Running a Stacks API node
This procedure demonstrates how to run a local API node using Docker images. There are several components that must be configured and run in a specific order for the local API node to work.
For this procedure, the order in which the services are brought up is very important. In order to start the API node successfully, you need to bring up the services in the following order:
postgres
stacks-blockchain-api
stacks-blockchain
When bringing down the API node, you should bring the services down in the exact reverse order in which they were brought up, to avoid losing data.
This procedure focuses on Unix-like operating systems (Linux and MacOS). This procedure has not been tested on Windows.
Prerequisites
Running a node has no specialized hardware requirements. Users have been successful in running nodes on Raspberry Pi boards and other system-on-chip architectures. In order to complete this procedure, you must have the following software installed on the node host machine:
Firewall configuration
In order for the API node services to work correctly, you must configure any network firewall rules to allow traffic on the ports discussed in this section. The details of network and firewall configuration are highly specific to your machine and network, so a detailed example isn't provided.
The following ports must open on the host machine:
Ingress:
- postgres (open to
localhost
only):5432 TCP
- stacks-blockchain-api
3999 TCP
- stacks-blockchain (open to
0.0.0.0/0
):20443 TCP
20444 TCP
Egress:
8332
8333
20443-20444
These egress ports are for syncing stacks-blockchain
and Bitcoin headers. If they're not open, the sync will fail.
Step 1: Initial setup
In order to run the API node, you must download the Docker images and create a directory structure to hold the persistent data from the services. Download and configure the Docker images with the following commands:
docker pull blockstack/stacks-blockchain-api && docker pull blockstack/stacks-blockchain && docker pull postgres:alpine
docker network create stacks-blockchain > /dev/null 2>&1
Create a directory structure for the service data with the following command:
mkdir -p ./stacks-node/{persistent-data/postgres,persistent-data/stacks-blockchain,bns,config} && cd stacks-node
Step 2: Running Postgres
The postgres:alpine
Docker container can be run with default settings. You must set the password for the user to
postgres
with the POSTGRES_PASSWORD
environment variable. The following command starts the image:
docker run -d --rm \
--name postgres \
--net=stacks-blockchain \
-e POSTGRES_PASSWORD=postgres \
-v $(pwd)/persistent-data/postgres:/var/lib/postgresql/data \
-p 5432:5432 \
postgres:alpine
You can verify the running Postgres instance on port 5432
with the command
docker ps --filter name=postgres
Step 3: Running Stacks blockchain API
The stacks-blockchain-api
image requires several environment variables to be set. To reduce the complexity of the
run command, you should create a new .env
file and add the following to it using a text editor:
NODE_ENV=production
GIT_TAG=master
PG_HOST=postgres
PG_PORT=5432
PG_USER=postgres
PG_PASSWORD=postgres
PG_DATABASE=postgres
STACKS_CHAIN_ID=0x00000001
V2_POX_MIN_AMOUNT_USTX=90000000260
STACKS_CORE_EVENT_PORT=3700
STACKS_CORE_EVENT_HOST=0.0.0.0
STACKS_BLOCKCHAIN_API_PORT=3999
STACKS_BLOCKCHAIN_API_HOST=0.0.0.0
STACKS_BLOCKCHAIN_API_DB=pg
STACKS_CORE_RPC_HOST=stacks-blockchain
STACKS_CORE_RPC_PORT=20443
BNS_IMPORT_DIR=/bns-data
This guide configures the API to import BNS data with the BNS_IMPORT_DIR
variable. To turn off this import, comment
the line out by placing a #
at the beginning of the line. If you leave the BNS import enabled, it may take several
minutes for the container to start while it imports the data.
The PG_HOST
and STACKS_CORE_RPC_HOST
variables define the container names for postgres
and stacks-blockchain
.
You may wish to alter those values if you have named those containers differently than this guide.
Start the stacks-blockchain-api
image with the following command:
docker run -d --rm \
--name stacks-blockchain-api \
--net=stacks-blockchain \
--env-file $(pwd)/.env \
-v $(pwd)/bns:/bns-data \
-p 3700:3700 \
-p 3999:3999 \
blockstack/stacks-blockchain-api
You can verify the running stacks-blockchain-api
container with the command:
docker ps --filter name=stacks-blockchain-api
Step 4: Running Stacks blockchain
In order for the API to be functional, the stacks-blockchain-api
container must have data from a running
stacks-blockchain
instance. First create the ./config/mainnet/Config.toml
file and add the following content to the file using a text editor:
[node]
working_dir = "/root/stacks-node/data"
rpc_bind = "0.0.0.0:20443"
p2p_bind = "0.0.0.0:20444"
bootstrap_node = "02da7a464ac770ae8337a343670778b93410f2f3fef6bea98dd1c3e9224459d36b@seed-0.mainnet.stacks.co:20444,02afeae522aab5f8c99a00ddf75fbcb4a641e052dd48836408d9cf437344b63516@seed-1.mainnet.stacks.co:20444,03652212ea76be0ed4cd83a25c06e57819993029a7b9999f7d63c36340b34a4e62@seed-2.mainnet.stacks.co:20444"
wait_time_for_microblocks = 10000
[[events_observer]]
endpoint = "stacks-blockchain-api:3700"
retry_count = 255
events_keys = ["*"]
[burnchain]
chain = "bitcoin"
mode = "mainnet"
peer_host = "bitcoin.blockstack.com"
username = "blockstack"
password = "blockstacksystem"
rpc_port = 8332
peer_port = 8333
[connection_options]
read_only_call_limit_write_length = 0
read_only_call_limit_read_length = 100000
read_only_call_limit_write_count = 0
read_only_call_limit_read_count = 30
read_only_call_limit_runtime = 1000000000
The [[events_observer]]
block configures the instance to send blockchain events to the API container that you
started previously.
