lighthouse/book/src/faq.md

# Frequently Asked Questions

- [Why does it take so long for a validator to be activated?](#why-does-it-take-so-long-for-a-validator-to-be-activated)
- [Do I need to set up any port mappings](#do-i-need-to-set-up-any-port-mappings)
- [I have a low peer count and it is not increasing](#i-have-a-low-peer-count-and-it-is-not-increasing)
- [What should I do if I lose my slashing protection database?](#what-should-i-do-if-i-lose-my-slashing-protection-database)
- [How do I update lighthouse?](#how-do-i-update-lighthouse)
- [I can't compile lighthouse](#i-cant-compile-lighthouse)
- [What is "Syncing eth1 block cache"](#what-is-syncing-eth1-block-cache)
- [Can I use redundancy in my staking setup?](#can-i-use-redundancy-in-my-staking-setup)
- [How can I monitor my validators](#how-can-i-monitor-my-validators)

### Why does it take so long for a validator to be activated?

After validators create their Eth1 deposit transaction there are two waiting
periods before they can start producing blocks and attestations:

1. Waiting for the beacon chain to recognise the Eth1 block containing the
   deposit (generally 4 to 7.4 hours).
1. Waiting in the queue for validator activation (generally 6.4 minutes for
   every 4 validators in the queue).

Detailed answers below:

#### 1. Waiting for the beacon chain to detect the Eth1 deposit

Since the beacon chain uses Eth1 for validator on-boarding, beacon chain
validators must listen to event logs from the deposit contract. Since the
latest blocks of the Eth1 chain are vulnerable to re-orgs due to minor network
partitions, beacon nodes follow the Eth1 chain at a distance of 1,024 blocks
(~4 hours) (see
[`ETH1_FOLLOW_DISTANCE`](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/validator.md#misc)).
This follow distance protects the beacon chain from on-boarding validators that
are likely to be removed due to an Eth1 re-org.

Now we know there's a 4 hours delay before the beacon nodes even _consider_ an
Eth1 block. Once they _are_ considering these blocks, there's a voting period
where beacon validators vote on which Eth1 to include in the beacon chain. This
period is defined as 32 epochs (~3.4 hours, see
[`ETH1_VOTING_PERIOD`](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/beacon-chain.md#time-parameters)).
During this voting period, each beacon block producer includes an
[`Eth1Data`](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/beacon-chain.md#eth1data)
in their block which counts as a vote towards what that validator considers to
be the head of the Eth1 chain at the start of the voting period (with respect
to `ETH1_FOLLOW_DISTANCE`, of course). You can see the exact voting logic
[here](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/validator.md#eth1-data).

These two delays combined represent the time between an Eth1 deposit being
included in an Eth1 data vote and that validator appearing in the beacon chain.
The `ETH1_FOLLOW_DISTANCE` delay causes a minimum delay of ~4 hours and
`ETH1_VOTING_PERIOD` means that if a validator deposit happens just _before_
the start of a new voting period then they might not notice this delay at all.
However, if the validator deposit happens just _after_ the start of the new
voting period the validator might have to wait ~3.4 hours for next voting
period. In times of very, very severe network issues, the network may even fail
to vote in new Eth1 blocks, stopping all new validator deposits!

> Note: you can see the list of validators included in the beacon chain using
> our REST API: [/beacon/validators/all](./http/beacon.md#beaconvalidatorsall)

#### 2. Waiting for a validator to be activated

If a validator has provided an invalid public key or signature, they will
_never_ be activated or even show up in
[/beacon/validators/all](./http/beacon.html#beaconvalidatorsall).
They will simply be forgotten by the beacon chain! But, if those parameters were
correct, once the Eth1 delays have elapsed and the validator appears in the
beacon chain, there's _another_ delay before the validator becomes "active"
(canonical definition
[here](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/beacon-chain.md#is_active_validator)) and can start producing blocks and attestations.

Firstly, the validator won't become active until their beacon chain balance is
equal to or greater than
[`MAX_EFFECTIVE_BALANCE`](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/beacon-chain.md#gwei-values)
(32 ETH on mainnet, usually 3.2 ETH on testnets). Once this balance is reached,
the validator must wait until the start of the next epoch (up to 6.4 minutes)
for the
[`process_registry_updates`](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/beacon-chain.md#registry-updates)
routine to run. This routine activates validators with respect to a [churn
limit](https://github.com/ethereum/eth2.0-specs/blob/v0.12.1/specs/phase0/beacon-chain.md#get_validator_churn_limit);
it will only allow the number of validators to increase (churn) by a certain
amount. Up until there are about 330,000 validators this churn limit is set to
4 and it starts to very slowly increase as the number of validators increases
from there.

