All the commands accept -h
parameter for help, e.g.:
> ethereumetl export_blocks_and_transactions -h
Usage: ethereumetl export_blocks_and_transactions [OPTIONS]
Export blocks and transactions.
Options:
-s, --start-block INTEGER Start block
-e, --end-block INTEGER End block [required]
-b, --batch-size INTEGER The number of blocks to export at a time.
-p, --provider-uri TEXT The URI of the web3 provider e.g.
file://$HOME/Library/Ethereum/geth.ipc or
https://mainnet.infura.io
-w, --max-workers INTEGER The maximum number of workers.
--blocks-output TEXT The output file for blocks. If not provided
blocks will not be exported. Use "-" for stdout
--transactions-output TEXT The output file for transactions. If not
provided transactions will not be exported. Use
"-" for stdout
-h, --help Show this message and exit.
For the --output
parameters the supported types are csv and json. The format type is inferred from the output file name.
> ethereumetl export_blocks_and_transactions --start-block 0 --end-block 500000 \
--provider-uri file://$HOME/Library/Ethereum/geth.ipc \
--blocks-output blocks.csv --transactions-output transactions.csv
Omit --blocks-output
or --transactions-output
options if you want to export only transactions/blocks.
You can tune --batch-size
, --max-workers
for performance.
Blocks and transactions schema.
The API used in this command is not supported by Infura, so you will need a local node. If you want to use Infura for exporting ERC20 transfers refer to extract_token_transfers
> ethereumetl export_token_transfers --start-block 0 --end-block 500000 \
--provider-uri file://$HOME/Library/Ethereum/geth.ipc --batch-size 100 --output token_transfers.csv
Include --tokens <token1> --tokens <token2>
to filter only certain tokens, e.g.
> ethereumetl export_token_transfers --start-block 0 --end-block 500000 \
--provider-uri file://$HOME/Library/Ethereum/geth.ipc --output token_transfers.csv \
--tokens 0x1F573D6Fb3F13d689FF844B4cE37794d79a7FF1C --tokens 0x80fB784B7eD66730e8b1DBd9820aFD29931aab03
You can tune --batch-size
, --max-workers
for performance.
First extract transaction hashes from transactions.csv
(Exported with export_blocks_and_transactions):
> ethereumetl extract_csv_column --input transactions.csv --column hash --output transaction_hashes.txt
Then export receipts and logs:
> ethereumetl export_receipts_and_logs --transaction-hashes transaction_hashes.txt \
--provider-uri file://$HOME/Library/Ethereum/geth.ipc --receipts-output receipts.csv --logs-output logs.csv
Omit --receipts-output
or --logs-output
options if you want to export only logs/receipts.
You can tune --batch-size
, --max-workers
for performance.
Upvote this feature request openethereum/parity-ethereum#9075, it will make receipts and logs export much faster.
First export receipt logs with export_receipts_and_logs.
Then extract transfers from the logs.csv file:
> ethereumetl extract_token_transfers --logs logs.csv --output token_transfers.csv
You can tune --batch-size
, --max-workers
for performance.
First extract contract addresses from receipts.csv
(Exported with export_receipts_and_logs):
> ethereumetl extract_csv_column --input receipts.csv --column contract_address --output contract_addresses.txt
Then export contracts:
> ethereumetl export_contracts --contract-addresses contract_addresses.txt \
--provider-uri file://$HOME/Library/Ethereum/geth.ipc --output contracts.csv
You can tune --batch-size
, --max-workers
for performance.
First extract token addresses from contracts.json
(Exported with export_contracts):
> ethereumetl filter_items -i contracts.json -p "item['is_erc20'] or item['is_erc721']" | \
ethereumetl extract_field -f address -o token_addresses.txt
Then export ERC20 / ERC721 tokens:
> ethereumetl export_tokens --token-addresses token_addresses.txt \
--provider-uri file://$HOME/Library/Ethereum/geth.ipc --output tokens.csv
You can tune --max-workers
for performance.
