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ERC-1155 Chaincode

This is a sample ERC-1155 chaincode written in Go.

ERC-20 is the standard for fungible tokens. ERC-721 is the standard for non-fungible tokens. ERC-1155 is the standard for multiple tokens (both fungible and non-fungible). More information about the ERC-1155 standard can be found here.

Architecture

This implementation aims for high throughput by minimizing key collisions. The balance of accounts is distributed over multiple keys. The token transfers can be batched using the batched versions of functions (e.g. BatchTransferFrom, BalanceOfBatch). Since ERC-1155 is account-based, the interface of the chaincode is account-based. However, since the balances are distributed over multiple keys, the chaincode has a model similar to a UTXO-based chaincode internally.

In this chaincode, one organization has a minter/burner role just like in the ERC-20 example in this repository.

Functions Implemented

The following required functions of ERC-1155 are implemented:

  • safeTransferFrom
  • safeBatchTransferFrom
  • balanceOf
  • balanceOfBatch
  • setApprovalForAll
  • isApprovedForAll

Note: The "safe" prefix is omitted from "TransferFrom" in the implementation because the prefix is related to some issue about backwards compatibility with older smart contracts in Ethereum.

Note: TransferFrom is used to send a single token type between two users. BatchTransferFrom is used to send multiple tokens between two users. So, BatchTransferFrom is a more general form of TransferFrom. Ethereum defined two functions instead of one because this reduces gas costs. Since there is no gas cost in Fabric, implementing these two functions is unnecessary. Nevertheless, both of them are implemented to to conform the ERC-1155 standard.

Additional Functions Implemented

The following additional functions are also implemented. The following paragraphs give the reasoning behind adding these functions:

  • Optional Metadata URI extension: Defined in ERC-1155 but not required. Allows one to set a URI for tokens and get the URI.
    • SetURI
    • URI
  • Mint/Burn extension: Although Mint / Burn are not required, they are necessary to change the supply of tokens, create new fungible or non-fungible tokens. In a real implementation, they will be implemented unless the supply of the tokens is fixed beforehand. MintBatch / BurnBatch is only implemented to complement the TransferFrom/BatchTransferFrom. Actually, using only MintBatch and BurnBatch would be enough.
    • Mint
    • MintBatch
    • Burn
    • BurnBatch
  • Extra/utility functions
    • BatchTransferFromMultiRecipient: This is not defined in the standard. We created this function to solve an issue we encountered. It is only required if a person wants to send tokens to multiple persons in a blockchain block. If a person doesn't use this function and create two transactions in a single block, there will be key conflicts because the chaincode will try to decrement the balance of the sender twice in a block and this causes a key conflict in Fabric just like explained in here. This problem does not exist in Ethereum because, in Ethereum, the transactions are ordered before they are executed.
    • BroadcastTokenExistence: Explained in ERC-1155 but it is not required. It is only used if a token minter wants to announce the existence of a token without minting it.
    • ClientAccountID: This function is special for Fabric because we do not have wallet addresses in Fabric and users need to know their account ID to transfer tokens.
    • ClientAccountBalance: A shorthand for BalanceOf function.

Example Usage

Launch test network

Open a command terminal and navigate to the test network directory.

cd fabric-samples/test-network

Clean up the existing network if you have any.

./network.sh down

Start test network

./network.sh up createChannel -ca

Deploy chaincode

Deploy ERC-1155 chaincode.

./network.sh deployCC -ccn erc1155 -ccp ../token-erc-1155/chaincode-go/ -ccl go

Register identities

In this example, there are two organizations (org). We will register new identities using the Org1 and Org2 Certificate Authorities (CA's), and then use the CA's to generate each identity's certificate and private key.

