That's assuming they'll provide it at all. I'm assuming if they get someone to overturn universal service regulations, some rural, less profitable communities may be deemed not worthy to keep providing service in at all.

I'm sure just the idea makes the cable companies feel all warm and fuzzy.

Blue boxes? To some degree, yes. There's a lot of switches in rural areas that rely on MF signaling (usually the ones that don't offer caller ID or anything), but they don't use 2600 hz supervision like the old carrier systems do. They use bit-robbed signaling. So to be able to send your own MFs into a trunk, you need to be able to fool the switch into thinking the trunk just hung up and went back offhook.

Internationally, it's a different story. E1 carrier and it's derivatives don't support bit-robbed signaling, so you'll still find a lot of C5 trunks. 866-284-3437, for example, takes a very strange route (MCI to New York, and from there, we believe Paetec/Windstream abroad) before sending you to a conference system in Malaysia.

There's even some really strange stuff in rural Russia that actually relies on their own flavor of backwards MF. So if you send a 2600 hz tone and a single MF, it'll spit MF back out at you. In Soviet Russia...

As for red boxing? Yes, sort of. Most payphones these days run off of a microcontroller inside the phone, so there is a way to fool the phone, but it doesn't involve any kind of inband signaling. Some of the older ones are 6502 based if you can believe it. The Nortel/Quortech Millenniums, one of the more common phones, run on Z180s.

Anyway though, if you can find a phone that hasn't been retrofitted with a processor, you can place a call to some in-state long distance areas, and a TOPS switch (in short, DMS-100 family software) will listen for redbox tones to bill for the call.

As for black boxing? The short answer is no; this relied on a quirk in electromechanical stuff where you'd actually be connected to the called party while their phone was ringing. The long answer is, less and less no actually. One of the things I learned recently is if you're calling somewhere on an AT&T trunk that terminates over a 4ESS to a 5ESS before hitting your destination (in short, most large areas), you can pass audio before the calling party answers, and it'll let the call go on forever if nobody answers. So if you can find something that bridges two calls together without making the call answer, yes, you can effectively do the same thing as black boxing.

As for devices, these days it's about being as resourceful as possible. So the greatest things you'll find tend to be using just a regular phone and your wits.

Glad you enjoyed reading it :) . That's the point, though; the phone network predominantly doesn't run on an IP network now, and I feel we'd really be better off keeping it that way.

I should probably add that the circuit switched stuff really isn't incompatible with less obscure gear. You can even send raw TDM frames over layer 2 ethernet. There's an implementation in PBX software for this.

http://www.thrallingpenguin.com/articles/tdmoe-mf.htm

I'm surprised to hear that. I've never had a problem with an ISP blocking SMTP.

Inbound on port 25? I know my ISP does

Mine doesn't (Roadrunner). I run my own SMTP server off my cable modem. I have no problems getting incoming mail. Outgoing, however, was a pain because so many SMTP servers block mail coming from dynamic IPs. It annoys me to no end. I understand the reasons for doing it, but it annoys me to no end. I had to set up a small satellite server on a static IP that I route all my outgoing mail through.

This leads me to wonder why you run any portion of your mail server from your home if you have access to a small satellite server?

To search your home, a warrant is needed. To search a remote site, less is needed, and you might never know it’s been searched, back-doored and compromised.

Mostly because the small satellite server requires very little storage, cpu, or memory. I have about 100G of mail on my IMAP server (not all in one account: I run email for everyone in my family), and that kind of space isn't cheap in the server rental business (despite the fact that a 2TB drive is $90).

Plus I just like having my data here, and not somewhere where I have no physical access.

Come to think of it, I've never looked at inbound stuff. You'd think outbound would be where all the spam problems come from, though.

> You'd think outbound would be where all the spam problems come from, though.

They block port 25 to prevent open relays on their network (i.e. someone sends a forged email, the SMTP server does no authentication, and just forwards it on to the destination).

If you block 25 outbound, people's mail clients (Outlook, Thunderbird, etc) could not deliver mail to servers that don't run SSL or TLS (465, 587)

Lots of ISPs does this. They require you to relay via their SMTP-server.

Ideally you would use port 587, which is the designated port for mail submission. See RFC 2476 [1].

This requires that your mail provider supports that port, of course, which is unfortunately not always the case.

[1] http://www.ietf.org/rfc/rfc2476.txt

Used to have Bellsouth DSL, and they did this. SMTP/TLS on a different port worked though. But obviously you couldn't run your own e-mail server.