1cd576e93a
In order to make the installation process of the btcd robust we should use "glide" instead of "go get". |
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btcd | ||
lnd | ||
docker-compose.yml | ||
README.md |
This document is written for people who are eager to do something with
the Lightning Network Daemon (lnd
). This folder uses docker-compose
to
package lnd
and btcd
together to make deploying the two daemons as easy as
typing a few commands. All configuration between lnd
and btcd
are handled
automatically by their docker-compose
config file.
Prerequisites
Name | Version
--------|---------
docker-compose | 1.9.0
docker | 1.13.0
Table of content
Create lightning network cluster
This section describes a workflow on simnet
, a development/test network
that's similar to Bitcoin Core's regtest
mode. In simnet
mode blocks can be
generated at will, as the difficulty is very low. This makes it an ideal
environment for testing as one doesn't need to wait tens of minutes for blocks
to arrive in order to test channel related functionality. Additionally, it's
possible to spin up an arbitrary number of lnd
instances within containers to
create a mini development cluster. All state is saved between instances using a
shared value.
Current workflow is big because we recreate the whole network by ourselves,
next versions will use the started btcd
bitcoin node in testnet
and
faucet
wallet from which you will get the bitcoins.
In the workflow below, we describe the steps required to recreate following
topology, and send a payment from Alice
to Bob
.
+ ----- + + --- +
| Alice | <--- channel ---> | Bob | <--- Bob and Alice are the lightning network daemons which
+ ----- + + --- + creates the channel and interact with each other using
| | Bitcoin network as source of truth.
| |
+ - - - - - + - - - - - - +
|
+ --------------- +
| Bitcoin network | <--- In current scenario for simplicity we create only one
+ --------------- + "btcd" node which represents the Bitcoin network, in
real situation Alice and Bob will likely be
connected to different Bitcoin nodes.
General workflow is the following:
- Create a
btcd
node running on a privatesimnet
. - Create
Alice
, one of thelnd
nodes in our simulation network. - Create
Bob
, the otherlnd
node in our simulation network. - Mine some blocks to send
Alice
some bitcoins. - Open channel between
Alice
andBob
. - Send payment from
Alice
toBob
. - Close the channel between
Alice
andBob
. - Check that on-chain
Bob
balance was changed.
Start btcd
, and then create an address for Alice
that we'll directly mine
bitcoin into.
# Init bitcoin network env variable:
$ export BITCOIN_NETWORK="simnet"
# Run "btcd" node:
$ docker-compose up -d "btcd"
# Run the "Alice" container and log into it:
$ docker-compose up -d "alice"
$ docker exec -i -t "alice" bash
# Generate a new backward compatible nested p2sh address for Alice:
alice$ lncli newaddress np2wkh
# Recreate "btcd" node and set Alice's address as mining address:
$ MINING_ADDRESS=<alice_address> docker-compose up -d "btcd"
# Generate 400 block (we need at least "100 >=" blocks because of coinbase
# block maturity and "300 ~=" in order to activate segwit):
$ docker-compose run btcctl generate 400
# Check that segwit is active:
$ docker-compose run btcctl getblockchaininfo | grep -A 1 segwit
Check Alice
balance:
alice$ lncli walletbalance --witness_only=true
Connect Bob
node to Alice
node.
# Run "Bob" node and log into it:
$ docker-compose up --no-recreate -d "bob"
$ docker exec -i -t "bob" bash
# Get the identity pubkey of "Bob" node:
bob$ lncli getinfo
{
----->"identity_pubkey": "0343bc80b914aebf8e50eb0b8e445fc79b9e6e8e5e018fa8c5f85c7d429c117b38",
"alias": "",
"num_pending_channels": 0,
"num_active_channels": 0,
"num_peers": 0,
"block_height": 1215,
"block_hash": "7d0bc86ea4151ed3b5be908ea883d2ac3073263537bcf8ca2dca4bec22e79d50",
"synced_to_chain": true,
"testnet": false
"chains": [
"bitcoin"
]
}
# Get the IP address of "Bob" node:
$ docker inspect "bob" | grep IPAddress
# Connect "Alice" to the "Bob" node:
alice$ lncli connect <bob_pubkey>@<bob_host>
# Check list of peers on "Alice" side:
alice$ lncli listpeers
{
"peers": [
{
"pub_key": "0343bc80b914aebf8e50eb0b8e445fc79b9e6e8e5e018fa8c5f85c7d429c117b38",
"peer_id": 1,
"address": "172.19.0.4:5656",
"bytes_sent": "357",
"bytes_recv": "357",
"sat_sent": "0",
"sat_recv": "0",
"inbound": true,
"ping_time": "0"
}
]
}
# Check list of peers on "Bob" side:
bob$ lncli listpeers
{
"peers": [
{
"pub_key": "03d0cd35b761f789983f3cfe82c68170cd1c3266b39220c24f7dd72ef4be0883eb",
"peer_id": 1,
"address": "172.19.0.3:51932",
"bytes_sent": "357",
"bytes_recv": "357",
"sat_sent": "0",
"sat_recv": "0",
"inbound": false,
"ping_time": "0"
}
]
}
Create the Alice<->Bob
channel.
