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Hyperledger Cookbook
Hyperledger Cookbook

Hyperledger Cookbook: Over 40 recipes implementing the latest Hyperledger blockchain frameworks and tools

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Profile Icon Xun (Brian) Wu Profile Icon Zhibin (Andrew) Zhang Profile Icon Chuangfeng Zhang
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Arrow left icon
Profile Icon Xun (Brian) Wu Profile Icon Zhibin (Andrew) Zhang Profile Icon Chuangfeng Zhang
Arrow right icon
€29.99
Full star icon Full star icon Full star icon Full star icon Full star icon 5 (2 Ratings)
Paperback Apr 2019 310 pages 1st Edition
eBook
€8.99 €23.99
Paperback
€29.99
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Free Trial
Renews at €18.99p/m
eBook
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Hyperledger Cookbook

Working with Hyperledger Fabric

Hyperledger Fabric is the most widely-used permissioned blockchain in the Hyperledger family. It is an open source enterprise-grade platform that leverages a highly-modular and configurable architecture. Hyperledger Fabric is optimized for a broad range of industry use cases, including the finance, banking, healthcare, insurance, and public sectors, as well as supply chains and digital asset management.

Hyperledger Fabric supports smart contact development in general-purpose programming languages, such as Java, Go, and Node.js. Hyperledger Fabric is also operating under a governance model to build trust between participants on a shared network.

In this chapter, we will cover the following recipes:

  • Reviewing the Hyperledger Fabric architecture and components
  • Installing Hyperledger Fabric on AWS
  • Building the Fabric network
  • Adding an organization to a channel
  • Using CouchDB
  • Writing your first application

Reviewing the Hyperledger Fabric architecture and components

We will review and examine various Hyperledger Fabric components and architectures throughout this recipe. Hyperledger Fabric has three core components, which are peers, ordering service, and Fabric CA:

  • Peer: A node on the network that maintains the state of the ledger and manages chaincode. Any number of peers may participate in a network. A peer can be an endorser, which executes transactions, or a committer, which verifies the endorsements and validates transactions results. An endorser is always a committer. Peers form a peer-to-peer gossip network. A peer manages the events hub and delivers events to the subscribers.
  • Ordering service: Packages transactions into blocks to be delivered to peers, since it communicates only with peers. The ordering service is the genesis of a network. Clients of the ordering service are peers and applications. A group of orderers run a communication service, called an ordering service, to provide an atomic broadcast. The ordering service accepts transactions and delivers blocks. The ordering service processes all configuration transactions to set up network policies (including readers, writers, and admins). The orderer manages a pluggable trust engine (such as CFT or BFT) that performs the ordering of the transactions.
  • Fabric CA: Fabric CA is the certificate authority that issues PKI-based certificates to network member organizations and users. Fabric CA supports LDAP for user authentication and HSM for security. Fabric CA issues one root certificate to member organizations and one enrollment certificate to each authorized user.

Hyperledger Fabric also have several important key features and concepts:

  • Fabric ledger: Maintained by each peer and consists of two parts: the blockchain and the world state. Transaction read/write and channel configurations sets are written to the blockchain. A separate ledger is maintained for each channel for each peer that joins. The world state has options of either LevelDB or CouchDB, where LevelDB is a simple key-value store and CouchDB is a document store that allows complex queries. The smart contract decides what is written into the world state.
  • Channel: Provides privacy between different ledgers and exists in the scope of a channel. Channels can be shared across an entire network of peers, and peers can participate in multiple channels. Channels can be permissioned for a specific set of participants. Chaincode is installed on peers to access the world state. Chaincode is instantiated on specific channels. Channels also support concurrent execution for performance and scalability.
  • Organization: Define boundaries within a Fabric blockchain network. Each organization defines an MSP for the identities of administrators, users, peers, and orderers. A network can include many organizations, representing a consortium. Each organization has an individual ID.
  • Endorsement policy: The conditions by which a transaction can be endorsed. A transaction can only be considered valid if it has been endorsed according to its policy. Each chaincode is deployed with an endorsement policy. Endorsement system chaincode (ESCC) signs the proposal response on the endorsing peer and validation system chaincode (VSCC) validates the endorsement.
  • Membership services provider (MSP): Manages a set of identities within a distributed Fabric network. It provides identities for peers, orderers, client applications, and administrators. Where the identities can be Fabric CA or external CA, MSP provides authentication, validation, signing and issuance. MSP support different crypto standards with a pluggable interface. A network can include multiple MSPs (typically one per organization), which can include TLS crypto material for encrypted communications.

Getting ready

We will look into a sample transaction flow on Hyperledger Fabric. Fabric uses the execute-order-validate blockchain transaction flow architecture shown in the following diagram:

How to do it...

In this section, we will review how a transaction is created on the Hyperledger Fabric network:

  1. The Client Application submits a transaction proposal for smart contact A to the network. The endorsement policy requires three endorsers—E0, E1, and E2—to sign together.
  2. The endorsers execute proposed transactions. At this time, three endorsers—E0, E1, E2—will each execute the proposed transaction independently. None of these executions will update the ledger. Each execution will capture the set of read and written (RW) data, which will now flow in the fabric network. All transactions should be signed and encrypted.
  3. RW sets are asynchronously returned to the client application with a transaction proposal. The RW sets are signed by each endorser and will be processed later.
  4. All transactions that returned from the Fabric network are submitted for ordering. The application can submit responses as a transaction to be ordered, and ordering happens across the Fabric in parallel with transactions submitted by other applications.
  5. Ordering Service collects transactions into proposed blocks for distribution to committing peers. This proposed blocks can then be deliver to other peers in a hierarchy. There are two ordering algorithms available: SOLO (single node for development) and Kafka (crash-fault-tolerance for production). In the production system, it is suggested to use Kafka.
  6. Committing peers validate the transactions. All committing peers validate against the endorsement policy and check whether RW sets are still valid for the current world state. World state is not update if there is invalid transctions but are retained on the ledger while validated transactions are applied to the world state.
  7. Client applications can register to be notified on the status of transactions, to find out whether they succeed or fail, and when blocks are added to the ledger. Client applications will be notified by each peer to which they are independently connected.

