Weft
weft /wɛft/ noun (in weaving) the crosswise threads on a loom that are passed over and under the warp threads to make cloth.
Simple command line utility and module, to help work Hyperledger Fabric, and other instations such as the IBM Blockchain Platform (IBP) and convert resources between them. This is intended to be a complement to the existing tools for each product. A lot of the code here is based on that in hyperledger/fabric-samples
The end goals are to obtain, irrespective of how the Fabric infrastructure is created.
- an application wallets and idenities for the Client SDKs to use
- the gateway connection profiles to let the Client SDKs to connect
- the MSP directory structure to permit the Fabric Peer CLIs to function
- packaged Chaincode/SmartContract
NOTE: not formally supported software, this is a community resource. PRs welcome :-)
Latest Updates
- Now publishing packages to NPMJS rather than GitHub Packages.
- hope to use github packages for beta drivers
- K8S Builder now properly supported
Installation
Minimum of node 16 strongly suggested, you're welcome to try 14 of course.
Install as any node tool
npm install -g @hyperledger-labs/weft
or to install from the main branch source (will be ahead potentially of the released version)
curl -sSL https://raw.githubusercontent.com/hyperledger-labs/weft/main/install.sh | sh
Commands available
weft [command]
Commands:
weft wallet Work with a SDK Application Wallet
weft mspids Work with the MSP Credentials Directory structure
weft ca Work with the Fabric CA for identities
weft chaincode Work with a Chaincode Packages
weft microfab Process the ibp-microfab output; generates MSPCreds, Connection Profiles and Application wallets
Options:
--help Show help [boolean]
-v, --version Show version number [boolean]
Working with Wallets
The 'classic' v1.4 and v2 Client SDKs use a 'Wallet', typically stored on disk. The new 'Gateway' SDKs also need identities, but they don't directly require or use filesystem wallet. Rather they required the individual identities/certificates. Though the on disk format used for wallets can be useful (they are JSON Files)
weft wallet -h
Work with a SDK Application Wallet
Commands:
weft wallet import Imports identities into an application wallet
weft wallet export Exports identities from an application wallet
weft wallet ls Lists Application Wallet identities
Options:
--help Show help [boolean]
-v, --version Show version number [boolean]
-w, --walletpath Path to application wallet [required]
-c, --compat Set to use the 1.4 wallet format [boolean] [default: false]
-r, --createwallet Create the wallet if not present [boolean] [default: false]
-f, --force If the identity is already present, force overwrite it [boolean] [default: false]
You can import, export or list identities in the application wallet.
For import you can import an identity either in JSON file format, or the MSPCredentials disk format.
Imports identities into an application wallet
Commands:
weft wallet import mspcreds Import form MSP Credentials directory format
weft wallet import ibp Imports IBP identity and adds to application wallet
Options:
--help Show help [boolean]
-v, --version Show version number [boolean]
-w, --walletpath Path to application wallet [required]
-c, --compat Set to use the 1.4 wallet format [boolean] [default: false]
-r, --createwallet Create the wallet if not present [boolean] [default: false]
-f, --force If the identity is already present, force overwrite it [boolean] [default: false]
-m, --mspid MSPID to assign in this wallet [required]
Working with Chaincode
Packaging chaincode
The top level command is 'chaincode package'. There are 3 subcommands depending on the 'format' of the package that you want to create. Either 'full' to include all the code for Peer Managed Chaincode Containers. 'ccaas' for the Chaincode-as-a-service builders, or 'k8s' for the K8S builder.
weft chaincode package
Create a chaincode package (tgz) to install on peers
Commands:
weft chaincode package full Include all code to run under Peer managed chaincode containers
weft chaincode package caas Chaincode-as-a-service Builders for user managed chaincode containers
weft chaincode package k8s K8S Builder for Kubernetes managed chaincode containers
Chaincode Package:
-p, --path Path to the root directory of the chaincode or file
-l, --label Label of the chaincode to use [required]
-q, --quiet Quiet mode, only output the packageid to stdout [boolean] [default: "false"]
-a, --archive filename of the output tgz [string]
- label Each chaincode package needs a label
- quiet this will only output the PackageID - useful for scripting purposes
-
archive the filename of the output tgz file. If not specified it will be
<label>.tgz
-
path need to provide the code for the full format, and for the other builders will be the (optional) location of the
META-INF
directory (the directory it is in)
Full Format
weft chaincode package full
Include all code to run under Peer managed chaincode containers
Chaincode Package:
-p, --path Path to the root directory of the chaincode or file
-l, --label Label of the chaincode to use [required]
-q, --quiet Quiet mode, only output the packageid to stdout [boolean] [default: "false"]
-a, --archive filename of the output tgz [string]
-n, --lang Language contract is written in [choices: "auto", "go", "java", "javascript", "typescript"] [default: "auto"]
- lang is an optional parameter that can be specified to force the choice of language, otherwise it will be auto-detected.
