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Allora Network

Docker! Go! Apache License

The Allora Network is a state-of-the-art protocol that uses decentralized AI and machine learning (ML) to build, extract, and deploy predictions among its participants. It offers actors who wish to use AI predictions a formalized way to obtain the output of state-of-the-art ML models on-chain and to pay the operators of AI/ML nodes who create these predictions. That way, Allora bridges the information gap between data owners, data processors, AI/ML predictors, market analysts, and the end-users or consumers who have the means to execute on these insights.

The AI/ML agents within the Allora Network use their data and algorithms to broadcast their predictions across a peer-to-peer network, and they ingest these predictions to assess the predictions from all other agents. The network consensus mechanism combines these predictions and assessments, and distributes rewards to the agents according to the quality of their predictions and assessments. This carefully designed incentive mechanism enables Allora to continually learn and improve, adjusting to the market as it evolves.

Documentation

For the latest documentation, please go to https://docs.allora.network/

Allorad Install

Binary can be Installed for Linux or Mac (check releases for Windows)

Specify a version to install if desired.

curl -sSL https://raw.githubusercontent.com/allora-network/allora-chain/main/install.sh | bash -s -- v0.0.8

Ensure ~/.local/bin is in your PATH.

allorad will be available.

git clone -b <latest-release-tag> https://github.com/allora-network/allora-chain.git
cd allora-chain && make install

Note: Depending on your go setup you may need to add $GOPATH/bin to your $PATH.

export PATH=$PATH:$(go env GOPATH)/bin

Run a Local Network

To run a local node for testing purposes, execute the following commands:

make init
allorad start

When you run a node you have 2 options:

  • Run node and a Head, main advantage is - you can use the head for your workers and reputers
  • Run only a node, in this case you will use Allora's heads.

Run a Fork of Testnet/Mainnet State

To run a fork of a testnet or mainnet in order to check changes against the database state for those networks, first set up some local $HOME/.allorad/ config genesis, etc:

allorad init devnet
allorad keys add test

Then copy an existing node snapshot of the $HOME/.allorad/data/ folder to your new validator's same allorad home folder. You might use allorad snapshots dump to get a tar.gz snapshot.

Next get the local validator key for your new validator:

allorad comet show-address

Start the node with an in-place-testnet, swapping the state of the node for the snapshot state. Put the comet address from the previous step:

allorad in-place-testnet devnet allovaloper<comet address> --home $HOME/.allorad --minimum-gas-prices 0uallo --skip-confirmation

Run a node with script

scripts/l1_node.sh, you will see the log in the output of the script.

NOTE: scripts/l1_node.sh will generate keys for the node. For production environments you need to use a proper keys storage, and follow secrets management best practices.

Run a node

Run

docker compose pull
docker compose up

run docker compose up -d to run detached.

NOTE: Don't forget to pull the images first, to ensure that you're using the latest images.

See logs

docker compose logs -f

Run a node with statesync enabled

To speed up nodes syncing, you can enable statesync, so the node will download state snapshot and sync only the rest blocks (last <1000 blocks).
Here is a guide from Cosmos SDK.

To use statesync, you need:

  1. Peers with state snapshots enabled. Allora peers have enabled snapshots for every 1000 blocks.
  2. 2 RPC endpoints, you can use any synced full nodes for this purpose.

NOTE: To enable state snapshots, you just need to pass --state-sync.snapshot-keep-recent=X and --state-sync.snapshot-interval=Y to the allorad start command.

Enable statesync with docker compose

Set in the docker compose file the following environment variables

      - STATE_SYNC_RPC1=synced_full_node_rpc_1
      - STATE_SYNC_RPC2=synced_full_node_rpc_2

Enable statesync with l1_node.sh script

Just add to the script's environment the following variables:

export STATE_SYNC_RPC1=synced_full_node_rpc_1
export STATE_SYNC_RPC2=synced_full_node_rpc_2
scripts/l1_node.sh

Call the node

After the node is running you can exec RPC calls to it.

For instance, check its status: curl -so- http://localhost:26657/status | jq .

With curl -so- http://localhost:26657/status | jq .result.sync_info.catching_up you can check if the node syncing or not.

Run a validator

You can refer to the Allora documentation for detailed instructions on running a full node and staking a validator.

  1. Run and sync a full Allora node following the instructions.

  2. Wait until the node is fully synced

Verify that your node has finished synching and it is caught up with the network:

curl -so- http://localhost:26657/status | jq .result.sync_info.catching_up Wait until you see the output: "false"

  1. Fund account.

l1_node.sh script generates keys, you can find created account information in data/*.account_info. Get the address from the file and fund, on testnets you can use faucet https://faucet.${NETWORK}.allora.network.

  1. Stake validator (detailed instructions here)

Here's an example with Values which starts with a stake of 10000000uallo.

All the following command needs to be executed inside the validator container. Run docker compose exec validator0 bash to get shell of the validator.