Start the stacks-blockchain
container with the following command:
docker run -d --rm \
--name stacks-blockchain \
--net=stacks-blockchain \
-v $(pwd)/persistent-data/stacks-blockchain:/root/stacks-node/data \
-v $(pwd)/config:/src/stacks-node \
-p 20443:20443 \
-p 20444:20444 \
blockstack/stacks-blockchain \
/bin/stacks-node start --config /src/stacks-node/Config.toml
You can verify the running stacks-blockchain
container with the command:
docker ps --filter name=stacks-blockchain
Step 5: Verifying the services
You can now verify that each of the services is running and talking to the others.
To verify the database is ready:
- Connect to the Postgres instance with the command
psql -h localhost -U postgres
. Use the password from thePOSTGRES_PASSWORD
environment variable you set when running the container. - List current databases with the command
\l
- Disconnect from the database with the command
\q
To verify the stacks-blockchain
tip height is progressing use the following command:
curl -sL localhost:20443/v2/info | jq
If the instance is running you should receive terminal output similar to the following:
{
"peer_version": 402653184,
"pox_consensus": "89d752034e73ed10d3b97e6bcf3cff53367b4166",
"burn_block_height": 666143,
"stable_pox_consensus": "707f26d9d0d1b4c62881a093c99f9232bc74e744",
"stable_burn_block_height": 666136,
"server_version": "stacks-node 2.0.11.1.0-rc1 (master:67dccdf, release build, linux [x86_64])",
"network_id": 1,
"parent_network_id": 3652501241,
"stacks_tip_height": 61,
"stacks_tip": "e08b2fe3dce36fd6d015c2a839c8eb0885cbe29119c1e2a581f75bc5814bce6f",
"stacks_tip_consensus_hash": "ad9f4cb6155a5b4f5dcb719d0f6bee043038bc63",
"genesis_chainstate_hash": "74237aa39aa50a83de11a4f53e9d3bb7d43461d1de9873f402e5453ae60bc59b",
"unanchored_tip": "74d172df8f8934b468c5b0af2efdefe938e9848772d69bcaeffcfe1d6c6ef041",
"unanchored_seq": 0,
"exit_at_block_height": null
}
Verify the stacks-blockchain-api
is receiving data from the stacks-blockchain
with the following command:
curl -sL localhost:3999/v2/info | jq
If the instance is configured correctly, you should receive terminal output similar to the following:
{
"peer_version": 402653184,
"pox_consensus": "e472cadc17dcf3bc1afafc6aa595899e55f25b72",
"burn_block_height": 666144,
"stable_pox_consensus": "6a6fb0aa75a8acd4919f56c9c4c81ce5bc42cac1",
"stable_burn_block_height": 666137,
"server_version": "stacks-node 2.0.11.1.0-rc1 (master:67dccdf, release build, linux [x86_64])",
"network_id": 1,
"parent_network_id": 3652501241,
"stacks_tip_height": 61,
"stacks_tip": "e08b2fe3dce36fd6d015c2a839c8eb0885cbe29119c1e2a581f75bc5814bce6f",
"stacks_tip_consensus_hash": "ad9f4cb6155a5b4f5dcb719d0f6bee043038bc63",
"genesis_chainstate_hash": "74237aa39aa50a83de11a4f53e9d3bb7d43461d1de9873f402e5453ae60bc59b",
"unanchored_tip": "74d172df8f8934b468c5b0af2efdefe938e9848772d69bcaeffcfe1d6c6ef041",
"unanchored_seq": 0,
"exit_at_block_height": null
}
Once the API is running, you can use it to interact with other API endpoints.
Stopping the API node
As discussed previously, if you want to bring down your API node, you must stop the services in the reverse order that you started them. Performing the shutdown in this order ensures that you don't lose any data while shutting down the node.
Use the following commands to stop the local API node:
docker stop stacks-blockchain
docker stop stacks-blockchain-api
docker stop postgres
Additional reading
- Running an API instance with Docker in the
stacks-blockchain-api
repository - Running an API instance from source in the
stacks-blockchain-api
repository