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name content title Cronos | Crypto.org EVM Chain | Running Nodes On Mainnet name content description Learn how to setup a Validator or a full node on Crypto.org Cronos Mainnet Beta cronosmainnet_25-1 in this technical documentation. name content og:title Cronos | Crypto.org EVM Chain | Running Nodes On Mainnet name content og:type Website name content og:description Learn how to setup a Validator or a full node on Crypto.org Cronos Mainnet Beta cronosmainnet_25-1 in this technical documentation. name content og:image https://cronos.org/og-image.png name content twitter:title Cronos | Crypto.org EVM Chain | Running Nodes On Mainnet name content twitter:site @cryptocom name content twitter:card summary_large_image name content twitter:description Learn how to setup a Validator or a full node on Crypto.org Cronos Mainnet Beta cronosmainnet_25-1 in this technical documentation. name content twitter:image https://cronos.org/og-image.png

https://docs.cronos.org/getting-started/cronos-mainnet.html

Cronos Mainnet

This is a detailed documentation for setting up a full node on Cronos mainnet cronosmainnet_25-1.

Pre-requisites

Supported OS

We officially support macOS, Windows, and Linux only. Other platforms may work but there is no guarantee. We will extend our support to other operating systems after we have stabilised our current architecture.

Prepare your machine

To run Cronos Mainnet nodes, you will need a machine with the following minimum requirements to run different types of nodes:

• Pruned node (setting pruning=everything)
  • Storage: ~25G*
  • RAM: 4 GB (LevelDB) or 64G RAM (RocksDB)***
  • CPU: 4-core
• Default full node (setting pruning=default)
  • Storage: ~1.5T**
  • RAM: 4 GB (LevelDB) or 64G RAM (RocksDB)***
  • CPU: 4-core
• Archive node (setting pruning=nothing)
  • Storage: ~2.8T**
  • RAM: 4 GB (LevelDB) or 64G RAM (RocksDB)***
  • CPU: 4-core

*Only in case state-sync enabled.
** e.g. Note that size of snapshots from Quicksync will keep growing.
*** Note that during a state-sync the node might require higher RAM than 3GB but, returns to normal after state-sync has finished.

{% hint style="info" %} Note that all depends on the type of node you are running and settings will vary depending on your usage. {% endhint %}

{% tabs %} {% tab title="Mainnet" %}

• Seeds for Fullnode
• Genesis files
• Binaries for Linux, Mac (Intel x86 / M1) and Windows {% endtab %} {% endtabs %}

Step 0 : Notes on "Huygen" Network upgrade

Before we start, please note that there was "Huygen" network upgrade at the block height 2,693,800, which requires the node operator to update their Cronos Mainnet binary cronosd from v0.6.* to v0.7.0.

For the host who would like to build a Full Node with complete blockchain data from scratch, one would need to:

Block Height	Binary Version	Instruction
1 ~ 2,693,800	cronos_v0.6.*	Start the node with the older binary version cronos_v0.6.* Sync-up with the blockchain until it reaches the target upgrade block height 2,693,800
2,693,800 ~ 3982500	cronos_v0.7.0	After it reaches the block height 2,693,800, update app.toml with new config items Update the binary to cronos_v0.7.0 Restart the node
3982500	cronos_v0.8.3	After reaching block height, update iavl-disable-fastnodein app.toml Update the binary to cronos_v0.8.3 Restart the node
6542800	cronos_v1.0.2	After reaching block height, update app-db-backendin app.toml. Update the binary to cronos_v1.0.2 Restart the node
11608760	v1.0.15	After reaching block height, update, update the binary to v1.0.15 Restart the node

Users can refer to the upgrade guide of "Huygen" for the detailed upgrade steps.

{% hint style="info" %} To patch "unlucky" transactions, follow this guide on patching unlucky tx {% endhint %}

Step 1. Get the Cronos Mainnet binary

{% hint style="info" %} Remarks:

The following is the minimal setup for a validator node / full node. {% endhint %}

To simplify the following step, we will be using Linux (Intel x86) for illustration.
Binaries for Mac (Intel x86 / M1) and Windows are also available.

• To install released Cronos Mainnet binaries from github:

  $ curl -LOJ https://github.com/crypto-org-chain/cronos/releases/download/v0.6.11/cronos_0.6.11_Linux_x86_64.tar.gz
  $ tar -zxvf cronos_0.6.11_Linux_x86_64.tar.gz

  Afterward, you can check the version of cronosd by

  $ ./cronosd version
  0.6.11

Step 2. Configure cronosd

Step 2-0 (Optional) Clean up the old blockchain data

• If you have joined cronostestnet_338-3 before, you would have to clean up the old blockchain data and start over again, it can be done by running:

  $ ./cronosd unsafe-reset-all

  and remove the old genesis file by

  $ rm ~/.cronos/config/genesis.json

Before kick-starting your node, we will have to configure your node so that it connects to the Cronos mainnet:

Step 2-1 Initialize cronosd

• First of all, you can initialize cronosd by:

    $ ./cronosd init [moniker] --chain-id cronosmainnet_25-1

  This moniker will be the displayed id of your node when connected to Cronos Chain network.