You can change --moniker=... with a human readable name you choose for your validator. and --from= - is the account name in the keyring, you can list all available keys with allorad --home=$APP_HOME keys --keyring-backend=test list

Create stake info file:

cat > stake-validator.json << EOF
{
    "pubkey": $(allorad --home=$APP_HOME comet show-validator),
    "amount": "1000000uallo",
    "moniker": "validator0",
    "commission-rate": "0.1",
    "commission-max-rate": "0.2",
    "commission-max-change-rate": "0.01",
    "min-self-delegation": "1"
}
EOF

Stake the validator

allorad tx staking create-validator ./stake-validator.json \
    --chain-id=testnet \
    --home="$APP_HOME" \
    --keyring-backend=test \
    --from=validator0

The command will output tx hash, you can check its status in the explorer: https://explorer.testnet.allora.network:8443/allora-testnet/tx/$TX_HASH

  1. Verify validator setup

Check that the validator node is registered and staked

VAL_PUBKEY=$(allorad --home=$APP_HOME comet show-validator | jq -r .key)
allorad --home=$APP_HOME q staking validators -o=json | \
    jq '.validators[] | select(.consensus_pubkey.value=="'$VAL_PUBKEY'")'
  • this command should return you all the information about the validator. Similar to the following:
{
  "operator_address": "allovaloper1n8t4ffvwstysveuf3ccx9jqf3c6y7kte48qcxm",
  "consensus_pubkey": {
    "type": "tendermint/PubKeyEd25519",
    "value": "gOl6fwPc19BtkmiOGjjharfe6eyniaxdkfyqiko3/cQ="
  },
  "status": 3,
  "tokens": "1000000",
  "delegator_shares": "1000000000000000000000000",
  "description": {
    "moniker": "val2"
  },
  "unbonding_time": "1970-01-01T00:00:00Z",
  "commission": {
    "commission_rates": {
      "rate": "100000000000000000",
      "max_rate": "200000000000000000",
      "max_change_rate": "10000000000000000"
    },
    "update_time": "2024-02-26T22:50:31.187119394Z"
  },
  "min_self_delegation": "1"
}

Check the voting power of your validator node

NOTE: please allow 30-60 seconds for the output to be updated

allorad --home=$APP_HOME status | jq -r '.validator_info.voting_power'

  • Output should be > 0

Unstaking/unbounding a validator

If you need to delete a validator from the chain, you just need to unbound the stake.

allorad --home="$APP_HOME" \
  tx staking unbond ${VALIDATOR_OPERATOR_ADDRESS} \
  ${STAKE_AMOUNT}uallo --from ${VALIDATOR_ACCOUNT_KEY_NAME} \
   --keyring-backend=test --chain-id ${NETWORK}

Run Integration Tests

To run integration tests, execute the following commands:

bash test/local_testnet_l1.sh
INTEGRATION=TRUE go test -timeout 10m ./test/integration/ -v

Run Upgrade Tests

To run upgrade tests, execute the following commands:

DO_UPGRADE="true" UPGRADE_VERSION="v0.6.0" bash test/local_testnet_l1.sh
UPGRADE=TRUE go test -timeout 10m ./test/integration/ -v

Run Stress Tests

To run stress tests, execute the following commands:

bash test/local_testnet_l1.sh
STRESS_TEST=true RPC_MODE="RandomBasedOnDeterministicSeed" RPC_URLS="http://localhost:26657,http://localhost:26658,http://localhost:26659" SEED=1 MAX_REPUTERS_PER_TOPIC=2 REPUTERS_PER_ITERATION=2 EPOCH_LENGTH=12 FINAL_REPORT=TRUE MAX_WORKERS_PER_TOPIC=2 WORKERS_PER_ITERATION=1 TOPICS_MAX=2 TOPICS_PER_ITERATION=1 MAX_ITERATIONS=2 go test -v -timeout 0 -test.run TestStressTestSuite ./test/stress

options for RPC Modes include "RandomBasedOnDeterministicSeed" "RoundRobin" and "SingleRpc"

Remote debugging using Delve and Cursor

1- Install Delve (dlv) at the server and at your computer:

go install github.com/go-delve/delve/cmd/dlv@latest

2- Configure Delve at Cursor

  • Go to settings and search for "Delve"
  • Click on "Edit in settings.json"
  • Add this to the file:
    "go.delveConfig": {
      "dlvPath": "<absolute path to dlv binary>"
    }

3- Build allorad with debug option:

DEBUG=on make build-all-platforms

4- Install the new binary on the server and restart the service

5- Get the PID of allorad (Make sure you get the PID of allorad, not cosmovisor).

6- Run dlv at the server and attach it to allorad using the PID:

dlv --listen=:2345 --headless=true --api-version=2 --accept-multiclient attach <PID>

7- Make sure you can access that port on the server from your computer. You can do it using port forward, for example:

ssh -NL 2345:localhost:2345 user@remote.ip

8- At your computer, edit .vscode/launch.json file and set the correct value for host and port:

{
  "name": "Remote Debug",
  "type": "go",
  "debugAdapter": "dlv-dap",
  "request": "attach",
  "mode": "remote",
  "port": 2345,
  "host": "127.0.0.1",
}

9- At Cursor, go to the debug pannel, pick "Remote Debug" configuration and start debugging.

References