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State-based endorsement asset transfer sample

Transactions that are submitted to Hyperledger Fabric networks need to be endorsed by peers that are joined to a channel before the transaction can be added to the ledger. Fabric peers endorse transactions by executing a smart contract using the inputs of the transaction proposal. The peers then sign the input and output generated by the smart contract execution. The endorsement policy specifies the set of organizations whose peers need to endorse a transaction before it can be added to the ledger.

Each chaincode that is deployed to a channel has an endorsement policy that governs the assets managed by the chaincode smart contracts. However, you can override the chaincode level endorsement policy to create an endorsement policy for a specific key, either on the public channel ledger or in a private collection. State-based endorsement policies, also known as key-level endorsement policies, allow channel members to use different endorsement policies for assets that are managed by the same smart contract. For more information about endorsement policies and state-based endorsement, visit the Endorsement Policies topic in the Fabric documentation.

The implementation provided by State Based interface creates a policy which requires signatures from all the Org principals added, and hence is equivalent to an AND policy. For other advanced State Based policy implementations which are not supported by State Based interface directly like OR or NOutOf policies, please refer to method implementations setStateBasedEndorsementNOutOf(), which can be used as an alternative for setStateBasedEndorsement() inside asset-transfer-sbe smart contracts.

About the Sample

The state-based endorsement (SBE) asset transfer sample demonstrates how to use key-level endorsement policies to ensure that an asset only is endorsed by an asset owner. In the course of the tutorial, you will use the smart contract to complete the following transfer scenario:

  • Deploy the SBE smart contract to a channel that was created using the Fabric test network. The channel will have two members, Org1 and Org2, that will participate in the asset transfer. Each organization operates one peer that is joined to the channel.
  • Create an asset using the chaincode endorsement policy. The chaincode level endorsement policy requires that a majority of organizations on the channel endorse a transaction. This means that a transaction that creates an asset needs to be endorsed by peers that belong to Org1 and Org2. When the asset is created, the smart contract creates a state-based endorsement policy that specifies that only the organization that owns that asset may endorse update transactions. Because the asset is owned by Org1, any future updates to the asset need to be endorsed by the Org1 peer.
  • Update the asset by only endorsing with Org1, this will use the state-based endorsement policy applied to the asset when it was created by the chaincode.
  • Transfer the asset to Org2. During the execution of the transfer transaction, the chaincode will create a new state-based endorsement policy that reflects the new asset owner for the asset.
  • Update the asset once more, this time with Org2 as the owner. Because the state-based endorsement policy has been updated, this transaction only needs to be endorsed by Org2.

Deploy the smart contract

We are going to run the SBE smart contract using the Fabric test network. Open a command terminal and navigate to test network directory in your local clone of the fabric-samples. We will operate from the test-network directory for the remainder of the tutorial.

cd fabric-samples/test-network

Run the following command to deploy the test network and create a channel named mychannel:

./network.sh up createChannel

You can use the test network script to deploy the smart contract to the channel that was just created. The script uses the Fabric chaincode lifecycle to deploy the smart contract to the channel. We will use the default chaincode level endorsement policy used by the Fabric chaincode lifecycle, which requires an endorsement from a majority of channel members. In our case, this will require that both Org1 and Org2 endorse a transaction (2 of 2). Deploy the smart contract to mychannel using the following command:

./network.sh deployCC -ccn sbe -ccp ../asset-transfer-sbe/chaincode-typescript/ -ccl typescript

Set the following environment variables to interact with the network as a user from Org1:

export PATH=${PWD}/../bin:${PWD}:$PATH
export FABRIC_CFG_PATH=$PWD/../config/
export CORE_PEER_TLS_ENABLED=true
export CORE_PEER_LOCALMSPID="Org1MSP"
export CORE_PEER_MSPCONFIGPATH=${PWD}/organizations/peerOrganizations/org1.example.com/users/[email protected]/msp
export CORE_PEER_TLS_ROOTCERT_FILE=${PWD}/organizations/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt
export CORE_PEER_ADDRESS=localhost:7051

Run the transfer scenario

We can now invoke the SBE smart contract to create a new asset:

peer chaincode invoke -o localhost:7050 --waitForEvent --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" -C mychannel -n sbe --peerAddresses localhost:7051 --tlsRootCertFiles "${PWD}/organizations/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt" --peerAddresses localhost:9051 --tlsRootCertFiles "${PWD}/organizations/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt" -c '{"function":"CreateAsset","Args":["asset1","100","Org1User1"]}'

The create transaction needs to target both peers from Org1 and Org2 to meet the chaincode endorsement policy. The chaincode will read the MSP ID of the client user submitting the transaction and assign that organization as the asset owner. As a result, the asset will initially be owned by Org1.

