Hyperledger Meetup 2023 on Hyperledger Fabric

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Getting started

Tutorial

Resources:

• Hyperledger Fabric build ARM

Create Kubernetes Cluster

To start deploying our red fabric we have to have a Kubernetes cluster. For this we will use KinD.

Ensure you have these ports available before creating the cluster:

• 80
• 443

If these ports are not available this tutorial will not work.

cat << EOF > resources/kind-config.yaml
kind: Cluster
apiVersion: kind.x-k8s.io/v1alpha4
nodes:
- role: control-plane
  extraPortMappings:
  - containerPort: 30949
    hostPort: 80
  - containerPort: 30950
    hostPort: 443
EOF

kind create cluster --config=./resources/kind-config.yaml

Install Kubernetes operator

In this step we are going to install the kubernetes operator for Fabric, this will install:

• CRD (Custom Resource Definitions) to deploy Fabric Peers, Orderers and Certification Authorities
• Deploy the program to deploy the nodes in Kubernetes

To install helm: https://helm.sh/docs/intro/install/

helm repo add kfs https://kfsoftware.github.io/hlf-helm-charts --force-update

helm install hlf-operator --version=1.8.2 kfs/hlf-operator

Install the Kubectl plugin

To install the kubectl plugin, you must first install Krew: https://krew.sigs.k8s.io/docs/user-guide/setup/install/

Afterwards, the plugin can be installed with the following command:

kubectl krew install hlf

Install Istio

Install Istio binaries on the machine:

curl -L https://istio.io/downloadIstio | ISTIO_VERSION=1.16.1 TARGET_ARCH=x86_64 sh -
export PATH="$PATH:$PWD/istio-1.16.1/bin"

Install Istio on the Kubernetes cluster:

kubectl create namespace istio-system

istioctl operator init

kubectl apply -f - <<EOF
apiVersion: install.istio.io/v1alpha1
kind: IstioOperator
metadata:
  name: istio-gateway
  namespace: istio-system
spec:
  addonComponents:
    grafana:
      enabled: false
    kiali:
      enabled: false
    prometheus:
      enabled: false
    tracing:
      enabled: false
  components:
    ingressGateways:
      - enabled: true
        k8s:
          hpaSpec:
            minReplicas: 1
          resources:
            limits:
              cpu: 500m
              memory: 512Mi
            requests:
              cpu: 100m
              memory: 128Mi
          service:
            ports:
              - name: http
                port: 80
                targetPort: 8080
                nodePort: 30949
              - name: https
                port: 443
                targetPort: 8443
                nodePort: 30950
            type: NodePort
        name: istio-ingressgateway
    pilot:
      enabled: true
      k8s:
        hpaSpec:
          minReplicas: 1
        resources:
          limits:
            cpu: 300m
            memory: 512Mi
          requests:
            cpu: 100m
            memory: 128Mi
  meshConfig:
    accessLogFile: /dev/stdout
    enableTracing: false
    outboundTrafficPolicy:
      mode: ALLOW_ANY
  profile: default

EOF

Deploy a Peer organization

Environment Variables for AMD (Default)

export PEER_IMAGE=hyperledger/fabric-peer
export PEER_VERSION=2.4.6

export ORDERER_IMAGE=hyperledger/fabric-orderer
export ORDERER_VERSION=2.4.6

export CA_IMAGE=hyperledger/fabric-ca
export CA_VERSION=1.5.6-beta2

Environment Variables for ARM (Mac M1)

export PEER_IMAGE=bswamina/fabric-peer
export PEER_VERSION=2.4.6

export ORDERER_IMAGE=bswamina/fabric-orderer
export ORDERER_VERSION=2.4.6

export CA_IMAGE=hyperledger/fabric-ca
export CA_VERSION=1.5.6-beta2

Configure Internal DNS

CLUSTER_IP=$(kubectl -n istio-system get svc istio-ingressgateway -o json | jq -r .spec.clusterIP)
kubectl apply -f - <<EOF
kind: ConfigMap
apiVersion: v1
metadata:
  name: coredns
  namespace: kube-system
data:
  Corefile: |
    .:53 {
        errors
        health {
           lameduck 5s
        }
        rewrite name regex (.*)\.localho\.st host.ingress.internal
        hosts {
          ${CLUSTER_IP} host.ingress.internal
          fallthrough
        }
        ready
        kubernetes cluster.local in-addr.arpa ip6.arpa {
           pods insecure
           fallthrough in-addr.arpa ip6.arpa
           ttl 30
        }
        prometheus :9153
        forward . /etc/resolv.conf {
           max_concurrent 1000
        }
        cache 30
        loop
        reload
        loadbalance
    }
EOF

