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Bittensor Subnet Template

Discord Chat License: MIT


The Incentivized Internet

DiscordNetworkResearch



Quickstarter template

This template contains all the required installation instructions, scripts, and files and functions for:

  • Building Bittensor subnets.
  • Creating custom incentive mechanisms and running these mechanisms on the subnets.

In order to simplify the building of subnets, this template abstracts away the complexity of the underlying blockchain and other boilerplate code. While the default behavior of the template is sufficient for a simple subnet, you should customize the template in order to meet your specific requirements.

Introduction

IMPORTANT: If you are new to Bittensor subnets, read this section before proceeding to Installation section.

The Bittensor blockchain hosts multiple self-contained incentive mechanisms called subnets. Subnets are playing fields in which:

  • Subnet miners who produce value, and
  • Subnet validators who produce consensus

determine together the proper distribution of TAO for the purpose of incentivizing the creation of value, i.e., generating digital commodities, such as intelligence or data.

Each subnet consists of:

  • Subnet miners and subnet validators.
  • A protocol using which the subnet miners and subnet validators interact with one another. This protocol is part of the incentive mechanism.
  • The Bittensor API using which the subnet miners and subnet validators interact with Bittensor's onchain consensus engine Yuma Consensus. The Yuma Consensus is designed to drive these actors: subnet validators and subnet miners, into agreement on who is creating value and what that value is worth.

This starter template is split into three primary files. To write your own incentive mechanism, you should edit these files. These files are:

  1. template/protocol.py: Contains the definition of the protocol used by subnet miners and subnet validators.
  2. neurons/miner.py: Script that defines the subnet miner's behavior, i.e., how the subnet miner responds to requests from subnet validators.
  3. neurons/validator.py: This script defines the subnet validator's behavior, i.e., how the subnet validator requests information from the subnet miners and determines the scores.

Example

The Bittensor Subnet 1 for Text Prompting is built using this template. See Bittensor Text-Prompting for how to configure the files and how to add monitoring and telemetry and support multiple miner types. Also see this Subnet 1 in action on Taostats explorer.


Installation

Before you proceed

Before you proceed with the installation of the subnet, note the following:

  • Use these instructions to run your subnet locally for your development and testing, or on Bittensor testnet or on Bittensor mainnet.
  • IMPORTANT: We strongly recommend that you first run your subnet locally and complete your development and testing before running the subnet on Bittensor testnet. Furthermore, make sure that you next run your subnet on Bittensor testnet before running it on the Bittensor mainnet.
  • You can run your subnet either as a subnet owner, or as a subnet validator or as a subnet miner.
  • IMPORTANT: Make sure you are aware of the minimum compute requirements for your subnet. See the Minimum compute YAML configuration.
  • Note that installation instructions differ based on your situation: For example, installing for local development and testing will require a few additional steps compared to installing for testnet. Similarly, installation instructions differ for a subnet owner vs a validator or a miner.

Install


Writing your own incentive mechanism

As described in Quickstarter template section above, when you are ready to write your own incentive mechanism, update this template repository by editing the following files. The code in these files contains detailed documentation on how to update the template. Read the documentation in each of the files to understand how to update the template. There are multiple TODOs in each of the files identifying sections you should update. These files are:

  • template/protocol.py: Contains the definition of the wire-protocol used by miners and validators.
  • neurons/miner.py: Script that defines the miner's behavior, i.e., how the miner responds to requests from validators.
  • neurons/validator.py: This script defines the validator's behavior, i.e., how the validator requests information from the miners and determines the scores.
  • template/forward.py: Contains the definition of the validator's forward pass.
  • template/reward.py: Contains the definition of how validators reward miner responses.

In addition to the above files, you should also update the following files:

  • README.md: This file contains the documentation for your project. Update this file to reflect your project's documentation.
  • CONTRIBUTING.md: This file contains the instructions for contributing to your project. Update this file to reflect your project's contribution guidelines.
  • template/__init__.py: This file contains the version of your project.
  • setup.py: This file contains the metadata about your project. Update this file to reflect your project's metadata.
  • docs/: This directory contains the documentation for your project. Update this directory to reflect your project's documentation.

Note The template directory should also be renamed to your project name.

Writing your own subnet API

To leverage the abstract SubnetsAPI in Bittensor, you can implement a standardized interface. This interface is used to interact with the Bittensor network and can is used by a client to interact with the subnet through its exposed axons.

What does Bittensor communication entail? Typically two processes, (1) preparing data for transit (creating and filling synapses) and (2), processing the responses received from the axon(s).

This protocol uses a handler registry system to associate bespoke interfaces for subnets by implementing two simple abstract functions:

  • prepare_synapse
  • process_responses

These can be implemented as extensions of the generic SubnetsAPI interface. E.g.:

This is abstract, generic, and takes(*args, **kwargs) for flexibility. See the extremely simple base class:

class SubnetsAPI(ABC):
    def __init__(self, wallet: "bt.wallet"):
        self.wallet = wallet
        self.dendrite = bt.dendrite(wallet=wallet)

    async def __call__(self, *args, **kwargs):
        return await self.query_api(*args, **kwargs)

    @abstractmethod
    def prepare_synapse(self, *args, **kwargs) -> Any:
        """
        Prepare the synapse-specific payload.
        """
        ...

    @abstractmethod
    def process_responses(self, responses: List[Union["bt.Synapse", Any]]) -> Any:
        """
        Process the responses from the network.
        """
        ...