We need to set the following environment variables to use the Fabric CA client (and subsequent commands). The first command sets Fabric config path. The second command adds Fabric CLI utilities to path.

export FABRIC_CFG_PATH=${PWD}/../config/
export PATH=${PWD}/../bin:$PATH

The terminal we have been using will represent Org1. We will use the Org1 CA to create a new identity. Set the Fabric CA client home to the MSP of the Org1 CA admin (this identity was generated by the test network script).

export FABRIC_CA_CLIENT_HOME=${PWD}/organizations/peerOrganizations/org1.example.com/

Register Person1 identity to Org1.

fabric-ca-client register --caname ca-org1 --id.name person1 --id.secret person1pw --id.type client --tls.certfiles "${PWD}/organizations/fabric-ca/org1/tls-cert.pem"

Generate the identity certificates and MSP folder.

fabric-ca-client enroll -u https://person1:person1pw@localhost:7054 --caname ca-org1 -M "${PWD}/organizations/peerOrganizations/org1.example.com/users/[email protected]/msp" --tls.certfiles "${PWD}/organizations/fabric-ca/org1/tls-cert.pem"

Copy the Node OU configuration file into the identity MSP folder.

cp "${PWD}/organizations/peerOrganizations/org1.example.com/msp/config.yaml" "${PWD}/organizations/peerOrganizations/org1.example.com/users/[email protected]/msp/config.yaml"

Open a new terminal to represent Org2 and navigate to fabric-samples/test-network. We'll use the Org2 CA to create the Org2 identities. Set the Fabric CA client home to the MSP of the Org2 CA admin.

cd fabric-samples/test-network
export FABRIC_CFG_PATH=${PWD}/../config/
export PATH=${PWD}/../bin:$PATH
export FABRIC_CA_CLIENT_HOME=${PWD}/organizations/peerOrganizations/org2.example.com/

Register Person2, Person3, Person4, Person5 to Org2.

fabric-ca-client register --caname ca-org2 --id.name person2 --id.secret person2pw --id.type client --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
fabric-ca-client enroll -u https://person2:person2pw@localhost:8054 --caname ca-org2 -M "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp" --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
cp "${PWD}/organizations/peerOrganizations/org2.example.com/msp/config.yaml" "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp/config.yaml"

fabric-ca-client register --caname ca-org2 --id.name person3 --id.secret person3pw --id.type client --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
fabric-ca-client enroll -u https://person3:person3pw@localhost:8054 --caname ca-org2 -M "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp" --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
cp "${PWD}/organizations/peerOrganizations/org2.example.com/msp/config.yaml" "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp/config.yaml"

fabric-ca-client register --caname ca-org2 --id.name person4 --id.secret person4pw --id.type client --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
fabric-ca-client enroll -u https://person4:person4pw@localhost:8054 --caname ca-org2 -M "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp" --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
cp "${PWD}/organizations/peerOrganizations/org2.example.com/msp/config.yaml" "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp/config.yaml"

fabric-ca-client register --caname ca-org2 --id.name person5 --id.secret person5pw --id.type client --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
fabric-ca-client enroll -u https://person5:person5pw@localhost:8054 --caname ca-org2 -M "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp" --tls.certfiles "${PWD}/organizations/fabric-ca/org2/tls-cert.pem"
cp "${PWD}/organizations/peerOrganizations/org2.example.com/msp/config.yaml" "${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp/config.yaml"

Initialize the contract

Once we created the identity of the minter we can now initialize the contract. Note that we need to call the initialize function before being able to use any functions of the contract. Initialize() can be called only once.

Shift back to the Org1 terminal, we'll set the following environment variables to operate the peer CLI as the minter identity from Org1.

