The integration between the Internet Computer and Bitcoin will enable developers to build canisters that:
-
Securely own Bitcoin.
Canisters will be able to have the Internet Computer securely create ECDSA keys for them via a threshold ECDSA protocol so that they can own Bitcoin.
-
Interact with the Bitcoin network.
Canisters will be able to send transactions, get transaction outputs, as well as get the balance of any Bitcoin address. The aforementioned threshold ECDSA protocol is used to securely sign transactions.
The developer preview enables developers to work with the Bitcoin integration features before the proper launch.
In the developer preview, all components run locally, i.e., no Bitcoin functionality
is deployed on mainnet.
The Bitcoin canister is configured to interact with a local Bitcoin network in regtest
mode.
By contrast, the Bitcoin functionality will be exposed through the management canister on mainnet.
The Bitcoin API on mainnet will be quite similar to the API in the developer preview. However, the function signatures will be slightly different. Moreover, the Bitcoin functionality will be extended, for example, by offering an API for fee management.
The developer preview consists of the following components:
-
The Bitcoin Canister
The Bitcoin canister provides the API that developers can use to interact with the Bitcoin networks.
See the
./canister
directory for more details. -
An Example Project
The project showcases how developers can achieve the following:
-
Get the balance of a Bitcoin address.
-
Get transaction outputs and use them to build a transaction.
-
Sign a transaction and send it to the Bitcoin network.
See the
./example
directory for more details. -
Note
|
The developer preview focuses strictly on the interaction with the Bitcoin network. Securely generating ECDSA keys is beyond the scope of the developer preview. |
With the developer preview you’ll be able to setup a local Bitcoin network and interact with that network using canisters.
There are two ways to set up:
-
dfx >= 0.8.4
-
Bitcoin Core. Mac users are recommended to download the
.tar.gz
version. -
Mac users need to install homebrew and then use it to install additional packages by running
brew install llvm binaryen cmake
Note
|
These instructions assume you’re running Linux or MacOS. We do not officially support Windows. |
The first step would be to setup a local Bitcoin network.
-
Unpack the
.tar.gz
file. -
Create a directory named
data
inside the unpacked folder. -
Create a file called
bitcoin.conf
at the root of the unpacked folder and add the following contents:# Enable regtest mode. This is required to setup a private bitcoin network. regtest=1 # Dummy credentials that are required by `bitcoin-cli`. rpcuser=btc-dev-preview rpcpassword=Wjh4u6SAjT4UMJKxPmoZ0AN2r9qbE-ksXQ5I2_-Hm4w= rpcauth=btc-dev-preview:8555f1162d473af8e1f744aa056fd728$afaf9cb17b8cf0e8e65994d1195e4b3a4348963b08897b4084d210e5ee588bcb
-
Run
bitcoind
to start the bitcoin client using the following command:./bin/bitcoind -conf=$(pwd)/bitcoin.conf -datadir=$(pwd)/data
-
Create a wallet:
./bin/bitcoin-cli -conf=$(pwd)/bitcoin.conf createwallet mywallet
If everything is setup correctly, you should see the following output:
{ "name": "mywallet", "warning": "" }
-
Generate a bitcoin address and save it in variable for later reuse:
export BTC_ADDRESS=$(./bin/bitcoin-cli -conf=$(pwd)/bitcoin.conf getnewaddress)
This will generate a bitcoin address for your wallet to receive funds.
-
Mine blocks to receive some Bitcoin as a reward.
./bin/bitcoin-cli -conf=$(pwd)/bitcoin.conf generatetoaddress 101 $BTC_ADDRESS
You should see an output that looks similar to, but not exactly like, the following:
[ "1625281b2595b77276903868a0fe2fc31cb0c624e9bdc269e74a3f319ceb48de", "1cc5ba7e86fc313333c5448af6c7af44ff249eca3c8b681edc3c275efd3a2d38", "1d3c85b674497ba08a48d1b955bee5b4dc4505ffe4e9f49b428153e02e3e0764", ... "0dfd066985dc001ccc1fe6d7bfa53b7ad4944285dc173615792653bbd52151f1", "65975f1cd5809164f73b0702cf326204d8fee8b9669bc6bd510cb221cf09db5c", ]
Now that bitcoin is setup locally, it is time to run the IC-Bitcoin adapter.
The IC-Bitcoin adapter is a process that fetches headers and blocks from the Bitcoin network and passes them into the Internet Computer. The ic-bitcoin adapter will be integrated into the replica with the main release. For the developer preview, it needs to be launched separately.
Run the following commands to download, build, and run the adapter.