Here is a toy example:

from bittensor.subnets import SubnetsAPI
from MySubnet import MySynapse

class MySynapseAPI(SubnetsAPI):
    def __init__(self, wallet: "bt.wallet"):
        super().__init__(wallet)
        self.netuid = 99

    def prepare_synapse(self, prompt: str) -> MySynapse:
        # Do any preparatory work to fill the synapse
        data = do_prompt_injection(prompt)

        # Fill the synapse for transit
        synapse = StoreUser(
            messages=[data],
        )
        # Send it along
        return synapse

    def process_responses(self, responses: List[Union["bt.Synapse", Any]]) -> str:
        # Look through the responses for information required by your application
        for response in responses:
            if response.dendrite.status_code != 200:
                continue
            # potentially apply post processing
            result_data = postprocess_data_from_response(response)
        # return data to the client
        return result_data

You can use a subnet API to the registry by doing the following:

  1. Download and install the specific repo you want
  2. Import the appropriate API handler from bespoke subnets
  3. Make the query given the subnet specific API

See a simplified example for subnet 21 (FileTao storage) below. See examples/subnet21.py file for a full implementation example to follow:

# Subnet 21 Interface Example

class StoreUserAPI(SubnetsAPI):
    def __init__(self, wallet: "bt.wallet"):
        super().__init__(wallet)
        self.netuid = 21

    def prepare_synapse(
        self,
        data: bytes,
        encrypt=False,
        ttl=60 * 60 * 24 * 30,
        encoding="utf-8",
    ) -> StoreUser:
        data = bytes(data, encoding) if isinstance(data, str) else data
        encrypted_data, encryption_payload = (
            encrypt_data(data, self.wallet) if encrypt else (data, "{}")
        )
        expected_cid = generate_cid_string(encrypted_data)
        encoded_data = base64.b64encode(encrypted_data)

        synapse = StoreUser(
            encrypted_data=encoded_data,
            encryption_payload=encryption_payload,
            ttl=ttl,
        )

        return synapse

    def process_responses(
        self, responses: List[Union["bt.Synapse", Any]]
    ) -> str:
        for response in responses:
            if response.dendrite.status_code != 200:
                continue
            stored_cid = (
                response.data_hash.decode("utf-8")
                if isinstance(response.data_hash, bytes)
                else response.data_hash
            )
            bt.logging.debug("received data CID: {}".format(stored_cid))
            break

        return stored_cid


class RetrieveUserAPI(SubnetsAPI):
    def __init__(self, wallet: "bt.wallet"):
        super().__init__(wallet)
        self.netuid = 21

    def prepare_synapse(self, cid: str) -> RetrieveUser:
        synapse = RetrieveUser(data_hash=cid)
        return synapse

    def process_responses(self, responses: List[Union["bt.Synapse", Any]]) -> bytes:
        success = False
        decrypted_data = b""
        for response in responses:
            if response.dendrite.status_code != 200:
                continue
            decrypted_data = decrypt_data_with_private_key(
                encrypted_data,
                response.encryption_payload,
                bytes(self.wallet.coldkey.private_key.hex(), "utf-8"),
            )
        return data

 
Example usage of the `FileTao` interface, which can serve as an example for other subnets.

# import the bespoke subnet API
from storage import StoreUserAPI, RetrieveUserAPI

wallet = bt.wallet(wallet="default", hotkey="default") # the wallet used for querying
metagraph = bt.metagraph(netuid=21)  # metagraph of the subnet desired
query_axons = metagraph.axons... # define custom logic to retrieve desired axons (e.g. validator set, specific miners, etc)

# Store the data on subnet 21
bt.logging.info(f"Initiating store_handler: {store_handler}")
cid = await StoreUserAPI(
      axons=query_axons, # the axons you wish to query
      # Below: Parameters passed to `prepare_synapse` for this API subclass
      data=b"Hello Bittensor!",
      encrypt=False,
      ttl=60 * 60 * 24 * 30, 
      encoding="utf-8",
      uid=None,
)
# The Content Identifier that corresponds to the stored data
print(cid)
> "bafkreifv6hp4o6bllj2nkdtzbq6uh7iia6bgqgd3aallvfhagym2s757v4

# Now retrieve data from SN21 (storage)
data = await RetrieveUserAPI(
  axons=query_axons, # axons desired to query
  cid=cid, # the content identifier to fetch the data
)
print(data)
> b"Hello Bittensor!"

Subnet Links

In order to see real-world examples of subnets in-action, see the subnet_links.py document or access them from inside the template package by:

import template
template.SUBNET_LINKS
[{'name': 'sn0', 'url': ''},
 {'name': 'sn1', 'url': 'https://github.com/opentensor/text-prompting/'},
 {'name': 'sn2', 'url': 'https://github.com/bittranslateio/bittranslate/'},
 {'name': 'sn3', 'url': 'https://github.com/gitphantomman/scraping_subnet/'},
 {'name': 'sn4', 'url': 'https://github.com/manifold-inc/targon/'},
...
]

License

This repository is licensed under the MIT License.

# The MIT License (MIT)
# Copyright © 2023 Yuma Rao

# Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated
# documentation files (the “Software”), to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software,
# and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

# The above copyright notice and this permission notice shall be included in all copies or substantial portions of
# the Software.

# THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
# THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.

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