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
export TARGET_TLS_OPTIONS=(-o localhost:7050 --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" --peerAddresses localhost:7051 --tlsRootCertFiles "${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")```

We can then invoke the smart contract to initialize it:
```bash
peer chaincode invoke "${TARGET_TLS_OPTIONS[@]}" -C mychannel -n erc1155 -c '{"function":"Initialize","Args":["some name", "some symbol"]}'

Get account ID

Now, get client account ID for Person1.

peer chaincode query -C mychannel -n erc1155 -c '{"function":"ClientAccountID","Args":[]}'
eDUwOTo6Q049cGVyc29uMSxPVT1jbGllbnQsTz1IeXBlcmxlZGdlcixTVD1Ob3J0aCBDYXJvbGluYSxDPVVTOjpDTj1jYS5vcmcxLmV4YW1wbGUuY29tLE89b3JnMS5leGFtcGxlLmNvbSxMPUR1cmhhbSxTVD1Ob3J0aCBDYXJvbGluYSxDPVVT

Client Account ID is a base64-encoded concatenation of the issuer and subject from the client identity's enrolment certificate. You can decode it with the following command:

echo "eDUwOTo6Q049cGVyc29uMSxPVT1jbGllbnQsTz1IeXBlcmxlZGdlcixTVD1Ob3J0aCBDYXJvbGluYSxDPVVTOjpDTj1jYS5vcmcxLmV4YW1wbGUuY29tLE89b3JnMS5leGFtcGxlLmNvbSxMPUR1cmhhbSxTVD1Ob3J0aCBDYXJvbGluYSxDPVVT" | base64 --decode
x509::CN=person1,OU=client,O=Hyperledger,ST=North Carolina,C=US::CN=ca.org1.example.com,O=org1.example.com,L=Durham,ST=North Carolina,C=US

Set the client account IDs as environment variables on both of the terminals to make the subsequent commands more readable.

export P1="eDUwOTo6Q049cGVyc29uMSxPVT1jbGllbnQsTz1IeXBlcmxlZGdlcixTVD1Ob3J0aCBDYXJvbGluYSxDPVVTOjpDTj1jYS5vcmcxLmV4YW1wbGUuY29tLE89b3JnMS5leGFtcGxlLmNvbSxMPUR1cmhhbSxTVD1Ob3J0aCBDYXJvbGluYSxDPVVT"
export P2="eDUwOTo6Q049cGVyc29uMixPVT1jbGllbnQsTz1IeXBlcmxlZGdlcixTVD1Ob3J0aCBDYXJvbGluYSxDPVVTOjpDTj1jYS5vcmcyLmV4YW1wbGUuY29tLE89b3JnMi5leGFtcGxlLmNvbSxMPUh1cnNsZXksU1Q9SGFtcHNoaXJlLEM9VUs="
export P3="eDUwOTo6Q049cGVyc29uMyxPVT1jbGllbnQsTz1IeXBlcmxlZGdlcixTVD1Ob3J0aCBDYXJvbGluYSxDPVVTOjpDTj1jYS5vcmcyLmV4YW1wbGUuY29tLE89b3JnMi5leGFtcGxlLmNvbSxMPUh1cnNsZXksU1Q9SGFtcHNoaXJlLEM9VUs="
export P4="eDUwOTo6Q049cGVyc29uNCxPVT1jbGllbnQsTz1IeXBlcmxlZGdlcixTVD1Ob3J0aCBDYXJvbGluYSxDPVVTOjpDTj1jYS5vcmcyLmV4YW1wbGUuY29tLE89b3JnMi5leGFtcGxlLmNvbSxMPUh1cnNsZXksU1Q9SGFtcHNoaXJlLEM9VUs="
export P5="eDUwOTo6Q049cGVyc29uNSxPVT1jbGllbnQsTz1IeXBlcmxlZGdlcixTVD1Ob3J0aCBDYXJvbGluYSxDPVVTOjpDTj1jYS5vcmcyLmV4YW1wbGUuY29tLE89b3JnMi5leGFtcGxlLmNvbSxMPUh1cnNsZXksU1Q9SGFtcHNoaXJlLEM9VUs="

Mint tokens

Mint tokens by calling the MintBatch function in order to create 100 token1s, 200 token2s, 300 token3s, 150 token4s, 100 token5s, 100 token6s as Person P1 from organization 1.

peer chaincode invoke "${TARGET_TLS_OPTIONS[@]}" -C mychannel -n erc1155 -c "{\"function\":\"MintBatch\",\"Args\":[\"$P1\",\"[1,2,3,4,5,6]\",\"[100,200,300,150,100,100]\"]}" --waitForEvent

Query the tokens of Person1.

