping the network, which isn’t my field and I do almost never so it takes me several times longer than an expert, I’m making nothing. With an annual value on the machine’s services at less than $500 (more than half of which would become reimbursable if I didn’t have it), there’s no actual value in “fixing” it by creating a different work around. 🤷♂️
You’re literally describing the system that controlled employee keyscan badges a couple of jobs ago…
That thing was fun to try and tie into the user disable/termination script that I wrote. I ended up having to just manipulate its DB tables manually in the script instead of going through an API that the software exposed, because it didn’t do that. Figuring out their tucked-up DB schema was an adventure on its own too.
I’m also describing the machine in my office that runs my $20,000 laser plotter/large format scanner. The software in the machine uses (Java?) over a web interface which was deprecated and removed from all browsers around 2012-14, iirc. The machine isn’t supported anymore and the only way to clear an error or update where it sends scans is using that interface. I have a XPSP2 machine running the internal IE6 browser which will still display the interface. Since I’m now a one-person office, and I use the scanner about 6 times a year, I keep that machine around in case I need to turn it on to update the scanner or clear a print error. Buying a new plotter isn’t worth the time/money - when it dies I’ll just farm out the work to a 3rd party vendor; but while it does work it’s convenient to have in-house.
If it’s that old, I’m betting it doesn’t use HTTPS for its connections. You could do a network packet capture on the XP machine (or if you can find one, hook it up to a network hub with another computer attached and capture there) while performing the “clear error” action and find out how it works/what you need to send to it to clear the error. You could also set up a SPAN port on a switch and mirror the traffic on the port going to the printer to capture the traffic, if you have a switch capable of doing that. If not, you can get one off Amazon for about $100.
It’d be pretty simple to put together a script that sends the “clear error” action to the printer after seeing how it’s done in the packet capture. I’ve done this numerous times, the latest of which was for a network-connected temperature sensor that I wanted to tie into but didn’t (publicly) expose an API of any kind.
It’s more than that, though - it’s used to setup custom sheet widths as well as enter new server and login details for sending scans via FTP to a server. If I’m doing billable work, I’m charging $225/hr. If I’m snooping the network, which isn’t my field and I do almost never so it takes me several times longer than an expert, I’m making nothing. With an annual value on the machine’s services at less than $500 (more than half of which would become reimbursable if I didn’t have it), there’s no actual value in “fixing” it by creating a different work around. 🤷♂️