haveno/Makefile
2021-05-10 22:12:09 -04:00

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8.1 KiB
Makefile

#
# INTRODUCTION
#
# This makefile is designed to help Bisq contributors get up and running
# as quickly as possible with a local regtest Bisq network deployment,
# or 'localnet' for short. A localnet is a complete and self-contained
# "mini Bisq network" suitable for development and end-to-end testing
# efforts.
#
#
# REQUIREMENTS
#
# You'll need the following to proceed:
#
# - Linux, macOS or similar *nix with standard tools like `make`
# - bitcoind and bitcoin-cli (`brew install bitcoin` on macOS)
# - JDK 11 to build and run Bisq binaries; see
# https://jdk.java.net/archive/
#
#
# USAGE
#
# The following commands (and a couple manual instructions) will get
# your localnet up and running quickly.
#
# STEP 1: Build all Bisq binaries and set up localnet resources. This
# will take a few minutes the first time through.
#
# $ make
#
# Notes:
#
# - When complete, you'll have a number of scripts available in the
# root directory. They will be used in the make targets below to start
# the various Bisq seed and desktop nodes that will make up your
# localnet:
#
# $ ls -1 haveno-*
# haveno-desktop
# haveno-monitor
# haveno-pricenode
# haveno-relay
# haveno-seednode
# haveno-statsnode
#
# - You will see a new '.localnet' directory containing the data dirs
# for your regtest Bitcoin and Bisq nodes. Once you've deployed them in
# the step below, the directory will look as follows:
#
# $ tree -d -L 1 .localnet
# .localnet
# ├── alice
# ├── bitcoind
# ├── bob
# ├── mediator
# ├── seednode
# └── seednode2
#
# STEP 2: Deploy the Bitcoin and Bisq nodes that make up the localnet.
# Run each of the following in a SEPARATE TERMINAL WINDOW, as they are
# long-running processes.
#
# $ make bitcoind
# $ make seednode
# $ make seednode2
# $ make mediator
# $ make alice
# $ make bob
#
# Tip: Those familiar with the `screen` terminal multiplexer can
# automate the above by running the `deploy` target found below.
#
# Notes:
#
# - The 'seednode' targets launch headless Bisq nodes that help
# desktop nodes discover other peers, as well as storing and
# forwarding p2p network messages for nodes as they go on and
# offline.
#
# - As you run the 'mediator', 'alice' and 'bob' targets above,
# you'll see a Bisq desktop node window appear for each. The Alice
# and Bob instances represent two traders who can make and take
# offers with one another. The Mediator instance represents a Bisq
# contributor who can help resolve any technical problems or disputes
# that come up between the two traders.
#
# STEP 3: Configure the mediator Bisq node. In order to make and take
# offers, Alice and Bob will need to have a mediator and a refund agent
# registered on the network. Follow the instructions below to complete
# that process:
#
# a) Go to the Account screen in the Mediator instance and press CMD+D
# and a popup will appear. Click 'Unlock' and then click 'Register' to
# register the instance as a mediator.
#
# b) While still in the Account screen, press CMD+N and follow the same
# steps as above to register the instance as a refund agent.
#
# When the steps above are complete, your localnet should be up and
# ready to use. You can now test in isolation all Bisq features and use
# cases.
#
# Set up everything necessary for deploying your localnet. This is the
# default target.
setup: build .localnet
clean: clean-build clean-localnet
clean-build:
./gradlew clean
clean-localnet:
rm -rf .localnet ./dao-setup
# Build Bisq binaries and shell scripts used in the targets below
build: seednode/build desktop/build
seednode/build:
./gradlew :seednode:build
desktop/build:
./gradlew :desktop:build
# Unpack and customize a Bitcoin regtest node and Alice and Bob Bisq
# nodes that have been preconfigured with a blockchain containing the
# BSQ genesis transaction
.localnet:
# Unpack the old dao-setup.zip and move things around for more
# concise and intuitive naming. This is a temporary measure until we
# clean these resources up more thoroughly.
unzip docs/dao-setup.zip
mv dao-setup .localnet
mv .localnet/Bitcoin-regtest .localnet/bitcoind
mv .localnet/bisq-XMR_STAGENET_Alice_dao .localnet/alice
mv .localnet/bisq-XMR_STAGENET_Bob_dao .localnet/bob
# Remove the preconfigured bitcoin.conf in favor of explicitly
# parameterizing the invocation of bitcoind in the target below
rm -v .localnet/bitcoind/bitcoin.conf
# Avoid spurious 'runCommand' errors in the bitcoind log when nc
# fails to bind to one of the listed block notification ports
echo exit 0 >> .localnet/bitcoind/blocknotify
# Alias '.localnet' to 'localnet' so the target is discoverable in tab
# completion
localnet: .localnet
# Deploy a complete localnet by running all required Bitcoin and Bisq
# nodes, each in their own named screen window. If you are not a screen
# user, you'll need to manually run each of the targets listed below
# commands manually in a separate terminal or as background jobs.
deploy: setup
# create a new screen session named 'localnet'
screen -dmS localnet
# deploy each node in its own named screen window
for target in \
bitcoind \
seednode \
seednode2 \
alice \
bob \
mediator; do \
screen -S localnet -X screen -t $$target; \
screen -S localnet -p $$target -X stuff "make $$target\n"; \
done;
# give bitcoind rpc server time to start
sleep 5
# generate a block to ensure Bisq nodes get dao-synced
make block
# Undeploy a running localnet by killing all Bitcoin and Bisq
# node processes, then killing the localnet screen session altogether
undeploy:
# kill all Bitcoind and Bisq nodes running in screen windows
screen -S localnet -X at "#" stuff "^C"
# quit all screen windows which results in killing the session
screen -S localnet -X at "#" kill
bitcoind: .localnet
bitcoind \
-regtest \
-prune=0 \
-txindex=1 \
-peerbloomfilters=1 \
-server \
-rpcuser=bisqdao \
-rpcpassword=bsq \
-datadir=.localnet/bitcoind \
-blocknotify='.localnet/bitcoind/blocknotify %s'
seednode: seednode/build
./haveno-seednode \
--baseCurrencyNetwork=XMR_STAGENET \
--useLocalhostForP2P=true \
--useDevPrivilegeKeys=true \
--fullDaoNode=true \
--rpcUser=bisqdao \
--rpcPassword=bsq \
--rpcBlockNotificationPort=5120 \
--nodePort=2002 \
--userDataDir=.localnet \
--appName=seednode
seednode2: seednode/build
./haveno-seednode \
--baseCurrencyNetwork=XMR_STAGENET \
--useLocalhostForP2P=true \
--useDevPrivilegeKeys=true \
--fullDaoNode=true \
--rpcUser=bisqdao \
--rpcPassword=bsq \
--rpcBlockNotificationPort=5121 \
--nodePort=3002 \
--userDataDir=.localnet \
--appName=seednode2
mediator: desktop/build
./haveno-desktop \
--baseCurrencyNetwork=XMR_STAGENET \
--useLocalhostForP2P=true \
--useDevPrivilegeKeys=true \
--nodePort=4444 \
--appDataDir=.localnet/mediator \
--appName=Mediator
alice: setup
./haveno-desktop \
--baseCurrencyNetwork=XMR_STAGENET \
--useLocalhostForP2P=true \
--useDevPrivilegeKeys=true \
--nodePort=5555 \
--fullDaoNode=true \
--rpcUser=bisqdao \
--rpcPassword=bsq \
--rpcBlockNotificationPort=5122 \
--genesisBlockHeight=111 \
--genesisTxId=30af0050040befd8af25068cc697e418e09c2d8ebd8d411d2240591b9ec203cf \
--appDataDir=.localnet/alice \
--appName=Alice
bob: setup
./haveno-desktop \
--baseCurrencyNetwork=XMR_STAGENET \
--useLocalhostForP2P=true \
--useDevPrivilegeKeys=true \
--nodePort=6666 \
--appDataDir=.localnet/bob \
--appName=Bob
# Generate a new block on your Bitcoin regtest network. Requires that
# bitcoind is already running. See the `bitcoind` target above.
block:
bitcoin-cli \
-regtest \
-rpcuser=bisqdao \
-rpcpassword=bsq \
getnewaddress \
| xargs bitcoin-cli \
-regtest \
-rpcuser=bisqdao \
-rpcpassword=bsq \
generatetoaddress 1
# Generate more than 1 block.
# Instead of running `make block` 24 times,
# you can now run `make blocks n=24`
blocks:
bitcoin-cli \
-regtest \
-rpcuser=bisqdao \
-rpcpassword=bsq \
getnewaddress \
| xargs bitcoin-cli \
-regtest \
-rpcuser=bisqdao \
-rpcpassword=bsq \
generatetoaddress $(n)
.PHONY: build seednode