8.4 KiB
Installation
Preliminaries
In order to work with lnd
, the
following build dependencies are required:
-
Go:
lnd
is written in Go. To install, run one of the following commands:Note: The minimum version of Go supported is Go 1.8.
On Linux:
sudo apt-get install golang-1.8-go
Note that golang-1.8-go puts binaries in /usr/lib/go-1.8/bin. If you want them on your PATH, you need to make that change yourself.
On Mac OS X
brew install go
Alternatively, one can download the pre-compiled binaries hosted on the golang download page. If one seeks to install from source, then more detailed installation instructions can be found here.
At this point, you should set your
$GOPATH
environment variable, which represents the path to your workspace. By default,$GOPATH
is set to~/go
. You will also need to add$GOPATH/bin
to yourPATH
. This ensures that your shell will be able to detect the binaries you install.export GOPATH=~/gocode export PATH=$PATH:$GOPATH/bin
We recommend placing the above in your .bashrc or in a setup script so that you can avoid typing this every time you open a new terminal window.
-
Glide: This project uses
Glide
to manage dependencies as well as to provide reproducible builds. To installGlide
, execute the following command (assumes you already have Go properly installed):go get -u github.com/Masterminds/glide
Installing lnd
With the preliminary steps completed, to install lnd
, lncli
, and all
related dependencies run the following commands:
git clone https://github.com/lightningnetwork/lnd $GOPATH/src/github.com/lightningnetwork/lnd
cd $GOPATH/src/github.com/lightningnetwork/lnd
glide install
go install . ./cmd/...
Updating
To update your version of lnd
to the latest version run the following
commands:
cd $GOPATH/src/github.com/lightningnetwork/lnd
git pull && glide install
go install . ./cmd/...
Tests
To check that lnd
was installed properly run the following command:
go install; go test -v -p 1 $(go list ./... | grep -v '/vendor/')
Installing btcd
lnd
currently requires btcd
with segwit support, which is not yet merged
into the master branch. Instead, roasbeef
maintains a fork with his segwit implementation applied. To install, run the
following commands:
Install btcd: (must be from roasbeef fork, not from btcsuite)
git clone https://github.com/roasbeef/btcd $GOPATH/src/github.com/roasbeef/btcd
cd $GOPATH/src/github.com/roasbeef/btcd
glide install
go install . ./cmd/...
Starting btcd
Running the following command will create rpc.cert
and default btcd.conf
.
btcd --testnet --txindex --rpcuser=kek --rpcpass=kek
If you want to use lnd
on testnet, btcd
needs to first fully sync the
testnet blockchain. Depending on your hardware, this may take up to a few
hours.
(NOTE: It may take several minutes to find segwit-enabled peers.)
While btcd
is syncing you can check on its progress using btcd's getinfo
RPC command:
btcctl --testnet --rpcuser=kek --rpcpass=kek getinfo
{
"version": 120000,
"protocolversion": 70002,
"blocks": 1114996,
"timeoffset": 0,
"connections": 7,
"proxy": "",
"difficulty": 422570.58270815,
"testnet": true,
"relayfee": 0.00001,
"errors": ""
}
Additionally, you can monitor btcd's logs to track its syncing progress in real time.
You can test your btcd
node's connectivity using the getpeerinfo
command:
btcctl --testnet --rpcuser=kek --rpcpass=kek getpeerinfo | more
lnd
Simnet vs. Testnet Development
If you are doing local development, such as for the tutorial, you'll want to
start both btcd
and lnd
in the simnet
mode. Simnet is similar to regtest
in that you'll be able to instantly mine blocks as needed to test lnd
locally. In order to start either daemon in the simnet
mode use simnet
instead of testnet
, adding the --bitcoin.simnet
flag instead of the
--bitcoin.testnet
flag.
Another relevant command line flag for local testing of new lnd
developments
is the --debughtlc
flag. When starting lnd
with this flag, it'll be able to
automatically settle a special type of HTLC sent to it. This means that you
won't need to manually insert invoices in order to test payment connectivity.