How it works...

We reviewed how transaction flow works in Fabric. Fabric uses the execute-order-validate model with the following seven steps:

  1. Client application submits a transaction proposal
  2. Endorsers execute the proposed transactions
  3. Client applications receive transaction proposal response
  4. Transactions are submitted for ordering
  5. Transactions are delivered to committing peer
  6. Validated transaction are applied to world state
  7. Client applications get notified with the status of the transaction

In the next recipe, we will walk through how to install Hyperledger Fabric on Amazon Web Services (AWS).

Installing Hyperledger Fabric on AWS

To install and run the recipe in this chapter, you need AWS EC2 Ubuntu Server 16.04 with 4 GB of memory. We will use the Fabric 1.3 release as it is the most stable release as of writing this recipe.

Getting ready

From the Hyperledger Fabric website (https://hyperledger-fabric.readthedocs.io/en/release-1.3/prereqs.html), the prerequisites for this recipe are as follows:

  • Operating systems: Ubuntu Linux 14.04 / 16.04 LTS (both 64-bit), or macOS 10.12
  • cURL tool: The latest version
  • Docker engine: Version 17.06.2-ce or greater
  • Docker-compose: Version 1.14 or greater
  • Go: Version 1.10.x
  • Node: Version 8.9 or higher (note: version 9 is not supported)
  • npm: Version 5.x
  • Python: 2.7.x

We chose Amazon Ubuntu Server 16.04. If you don't have experience with installing Ubuntu in EC2, please refer to the AWS document: https://aws.amazon.com/getting-started/tutorials/launch-a-virtual-machine/.

You can also chose to install Ubuntu in your local machine virtual box. A tutorial for this can be found at http://www.psychocats.net/ubuntu/virtualbox or https://askubuntu.com/questions/142549/how-to-install-ubuntu-on-virtualbox.

How to do it...

To install Hyperledger on AWS, follow these steps:

  1. Execute the following commands to update the software on your system:
        $ sudo apt-get update
  1. Install curl and the golang software package:
        $ sudo apt-get install curl
$ sudo apt-get install golang
$ export GOPATH=$HOME/go
$ export PATH=$PATH:$GOPATH/bin
  1. Install Node.js, npm, and Python:
        $ sudo apt-get install nodejs
$ sudo apt-get install npm
$ sudo apt-get install python
  1. Install and upgrade docker and docker-compose:
        $ sudo apt-get install docker
$ curl -fsSL https://download.docker.com/linux/ubuntu/gpg |
sudo apt-key add -

$ sudo add-apt-repository "deb [arch=amd64]
https://download.docker.com/linux/ubuntu
$(lsb_release -cs) stable"

$ sudo apt-get update
$ apt-cache policy docker-ce
$ sudo apt-get install -y docker-ce
$ sudo apt-get install docker-compose
$ sudo apt-get upgrade

  1. Let's customize and update Node.js and golang to the proper versions:
        $ wget https://dl.google.com/go/go1.11.2.linux-amd64.tar.gz
$ tar -xzvf go1.11.2.linux-amd64.tar.gz
$ sudo mv go/ /usr/local
$ export GOPATH=/usr/local/go
$ export PATH=$PATH:$GOPATH/bin
$ curl -sL https://deb.nodesource.com/setup_8.x | sudo bash -
$ sudo apt-get install -y nodejs
  1. Verify the installed software package versions:
        $ curl --version
$ /usr/local/go/bin/go version
$ python -V
$ node -v
$ npm -version
$ docker --version
$ docker-compose --version

The result should look like this:

  1. Install Hyperledger Fabric 1.3:
        $ curl -sSL http://bit.ly/2ysbOFE | sudo bash -s 1.3.0

It will take a few minutes to download the Docker images. When it is done, the results should look like this:

This completes the installation of the Hyperledger Fabric on the AWS EC2 machine. We will build up the network in the next recipe.

How it works...

We installed several prerequisites, so let's explain what each software package is and how they work together to build the Hyperledger Fabric platform:

  • cURL: A tool used to transfer data from or to a server, using one of the supported protocols (HTTP, HTTPS, FTP, FTPS, SCP, SFTP, TFTP, DICT, TELNET, LDAP, or FILE). The command is designed to work without user interaction.
  • Docker: A tool to create, deploy, and run applications using containers. Containers allow developers to package applications with all of the parts it needs, such as libraries and other dependencies, and ship it out as one package.
  • Docker Compose: It is a tool which is used for defining and running Multi-container application. You can create and start all the services with help of a single command from your configuration YAML file.
  • Go: An open source programming language that makes it easy to build simple, reliable, and efficient software. Hyperledger Fabric is primarily developed using the Go language.
  • Node.js: A platform built on Chrome's JavaScript runtime to easily build fast and scalable network applications. Node.js is considered to be more lightweight and efficient since it uses event-driven, non-blocking I/O models, which make it more feasible for data-intensive real-time applications.
  • npm package manager: A tool that will allow you to install third-party libraries (other people's code) using the command line.
  • Python: A general-purpose programming language for developing both desktop and web applications. Python is also used to develop complex scientific and numeric applications. It is designed with features to facilitate data analysis and visualization.