Java
- Auto-detected if the path supplied
- contains a
build.gradle/build.gradle.kts/pom.xml
files - one or more JAR files
- is reference to a JAR file itself
- contains a
- For a single JAR referenced directly, the package will contain the META-INF in the same directory as the JAR (if it exists)
- If the directory contains JARs, or the java build file all the contents will be included, subject to pre-filtering by the
.fabricignore
file
JavaScript
- Auto-dected if the path contains a
package.json
- All the content will be included subject to the
.npmignore
file. The.fabricignore
file be processed as well before the ..npmignore
TypeScript
- Auto-detected if the path contains a
package.json
and a 'tsconfig.json` file - The
out
directory in thetsconfig.json
is checked. All contents of this is included, along withpackage.json
andpackage-log.json
npm-shrinkwrap.json
if present. The META-INF directory will also be included. All subject to pre-filtering by the.fabricignore
file
Go
- Auto-detected if the path contains a
go.mod
file - All the contents will be included, subject to pre-filtering by the
.fabricignore
file
Working with Microfab
As an example let's start a Microfab instance with 2 organizations
export MICROFAB_CONFIG='{
"endorsing_organizations":[
{
"name": "DigiBank"
},
{
"name": "MagnetoCorp"
}
],
"channels":[
{
"name": "papernet",
"endorsing_organizations":[
"DigiBank",
"MagnetoCorp"
]
}
],
"capability_level":"V2_0"
}'
docker run --name microfab --rm -ti -p 8080:8080 -e MICROFAB_CONFIG="${MICROFAB_CONFIG}" ibmcom/ibp-microfab
In a new terminal window, we can retrieve the JSON configuration and pipe that direct to weft
. Create a new directory for hold the wallets, profiles etc. and issue the curl commands.
mkdir _cfg
curl -s http://console.127-0-0-1.nip.io:8080/ak/api/v1/components | weft microfab -w ./_cfg/_wallets -p ./_cfg/_gateways -m ./_cfg/_msp
This will give the following directory structure.. with the _msp
directory for the peer commands, the _wallets
for the application wallets, and the _gateways
for the gateways.
tree _cfg
_cfg
├── _gateways
│ ├── digibankgateway.json
│ └── magnetocorpgateway.json
├── _msp
│ ├── DigiBank
│ │ └── digibankadmin
│ │ └── msp
│ │ ├── admincerts
│ │ │ └── digibankadmin.pem
│ │ ├── cacerts
│ │ │ └── ca.pem
│ │ ├── keystore
│ │ │ └── cert_sk
│ │ └── signcerts
│ │ └── digibankadmin.pem
│ ├── MagnetoCorp
│ │ └── magnetocorpadmin
│ │ └── msp
│ │ ├── admincerts
│ │ │ └── magnetocorpadmin.pem
│ │ ├── cacerts
│ │ │ └── ca.pem
│ │ ├── keystore
│ │ │ └── cert_sk
│ │ └── signcerts
│ │ └── magnetocorpadmin.pem
│ └── Orderer
│ └── ordereradmin
│ └── msp
│ ├── admincerts
│ │ └── ordereradmin.pem
│ ├── cacerts
│ │ └── ca.pem
│ ├── keystore
│ │ └── cert_sk
│ └── signcerts
│ └── ordereradmin.pem
└── _wallets
├── DigiBank
│ └── digibankadmin.id
├── MagnetoCorp
│ └── magnetocorpadmin.id
└── Orderer
└── ordereradmin.id
27 directories, 17 files
The output of the command also outputs some shell commands that you can use to configure the environment for using the peer
command.