Deploy a certificate authority for Org1MSP

kubectl hlf ca create  --image=$CA_IMAGE --version=$CA_VERSION --storage-class=standard --capacity=1Gi --name=org1-ca \
    --enroll-id=enroll --enroll-pw=enrollpw --hosts=org1-ca.localho.st --istio-port=443

kubectl wait --timeout=180s --for=condition=Running fabriccas.hlf.kungfusoftware.es --all

Check that the certification authority is deployed and works:

curl -k https://org1-ca.localho.st:443/cainfo

Register a user in the certification authority of the peer organization (Org1MSP)

# register user in CA for peers
kubectl hlf ca register --name=org1-ca --user=peer --secret=peerpw --type=peer \
 --enroll-id enroll --enroll-secret=enrollpw --mspid Org1MSP

Deploy two peers for Org1MSP

kubectl hlf peer create --statedb=couchdb --image=$PEER_IMAGE --version=$PEER_VERSION --storage-class=standard --enroll-id=peer --mspid=Org1MSP \
        --enroll-pw=peerpw --capacity=5Gi --name=org1-peer0 --ca-name=org1-ca.default \
        --hosts=peer0-org1.localho.st --istio-port=443


kubectl hlf peer create --statedb=couchdb --image=$PEER_IMAGE --version=$PEER_VERSION --storage-class=standard --enroll-id=peer --mspid=Org1MSP \
        --enroll-pw=peerpw --capacity=5Gi --name=org1-peer1 --ca-name=org1-ca.default \
        --hosts=peer1-org1.localho.st --istio-port=443

kubectl wait --timeout=180s --for=condition=Running fabricpeers.hlf.kungfusoftware.es --all

Check that the peer is deployed and works:

openssl s_client -connect peer0-org1.localho.st:443
openssl s_client -connect peer1-org1.localho.st:443

Deploy a certificate authority for Org2MSP

kubectl hlf ca create  --image=$CA_IMAGE --version=$CA_VERSION --storage-class=standard --capacity=1Gi --name=org2-ca \
    --enroll-id=enroll --enroll-pw=enrollpw --hosts=org2-ca.localho.st --istio-port=443

kubectl wait --timeout=180s --for=condition=Running fabriccas.hlf.kungfusoftware.es --all

Check that the certification authority is deployed and works:

curl -k https://org2-ca.localho.st:443/cainfo

Register a user in the certification authority of the peer organization (Org2MSP)

# register user in CA for peers
kubectl hlf ca register --name=org2-ca --user=peer --secret=peerpw --type=peer \
 --enroll-id enroll --enroll-secret=enrollpw --mspid Org2MSP

Deploy two peers for Org2MSP

kubectl hlf peer create --statedb=couchdb --image=$PEER_IMAGE --version=$PEER_VERSION --storage-class=standard --enroll-id=peer --mspid=Org2MSP \
        --enroll-pw=peerpw --capacity=5Gi --name=org2-peer0 --ca-name=org2-ca.default \
        --hosts=peer0-org2.localho.st --istio-port=443


kubectl hlf peer create --statedb=couchdb --image=$PEER_IMAGE --version=$PEER_VERSION --storage-class=standard --enroll-id=peer --mspid=Org2MSP \
        --enroll-pw=peerpw --capacity=5Gi --name=org2-peer1 --ca-name=org2-ca.default \
        --hosts=peer1-org2.localho.st --istio-port=443

kubectl wait --timeout=180s --for=condition=Running fabricpeers.hlf.kungfusoftware.es --all

Check that the peer is deployed and works:

openssl s_client -connect peer0-org2.localho.st:443
openssl s_client -connect peer1-org2.localho.st:443

Deploy an Orderer organization

To deploy an Orderer organization we have to:

1. Create a certification authority
2. Register user orderer with password ordererpw
3. Create orderers

Create the certification authority

kubectl hlf ca create  --image=$CA_IMAGE --version=$CA_VERSION --storage-class=standard --capacity=1Gi --name=ord-ca \
    --enroll-id=enroll --enroll-pw=enrollpw --hosts=ord-ca.localho.st --istio-port=443

kubectl wait --timeout=180s --for=condition=Running fabriccas.hlf.kungfusoftware.es --all

Check that the certification authority is deployed and works:

curl -vik https://ord-ca.localho.st:443/cainfo

Register user orderer

kubectl hlf ca register --name=ord-ca --user=orderer --secret=ordererpw \
    --type=orderer --enroll-id enroll --enroll-secret=enrollpw --mspid=OrdererMSP --ca-url="https://ord-ca.localho.st:443"

Deploy orderer

kubectl hlf ordnode create --image=$ORDERER_IMAGE --version=$ORDERER_VERSION \
    --storage-class=standard --enroll-id=orderer --mspid=OrdererMSP \
    --enroll-pw=ordererpw --capacity=2Gi --name=ord-node0 --ca-name=ord-ca.default \
    --hosts=orderer0-ord.localho.st --istio-port=443

kubectl hlf ordnode create --image=$ORDERER_IMAGE --version=$ORDERER_VERSION \
    --storage-class=standard --enroll-id=orderer --mspid=OrdererMSP \
    --enroll-pw=ordererpw --capacity=2Gi --name=ord-node1 --ca-name=ord-ca.default \
    --hosts=orderer1-ord.localho.st --istio-port=443

kubectl hlf ordnode create --image=$ORDERER_IMAGE --version=$ORDERER_VERSION \
    --storage-class=standard --enroll-id=orderer --mspid=OrdererMSP \
    --enroll-pw=ordererpw --capacity=2Gi --name=ord-node2 --ca-name=ord-ca.default \
    --hosts=orderer2-ord.localho.st --istio-port=443


kubectl wait --timeout=180s --for=condition=Running fabricorderernodes.hlf.kungfusoftware.es --all

Check that the orderer is running:

kubectl get pods

openssl s_client -connect orderer0-ord.localho.st:443
openssl s_client -connect orderer1-ord.localho.st:443
openssl s_client -connect orderer2-ord.localho.st:443

Create channel

To create the channel we need to first create the wallet secret, which will contain the identities used by the operator to manage the channel

Register and enrolling OrdererMSP identity

# register
kubectl hlf ca register --name=ord-ca --user=admin --secret=adminpw \
    --type=admin --enroll-id enroll --enroll-secret=enrollpw --mspid=OrdererMSP

# enroll
kubectl hlf ca enroll --name=ord-ca --namespace=default \
    --user=admin --secret=adminpw --mspid OrdererMSP \
    --ca-name tlsca  --output resources/orderermsp.yaml

Register and enrolling Org1MSP identity

# register
kubectl hlf ca register --name=org1-ca --namespace=default --user=admin --secret=adminpw \
    --type=admin --enroll-id enroll --enroll-secret=enrollpw --mspid=Org1MSP

# enroll
kubectl hlf ca enroll --name=org1-ca --namespace=default \
    --user=admin --secret=adminpw --mspid Org1MSP \
    --ca-name ca  --output resources/org1msp.yaml

Register and enrolling Org2MSP identity

# register
kubectl hlf ca register --name=org2-ca --namespace=default --user=admin --secret=adminpw \
    --type=admin --enroll-id enroll --enroll-secret=enrollpw --mspid=Org2MSP

# enroll
kubectl hlf ca enroll --name=org2-ca --namespace=default \
    --user=admin --secret=adminpw --mspid Org2MSP \
    --ca-name ca  --output resources/org2msp.yaml

Create the secret

kubectl create secret generic wallet --namespace=default \
        --from-file=org1msp.yaml=$PWD/resources/org1msp.yaml \
        --from-file=org2msp.yaml=$PWD/resources/org2msp.yaml \
        --from-file=orderermsp.yaml=$PWD/resources/orderermsp.yaml

Create main channel

export PEER_ORG_SIGN_CERT=$(kubectl get fabriccas org1-ca -o=jsonpath='{.status.ca_cert}')
export PEER_ORG_TLS_CERT=$(kubectl get fabriccas org1-ca -o=jsonpath='{.status.tlsca_cert}')
export IDENT_8=$(printf "%8s" "")
export ORDERER_TLS_CERT=$(kubectl get fabriccas ord-ca -o=jsonpath='{.status.tlsca_cert}' | sed -e "s/^/${IDENT_8}/" )
export ORDERER0_TLS_CERT=$(kubectl get fabricorderernodes ord-node0 -o=jsonpath='{.status.tlsCert}' | sed -e "s/^/${IDENT_8}/" )
export ORDERER1_TLS_CERT=$(kubectl get fabricorderernodes ord-node1 -o=jsonpath='{.status.tlsCert}' | sed -e "s/^/${IDENT_8}/" )
export ORDERER2_TLS_CERT=$(kubectl get fabricorderernodes ord-node2 -o=jsonpath='{.status.tlsCert}' | sed -e "s/^/${IDENT_8}/" )

kubectl apply -f - <<EOF
apiVersion: hlf.kungfusoftware.es/v1alpha1
kind: FabricMainChannel
metadata:
  name: demo
spec:
  name: demo
  adminOrdererOrganizations:
    - mspID: OrdererMSP
  adminPeerOrganizations:
    - mspID: Org1MSP
  channelConfig:
    application:
      acls: null
      capabilities:
        - V2_0
      policies: null
    capabilities:
      - V2_0
    orderer:
      batchSize:
        absoluteMaxBytes: 1048576
        maxMessageCount: 120
        preferredMaxBytes: 524288
      batchTimeout: 2s
      capabilities:
        - V2_0
      etcdRaft:
        options:
          electionTick: 10
          heartbeatTick: 1
          maxInflightBlocks: 5
          snapshotIntervalSize: 16777216
          tickInterval: 500ms
      ordererType: etcdraft
      policies: null
      state: STATE_NORMAL
    policies: null
  externalOrdererOrganizations: []
  peerOrganizations:
    - mspID: Org1MSP
      caName: "org1-ca"
      caNamespace: "default"
    - mspID: Org2MSP
      caName: "org2-ca"
      caNamespace: "default"
  identities:
    OrdererMSP:
      secretKey: orderermsp.yaml
      secretName: wallet
      secretNamespace: default
    Org1MSP:
      secretKey: org1msp.yaml
      secretName: wallet
      secretNamespace: default
  externalPeerOrganizations: []
  ordererOrganizations:
    - caName: "ord-ca"
      caNamespace: "default"
      externalOrderersToJoin:
        - host: ord-node0
          port: 7053
        - host: ord-node1
          port: 7053
        - host: ord-node2
          port: 7053
      mspID: OrdererMSP
      ordererEndpoints:
        - orderer0-ord.localho.st:443
        - orderer1-ord.localho.st:443
        - orderer2-ord.localho.st:443
      orderersToJoin: []
  orderers:
    - host: orderer0-ord.localho.st
      port: 443
      tlsCert: |-
${ORDERER0_TLS_CERT}
    - host: orderer1-ord.localho.st
      port: 443
      tlsCert: |-
${ORDERER1_TLS_CERT}
    - host: orderer2-ord.localho.st
      port: 443
      tlsCert: |-
${ORDERER2_TLS_CERT}

EOF

Org1MSP Join peer to the channel

export IDENT_8=$(printf "%8s" "")
export ORDERER0_TLS_CERT=$(kubectl get fabricorderernodes ord-node0 -o=jsonpath='{.status.tlsCert}' | sed -e "s/^/${IDENT_8}/" )

kubectl apply -f - <<EOF
apiVersion: hlf.kungfusoftware.es/v1alpha1
kind: FabricFollowerChannel
metadata:
  name: demo-org1msp
spec:
  anchorPeers:
    - host: peer0-org1.localho.st
      port: 443
    - host: peer1-org1.localho.st
      port: 443
  hlfIdentity:
    secretKey: org1msp.yaml
    secretName: wallet
    secretNamespace: default
  mspId: Org1MSP
  name: demo
  externalPeersToJoin: []
  orderers:
    - certificate: |
${ORDERER0_TLS_CERT}
      url: grpcs://orderer0-ord.localho.st:443
  peersToJoin:
    - name: org1-peer0
      namespace: default
    - name: org1-peer1
      namespace: default
EOF