With this Hyperledger Fabric installation, it will download and install samples and binaries to your system. The sample applications installed are useful for learning the capabilities and operations of Hyperledger Fabric:

  • balance-transfer: A sample Node.js app to demonstrate fabric-client and fabric-ca-client Node.js SDK APIs.
  • basic-network: A basic network with certificates and key materials, predefined transactions, and one channel, mychannel.
  • bin: Binary and scripts for fabric-ca, orderer, and peer.
  • chaincode: Chaincode developed for fabcar, marbles, and a few other examples.
  • chaincode-docker-devmode: Develops chaincode in dev mode for rapid code/build/run/debug.
  • config: YAML files to define transaction, orderer, organization, and chaincode.
  • fabcar: A sample Node.js app to demonstrate the capabilities with chaincode deployment, query, and updating the ledger.
  • fabric-ca: Uses the Fabric CA client and server to generate all crypto material and learn how to use attribute-based access control.
  • first-network: Builds the first hyperledger fabric network with byfn.sh and eyfn.sh.
  • Jenkinsfile: Jenkins is a suite of plugins that supports implementing and integrating continuous-delivery pipelines. The definition of a Jenkins pipeline is typically written into a text file, Jenkinsfile, which in turn is checked into a project's source-control repository.
  • scripts: There are two scripts in this directory: bootstrap.sh and Jenkins_Scripts.

Now that we have successfully installed Hyperledger Fabric on an AWS EC2 virtual machine, in the next recipe, we will set up the first Hyperledger Fabric network.

Building the Fabric network

To run this recipe, you need to complete the Reviewing the Hyperledger Fabric architecture and components recipe in this chapter to install Hyperledger Fabric with samples and binaries on the AWS EC2 instance.

How to do it...

There is a Build your first network (BYFN) sample installed with Hyperledger Fabric. We will use that to provision a sample Hyperledger Fabric network that consists of two organizations, each maintaining two peer nodes, and a solo ordering service. To do this, follow these steps:

  1. Log in as a default user and execute the byfn.sh script to generate certificates and keys for the network:
        $ cd ~
$ sudo chmod 777 -R fabric-samples
$ cd fabric-samples/first-network
$ sudo ./byfn.sh generate
  1. Bring up the Fabric network by executing the byfn.sh script using the up option:
        $ cd ~
$ cd fabric-samples/first-network
$ sudo ./byfn.sh up

You should see the following output, which states that the network has started successfully:

  1. Bring down the Fabric network by executing the byfn.sh script using the down option to shut down and clean up the network. This kills the containers, removes the crypto material and artifacts, and deletes the chaincode images. The following code shows how to do this:
        $ cd ~
$ cd fabric-samples/first-network
$ sudo ./byfn.sh down

Let's review the byfn.sh script, shown as follows. This script is well documented, and you should read about it in detail to understand each execution step during the network startup process:

We will review and exam the Hyperledger Fabric byfn.sh script using the command-line interface.

  1. Use the tool for crypto and certificate generation, called cryptogen, which uses a YAML configuration file as the base to generate the certificates:
        OrdererOrgs:
- Name: Orderer
Domain: example.com
Specs:
- Hostname: orderer
PeerOrgs:
- Name: Org1
Domain: org1.example.com
EnableNodeOUs: true
Template:
Count: 2
Users:
Count: 1
- Name: Org2
Domain: org2.example.com
EnableNodeOUs: true
Template:
Count: 2
Users:
Count: 1

The following command will generate the YAML file:

        $ cd ~
$ cd fabric-samples/first-network
$ sudo ../bin/cryptogen generate --config=./crypto-config.yaml

On execution of the previous command, you will find a new directory crypto-config is created, and inside there are directories that correspond to ordererOrganizations and peerOrganizations. We have two organizations, ( Org1.example.com and Org2.example.com ) network artifacts.

  1. Let's generate the configuration transaction. The tool to generate the configuration transaction is called configtxgen. The artifacts generated in this step are the orderer genesis block, the channel configuration transaction, and one anchor peer transaction for each peer organization. There will also be a configtx.yaml file that is broken into several sections: profiles (describe the organizational structure of the network), organizations (the details regarding individual organizations), orderer (the details regarding the orderer parameters), and application (application defaults—not needed for this recipe).

The profiles that are needed for this recipe are shown as follows:

        Profiles:

TwoOrgsOrdererGenesis:
<<: *ChannelDefaults
Orderer:
<<: *OrdererDefaults
Organizations:
- *OrdererOrg
Capabilities:
<<: *OrdererCapabilities
Consortiums:
SampleConsortium:
Organizations:
- *Org1
- *Org2
TwoOrgsChannel:
Consortium: SampleConsortium
Application:
<<: *ApplicationDefaults
Organizations:
- *Org1
- *Org2
Capabilities:
<<: *ApplicationCapabilities

Let's go with the detailed command-line steps to understand what is happening:

        $ export FABRIC_CFG_PATH=$PWD
$ sudo ../bin/configtxgen -profile TwoOrgsOrdererGenesis -
outputBlock ./channel-artifacts/genesis.block

$ export CHANNEL_NAME=mychannel
$ sudo ../bin/configtxgen -profile TwoOrgsChannel
-outputCreateChannelTx ./channel-artifacts/channel.tx
-channelID $CHANNEL_NAME

$ sudo ../bin/configtxgen -profile TwoOrgsChannel
-outputAnchorPeersUpdate ./channel-artifacts/Org1MSPanchors.tx
-channelID $CHANNEL_NAME -asOrg Org1MSP

$ sudo ../bin/configtxgen -profile TwoOrgsChannel
-outputAnchorPeersUpdate ./channel-artifacts/Org2MSPanchors.tx
-channelID $CHANNEL_NAME -asOrg Org2MSP

Here, we write the blockchain genesis block, create the first channel transaction, and write anchor peer updates. You may not care how exactly it is done, but this is how Fabric is built from the bottom up. You can see that four new files are generated and stored in the channel-artifacts directory:

  • genesis.block
  • channel.tx
  • Org1MSPanchors.tx
  • Org2MSPanchors.tx
  1. The Docker Compose tool is used to bring up Docker containers. We use docker-compose-cli.yaml to keep track of all Docker containers that we bring up:
        $ cd ~
$ cd fabric-samples/first-network
$ sudo docker-compose -f docker-compose-cli.yaml up -d

  1. We have brought up six nodes: cli, orderer.example.com, peer0.org1.example.com, peer0.org2.example.com, peer1.org1.example.com, and peer1.org2.example.com:
  1. Use the peer CLI to set up the network. Using the peer command line within the Docker CLI container for this step, we will create the channel using channel.tx so that peers can join the channel. Please note that some commands are extremely long as we need to set up peer environment variables (note that the default is peer0.org1), as follows:
        $ cd ~
$ cd fabric-samples/first-network
$ sudo docker exec -it cli bash
$ export CHANNEL_NAME=mychannel

$ peer channel create -o orderer.example.com:7050 -c
$CHANNEL_NAME -f ./channel-artifacts/channel.tx --tls --
cafile/opt/gopath/src/github.com/hyperledger/fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/
msp/tlscacerts/tlsca.example.com-cert.pem
$ peer channel join -b mychannel.block

// for peer0.org2
$ CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/
fabric/peer/crypto/peerOrganizations/org2.example.com/
users/Admin@org2.example.com/msp
CORE_PEER_ADDRESS=peer0.org2.example.com:7051
CORE_PEER_LOCALMSPID="Org2MSP"
CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/
hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/
peers/peer0.org2.example.com/tls/ca.crt
$ peer channel join -b mychannel.block

// for peer1.org1
CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/
hyperledger/fabric/peer/crypto/peerOrganizations/
org1.example.com/users/Admin@org1.example.com/msp
CORE_PEER_ADDRESS=peer1.org1.example.com:7051
CORE_PEER_LOCALMSPID="Org1MSP"
CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/
hyperledger/fabric/peer/crypto/peerOrganizations/
org1.example.com/peers/peer1.org1.example.com/tls/ca.crt
peer channel join -b mychannel.block

// for peer1.org2
CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp CORE_PEER_ADDRESS=peer1.org2.example.com:7051 CORE_PEER_LOCALMSPID="Org2MSP" CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer1.org2.example.com/tls/ca.crt peer channel join -b mychannel.block

This will create a connection between all four peers:

  1. Update the anchor peer on each organization. We use the files we created in the Installing Hyperledger Fabric on AWS section (Org1MSPanchors.tx and Org2MSPanchors.tx) and apply them to Peer0 of both Org1 and Org2:
        $ peer channel update -o orderer.example.com:7050 -c $CHANNEL_NAME 
-f
./channel-artifacts/Org1MSPanchors.tx --tls --cafile
/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/
ordererOrganizations/example.com/orderers/orderer.example.com/
msp/tlscacerts/tlsca.example.com-cert.pem

$ CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/
fabric/peer/crypto/peerOrganizations/org2.example.com/
users/Admin@org2.example.com/msp
CORE_PEER_ADDRESS=peer0.org2.example.com:7051
CORE_PEER_LOCALMSPID="Org2MSP"
CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/
hyperledger/fabric/peer/crypto/peerOrganizations/
org2.example.com/peers/peer0.org2.example.com/tls/ca.crt
peer channel update -o orderer.example.com:7050 -c
$CHANNEL_NAME -f ./channel-artifacts/Org2MSPanchors.tx
--tls --cafile /opt/gopath/src/github.com/hyperledger/fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem
  1. Using the CLI, we need to install the chaincode to peer0 Org1 and peer0 Org2. The chaincode is specified in the -p option in the command and the chaincode name is mycc. This is shown in the following code:
$ peer chaincode install -n mycc -v 1.0 -p github.com/chaincode/chaincode_example02/go/

$ CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp CORE_PEER_ADDRESS=peer0.org2.example.com:7051 CORE_PEER_LOCALMSPID="Org2MSP" CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt peer chaincode install -n mycc -v 1.0 -p github.com/chaincode/chaincode_example02/go//orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem
  1. Instantiate the chaincode from peer0.org2. We will use -c to initialize this with a value of 100, and b with 200. We use -p to define the endorsement policy. This is shown in the following code:
$ CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp CORE_PEER_ADDRESS=peer0.org2.example.com:7051 CORE_PEER_LOCALMSPID="Org2MSP" CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt peer chaincode instantiate -o orderer.example.com:7050 --tls --cafile /opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem -C $CHANNEL_NAME -n mycc -v 1.0 -c '{"Args":["init","a", "100", "b","200"]}' -P "AND ('Org1MSP.peer','Org2MSP.peer')"
  1. Execute a query on peer0 Org1 on the a value. We should get the correct value of 100 back:
$ peer chaincode query -C $CHANNEL_NAME -n mycc -c '{"Args":["query","a"]}'
  1. Using the CLI, create a transaction by invoking chaincode. In this example, we will move 10 from a to b. Install chaincode on peer1 org2, and then query from peer1 org2 for the latest value of a:
$ CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp CORE_PEER_ADDRESS=peer1.org2.example.com:7051 CORE_PEER_LOCALMSPID="Org2MSP" CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer1.org2.example.com/tls/ca.crt peer chaincode install -n mycc -v 1.0 -p github.com/chaincode/chaincode_example02/go/

$CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp CORE_PEER_ADDRESS=peer1.org2.example.com:7051 CORE_PEER_LOCALMSPID="Org2MSP" CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer1.org2.example.com/tls/ca.crt peer chaincode query -C $CHANNEL_NAME -n mycc -c '{"Args":["query","a"]}'

This takes some time, but we will eventually receive the result of 90, which is correct after 10 is removed from 100:

This concludes building our first Fabric network. We will look at how to make changes to the existing network and add an organization to a channel in the next recipe.

How it works...

We covered the following steps to build our Fabric network:

  • Generating the crypto/certificate using cryptogen
  • Generating the configuration transaction using configtxgen
  • Bring up the nodes based on what is defined in the docker-compose file
  • Using the CLI to set up the first network
  • Using the CLI to install and instantiate the chaincode
  • Using the CLI to invoke and query the chaincode

This recipe helps you to understand the Hyperledge Fabric components and shows how we can quickly set up a Hyperledger Fabric network using sample chaincode (mycc). You should be able to modify the scripts and run other samples, such as fabcar and marble02, which are provided under the fabric-sample/chaincode directory.

Fabric provides the following commands used in the byfn.sh script. In the following chapters and recipes, these commands will be used to operate and manage the Fabric network environment:

  • peer: Operates and configures a peer
  • peer chaincode: Manages chaincode on the peer
  • peer channel: Manages channels on the peer
  • peer node: Manages the peer
  • peer version: Returns the peer version
  • cryptogen: Utility for generating crypto material
  • configtxgen: Creates configuration data, such as the genesis block
  • configtxlator: Utility for generating channel configurations
  • fabric-ca-client: Manage identities
  • fabric-ca-server: Manages the fabric-ca server

Now that we have set up our first network, let's add an organization to the channel.

Adding an organization to a channel

This recipe serves as an extension to the BYFN recipe. We will demonstrate how to add a new organization Org3 to the application's channel (mychannel).

Getting ready...

To run this recipe, you need complete the Reviewing the Hyperledger Fabric architecture and components recipe in this chapter to install Hyperledger Fabric with samples and binaries on the AWS EC2 instance.

How to do it...

Since we need add the new organization, Org3, to BYFN, we will first bring up the BYFN network. Follow these steps:

  1. Bring up the first network using the following command:
        $ cd ~
$ cd fabric-samples/first-network
$ sudo ./byfn.sh generate
$ sudo ./byfn.sh up

  1. Execute the script to add Org3 into the mychannel channel:
    $ cd ~
$ cd fabric-samples/first-network
$ sudo ./eyfn.sh up

The following screenshot confirms org3 is added to mychannel successfully:

We can test this by running a query against Org3 peer0.

  1. To shut down and clean up the network, execute the following:
        $ cd fabric-samples/first-network
$ sudo ./eyfn.sh down
$ sudo ./byfn.sh down

How it works...

Like what we did in the Building the Fabric network recipe, the eyfn.sh script is a good resource to understand how things work.

We will also look into the command-line steps to see the internal building blocks to add an organization to a channel:

  1. Generate the org3 certificates:
        $ cryptogen generate --config=./org3-crypto.yaml
  1. Generate the org3 configuration materials:
        $ configtxgen -printOrg Org3MSP
  1. Generate and submit the transaction configuration for organization 3:
         $ peer channel fetch config config_block.pb -o 
orderer.example.com:7050 -c mychannel --tls --cafile
/opt/gopath/src/github.com/hyperledger/fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem
$ configtxlator proto_encode --input config.json
--type common.Config
$ configtxlator proto_encode --input modified_config.json
--type common.Config
$ configtxlator compute_update --channel_id mychannel
--original original_config.pb --updated modified_config.pb
$ configtxlator proto_decode --input config_update.pb
--type common.ConfigUpdate

  1. Configure the transaction to add org3, which has been created:
        $ peer channel signconfigtx -f org3_update_in_envelope.pb
  1. Submit the transaction from a different peer (peer0.org2), who also signs it:
        $ peer channel update -f org3_update_in_envelope.pb -c mychannel -o 
orderer.example.com:7050 --tls --cafile
/opt/gopath/src/github.com/hyperledger/fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/
msp/tlscacerts/tlsca.example.com-cert.pem
  1. Get the org3 peer to join the network:
        $ peer channel fetch 0 mychannel.block -o orderer.example.com:7050 
-c mychannel --tls --cafile /opt/gopath/src/github.com/
hyperledger/fabric/peer/
crypto/ordererOrganizations/
example.com/orderers/orderer.example.com/

msp/tlscacerts/tlsca.example.com-cert.pem
$ peer channel join
-b mychannel.blockcd fabric-samples/first-network
  1. Install and update the chaincode:
         $ peer chaincode install -n mycc -v 2.0 -l golang -p    
github.com/chaincode/chaincode_example02/go/
$ peer chaincode upgrade -o orderer.example.com:7050
--tls true --cafile /opt/gopath/src/github.com/hyperledger/
fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/
msp/tlscacerts/tlsca.example.com-cert.pem
-C
mychannel -n mycc -v 2.0 -c
'{"Args":["init","a","90","b","210"]}'

-P 'AND ('\''Org1MSP.peer'\'','\''Org2MSP.peer'\'',
'\''Org3MSP.peer'\'')'
  1. Query peer0 org3:
        $ peer chaincode query -C mychannel -n mycc 
-c '{"Args":["query","a"]}'
  1. Invoke the transaction to move 10 from a to b again on a different peer:
        $ peer chaincode invoke -o orderer.example.com:7050 --tls true 
--cafile
/opt/gopath/src/github.com/hyperledger/fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/
msp/tlscacerts/tlsca.example.com-cert.pem
-C
mychannel -n mycc --peerAddresses peer0.org1.example.com:7051
--tlsRootCertFiles /opt/gopath/src/github.com/hyperledger/
fabric/peer/crypto/
peerOrganizations/org1.example.com/peers/
peer0.org1.example.com
/tls/ca.crt
--peerAddresses peer0.org2.example.com:7051

--tlsRootCertFiles /opt/gopath/src/github.com/hyperledger/
fabric/peer/
crypto/peerOrganizations/org2.example.com/peers/
peer0.org2.example.com/tls/ca.crt
--peerAddresses peer0.org3.example.com:7051
--tlsRootCertFiles/opt/gopath/src/github.com/hyperledger/
fabric/
peer/crypto/peerOrganizations/org3.example.com/peers/
peer0.org3.example.com/tls/ca.crt
-c '{"Args":["invoke","a","b","10"]}'


This concludes how to add an organization to an existing network in a channel. We will look at how to use CouchDB to review transactions in the next recipe.

