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Tox is a peer to peer (serverless) instant messenger aimed at making security and privacy easy to obtain for regular users. It uses libsodium (based on NaCl) for its encryption and authentication.
This is an experimental cryptographic network library. It has not been formally audited by an independent third party that specializes in cryptography or cryptanalysis. Use this library at your own risk.
The underlying crypto library libsodium provides reliable encryption, but the security model has not yet been fully specified. See issue 210 for a discussion on developing a threat model. See other issues for known weaknesses (e.g. issue 426 describes what can happen if your secret key is stolen).
The roadmap and changelog are generated from GitHub issues. You may view them on the website, where they are updated at least once every 24 hours:
Detailed installation instructions can be found in INSTALL.md.
Be advised that due to the addition of cmp
as a submodule, you now also need
to initialize the git submodules required by toxcore. This can be done by
cloning the repo with the following command:
git clone --recurse-submodules https://github.com/Toktok/c-toxcore
or by
running git submodule update --init
in the root directory of the repo.
In a nutshell, if you have libsodium installed, run:
mkdir _build && cd _build
cmake ..
make
sudo make install
If you have libvpx and opus installed, the above will also build the A/V library for multimedia chats.
The simplest "hello world" example could be an echo bot. Here we will walk through the implementation of a simple bot.
All toxcore API functions work with error parameters. They are enums with one
OK
value and several error codes that describe the different situations in
which the function might fail.
TOX_ERR_NEW err_new;
Tox *tox = tox_new(NULL, &err_new);
if (err_new != TOX_ERR_NEW_OK) {
fprintf(stderr, "tox_new failed with error code %d\n", err_new);
exit(1);
}
Here, we simply exit the program, but in a real client you will probably want to
do some error handling and proper error reporting to the user. The NULL
argument given to the first parameter of tox_new
is the Tox_Options
. It
contains various write-once network settings and allows you to load a previously
serialised instance. See toxcore/tox.h for details.
Toxcore works with callbacks that you can register to listen for certain events.
Examples of such events are "friend request received" or "friend sent a
message". Search the API for tox_callback_*
to find all of them.
Here, we will set up callbacks for receiving friend requests and receiving messages. We will always accept any friend request (because we're a bot), and when we receive a message, we send it back to the sender.
tox_callback_friend_request(tox, handle_friend_request);
tox_callback_friend_message(tox, handle_friend_message);
These two function calls set up the callbacks. Now we also need to implement these "handle" functions.
static void handle_friend_request(
Tox *tox, const uint8_t *public_key, const uint8_t *message, size_t length,
void *user_data) {
// Accept the friend request:
TOX_ERR_FRIEND_ADD err_friend_add;
tox_friend_add_norequest(tox, public_key, &err_friend_add);
if (err_friend_add != TOX_ERR_FRIEND_ADD_OK) {
fprintf(stderr, "unable to add friend: %d\n", err_friend_add);
}
}
The tox_friend_add_norequest
function adds the friend without sending them a
friend request. Since we already got a friend request, this is the right thing
to do. If you wanted to send a friend request yourself, you would use
tox_friend_add
, which has an extra parameter for the message.
Now, when the friend sends us a message, we want to respond to them by sending them the same message back. This will be our "echo".
static void handle_friend_message(
Tox *tox, uint32_t friend_number, TOX_MESSAGE_TYPE type,
const uint8_t *message, size_t length,
void *user_data) {
TOX_ERR_FRIEND_SEND_MESSAGE err_send;
tox_friend_send_message(tox, friend_number, type, message, length,
&err_send);
if (err_send != TOX_ERR_FRIEND_SEND_MESSAGE_OK) {
fprintf(stderr, "unable to send message back to friend %d: %d\n",
friend_number, err_send);
}
}
That's it for the setup. Now we want to actually run the bot.
Toxcore works with a main event loop function tox_iterate
that you need to
call at a certain frequency dictated by tox_iteration_interval
. This is a
polling function that receives new network messages and processes them.
while (true) {
usleep(1000 * tox_iteration_interval(tox));
tox_iterate(tox, NULL);
}
That's it! Now you have a working echo bot. The only problem is that since Tox
works with public keys, and you can't really guess your bot's public key, you
can't add it as a friend in your client. For this, we need to call another API
function: tox_self_get_address(tox, address)
. This will fill the 38 byte
friend address into the address
buffer. You can then display that binary
string as hex and input it into your client. Writing a bin2hex
function is
left as exercise for the reader.
We glossed over a lot of details, such as the user data which we passed to
tox_iterate
(passing NULL
), bootstrapping into an actual network (this bot
will work in the LAN, but not on an internet server) and the fact that we now
have no clean way of stopping the bot (while (true)
). If you want to write a
real bot, you will probably want to read up on all the API functions. Consult
the API documentation in toxcore/tox.h for more information.
This project uses various tools supporting Static Application Security Testing: