They could stick to public domain & indie titles. They won’t, but they could.
They could stick to public domain & indie titles. They won’t, but they could.
Look up the legal principle of estoppel. In general you can’t turn around and sue someone for doing something after informing them (in writing no less) that you’re okay with it, even if you would otherwise have had a valid basis to sue.
They ruled that people acting together have all the same rights that they would have acting individually, and that preventing someone from spending money on producing and promoting their speech effectively prevents them from being heard. Which are both perfectly true, common-sense statements.
What “increased risks as far as csam”? You’re not hosting any yourself, encrypted or otherwise. You have no access to any data being routed through your node, as it’s encrypted end-to-end and your node is not one of the endpoints. If someone did use I2P or Tor to access CSAM and your node was randomly selected as one of the intermediate onion routers there is no reason for you to have any greater liability for it than any of the ISPs who are also carrying the same traffic without being able to inspect the contents. (Which would be equally true for CSAM shared over HTTPS—I2P & Tor grant anonymity but any standard password-protected web server with TLS would obscure the content itself from prying eyes.)
No, that’s not how I2P works.
First, let’s start with the basics. An exit node is a node which interfaces between the encrypted network (I2P or Tor) and the regular Internet. A user attempting to access a regular Internet site over I2P or Tor would route their traffic through the encrypted network to an exit node, which then sends the request over the Internet without the I2P/Tor encryption. Responses follow the reverse path back to the user. Nodes which only establish encrypted connections to other I2P or Tor nodes, including ones used for internal (onion) routing, are not exit nodes.
Both I2P and Tor support the creation of services hosted directly through the encrypted network. In Tor these are referred to as onion services and are accessed through *.onion hostnames. In I2P these internal services (*.i2p or *.b32) are the only kind of service the protocol directly supports—though you can configure a specific I2P service linked to a HTTP/HTTPS proxy to handle non-I2P URLs in the client configuration. There are only a few such proxy services as this is not how I2P is primarily intended to be used.
Tor, by contrast, has built-in support for exit nodes. Routing traffic anonymously from Tor users to the Internet is the original model for the Tor network; onion services were added later. There is no need to choose an exit node in Tor—the system maintains a list and picks one automatically. Becoming a Tor exit node is a simple matter of enabling an option in the settings, whereas in I2P you would need to manually configure a proxy server, inform others about it, and have them adjust their proxy configuration to use it.
If you set up an I2P node and do not go out of your way to expose a HTTP/HTTPS proxy as an I2P service then no traffic from the I2P network can be routed to non-I2P destinations via your node. This is equivalent to running a Tor internal, non-exit node, possibly hosting one or more onion services.
It is not true that every node is an exit node in I2P. The I2P protocol does not officially have exit nodes—all I2P communication terminates at some node within the I2P network, encrypted end-to-end. It is possible to run a local proxy server and make it accessible to other users as an I2P service, creating an “exit node” of sorts, but this is something that must be set up deliberately; it’s not the default or recommended configuration. Users would need to select a specific I2P proxy service (exit node) to forward non-I2P traffic through and configure their browser (or other network-based programs) to use it.
Examples of local commands I might run in tmux
could include anything long-running which is started from the command line. A virtual machine (qemu
), perhaps, or a video encode (ffmpeg
). Then if I need to log out or restart my GUI session for any reason—or something goes wrong with the session manager—it won’t take the long-running process with it. While the same could be done with nohup
or systemd-run
, using tmux
allows me to interact with the process after it’s started.
I also have systems which are accessed both locally and remotely, so sometimes (not often) I’ll start a program on a local terminal through tmux
so I can later interact with it through SSH without resorting to x11vnc
.
Not the GP but I also use tmux (or screen in a pinch) for almost any SSH session, if only as insurance against dropped connections. I occasionally use it for local terminals if there is a chance I might want a command to outlive the current graphical session or migrate to SSH later.
Occasionally it’s nice to be able to control the session from the command line, e.g. splitting a window from a script. I’ve also noticed that wrapping a program in tmux can avoid slowdowns when a command generates a lot of output, depending on the terminal emulator. Some emulators will try to render every update even if it means blocking the output from the program for the GUI to catch up, rather than just updating the state of the terminal in memory and rendering the latest version.
It would be a nominal charge for storage, bandwidth, and indexing. Book stores carry public-domain titles, for profit, and most have no issue with that. You can always procure the same files somewhere else—they are public domain, after all. Those who pay are doing so for the convenience, not because they’re forced to.