Following all the previous steps will create our first network, which consists of two organizations, two peers per organization, and single Solo ordering service. In this recipe, we showed you how to add a third organization to an application channel with its own peers to an already running first network, and then join it to the new channel.

When you view the log file, you will be able to see details in the following order:

  • Generating Org3 config material
  • Generating and submitting config tx to add Org3
  • Creating config transaction to add Org3 to the network
  • Installing jq
  • Config transaction to add Org3 to the network
  • Signing the config transaction
  • Submitting the transaction from a different peer (peer0.org2), which also signs it
  • Configure transaction to add Org3 to network submitted
  • Having Org3 peers join the network
  • Getting Org3 on to your first network
  • Fetching the channel config block from orderer
  • peer0.org3 joined the mychannel channel
  • peer1.org3 joined the mychannel channel
  • Installing chaincode 2.0 on peer0.org3
  • Upgrading chaincode to have Org3 peers on the network
  • Finishing adding Org3 to your first network
  • Chaincode is installed on peer0.org1
  • Chaincode is installed on peer0.org2
  • Chaincode is upgraded on peer0.org1 on the mychannel channel
  • Finished adding Org3 to your first network!

Updating modification policies or altering batch sizes or any other channel configuration can be updated using the same approach but for now we will focus solely on the integration of a new organization.

There's more...

The following block shows the org3-crypto.yaml section for Org3:

# --------------------------------------------------------------------------
# "PeerOrgs" - Definition of organizations managing peer nodes
# ---------------------------------------------------------------------------
PeerOrgs:
# ---------------------------------------------------------------------------
# Org3
# ---------------------------------------------------------------------------
- Name: Org3
Domain: org3.example.com
EnableNodeOUs: true
Template:
Count: 2
Users:
Count: 1

The following block shows the configtx.yaml section for Org3:

#################################################################################
# Section: Organizations
#
# - This section defines the different organizational identities which will
# be referenced later in the configuration.
#
################################################################################
Organizations:
- &Org3
# DefaultOrg defines the organization which is used in the sampleconfig
# of the fabric.git development environment
Name: Org3MSP
# ID to load the MSP definition as
ID: Org3MSP
MSPDir: crypto-config/peerOrganizations/org3.example.com/msp
AnchorPeers:
# AnchorPeers defines the location of peers which can be used for cross org gossip #communication. Note, this value is only
# encoded in the genesis block in the Application section context
- Host: peer0.org3.example.com
Port: 7051

In the next recipe, we will look at how smart contracts work with CouchDB.

Using CouchDB

In this recipe, we will explore how to start up a network using CouchDB and then look at transactions applied into CouchDB from a web UI. To successfully execute this recipe, you need install the Hyperledger Fabric with samples and binaries on the AWS EC2 instance.

How to do it...

To use CouchDB, follow these steps:

  1. Make sure network is not up. If it is up, shut down the network, as shown here:
        $ cd fabric-samples/first-network
$ sudo ./byfn.sh down
  1. Start up the BYFN network using CouchDB:

Here we will start up the network by using the CouchDB database.

        $ cd fabric-samples/first-network
$ sudo ./byfn.sh up -c mychannel -s couchdb

Following screenshot shows our network starting up:

  1. Install chaincode by navigating into the CLI container using the command-line interface:
        $ sudo docker exec -it cli bash
$ peer chaincode install -n marbles -v 1.0
-p github.com/chaincode/marbles02/go
  1. Instantiate the chaincode:
        $ export CHANNEL_NAME=mychannel
$ peer chaincode instantiate -o orderer.example.com:7050
--tls --cafile
/opt/gopath/src/github.com/hyperledger/fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/
msp/tlscacerts/tlsca.example.com-cert.pem
-C
$CHANNEL_NAME -n marbles -v 1.0 -c '{"Args":["init"]}' -P "OR
('Org0MSP.peer','Org1MSP.peer')"
  1. Invoke the chaincode. The following commands invoke chaincode to create marble.
        $ peer chaincode invoke -o orderer.example.com:7050 --tls 
--cafile
/opt/gopath/src/github.com/hyperledger/fabric/peer/
crypto/ordererOrganizations/example.com/orderers/
orderer.example.com/
msp/tlscacerts/tlsca.example.com-cert.pem
-C $CHANNEL_NAME -n marbles -c

'{"Args":["initMarble","marble5","blue","35","tom"]}'

Following screenshot shows successful creation of chanincode:

  1. Open the CouchDB UI by navigating to http://host-ip:5984/_utils/#/_all_dbs (in my case, my AWS public IP address is 3.91.245.92, so the URL is http://3.91.245.92:5984/_utils/#/_all_dbs):

In order to allow public access to CouchDB, we need open port 5984. Navigate to the AWS security group under the instance, launch the wizard, and choose Action | Edit Inbound Rules | Add Inbound Rule. This is shown as follows. After this, click Save. You can follow the below example to allow all IP address to access CouchDB:

  1. From mychannel_marbles, we can query and see the transaction ID with marble5:
  1. Click marble5, and you will see the default marble5 files:

Here, we saw how to use CouchDB to view how transactions get created, and updated them on the Fabric network. We will write a smart contract and deploy it as an application in the next recipe.