# Open the channel with "Bob":
alice$ lncli openchannel --node_key=<bob_identity_pubkey> --num_confs=1 --local_amt=1000000
# Include funding transaction in block thereby open the channel:
$ docker-compose run btcctl generate 1
# Check that channel with "Bob" was created:
alice$ lncli listchannels
{
"channels": [
{
"active": true,
"remote_pubkey": "0343bc80b914aebf8e50eb0b8e445fc79b9e6e8e5e018fa8c5f85c7d429c117b38",
"channel_point": "3511ae8a52c97d957eaf65f828504e68d0991f0276adff94c6ba91c7f6cd4275:0",
"chan_id": "1337006139441152",
"capacity": "1005000",
"local_balance": "1000000",
"remote_balance": "0",
"unsettled_balance": "0",
"total_satoshis_sent": "0",
"total_satoshis_received": "0",
"num_updates": "0"
}
]
}
Send the payment form Alice
to Bob
.
# Add invoice on "Bob" side:
bob$ lncli addinvoice --value=10000
{
"r_hash": "<your_random_rhash_here>",
"pay_req": "<encoded_invoice>",
}
# Send payment from "Alice" to "Bob":
alice$ lncli sendpayment --pay_req=<encoded_invoice>
# Check "Alice"'s channel balance was decremented accordingly by the payment
# amount
alice$ lncli listchannels
# Check "Bob"'s channel balance was credited with the payment amount
bob$ lncli listchannels
Now we have open channel in which we sent only one payment, let's imagine that we sent lots of them and we'll now like to close the channel. Let's do it!
# List the "Alice" channel and retrieve "channel_point" which represent
# the opened channel:
alice$ lncli listchannels
{
"channels": [
{
"active": true,
"remote_pubkey": "0343bc80b914aebf8e50eb0b8e445fc79b9e6e8e5e018fa8c5f85c7d429c117b38",
---->"channel_point": "3511ae8a52c97d957eaf65f828504e68d0991f0276adff94c6ba91c7f6cd4275:0",
"chan_id": "1337006139441152",
"capacity": "1005000",
"local_balance": "990000",
"remote_balance": "10000",
"unsettled_balance": "0",
"total_satoshis_sent": "10000",
"total_satoshis_received": "0",
"num_updates": "2"
}
]
}
# Channel point consist of two numbers separated by colon the first one
# is "funding_txid" and the second one is "output_index":
alice$ lncli closechannel --funding_txid=<funding_txid> --output_index=<output_index>
# Include close transaction in block thereby close the channel:
$ docker-compose run btcctl generate 1
# Check "Alice" on-chain balance was credited by her settled amount in the channel:
alice$ lncli walletbalance
# Check "Bob" on-chain balance was credited with the funds he received in the
# channel:
bob$ lncli walletbalance
{
"balance": 0.0001
}
Connect to faucet lightning node
In order to be more confident with lnd
commands I suggest you to try
to create a mini lightning network cluster (Create lightning network cluster).
In this section we will try to connect our node to the faucet/hub node which will create with as the channel and send as some amount of bitcoins. The schema will be following:
+ ----- + + ------ + (1) + --- +
| Alice | <--- channel ---> | Faucet | <--- channel ---> | Bob |
+ ----- + + ------ + + --- +
| | |
| | | <--- (2)
+ - - - - - - - - - - - - - + - - - - - - - - - - - - - +
|
+ --------------- +
| Bitcoin network | <--- (3)
+ --------------- +
(1) You may connect an additinal node "Bob" and make the multihope
payment Alice->Faucet->Bob
(2) "Faucet", "Alice" and "Bob" are the lightning network daemons which
creates the channel and interact with each other using Bitcoin network
as source of truth.
(3) In current scenario "Alice" and "Faucet" lightning network nodes
connected to different Bitcoin nodes. If you decide to connect "Bob"
to "Faucet" than already created "btcd" node would be sufficient.
First of all you need to run btcd
node in testnet
and wait it to be
synced with test network (May the Force and Patience be with you
ᕦ(ò_óˇ)ᕤ).
# Init bitcoin network env variable:
$ export BITCOIN_NETWORK="testnet"
# Run "btcd" node:
$ docker-compose up -d "btcd"
After btcd
synced, connect Alice
to the Faucet
node.
# Run "Alice" container and log into it:
$ docker-compose up -d "alice"; docker exec -i -t "alice" bash
# Connect "Alice" to the "Faucet" node:
alice$ lncli connect <faucet_identity_address>@<faucet_host>
After connection was achieved the Faucet
node should create the channel
and send some amount of bitcoins to Alice
.
What you may do next?:
- Send some amount to
Faucet
node back. - Connect
Bob
node to theFaucet
and make multihop payment (Alice->Faucet->Bob
) - Close channel with
Faucet
and check the onchain balance.
Questions
[] (https://webchat.freenode.net/?channels=lnd)
- How to see
alice
|bob
|btcd
logs?
docker-compose logs <alice|bob|btcd>