Running an OP Sepolia Node from Source
This tutorial explains how to run an OP Sepolia node from source code. Running an OP Sepolia node from source code is a flexible alternative to using pre-built Docker images.
Building the Source Code
You'll need to build op-node
and op-geth
from their respective source repositories before you can run a node.
Make sure to follow the instructions on Building a Node from Source before continuing.
Hardware Requirements
Hardware requirements for OP Sepolia nodes can vary depending on the type of node you plan to run. Archive nodes generally require significantly more resources than full nodes. Below are suggested minimum hardware requirements for each type of node.
- 8GB RAM
- 60 GB SSD (full node) or 200 GB SSD (archive node)
- Reasonably modern CPU
Assess Blob Archiver
Assess if you need to configure a blob archiver service by reading the Configure a Blob Archiver documentation.
Create a JWT Secret
op-geth
and op-node
communicate over the engine API authrpc.
This communication is secured using a shared secret.
You will need to generate a shared secret and provide it to both op-geth
and op-node
when you start them.
In this case, the secret takes the form of a 32 byte hex string.
Run the following command to generate a random 32 byte hex string:
openssl rand -hex 32 > jwt.txt
Start op-geth
It's generally easier to start op-geth
before starting op-node
.
You can still start op-geth
without yet running op-node
, but the op-geth
instance will simply not receive any blocks until op-node
is started.
Navigate to your op-geth directory
Find the directory where you built the op-geth
binary.
Copy in the JWT secret
Copy the JWT secret you generated in a previous step into the op-geth
directory.
cp /path/to/jwt.txt .
Set environment variables
Set the following environment variables (if not already set):
export DATADIR_PATH=... # Path to the folder where geth data will be stored
Start op-geth
Use the following command to start op-geth
in a default configuration.
The JSON-RPC API will become available on port 8545.
Refer to the op-geth
configuration documentation for more detailed information about available options.
- Set
--syncmode=execution-layer
onop-node
if you don't set--syncmode=full
here on op-geth. - For archive nodes, set
--syncmode=full
and--gcmode=archive
onop-geth
. - The default settings are for full nodes.
./build/bin/geth \
--http \
--http.port=8545 \
--http.addr=localhost \
--authrpc.addr=localhost \
--authrpc.jwtsecret=./jwt.txt \
--verbosity=3 \
--rollup.sequencerhttp=https://sepolia-sequencer.optimism.io/ \
--op-network=op-sepolia \
--datadir=$DATADIR_PATH
Start op-node
Once you've started op-geth
, you can start op-node
.
op-node
will connect to op-geth
and begin synchronizing the OP Sepolia state.
op-node
will begin sending block payloads to op-geth
when it derives enough blocks from Sepolia.
Navigate to your op-node directory
Find the directory where you built the op-node
binary.
Copy in the JWT secret
Both op-geth
and op-node
need to use the same JWT secret.
Copy the JWT secret you generated in a previous step into the op-node
directory.
cp /path/to/jwt.txt .
Set environment variables
Set the following environment variables:
export L1_RPC_URL=... # URL for the L1 node to sync from. If your L1 RPC is a local node, the most common URL is http://127.0.0.1:8545
export L1_RPC_KIND=... # RPC type (alchemy, quicknode, infura, parity, nethermind, debug_geth, erigon, basic, any)
export L1_BEACON_URL=... # URL address for the L1 Beacon-node HTTP endpoint to use. If your L1 Beacon is a local node, the most common URL is http://127.0.0.1:3500
Start op-node
Use the following command to start op-node
in a default configuration.
Refer to the op-node
configuration documentation for more detailed information about available options.
The op-node
RPC should not be exposed publicly. If left exposed, it could
accidentally expose admin controls to the public internet.
Sync mode is set to --syncmode=execution-layer
to enable snap sync.
./bin/op-node \
--l1=$L1_RPC_URL \
--l1.rpckind=$L1_RPC_KIND \
--l1.beacon=$L1_BEACON_URL \
--l2=ws://localhost:8551 \
--l2.jwt-secret=./jwt.txt \
--network=op-sepolia \
--syncmode=execution-layer
Some L1 nodes, like Erigon, do not support the eth_getProof
RPC method that the op-node
uses to load L1 data for certain processing steps.
If you are using an L1 node that does not support eth_getProof
, you will need to include the --l1.trustrpc
flag when starting op-node
.
Note that this flag will cause op-node
to trust the L1 node to provide correct data as it will no longer be able to independently verify the data it receives.
