# Simulating failures in Arti

This document explains how to simulate different kinds of bootstrapping and
network failures in Arti.

The main reason for simulating failures is to ensure that Arti's
behavior is "generally reasonable" when the network is down or
misbehaving, when the local host is set up in a confusing way, etc.

Here "generally reasonable" should mean that we aren't making a huge
number of connections to the network or wasting a huge amount of
bandwidth.  Similarly, we shouldn't be using huge amounts of CPU, or
filling up the logs at level `info` or higher.

It's an extra benefit if we can ensure that our bootstrap reporting
mechanisms give us accurate feedback in these cases, and diagnose the
problem accurately.

Most of the examples here will use the `arti-testing` tool.  Some will
also use a small Chutney network.  In either case, you'll need an
explicit client configuration, since `arti-testing` doesn't want you to
use the default; I'll assume you've put its location in `${ARTI_CONF}`.

Note that you shouldn't _need_ to use chutney in these cases if Arti is
in fact well-behaved.  However, it's courteous to do so if you think
there might be problems in Arti's behavior: you wouldn't want to flood
the real network.

I'll be assuming that you have a Linux environment.

## What to look at

The output from `arti-testing` will tell you whether bootstrapping
succeeded or failed.  If bootstrapping is not expected to succeed, try
adding `--timeout ${DELAY} --expect timeout` to indicate that the
operation isn't supposed to succeed, and should eventually time out.

If bootstrapping or connecting succeeds when it shouldn't, then the test
was wrong: we were trying to make success impossible, but somehow it
succeeded anyway.

When we're done, `arti-testing` will tell us some statistics about TCP
connections and log messages.  Here is an example of a not-too-bad
attempt to bootstrap over 30 seconds:

```
TCP stats: TcpCount { n_connect_attempt: 1, n_connect_ok: 1, n_accept: 0, n_bytes_send: 17223, n_bytes_recv: 59092 }
Total events: Trace: 159, Debug: 14, Info: 16, Warn: 8, Error: 0
```

And here's an example of obviously problematic behavior over a similar
period:

```
Timeout occurred [as expected]
TCP stats: TcpCount { n_connect_attempt: 1220, n_connect_ok: 1220, n_accept: 0, n_bytes_send: 1394460, n_bytes_recv: 4267636 }
Total events: Trace: 13431, Debug: 2088, Info: 2383, Warn: 15, Error: 0
```



## Failures related to time

These require the [`faketime`] tool.

### System clock set wrong, no directory cached

Start with an empty cache.  Optionally, start with an empty state file.
Then run:

`faketime ${WHEN} arti-testing bootstrap -c ${ARTI_CONF} --timeout 30`


Try this with different values of `WHEN`:
 * '4 hours ago'
 * '1 day ago'
 * '1 month ago'
 * '1 day'
 * '1 month'
 * '1 year'

### System clock set wrong, live directory cached.

Start with an empty cache. Optionally, start with an empty state file.
Then run:

`arti-testing bootstrap -c ${ARTI_CONF}`

This should succeed.  Now run:

```
faketime ${WHEN} arti-testing connect -c ${ARTI_CONF} \
        --target www.torproject.org:80 \
        --timeout 30 --retry 0
```

Try this with different values of `WHEN` as above.  This simulates a
case where we previously bootstrapped with a reasonably live directory,
but we wound up with a wrong clock when we restarted.

### System clock set wrong, obsolete directory cached

You can simulate this with a directory that you made before, then
copied into your cache directory.  Use `faketime` to set the current
time to a point at which the directory was valid, or recently valid.

Note that this test won't work well with as chutney, since chutney
directory lifetimes are very short.

TODO: Describe better ways to do this.

## Failures related to the network

The `arti-testing` tool can simulate multiple kinds of errors:
 * connections fail immediately (or after a little while)
   (`--tcp-failure error --tcp-failure-delay 1`)
 * connections time out and never succeed (`--tcp-failure timeout`)
 * connections succeed, but drop all data and say
   nothing. (`--tcp-failure blackhole`)

You can arrange for these failures to start in the bootstrap phase
(`--tcp-failure-stage bootstrap`) or in the connect stage
(`--tcp-failure-stage connect`).

With these options, you can simulate different kinds of failures by
starting with an empty directory cache (and optionally empty state).
The bootstrap phase failures correspond to failures on your fallback
directories; the connect-phase failures correspond to failures on the
live network.

(TODO: There's an issue here where if you have open connections to the
fallbacks, the TCP-failure code won't yet make them start failing when
you connect to the network.  As a workaround, bootstrap in a separate
`arti-testing` call, then connect with TCP failures enabled.)

Here's an an example of failing during bootstrapping.  (Clear your cache
first.)

`arti-testing bootstrap -c ${ARTI_CONF} --timeout 30 --tcp-failure error`

Here's an example of failing after bootstrapping.  (Clear your cache
before the first command.)

```
# This one should succeed
arti-testing bootstrap -c ${ARTI_CONF}

# This will fail.
arti-testing connect -c ${ARTI_CONF} \
        --target www.torproject.org:80 \
        --timeout 30 --retry 0 \
        --tcp-failure blackhole
```

## Partial network blocking

You can make the above network failures conditional, to simulate
different kinds of broken local networks.  Try `--tcp-failure-on v4` to
simulate an IPv4-only network, or `--tcp-failure-on non443` to simulate
a network that blocks everything but HTTPS.

(These won't work with chutney networks, since a typical chutney
network's relays are all on IPv4 with high ports.)


## Network identity mismatch

One way to get an interesting set of failures is to mix-and-match the
`arti.toml` files from two different chutney networks.  You can find older
chutney networks in subdirectories of `${CHUTNEY_PATH}/net/` other than
`nodes`.

If you use an older set of fallback directories, you'll simulate the
case where the client can't actually connect to any fallback
directories because its beliefs about their identities are all wrong.

If you keep the running set of fallback directories, but use the older
set of authorities, you'll simulate the case where the client fetches a
directory, but doesn't believe in any authorities that signed it.

(For both of these cases, start with an empty cache and use the
`arti-testing bootstrap` command.)


# TODO


arti-testing:
- Ability to clear cache and/or state.
- Fresh client for connecting.
- Ability to close after a little while.
- Directory munger.