Environment variables:
For DigiBank use these:
export CORE_PEER_LOCALMSPID=DigiBankMSP
export CORE_PEER_ADDRESS=digibankpeer-api.127-0-0-1.nip.io:8080
export CORE_PEER_MSPCONFIGPATH=/home/matthew/github.com/hyperledgendary/weftility/_cfg/_msp/DigiBank/digibankadmin/msp
For MagnetoCorp use these:
export CORE_PEER_LOCALMSPID=MagnetoCorpMSP
export CORE_PEER_ADDRESS=magnetocorppeer-api.127-0-0-1.nip.io:8080
export CORE_PEER_MSPCONFIGPATH=/home/matthew/github.com/hyperledgendary/weftility/_cfg/_msp/MagnetoCorp/magnetocorpadmin/msp
In a suitable shell, copy and execute the export...
commands. Note that this is not using TLS, therefore there is less configuration needed.
This therefore gives you the ability to use both the SDKs, and the peer commands to interact with microfab.
Use with IBM Blockchain Platform Instance
It is recommended to use the Ansible IBP Collection to update, and maintain an IBP instance in production. Ansible tasks are available that can create identies, and deploy chaincodes. It produces the gateway connection profile as JSON that can be used directly in the application.
The identities are in the IBP json format. Import these into an application wallet as follows.
weft wallet import --wallet ./_wallets/ --mspid org1_msp_id --json ./newid_appid.json
# add the -c option if the wallet should be written for use with 1.4 sdks.
The peer commands don't really don't need to used in this case, as ansible should be used in preference for installing chaincode and registering ids.
With the fabric-samples test network
From a working directory (that doesn't have the fabric-samplesl repo already), eg ~/github.com/
run this
curl -sSL https://bit.ly/2ysbOFE | bash -s -- 2.2.1 1.4.9
Create the test network, it only really makes sense to create this with a Certificate Authority and CouchDB
cd ~/github.com/fabric-samples/test-network
./network.sh up createChannel -ca -s couchdb
If you've run this before, or any other version of this test-network, there is a chance that you might have left over docker volumes. These can cause 'odd-looking' errors. Run ./network.sh down
first to clean up anything that might left over.
Gateway Connection Profile
There are two gateway connection profiles created, these can be used directly by an application
ls "./organizations/peerOrganizations/org1.exampl.com/connection-org1.yaml"
ls "./organizations/peerOrganizations/org2.example.com/connection-org2.yaml"
To use the Peer Commands
Assuming that the testnetwork is defined something like this export TEST_NETWORK_DIR='...../fabric-samples/test-network'
then these environment variables will configure the peer commands to work with the test-network directly.
For Org1:
export CORE_PEER_ADDRESS="localhost:7051"
export CORE_PEER_LOCALMSPID="Org1MSP"
export CORE_PEER_MSPCONFIGPATH="$TEST_NETWORK_DIR/organizations/peerOrganizations/org1.example.com/users/Admin@org1.example.com/msp"
export CORE_PEER_TLS_ENABLED="true"
export CORE_PEER_TLS_ROOTCERT_FILE="$TEST_NETWORK_DIR/organizations/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt"
export ORDERER_CA="$TEST_NETWORK_DIR/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem"
For Org2:
export CORE_PEER_ADDRESS="localhost:9051"
export CORE_PEER_LOCALMSPID="Org2MSP"
export CORE_PEER_MSPCONFIGPATH="/$TEST_NETWORK_DIR/organizations/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp"
export CORE_PEER_TLS_ENABLED="true"
export CORE_PEER_TLS_ROOTCERT_FILE="$TEST_NETWORK_DIR/organizations/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt"
export ORDERER_CA="/$TEST_NETWORK_DIR/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem"
To get an application identity
To enroll the admin user for Org1, for example:
weft ca enroll --name FredBlogs --profile ./test-network/organizations/peerOrganizations/org1.example.com/connection-org1.json --wallet ./_cfg/_wallets/org1 --enrollid admin --enrollpwd adminpw -r
You can then register and enroll as many ids as needed
weft ca register --profile ./test-network/organizations/peerOrganizations/org1.example.com/connection-org1.json --wallet ./_cfg/_wallets/org1 --adminName admin --enrollid=FredBlogs
Fred can now be enrolled and then the identity used.
weft ca enroll --name FredBlogs --profile ./test-network/organizations/peerOrganizations/org1.example.com/connection-org1.json --wallet ./_cfg/_wallets/org1 --enrollid FredBlogs --enrollpwd <output from the register cmd> -r
Loading a connection profile
Simplifies loading either as a JSON or YAML file
import { Identities, Utility, Infrastructure } from '@hyperledgendary/weftility';
// filename can be of yaml or json file
const connectionProfile = Utility.getGatewayProfile(filename);