  When providing the moniker value, make sure you drop the square brackets since they are not needed. The example below shows how to initialize a node named pegasus-node :

    $ ./cronosd init pegasus-node --chain-id cronosmainnet_25-1

{% hint style="info" %} Note:

• Depending on your cronosd home setting, the cronosd configuration will be initialized to that home directory. To simply the following steps, we will use the default cronosd home directory ~/.cronos/ for illustration.
• You can also put the cronosd to your binary path and run it by cronosd {% endhint %}

Step 2-2 Configure cronosd

• Download and replace the Cronos Mainnet genesis.json by:

  $ curl https://raw.githubusercontent.com/crypto-org-chain/cronos-mainnet/master/cronosmainnet_25-1/genesis.json > ~/.cronos/config/genesis.json

• Verify sha256sum checksum of the downloaded genesis.json. You should see OK! if the sha256sum checksum matches.

  $ if [[ $(sha256sum ~/.cronos/config/genesis.json | awk '{print $1}') = "58f17545056267f57a2d95f4c9c00ac1d689a580e220c5d4de96570fbbc832e1" ]]; then echo "OK"; else echo "MISMATCHED"; fi;
  OK!

{% hint style="info" %} NOTE

For Mac environment, sha256sum was not installed by default. In this case, you may setup sha256sum with this command:

function sha256sum() { shasum -a 256 "$@" ; } && export -f sha256sum

{% endhint %}

• For network configuration, in ~/.cronos/config/config.toml, validator nodes need to modify the configurations of seed, create_empty_blocks_interval and timeout_commit

  $ sed -i.bak -E 's#^(seeds[[:space:]]+=[[:space:]]+).*$#\1"0d5cf1394a1cfde28dc8f023567222abc0f47534@cronos-seed-0.crypto.org:26656,3032073adc06d710dd512240281637c1bd0c8a7b@cronos-seed-1.crypto.org:26656,04f43116b4c6c70054d9c2b7485383df5b1ed1da@cronos-seed-2.crypto.org:26656,337377dcda43d79c537d2c4d93ad3b698ce9452e@bd-cronos-mainnet-seed-node-01.bdnodes.net:26656"#' ~/.cronos/config/config.toml
  $ sed -i.bak -E 's#^(create_empty_blocks_interval[[:space:]]+=[[:space:]]+).*$#\1"5s"#' ~/.cronos/config/config.toml
  $ sed -i.bak -E 's#^(timeout_commit[[:space:]]+=[[:space:]]+).*$#\1"5s"#' ~/.cronos/config/config.toml

• If you would like to build an archive node that allows you to query all the historical block data - kindly update the pruning setting to "nothing" by

  $ sed -i.bak -E 's#^(pruning[[:space:]]+=[[:space:]]+).*$#\1"nothing"#' ~/.cronos/config/app.toml

{% hint style="info" %} NOTE

For Mac environment, if jq is missing, you may install it by: brew install jq {% endhint %}

Step 3. Run everything

{% hint style="warning" %} CAUTION

This page only shows the minimal setup for validator / full node.

Furthermore, you may want to run full nodes as sentries (see Tendermint), restrict your validator connections to only connect to your full nodes, test secure storage of validator keys etc. {% endhint %}

Once cronosd has been configured, we are ready to start the node and sync the blockchain data:

• Start cronosd, e.g.:

  $ ./cronosd start

{% hint style="info" %} Remarks:

If you see errors saying too many files opened..., then you need to set a higher number for maximum open file descriptors in your OS.

If you are on OSX or Linux, then the following could be useful:

# Check current max fd
$ ulimit -n

# Set a new max fd
$ ulimit -Sn [NEW_MAX_FILE_DESCRIPTOR]

# Example
$ ulimit -Sn 4096

{% endhint %}

• (Optional for Linux) Start cronosd with systemd service, e.g.:

  $ curl -s https://raw.githubusercontent.com/crypto-org-chain/cronos-docs/master/systemd/create-service.sh -o create-service.sh && curl -s https://raw.githubusercontent.com/crypto-org-chain/cronos-docs/master/systemd/cronosd.service.template -o cronosd.service.template

  $ chmod +x ./create-service.sh && ./create-service.sh

  $ sudo systemctl start cronosd

  # view log

  $ journalctl -u cronosd -f

{% hint style="info" %} Example: /etc/systemd/system/cronosd.service created by script

# /etc/systemd/system/cronosd.service

[Unit]
Description=cronosd
ConditionPathExists=/usr/local/bin/cronosd
After=network.target


[Service]
Type=simple
User=ubuntu
WorkingDirectory=/usr/local/bin
ExecStart=/usr/local/bin/cronosd start --home /home/ubuntu/.cronos
Restart=on-failure
RestartSec=10
LimitNOFILE=50000


[Install]
WantedBy=multi-user.target

{% endhint %}

It should begin fetching blocks from the other peers.

• You can query the node syncing status by

  $ ./cronosd status 2>&1 | jq '.SyncInfo.catching_up'

  If the above command returns false, It means that your node is fully synced; otherwise, it returns true and implies your node is still catching up.

• One can check the current block height by querying the public full node by:

  curl -s https://rpc.cronos.org/commit | jq "{height: .result.signed_header.header.height}"

  and you can check your node's progress (in terms of block height) by

  $ ./cronosd status 2>&1 | jq '.SyncInfo.latest_block_height'