Org2MSP Join peer to the channel

export IDENT_8=$(printf "%8s" "")
export ORDERER0_TLS_CERT=$(kubectl get fabricorderernodes ord-node0 -o=jsonpath='{.status.tlsCert}' | sed -e "s/^/${IDENT_8}/" )

kubectl apply -f - <<EOF
apiVersion: hlf.kungfusoftware.es/v1alpha1
kind: FabricFollowerChannel
metadata:
  name: demo-org2msp
spec:
  anchorPeers:
    - host: peer0-org2.localho.st
      port: 7051
    - host: peer1-org2.localho.st
      port: 7051
  hlfIdentity:
    secretKey: org2msp.yaml
    secretName: wallet
    secretNamespace: default
  mspId: Org2MSP
  name: demo
  externalPeersToJoin: []
  orderers:
    - certificate: |
${ORDERER0_TLS_CERT}
      url: grpcs://orderer0-ord.localho.st:443
  peersToJoin:
    - name: org2-peer0
      namespace: default
    - name: org2-peer1
      namespace: default
EOF

Install a chaincode

Prepare connection string for a peer

To prepare the connection string, we have to:

1. Get connection string without users for organization Org1MSP and OrdererMSP

2. Register a user in the certification authority for signing (register)

3. Obtain the certificates using the previously created user (enroll)

4. Attach the user to the connection string

5. Get connection string without users for organization Org1MSP and OrdererMSP

kubectl hlf inspect -c=demo --output resources/network.yaml -o Org1MSP -o Org2MSP -o OrdererMSP

2. Register a user in the certification authority for signing

kubectl hlf ca register --name=org1-ca --user=admin --secret=adminpw --type=admin \
 --enroll-id enroll --enroll-secret=enrollpw --mspid Org1MSP

3. Get the certificates using the user created above

kubectl hlf ca enroll --name=org1-ca --user=admin --secret=adminpw --mspid Org1MSP \
        --ca-name ca  --output resources/peer-org1.yaml

4. Attach the user to the connection string

kubectl hlf utils adduser --userPath=resources/peer-org1.yaml --config=resources/network.yaml --username=admin --mspid=Org1MSP

5. Register a user in the certification authority for signing

kubectl hlf ca register --name=org2-ca --user=admin --secret=adminpw --type=admin \
 --enroll-id enroll --enroll-secret=enrollpw --mspid Org2MSP

6. Get the certificates using the user created above

kubectl hlf ca enroll --name=org2-ca --user=admin --secret=adminpw --mspid Org2MSP \
        --ca-name ca  --output resources/peer-org2.yaml

7. Attach the user to the connection string

kubectl hlf utils adduser --userPath=resources/peer-org2.yaml --config=resources/network.yaml --username=admin --mspid=Org2MSP

Create metadata file

# remove the code.tar.gz chaincode.tgz if they exist
rm code.tar.gz chaincode.tgz
export CHAINCODE_NAME=asset
export CHAINCODE_LABEL=asset
cat << METADATA-EOF > "metadata.json"
{
    "type": "ccaas",
    "label": "${CHAINCODE_LABEL}"
}
METADATA-EOF

Prepare connection file

## chaincode as a service
cat > "connection.json" <<CONN_EOF
{
  "address": "${CHAINCODE_NAME}:7052",
  "dial_timeout": "10s",
  "tls_required": false
}
CONN_EOF

tar cfz code.tar.gz connection.json
tar cfz chaincode.tgz metadata.json code.tar.gz
export PACKAGE_ID=$(kubectl hlf chaincode calculatepackageid --path=chaincode.tgz --language=node --label=$CHAINCODE_LABEL)
echo "PACKAGE_ID=$PACKAGE_ID"