To send this "special" HTLC type, include the --debugsend
command at the end
of your sendpayment
commands.
There are currently two primary ways to run lnd
, one requires a local btcd
instance with the RPC service exposed, and the other uses a fully integrate
light client powered by neutrino.
Running lnd in light client mode
In order to run lnd
in its light client mode, you'll need to locate a
full-node which is capable of serving this new light client mode. A BIP
draft
exists, and will be finalized in the near future, but for now you'll need to be
running roasbeef
's fork of btcd. A public instance of such a node can be
found at faucet.lightning.community
.
To run lnd in neutrino mode, run lnd
with the following arguments, (swapping
in --bitcoin.simnet
for simnet
mode if needed), and also your own btcd
node if available:
lnd --bitcoin.active --bitcoin.testnet --debuglevel=debug --bitcoin.node=neutrino --neutrino.connect=faucet.lightning.community
Running lnd using the btcd backend
If you are on testnet, run this command after btcd
has finished syncing.
Otherwise, replace --bitcoin.testnet
with --bitcoin.simnet
. If you are
installing lnd
in preparation for the
tutorial, you may skip this step.
lnd --bitcoin.active --bitcoin.testnet --debuglevel=debug --btcd.rpcuser=kek --btcd.rpcpass=kek --externalip=X.X.X.X
Running lnd using the bitcoind backend
In order to run lnd
with a bitcoind
back-end, the bitcoind
instance must
be configured with --txindex
just like btcd
above. In addition, you'll need
to configure the bitcoind
instance with --zmqpubrawblock
and --zmqpubrawtx
(the latter is optional but allows you to see unconfirmed transactions in your
wallet). They must be combined in the same ZMQ socket address. Then, run this
command after bitcoind
has finished syncing on testnet. Otherwise, replace
--bitcoin.testnet
with --bitcoin.regtest
. Please note that the rpcuser
and rpcpass
parameters can typically be determined by lnd
for a bitcoind
instance running under the same user, including when using cookie auth.
lnd --bitcoin.active --bitcoin.testnet --debuglevel=debug --bitcoin.node=bitcoind --bitcoind.rpcuser=kek bitcoind.rpcpass=kek --externalip=X.X.X.X
Network Reachability
If you'd like to signal to other nodes on the network that you'll accept
incoming channels (as peers need to connect inbound to initiate a channel
funding workflow), then the --externalip
flag should be set to your publicly
reachable IP address.
Creating an lnd.conf (Optional)
Optionally, if you'd like to have a persistent configuration between lnd
launches, allowing you to simply type lnd --bitcoin.testnet --bitcoin.active
at the command line, you can create an lnd.conf
.
On MacOS, located at:
/Users/[username]/Library/Application Support/Lnd/lnd.conf
On Linux, located at:
~/.lnd/lnd.conf
Here's a sample lnd.conf
for btcd
to get you started:
[Application Options]
debuglevel=trace
debughtlc=true
maxpendingchannels=10
[Bitcoin]
bitcoin.active=1
Notice the [Bitcoin]
section. This section houses the parameters for the
Bitcoin chain. lnd
also supports Litecoin testnet4 (but not both BTC and LTC
at the same time), so when working with Litecoin be sure to set to parameters
for Litecoin accordingly. For node configuration, the sections are called
[Btcd]
, [Bitcoind]
, [Neutrino]
, and [Ltcd]
depending on which chain
and node type you're using.
Accurate as of:
- roasbeef/btcd commit:
f8c02aff4e7a807ba0c1349e2db03695d8e790e8
- roasbeef/btcutil commit:
a259eaf2ec1b54653cdd67848a41867f280797ee
- lightningnetwork/lnd commit:
08de2becf8d77fae192205172c4fb17bb09bd0dbf49e64aa323b2fcbf9fe2a35