# clone the ic repository and checkout a specific commit.
git clone https://github.com/dfinity/ic.git
cd ic
git checkout 99116f8e872b8765aa609f91eb8c9394914c483d
# Move into the rs directory and run the adapter.
cd rs
cargo run --bin ic-btc-adapter -- ./bitcoin/adapter/tests/sample/regtest.config.json
With bitcoind
and the adapter running, we can now run a local replica with the Bitcoin canister.
-
Clone this repository.
-
From the root directory of the repository, start the local replica.
dfx start --clean --background
-
Deploy the Bitcoin canister to the local replica in regtest mode.
dfx deploy btc --no-wallet
The shim is the final piece that needs to be started up.
From this repository, run the following command:
cargo run --features="tokio candid ic-agent garcon tonic tonic-build" --bin adapter-shim $(dfx canister --no-wallet id btc)
The shim will start syncing blocks from your local bitcoin setup into the bitcoin canister. Once that’s complete, you’ll be able to query the bitcoin canister about the bitcoin state. See Using the Bitcoin Canister for more details and checkout the example project.
Instead of downloading bitcoin and cloning the ic
repository, this repository offers an alternate
solution using Docker and docker-compose
.
-
dfx >= 0.8.4
-
Mac users need to install homebrew and then use it to install additional packages by running
brew install llvm binaryen cmake
-
Docker
-
Mac: Docker for Mac
-
Linux: Docker Engine and Docker Compose.
-
-
docker-compose up -d
will startbitcoind
in the background and begin building a fresh image for the IC-Bitcoin adapter. -
Verify that bitcoind is running:
docker-compose exec bitcoind bitcoin-cli -conf=/conf/bitcoin.conf getmininginfo
If everything is setup correctly, you should see the following output:
{ "blocks": 0, "difficulty": 4.656542373906925e-10, "networkhashps": 0, "pooledtx": 0, "chain": "regtest", "warnings": "" }
-
Create a wallet:
docker-compose exec bitcoind bitcoin-cli -conf=/conf/bitcoin.conf createwallet mywallet
If everything is setup correctly, you should see the following output:
{ "name": "mywallet", "warning": "" }
-
Generate a bitcoin address and save it in variable for later reuse:
export BTC_ADDRESS=$(docker-compose exec bitcoind bitcoin-cli -conf=/conf/bitcoin.conf getnewaddress | tr -d '\r')
This will generate a bitcoin address for your wallet to receive funds.
-
Mine blocks to receive some Bitcoin as a reward.
docker-compose exec bitcoind bitcoin-cli -conf=/conf/bitcoin.conf generatetoaddress 101 $BTC_ADDRESS
You should see an output that looks similar to, but not exactly like, the following:
[ "1625281b2595b77276903868a0fe2fc31cb0c624e9bdc269e74a3f319ceb48de", "1cc5ba7e86fc313333c5448af6c7af44ff249eca3c8b681edc3c275efd3a2d38", "1d3c85b674497ba08a48d1b955bee5b4dc4505ffe4e9f49b428153e02e3e0764", ... "0dfd066985dc001ccc1fe6d7bfa53b7ad4944285dc173615792653bbd52151f1", "65975f1cd5809164f73b0702cf326204d8fee8b9669bc6bd510cb221cf09db5c", ]
-
Verify the adapter is running:
docker-compose logs adapter
You should an output that looks similar to the following:
adapter_1 | Feb 02 01:01:56.512 INFO Connected to 172.29.0.2:18444
adapter_1 | Feb 02 01:01:57.022 INFO Received version from 172.29.0.2:18444
adapter_1 | Feb 02 01:01:57.022 INFO Completed the version handshake with 172.29.0.2:18444
adapter_1 | Feb 02 01:01:57.022 INFO Adding peer_info with addr : 172.29.0.2:18444
adapter_1 | Feb 02 01:01:57.223 INFO Received verack from 172.29.0.2:18444
Continue with the Getting Started directions from Deploying the Bitcoin Canister to complete setup.
There’s an example project in the ./example
directory that showcases how to interact with the Bitcoin canister.
Additionally, you can call the Bitcoin canister directly using dfx
. Examples:
Fetching the balance/UTXOs of an address
dfx canister --no-wallet call btc get_balance "(record { address = \"$BTC_ADDRESS\"})"
dfx canister --no-wallet call btc get_utxos "(record { address = \"$BTC_ADDRESS\"})"
Fetching the balance/UTXOs of an address with a minimum of 6 confirmations
dfx canister --no-wallet call btc get_balance "(record { address = \"$BTC_ADDRESS\"; min_confirmations = opt 6})"
dfx canister --no-wallet call btc get_utxos "(record { address = \"$BTC_ADDRESS\"; min_confirmations = opt 6})"