If a new validator isn't within the churn limit from the front of the queue,
they will need to wait another epoch (6.4 minutes) for their next chance. This
repeats until the queue is cleared.

Once a validator has been activated, there's no more waiting! It's time to
produce blocks and attestations!

### Do I need to set up any port mappings

It is not strictly required to open any ports for Lighthouse to connect and
participate in the network. Lighthouse should work out-of-the-box. However, if
your node is not publicly accessible (you are behind a NAT or router that has
not been configured to allow access to Lighthouse ports) you will only be able
to reach peers who have a set up that is publicly accessible.

There are a number of undesired consequences of not making your Lighthouse node
publicly accessible.

Firstly, it will make it more difficult for your node to find peers, as your
node will not be added to the global DHT and other peers will not be able
to initiate connections with you.
Secondly, the peers in your peer store are more likely to end connections with
you and be less performant as these peers will likely be overloaded with
subscribing peers. The reason being, that peers that have correct port
forwarding (publicly accessible) are in higher demand than regular peers as other nodes behind NAT's
will also be looking for these peers.
Finally, not making your node publicly accessible degrades the overall network, making it more difficult for other
peers to join and degrades the overall connectivity of the global network.

For these reasons, we recommend that you make your node publicly accessible.

Lighthouse supports UPnP. If you are behind a NAT with a router that supports
UPnP you can simply ensure UPnP is enabled (Lighthouse will inform you in its
initial logs if a route has been established). You can also manually set up
port mappings in your router to your local Lighthouse instance. By default,
Lighthouse uses port 9000 for both TCP and UDP. Opening both these ports will
make your Lighthouse node maximally contactable.

### I have a low peer count and it is not increasing

If you cannot find *ANY* peers at all. It is likely that you have incorrect
testnet configuration settings. Ensure that the network you wish to connect to
is correct (the beacon node outputs the network it is connecting to in the
initial boot-up log lines). On top of this, ensure that you are not using the
same `datadir` as a previous network. I.e if you have been running the
`pyrmont` testnet and are now trying to join a new testnet but using the same
`datadir` (the `datadir` is also printed out in the beacon node's logs on
boot-up).

If you find yourself with a low peer count and is not reaching the target you
expect. Try setting up the correct port forwards as described [here](./advanced_networking.md#nat-traversal-port-forwarding).

### What should I do if I lose my slashing protection database?

See [here](./slashing-protection.md#misplaced-slashing-database).

### How do I update lighthouse?

If you are updating to new release binaries, it will be the same process as described [here.](./installation-binaries.md)

If you are updating by rebuilding from source, see [here.](./installation-source.md#updating-lighthouse)

If you are running the docker image provided by Sigma Prime on Dockerhub, you can update to specific versions, for example:

```bash
$ docker pull sigp/lighthouse:v1.0.0
```

If you are building a docker image, the process will be similar to the one described [here.](./docker.md#building-the-docker-image)
You will just also need to make sure the code you have checked out is up to date.

### I can't compile lighthouse

See [here.](./installation-source.md#troubleshooting)

### What is "Syncing eth1 block cache"

```
Nov 30 21:04:28.268 WARN Syncing eth1 block cache   est_blocks_remaining: initializing deposits, service: slot_notifier
```

This log indicates that your beacon node is downloading blocks and deposits
from your eth1 node. When the `est_blocks_remaining` is
`initializing_deposits`, your node is downloading deposit logs. It may stay in
this stage for several minutes. Once the deposits logs are finished
downloading, the `est_blocks_remaining` value will start decreasing.

It is perfectly normal to see this log when starting a node for the first time
or after being off for more than several minutes.

If this log continues appearing sporadically during operation, there may be an
issue with your eth1 endpoint.

### Can I use redundancy in my staking setup?

You should **never** use duplicate/redundant validator keypairs or validator clients (i.e., don't
duplicate your JSON keystores and don't run `lighthouse vc` twice). This will lead to slashing.

However, there are some components which can be configured with redundancy. See the
[Redundancy](./redundancy.md) guide for more information.

### How can I monitor my validators?

Apart from using block explorers, you may use the "Validator Monitor" built into Lighthouse which
provides logging and Prometheus/Grafana metrics for individual validators. See [Validator
Monitoring](./validator-monitoring.md) for more information.