Create a network to jump start development of your decentralized application.
The network can be deployed to multiple docker containers on one host for development or to multiple hosts for testing or production.
Scripts of this starter generate crypto material and config files, start the network and deploy your chaincodes. Developers can use admin web app of REST API server to invoke and query chaincodes, explore blocks and transactions.
What's left is to develop your chaincodes and place them into the chaincode folder, and user interface as a single page web app that you can serve by by placing the sources into the www folder. You can take web app code or follow patterns of the admin app to enroll users, invoke chaincodes and subscribe to events.
Most of the plumbing work is taken care of by this starter.
Network consortium consists of:
- Orderer organization
example.com
- Peer organization org1
a
- Peer organization org2
b
- Peer organization org3
c
They transact with each other on the following channels:
common
involving all members and with chaincodereference
deployed- bilateral confidential channels between pairs of members with chaincode
relationship
deployed to thema-b
a-c
b-c
Both chaincodes are copies of chaincode_example02. Replace these sources with your own.
Each organization starts several docker containers:
- peer0 (ex.:
peer0.a.example.com
) with the anchor peer runtime - peer1
peer1.a.example.com
with the secondary peer - ca
ca.a.example.com
with certificate authority server fabri-ca - api
api.a.example.com
with fabric-rest API server - www
www.a.example.com
with a simple http server to serve members' certificate files during artifacts generation and setup - cli
cli.a.example.com
with tools to run commands during setup
Deploy docker containers of all member organizations to one host, for development and testing of functionality.
All containers refer to each other by their domain names and connect via the host's docker network. The only services
that need to be available to the host machine are the api
so you can connect to admin web apps of each member;
thus their 4000
ports are mapped to non conflicting 4000, 4001, 4002
ports on the host.
Generate artifacts:
./network.sh -m generate
Generated crypto material of all members, block and tx files are placed in shared artifacts
folder on the host.
Start docker containers of all members:
./network.sh -m up
After all containers are up, browse to each member's admin web app to transact on their behalf:
Tail logs of each member's docker containers by passing its name as organization -o
argument:
# orderer
./network.sh -m logs -m example.com
# members
./network.sh -m logs -m a
./network.sh -m logs -m b
Stop all:
./network.sh -m down
Remove dockers:
./network.sh -m clean
Deploy containers of each member to separate hosts connecting via internet.
Note the docker-compose files don't change much from the local deployment and containers still refer to each other by
domain names api.a.example.com
, peer1.c.example.com
etc. However they can no longer discover each other within a local
docker network and need to resolve these names to real ips on the internet. We use extra_hosts
setting in docker-compose
files to map domain names to real ips which come as args to the script. Specify member hosts ip addresses
in network.sh file or by env variables:
export IP_ORDERER=54.235.3.243 IP1=54.235.3.231 IP2=54.235.3.232 IP3=54.235.3.233
The setup process takes several steps whose order is important.
Each member generates artifacts on their respective hosts (can be done in parallel):
# organization a on their host
./network.sh -m generate-peer -o a
# organization b on their host
./network.sh -m generate-peer -o b
# organization c on their host
./network.sh -m generate-peer -o c
After certificates are generated each script starts a www
docker instance to serve them to other members: the orderer
will download the certs to create the ledger and other peers will download to use them to secure communication by TLS.
Now the orderer can generate genesis block and channel tx files by collecting certs from members. On the orderer's host:
./network.sh -m generate-orderer
And start the orderer:
./network.sh -m up-orderer
When the orderer is up, each member can start services on their hosts and their peers connect to the orderer to create
channels. Note that in Fabric one member creates a channel and others join to it via a channel block file.
Thus channel creator members make these block files available to joiners via their www
docker instances.
Also note the starting order of members is important, especially for bilateral channels connecting pairs of members,
for example for channel a-b
member a
needs to start first to create the channel and serve the block file,
and then b
starts, downloads the block file and joins the channel. It's a good idea to order organizations in script
arguments alphabetically, ex.: ORG1=aorg ORG2=borg ORG3=corg
then the channels are named accordingly
aorg-borg aorg-corg borg-corg
and it's clear who creates, who joins a bilateral channel and who needs to start first.
Each member starts:
# organization a on their host
./network.sh -m up-1
# organization b on their host
./network.sh -m up-2
# organization c on their host
./network.sh -m up-3
The script network.sh uses substitution of values and names to create config files out of templates:
- cryptogentemplate-orderer.yaml
and cryptogentemplate-peer.yaml for
cryptogen.yaml
to drive cryptogen tool to generate members' crypto material: private keys and certificates - configtxtemplate.yaml for
configtx.yaml
with definitions of the consortium and channels to drive configtx tool to generate genesis block file to start the orderer, and channel config transaction files to create channels - network-config-template.json for
network-config.json
file used by the API server and web apps to connect to the members' peers and ca servers - docker-composetemplate-orderer.yaml
and docker-composetemplate-peer.yaml for
docker-compose.yaml
files for each member organization to start docker containers
During setup the same script uses cli
docker containers to create and join channels, install and instantiate chaincodes.
And finally it starts members' services via the generated docker-compose.yaml
files.
Customize domain and organization names by editing network.sh file or by setting env variables. Note organization names are ordered alphabetically:
export DOMAIN=myapp.com ORG1=bar ORG2=baz ORG3=foo
The topology of one common
channel open to all members and bilateral ones is an example and a starting point:
you can change channel members by editing configtxtemplate.yaml to create wider
channels, groups, triplets etc.
It's also relatively straightforward to extend the scripts from the preset ORG1
, ORG2
and ORG3
to take an arbitrary
number of organizations and figure out possible permutations of bilateral channels: see iterateChannels
function in
network.sh.
There are commands for working with chaincodes in chaincode-dev
mode where a chaincode is not managed within its docker
container but run separately as a stand alone executable or in a debugger. The peer does not manage the chaincode but
connects to it to invoke and query.
The dev network is composed of a minimal set of peer, orderer and cli containers and uses pre-generated artifacts
checked into the source control. Channel and chaincodes names are myc
and mycc
and can be edited in network.sh
.
Start containers for dev network:
./network.sh -m devup
./network.sh -m devinstall
Start your chaincode in a debugger with env variables:
CORE_CHAINCODE_LOGGING_LEVEL=debug
CORE_PEER_ADDRESS=0.0.0.0:7051
CORE_CHAINCODE_ID_NAME=mycc:0
Now you can instantiate, invoke and query your chaincode:
./network.sh -m devinstantiate
./network.sh -m devinvoke
./network.sh -m devquery
You'll be able to modify the source code, restart the chaincode, test with invokes without rebuilding or restarting the dev network.
Finally:
./network.sh -m devdown
Caliper is using as testing framework. Please find how to setup test here.
This environment uses a very helpful fabric-rest API server developed separately and instantiated from its docker image.
The scripts are inspired by first-network and balance-transfer of Hyperledger Fabric samples.