Synchronization Verification
Once you've started op-geth
and op-node
you should see the two begin to
communicate with each other and synchronize the OP Mainnet chain.
Snap Sync (Default)
Initial synchronization can take several hours to complete. You will see these
op-node
logs at the start of snap sync:
INFO [03-06|10:56:55.602] Starting EL sync
INFO [03-06|10:56:55.615] Sync progress reason="unsafe payload from sequencer while in EL sync" l2_finalized=000000..000000:0 l2_safe=000000..000000:0 l2_pending_safe=000000..000000:0 l2_unsafe=4284ab..7e7e84:117076319 l2_time=1,709,751,415 l1_derived=000000..000000:0
INFO [03-06|10:56:57.567] Optimistically inserting unsafe L2 execution payload to drive EL sync id=4ac160..df4d12:117076320
Starting EL sync
is shown once and the sync progress / inserting logs should be repeated until done.
op-node
will log the following when done:
lvl=info msg="Finished EL sync" sync_duration=23h25m0.370558429s finalized_block=0x4f69e83ff1407f2e2882f2526ee8a154ac326590799889cede3af04a7742f18d:116817417
There are two stages on op-geth
for snap sync:
Downloading the headers
op-geth
log something like this as it is downloading the headers:
lvl=info msg="Syncing beacon headers" downloaded=116775778 left=1162878 eta=53.182s
Sync progress
For the second stage, op-geth
will log the following:
lvl=info msg="Syncing: state download in progress" synced=99.75% state="191.33 GiB" accounts=124,983,227@25.62GiB slots=806,829,266@165.16GiB codes=78965@566.74MiB eta=-2m7.602s
msg="Syncing: chain download in progress" synced=100.00% chain="176.01 GiB" headers=116,817,399@45.82GiB bodies=116,817,286@52.87GiB receipts=116,817,286@77.32GiB eta=77.430ms
All the while, op-geth
will also log the forkchoice update:
Forkchoice requested sync to new head number=117,076,468 hash=e3884c..bf4e2b
Full Sync
Initial full synchronization can take several days to complete.
During this time, you will initially observe op-node
deriving blocks from Ethereum without sending these blocks to op-geth
.
This means that op-node
is requesting blocks from Ethereum one-by-one and determining the corresponding OP Mainnet blocks that were published to Ethereum.
You should see logs like the following from op-node
:
INFO [06-26|13:31:20.389] Advancing bq origin origin=17171d..1bc69b:8300332 originBehind=false
Once the op-node
has derived enough blocks from Ethereum, it will begin sending these blocks to op-geth
.
You should see logs like the following from op-node
:
INFO [06-26|14:00:59.460] Sync progress reason="processed safe block derived from L1" l2_finalized=ef93e6..e0f367:4067805 l2_safe=7fe3f6..900127:4068014 l2_unsafe=7fe3f6..900127:4068014 l2_time=1,673,564,096 l1_derived=6079cd..be4231:8301091
INFO [06-26|14:00:59.460] Found next batch epoch=8e8a03..11a6de:8301087 batch_epoch=8301087 batch_timestamp=1,673,564,098
INFO [06-26|14:00:59.461] generated attributes in payload queue txs=1 timestamp=1,673,564,098
INFO [06-26|14:00:59.463] inserted block hash=e80dc4..72a759 number=4,068,015 state_root=660ced..043025 timestamp=1,673,564,098 parent=7fe3f6..900127 prev_randao=78e43d..36f07a fee_recipient=0x4200000000000000000000000000000000000011 txs=1 update_safe=true
You should then also begin to see logs like the following from op-geth
:
INFO [06-26|14:02:12.974] Imported new potential chain segment number=4,068,194 hash=a334a0..609a83 blocks=1 txs=1 mgas=0.000 elapsed=1.482ms mgasps=0.000 age=5mo2w20h dirty=2.31MiB
INFO [06-26|14:02:12.976] Chain head was updated number=4,068,194 hash=a334a0..609a83 root=e80f5e..dd06f9 elapsed="188.373µs" age=5mo2w20h
INFO [06-26|14:02:12.982] Starting work on payload id=0x5542117d680dbd4e
Next Steps
- If you've already got your node up and running, check out the Node Metrics and Monitoring Guide to learn how to keep tabs on your node and make sure it keeps running smoothly.
- If you run into any problems, please visit the Node Troubleshooting Guide for help.