How it works...

In this recipe, we learned how to use CouchDB as the state database with Hyperledger Fabric. We also looked at how to use CouchDB to deploy Marbles to the network.

Hyperledger Fabric supports two types of peer databases: LevelDB is the default state database embedded in the peer node and stores chaincode data as simple key-value pairs; and CouchDB is an optional alternate state database that supports rich queries when chaincode data values are modeled as JSON. This recipe describes the steps required to use CouchDB as the state database with Fabric. CouchDB is a JSON document datastore rather than a pure key-value store, therefore enabling indexing of the contents of the documents in the database.

In the last recipe, we will show you how to write your first smart contract application and deploy it into the blockchain.

Writing your first application

In this recipe, we will explore how to create a smart contract and then deploy it into the blockchain.

To run this recipe, you need to have completed the Installing Hyperledger Fabric on AWS recipe in this chapter to install Hyperledger Fabric with samples and binaries on the AWS EC2 instance.

How to do it...

To write your first application, follow these steps:

  1. Set up the development environment:
        $ cd ~
cd fabric-samples/first-network
sudo docker ps
sudo ./byfn.sh down
sudo docker rm -f $(sudo docker ps -aq)
sudo docker network prune
cd ../fabcar && ls

You will notice that there are a few Node.js file present in fabcar folder such as enrollAdmin.js, invoke.js, query.js, registerUser.js, and package.json and all others packaged into one startFabric.sh file.

  1. Install the Fabric client:
        $ sudo npm install -g npm@5.3.0
$ sudo npm update

You will notice from the following screenshot that the Fabric client 1.3.0 and Fabric CA client 1.30 packages are installed:

  1. Execute the following command to launch the network:
        $ sudo ./startFabric.sh node
  1. Open a new Terminal to stream the Docker logs:
        $ sudo docker logs -f ca.example.com

This will open the Docker file, which will look similar to the following screenshot:

Next, we will use the Node.js script to run, query, and update the records on Fabric network.

Accessing the API with SDK

In this recipe, the application uses an SDK to access the APIs that permit queries and updates to the ledger. Now we will perform the following steps:

  1. Enroll an admin user with the enrollAdmin.js script:
        $ sudo node enrollAdmin.js

When we launch the network, an admin user needs to be registered with certificate authority. We send an enrollment call to the CA server and retrieve the enrollment certificate (eCert) for this user. We then use this admin user to subsequently register and enroll other users:

  1. Register and enroll a user called user1 using the registerUser.js script:
        $ sudo node registerUser.js
  1. With the newly-generated eCert for the admin user, let's communicate with the CA server once more to register and enroll user1. We can use the ID of user1 to query and update the ledger:
  1. Let's run a query against the ledger:
        $ sudo node query.js
  1. It returns the following screenshot. You will find that there are 10 cars on the network, from CAR0 to CAR9. Each has a color, doctype, make, model, and owner:

  1. The following chaincode constructs the query using the queryAllCars function to query all cars:
         // queryCar chaincode function - requires 1 argument,
ex: args: ['CAR4'],
// queryAllCars chaincode function - requires no arguments,
ex: args: [''],
const request = {
//targets : --- letting this default to the
peers assigned to the channel
chaincodeId: 'fabcar',
fcn: 'queryAllCars',
args: ['']
}
  1. Update the ledger. To do this, we will update the invoke.js script. This time, the fabcar chaincode uses the createCar function to insert a new car, CAR10, into the ledger:
        var request = {
//targets: let default to the peer assigned to the client
chaincodeId: 'fabcar',
fcn: 'createCar',
args: ['CAR10', 'Chevy', 'Volt', 'Red', 'Nick'],
chainId: 'mychannel',
txId: tx_id
};

sudo node invoke.js

Here we will complete the transaction when CAR10 is created.

  1. Execute a query to verify the changes made. Change query.js using the queryCar function to query CAR10:
        var request = {
//targets: let default to the peer assigned to the client
chaincodeId: 'fabcar',
fcn: 'queryCar',
args: ['CAR10'],
chainId: 'mychannel',
txId: tx_id
};

  1. Run query.js again. We can now extract CAR10 from the ledger with the response as {"color":"Red","docType":"car","make":"Chevy","model":"Volt","owner":"Nick"}:
      sudo node query.js

This will result in the following query:

  1. Shut down the Fabric network:
      sudo docker stop $(sudo docker ps -a -q)
sudo docker rm $(sudo docker ps -a -q)
sudo docker ps

We have gone through the steps to query and update the transaction using smart contract chaincode. Now, let's see how it works under the hood.

How it works...

This concludes the recipe to create and deploy your first smart contract chaincode.

In the previous steps, we used query.js to query the key-value pair store. We can also query for the values of one or more keys, or perform complex searches on JSON data-storage formats. The following diagram shows how the query works:

The following is a representation of different functions in chaincode, which explains that we should first define the code functions to all the available APIs in the chaincode interface:

The following diagram shows the process of updating the ledger. Once an update to the ledger is proposed and endorsed, it will be returned to the application, and will in turn send the updated ledger to be ordered and written to every peer's ledger:

We learned how to write a small smart contract chaincode on the Fabric network to perform a transaction data query and update. In the next chapter, you will learn how to write an end-to-end Hyperledger Fabric application using all that we have learned in this chapter.