You can query the asset using with the following command:

peer chaincode query -C mychannel -n sbe -c '{"Args":["ReadAsset","asset1"]}'

The result is a new asset owned by Org1, identified using the Org1 MSP ID Org1MSP: {"ID":"asset1","Value":100,"Owner":"Org1User1","OwnerOrg":"Org1MSP"}

In addition to creating the asset, the CreateAsset function also sets a state-based endorsement policy for the asset. Only a peer of the asset owner, can successfully endorse an asset update. To demonstrate the key-level endorsement policy, lets try to update the asset while targeting the Org2 peer:

peer chaincode invoke -o localhost:7050 --waitForEvent --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" -C mychannel -n sbe --peerAddresses localhost:9051 --tlsRootCertFiles "${PWD}/organizations/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt" -c '{"function":"UpdateAsset","Args":["asset1","200"]}'

The result is an endorsement policy failure:

Error: transaction invalidated with status (ENDORSEMENT_POLICY_FAILURE) - proposal response: <nil>

If we attempt to update the asset with an endorsement from the Org1 peer, the update succeeds:

peer chaincode invoke -o localhost:7050 --waitForEvent --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" -C mychannel -n sbe --peerAddresses localhost:7051 --tlsRootCertFiles "${PWD}/organizations/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt" -c '{"function":"UpdateAsset","Args":["asset1","200"]}'

You can query the asset one more time to verify that the update was successful:

peer chaincode query -C mychannel -n sbe -c '{"Args":["ReadAsset","asset1"]}'

The asset value is now 200:

{"ID":"asset1","Value":200,"Owner":"Org1User1","OwnerOrg":"Org1MSP"}

Now that we have tested the asset key-level endorsement policy, we can transfer the asset to Org2. Run the following command to transfer the asset from Org1 to Org2. This time the Org2 MSP ID is provided as a transaction input. The TransferAsset function will update the endorsement policy to specify that only a peer of the new owner can update the asset. Note that this command targets the Org1 peer.

peer chaincode invoke -o localhost:7050 --waitForEvent --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" -C mychannel -n sbe --peerAddresses localhost:7051 --tlsRootCertFiles "${PWD}/organizations/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt" -c '{"function":"TransferAsset","Args":["asset1","Org2User1","Org2MSP"]}'

We can query the asset to see that the owner has been updated from Org1 to Org2:

peer chaincode query -C mychannel -n sbe -c '{"Args":["ReadAsset","asset1"]}'

The owning organization is now Org2:

{"ID":"asset1","Value":200,"Owner":"Org2User1","OwnerOrg":"Org2MSP"}

Org2 now needs to endorse any asset updates. Run the following command to try to update the asset with an endorsement from the Org1 peer:

peer chaincode invoke -o localhost:7050 --waitForEvent --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" -C mychannel -n sbe --peerAddresses localhost:7051 --tlsRootCertFiles "${PWD}/organizations/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt" -c '{"function":"UpdateAsset","Args":["asset1","300"]}'

The response will be an endorsement policy failure:

Error: transaction invalidated with status (ENDORSEMENT_POLICY_FAILURE) - proposal response: <nil>

Now try to update the asset with an endorsement from the Org2 peer:

peer chaincode invoke -o localhost:7050 --waitForEvent --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" -C mychannel -n sbe --peerAddresses localhost:9051 --tlsRootCertFiles "${PWD}/organizations/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt" -c '{"function":"UpdateAsset","Args":["asset1","300"]}'

You can query the asset again to verify that the transaction update succeeded:

peer chaincode query -C mychannel -n sbe -c '{"Args":["ReadAsset","asset1"]}'

The asset value is now 300:

{"ID":"asset1","Value":300,"Owner":"Org2User1","OwnerOrg":"Org2MSP"}

Note that the transaction to update the asset was submitted by a user from Org1, even though the asset was owned by Org2. The transfer enabled by the SBE smart contract is a simple scenario meant only to demonstrate the use of state-based endorsement policies. The smart contract can use access control to specify that an asset can only be updated by its owner. Private data collections can also be used to ensure that transfers need to be endorsed by the owner and recipient of the transfer, instead of just the asset owner. For a more realistic example of an asset transfer scenario, see the Secured asset transfer in Fabric tutorial.

Clean up

When you are finished, you can bring down the test network. The command will remove all the nodes of the test network, and delete any ledger data that you created:

./network.sh down