peer chaincode query -C mychannel -n erc1155 -c "{\"function\":\"BalanceOfBatch\",\"Args\":[\"[\\\"$P1\\\",\\\"$P1\\\",\\\"$P1\\\",\\\"$P1\\\",\\\"$P1\\\",\\\"$P1\\\"]\",\"[1,2,3,4,5,6]\"]}"
[100,200,300,150,100,100]

Side note: There may seem too many slashes in the previous command. It double escapes the quotes. One escape is to be able to use quotes in the -c argument of the command. The second escape is necessary to pass the account IDs as an array. Quote is needed since the elements of the array are strings.

Transfer tokens

TransferFrom

Send Person P2 six token3s by calling TransferFrom as Person P1.

peer chaincode invoke "${TARGET_TLS_OPTIONS[@]}" -C mychannel -n erc1155 -c "{\"function\":\"TransferFrom\",\"Args\":[\"$P1\",\"$P2\",\"3\",\"6\"]}" --waitForEvent

Get the new Balance of Person1 for token3.

peer chaincode query -C mychannel -n erc1155 -c "{\"function\":\"BalanceOf\",\"Args\":[\"$P1\",\"3\"]}"
294

Switch to the Org2 terminal and set the following environment variables.

export FABRIC_CFG_PATH=$PWD/../config/
export CORE_PEER_TLS_ENABLED=true
export CORE_PEER_LOCALMSPID="Org2MSP"
export CORE_PEER_MSPCONFIGPATH=${PWD}/organizations/peerOrganizations/org2.example.com/users/[email protected]/msp
export CORE_PEER_TLS_ROOTCERT_FILE=${PWD}/organizations/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt
export CORE_PEER_ADDRESS=localhost:9051
export TARGET_TLS_OPTIONS=(-o localhost:7050 --ordererTLSHostnameOverride orderer.example.com --tls --cafile "${PWD}/organizations/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem" --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")

Get the new balance of Person2 for token3.

peer chaincode query -C mychannel -n erc1155 -c "{\"function\":\"BalanceOf\",\"Args\":[\"$P2\",\"3\"]}"
6

BatchTransferFrom

Switch to the Org1 terminal.

Send Person P2 six token3s, three token4s, and one token2s by calling BatchTransferFrom as Person P1.

peer chaincode invoke "${TARGET_TLS_OPTIONS[@]}" -C mychannel -n erc1155 -c "{\"function\":\"BatchTransferFrom\",\"Args\":[\"$P1\",\"$P2\",\"[3,4,2]\",\"[6,3,1]\"]}" --waitForEvent

BatchTransferFromMultiReceipent

Call BatchTransferFromMultiReceipent as Person1 in order to send:

  • six token5s to person P3,
  • six token3s to person P4,
  • three token4s to person P2,
  • two token2s to person P5,
  • and three token6s to person P2.
peer chaincode invoke "${TARGET_TLS_OPTIONS[@]}" -C mychannel -n erc1155 -c "{\"function\":\"BatchTransferFromMultiRecipient\",\"Args\":[\"$P1\",\"[\\\"$P3\\\",\\\"$P4\\\",\\\"$P2\\\",\\\"$P5\\\",\\\"$P2\\\"]\",\"[5,3,4,2,6]\",\"[6,6,3,2,3]\"]}" --waitForEvent

Clean up

When you are finished, you can bring down the test network. This command will bring down the CAs, peers, and ordering node of the network that you created.

./network.sh down

Acknowledgement

This work has been carried out at Boğaziçi University and has received funding from the European Union’s Horizon 2020 Research and Innovation programme under Grant Agreement No. 856632.