Also called internal transactions.
The API used in this command is not supported by Infura,
so you will need a local Parity archive node (parity --tracing on
).
Make sure your node has at least 8GB of memory, or else you will face timeout errors.
See this issue
> ethereumetl export_traces --start-block 0 --end-block 500000 \
--provider-uri file://$HOME/Library/Ethereum/parity.ipc --batch-size 100 --output traces.csv
You can tune --batch-size
, --max-workers
for performance.
Read Differences between geth and parity traces.csv
The API used in this command is not supported by Infura,
so you will need a local Geth archive node (geth --gcmode archive --syncmode full
).
When using rpc, add --rpc --rpcapi debug
options.
> ethereumetl export_geth_traces --start-block 0 --end-block 500000 \
--provider-uri file://$HOME/Library/Ethereum/geth.ipc --batch-size 100 --output geth_traces.json
You can tune --batch-size
, --max-workers
for performance.
> ethereumetl extract_geth_traces --input geth_traces.json --output traces.csv
You can tune --batch-size
, --max-workers
for performance.
> ethereumetl get_block_range_for_date --provider-uri=https://mainnet.infura.io/v3/7aef3f0cd1f64408b163814b22cc643c --date 2018-01-01
4832686,4838611
> ethereumetl get_keccak_hash -i "transfer(address,uint256)"
0xa9059cbb2ab09eb219583f4a59a5d0623ade346d962bcd4e46b11da047c9049b
> pip3 install ethereum-etl[streaming]
> ethereumetl stream --provider-uri https://mainnet.infura.io/v3/7aef3f0cd1f64408b163814b22cc643c --start-block 500000
-
This command outputs blocks, transactions, logs, token_transfers to the console by default.
-
Entity types can be specified with the
-e
option, e.g.-e block,transaction,log,token_transfer,trace,contract,token
. -
Use
--output
option to specify the Google Pub/Sub topic, Postgres database or GCS bucket where to publish blockchain data,- For Google PubSub:
--output=projects/<your-project>/topics/crypto_ethereum
. Data will be pushed toprojects/<your-project>/topics/crypto_ethereum.blocks
,projects/<your-project>/topics/crypto_ethereum.transactions
etc. topics. - For Postgres:
--output=postgresql+pg8000://<user>:<password>@<host>:<port>/<database_name>
, e.g.--output=postgresql+pg8000://postgres:[email protected]:5432/ethereum
. - For GCS:
--output=gs://<bucket_name>
. Make sure to install and initializegcloud
cli. - For Kafka:
--output=kafka/<host>:<port>
, e.g.--output=kafka/127.0.0.1:9092
- Those output types can be combined with a comma e.g.
--output=gs://<bucket_name>,projects/<your-project>/topics/crypto_ethereum
The schema and indexes can be found in this repo ethereum-etl-postgres.
- For Google PubSub:
-
The command saves its state to
last_synced_block.txt
file where the last synced block number is saved periodically. -
Specify either
--start-block
or--last-synced-block-file
option.--last-synced-block-file
should point to the file where the block number, from which to start streaming the blockchain data, is saved. -
Use the
--lag
option to specify how many blocks to lag behind the head of the blockchain. It's the simplest way to handle chain reorganizations - they are less likely the further a block from the head. -
You can tune
--period-seconds
,--batch-size
,--block-batch-size
,--max-workers
for performance. -
Refer to blockchain-etl-streaming for instructions on deploying it to Kubernetes.
Stream blockchain data continually to Google Pub/Sub:
> export GOOGLE_APPLICATION_CREDENTIALS=/path_to_credentials_file.json
> ethereumetl stream --start-block 500000 --output projects/<your-project>/topics/crypto_ethereum
Stream blockchain data to a Postgres database:
ethereumetl stream --start-block 500000 --output postgresql+pg8000://<user>:<password>@<host>:5432/<database>
The schema and indexes can be found in this repo ethereum-etl-postgres.