See also

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Key benefits

  • Plan, design, and create a full-fledged private decentralized application using Hyperledger services
  • Master the ins and outs of the Hyperledger network using real-world examples
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Description

Hyperledger is an open-source project and creates private blockchain applications for a range of domains. This book will be your desk reference as you explore common and not-so-common challenges faced while building blockchain networks using Hyperledger services. We'll work through all Hyperledger platform modules to understand their services and features and build end-to-end blockchain applications using various frameworks and tools supported by Hyperledger. This book's independent, recipe-based approach (packed with real-world examples) will familiarize you with the blockchain development cycle. From modeling a business network to integrating with various tools, you will cover it all. We'll cover common and not-so-common challenges faced in the blockchain life cycle. Later, we'll delve into how we can interact with the Hyperledger Fabric blockchain, covering all the principles you need to master, such as chaincode, smart contracts, and much more. We'll also address the scalability and security issues currently faced in blockchain development. By the end of this book, you will be able to implement each recipe to plan, design, and create a full-fledged, private, decentralized application to meet organizational needs.

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  • Create the most popular permissioned blockchain network with Fabric and Composer
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Table of Contents

11 Chapters
Working with Hyperledger Fabric Chevron down icon Chevron up icon
Implementing Hyperledger Fabric Chevron down icon Chevron up icon
Modeling a Business Network Using Hyperledger Composer Chevron down icon Chevron up icon
Integrating Hyperledger Fabric with Explorer Chevron down icon Chevron up icon
Working with Hyperledger Sawtooth Chevron down icon Chevron up icon
Operating an Ethereum Smart Contract with Hyperledger Burrow Chevron down icon Chevron up icon
Working with Hyperledger Iroha Chevron down icon Chevron up icon
Exploring the CLI with Hyperledger Indy Chevron down icon Chevron up icon
Hyperledger Blockchain Scalability and Security Chevron down icon Chevron up icon
Hyperledger Blockchain Ecosystem Chevron down icon Chevron up icon
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This book is very hands-on. It covers all projects and tools under Hyperledger such as Sawtooth, Burrow, Seth and Indy. It is a must-have resource for all Hyperledger consultants and instructors. I read this book few times and I highly recommend it to all Hyperledger developers.
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We want you to be happy with your purchase from Packtpub.com. We will not hassle you with returning print books to us. If the print book you receive from us is incorrect, damaged, doesn't work or is unacceptably late, please contact Customer Relations Team on customercare@packt.com with the order number and issue details as explained below:

  1. If you ordered (eBook, Video or Print Book) incorrectly or accidentally, please contact Customer Relations Team on customercare@packt.com within one hour of placing the order and we will replace/refund you the item cost.
  2. Sadly, if your eBook or Video file is faulty or a fault occurs during the eBook or Video being made available to you, i.e. during download then you should contact Customer Relations Team within 14 days of purchase on customercare@packt.com who will be able to resolve this issue for you.
  3. You will have a choice of replacement or refund of the problem items.(damaged, defective or incorrect)
  4. Once Customer Care Team confirms that you will be refunded, you should receive the refund within 10 to 12 working days.
  5. If you are only requesting a refund of one book from a multiple order, then we will refund you the appropriate single item.
  6. Where the items were shipped under a free shipping offer, there will be no shipping costs to refund.

On the off chance your printed book arrives damaged, with book material defect, contact our Customer Relation Team on customercare@packt.com within 14 days of receipt of the book with appropriate evidence of damage and we will work with you to secure a replacement copy, if necessary. Please note that each printed book you order from us is individually made by Packt's professional book-printing partner which is on a print-on-demand basis.

What tax is charged? Chevron down icon Chevron up icon

Currently, no tax is charged on the purchase of any print book (subject to change based on the laws and regulations). A localized VAT fee is charged only to our European and UK customers on eBooks, Video and subscriptions that they buy. GST is charged to Indian customers for eBooks and video purchases.

What payment methods can I use? Chevron down icon Chevron up icon

You can pay with the following card types:

  1. Visa Debit
  2. Visa Credit
  3. MasterCard
  4. PayPal
What is the delivery time and cost of print books? Chevron down icon Chevron up icon

Shipping Details

USA:

'

Economy: Delivery to most addresses in the US within 10-15 business days

Premium: Trackable Delivery to most addresses in the US within 3-8 business days

UK:

Economy: Delivery to most addresses in the U.K. within 7-9 business days.
Shipments are not trackable

Premium: Trackable delivery to most addresses in the U.K. within 3-4 business days!
Add one extra business day for deliveries to Northern Ireland and Scottish Highlands and islands

EU:

Premium: Trackable delivery to most EU destinations within 4-9 business days.

Australia:

Economy: Can deliver to P. O. Boxes and private residences.
Trackable service with delivery to addresses in Australia only.
Delivery time ranges from 7-9 business days for VIC and 8-10 business days for Interstate metro
Delivery time is up to 15 business days for remote areas of WA, NT & QLD.

Premium: Delivery to addresses in Australia only
Trackable delivery to most P. O. Boxes and private residences in Australia within 4-5 days based on the distance to a destination following dispatch.

India:

Premium: Delivery to most Indian addresses within 5-6 business days

Rest of the World:

Premium: Countries in the American continent: Trackable delivery to most countries within 4-7 business days

Asia:

Premium: Delivery to most Asian addresses within 5-9 business days

Disclaimer:
All orders received before 5 PM U.K time would start printing from the next business day. So the estimated delivery times start from the next day as well. Orders received after 5 PM U.K time (in our internal systems) on a business day or anytime on the weekend will begin printing the second to next business day. For example, an order placed at 11 AM today will begin printing tomorrow, whereas an order placed at 9 PM tonight will begin printing the day after tomorrow.


Unfortunately, due to several restrictions, we are unable to ship to the following countries:

  1. Afghanistan
  2. American Samoa
  3. Belarus
  4. Brunei Darussalam
  5. Central African Republic
  6. The Democratic Republic of Congo
  7. Eritrea
  8. Guinea-bissau
  9. Iran
  10. Lebanon
  11. Libiya Arab Jamahriya
  12. Somalia
  13. Sudan
  14. Russian Federation
  15. Syrian Arab Republic
  16. Ukraine
  17. Venezuela