kubectl hlf chaincode install --path=./chaincode.tgz \
    --config=resources/network.yaml --language=golang --label=$CHAINCODE_LABEL --user=admin --peer=org1-peer0.default
kubectl hlf chaincode install --path=./chaincode.tgz \
    --config=resources/network.yaml --language=golang --label=$CHAINCODE_LABEL --user=admin --peer=org1-peer1.default


kubectl hlf chaincode install --path=./chaincode.tgz \
    --config=resources/network.yaml --language=golang --label=$CHAINCODE_LABEL --user=admin --peer=org2-peer0.default
kubectl hlf chaincode install --path=./chaincode.tgz \
    --config=resources/network.yaml --language=golang --label=$CHAINCODE_LABEL --user=admin --peer=org2-peer1.default

Build chaincode docker image

Set up environment variables, make sure you use your own docker image name:

export IMAGE="kfsoftware/asset-transfer-basic-ts:latest"

Build the docker image

If you are using Mac M1, you need to specify platform linux/amd64:

docker build -t $IMAGE --platform=linux/amd64 --file=./asset-transfer-basic/Dockerfile ./asset-transfer-basic

Otherwise, just run:

docker build -t $IMAGE --file=./asset-transfer-basic/Dockerfile ./asset-transfer-basic

Push the docker image

Push the docker image to the container registry:

docker push $IMAGE

Deploy chaincode container on cluster

The following command will create or update the CRD based on the packageID, chaincode name, and docker image.

kubectl hlf externalchaincode sync --image=$IMAGE \
    --name=$CHAINCODE_NAME \
    --namespace=default \
    --package-id=$PACKAGE_ID \
    --tls-required=false \
    --replicas=1

Check installed chaincodes

kubectl hlf chaincode queryinstalled --config=resources/network.yaml --user=admin --peer=org1-peer0.default

Approve chaincode - Org1MSP

export SEQUENCE=1
export VERSION="1.0"
kubectl hlf chaincode approveformyorg --config=resources/network.yaml --user=admin --peer=org1-peer0.default \
    --package-id=$PACKAGE_ID \
    --version "$VERSION" --sequence "$SEQUENCE" --name=asset \
    --policy="AND('Org1MSP.member', 'Org2MSP.member')" --channel=demo

Approve chaincode - Org2MSP

export SEQUENCE=1
export VERSION="1.0"
kubectl hlf chaincode approveformyorg --config=resources/network.yaml --user=admin --peer=org2-peer0.default \
    --package-id=$PACKAGE_ID \
    --version "$VERSION" --sequence "$SEQUENCE" --name=asset \
    --policy="AND('Org1MSP.member', 'Org2MSP.member')" --channel=demo

Commit chaincode

kubectl hlf chaincode commit --config=resources/network.yaml --user=admin --mspid=Org1MSP \
    --version "$VERSION" --sequence "$SEQUENCE" --name=asset \
    --policy="AND('Org1MSP.member', 'Org2MSP.member')" --channel=demo

Invoke a transaction on the channel

kubectl hlf chaincode invoke --config=resources/network.yaml \
    --user=admin --peer=org1-peer0.default \
    --chaincode=asset --channel=demo \
    --fcn=InitLedger

Query assets in the channel

kubectl hlf chaincode query --config=resources/network.yaml \
    --user=admin --peer=org1-peer0.default \
    --chaincode=asset --channel=demo \
    --fcn=GetAllAssets

Launch the API

For this step, head over the client folder and follow the README instructions.

End of the tutorial

At this point, you should have:

• Ordering service with 3 nodes and a CA
• 2 Peer organizations with two peers and a CA
• A channel demo
• A chaincode installed in all peers
• A chaincode approved and committed
• 2 APIs running for the two different organizations

If something went wrong or didn't work, please, open an issue.

Cleanup the environment

kubectl delete fabricorderernodes.hlf.kungfusoftware.es --all-namespaces --all
kubectl delete fabricpeers.hlf.kungfusoftware.es --all-namespaces --all
kubectl delete fabriccas.hlf.kungfusoftware.es --all-namespaces --all
kubectl delete fabricchaincode.hlf.kungfusoftware.es --all-namespaces --all
kubectl delete fabricmainchannels --all-namespaces --all
kubectl delete fabricfollowerchannels --all-namespaces --all