Rarible Multichain Protocol is a decentralized toolset that simplifies the way developers can work with NFTs. The protocol builds an abstraction layer for several blockchains and isolates the developer from their specifics with a Multichain SDK.
Rarible Multichain SDK is fully blockchain-agnostic. You can find a list of supported blockchains on our Blockchains page.
We use different environments for blockchain networks. See actual information on Reference page.
Rarible Multichain SDK enables applications to easily interact with Rarible Protocol: query, transfer and trade NFTs on any blockchain supported. See more information on our documentation Reference section.
- Example frontend app
- Installation and getting started
- Methods
- Using SDK on server application
- API
- Troubleshooting
You can find documentation about example app here Example app shows how to do basic NFT actions:
- Create collection
- Mint an NFT
- List an NFT for sale
- Buy an NFT
- etc
You also can find Typescript (.ts) examples in that folder
for the frontend and backend side
You can find this information on our Getting Started with SDK Reference page
IMPORTANT: since 0.13.69 version we've started migration from 1.* version to 4.* of Web3 library.
- Web3@1. * Users still can use @rarible/web3-ethereum package for Web3 v1, but it's not compatible with older major versions (like v2, v3, v4 and etc.)
- Web3@4. * For using 4.* version of web3 we created @rarible/web3-v4-ethereum package.
You should specify "defaultTransactionType" property during initialization of Web3@4.* instance. It helps web3 to calculate transaction fees. Set defaultTransactionType: undefined if you want to disable fee calculating by Web3 and let your provider do it.
(see Web3 config guide and different tx types) to provide information about actual transaction type in the current network.
import { Web3v4Ethereum, Web3 } from "@rarible/web3-v4-ethereum"
const web3 = new Web3(...)
web3.setConfig({ defaultTransactionType: "0x0" | "0x1" | "0x2" | undefined }) // Legacy | EIP-2930 | EIP-1559 | not specified
const ethereumWallet = new Web3v4Ethereum({ web3 })
const sdk = createRaribleSdk(ethereumWallet, "prod", { apiKey: "YOUR_API_KEY" })
How to get the API key read on https://rarible.org.
Wallet Connector make possible to connect the following providers:
- InjectedWeb3ConnectionProvider — Metamask, Coinbase, etc
- FortmaticConnectionProvider
- PortisConnectionProvider
- TorusConnectionProvider
- WalletLinkConnectionProvider
- MEWConnectionProvider
- IframeConnectionProvider
- WalletConnectConnectionProvider
- BeaconConnectionProvider
- FclConnectionProvider
Read more about installation and using examples of Rarible SDK Wallet Connector. Connectors are used in Frontend example app
When you initialized Rarible SDK with required provider (see Installation section) it's ready for using.
Most methods have two ways to call, simple and advanced. The advanced methods consists of two stages: preparation and submit, and gives more information and control to complete the transaction. Example of sell NFT with simple and advanced ways:
// Simple
const orderId = await sdk.order.sell({
itemId: toItemId("ETHEREUM:0x64f088254d7ede5dd6208639aabf3614c80d396d:108764404607684442395098549286597885532295288457125436143364084161803586633729"),
amount: 1,
price: "0.1",
currency: {
"@type": "ERC20",
contract: toContractAddress("ETHEREUM:0x9f853f3B6a9dD425F8Cf73eF5B90e8eBf412317b"),
}
})
or
// Advanced
const {
originFeeSupport, // Whether the underlying exchange contract supports origin fees
payoutsSupport, // Whether the underlying exchange contract supports specifying payouts
supportedCurrencies, // Currencies supported by the blockchain
baseFee, // Protocol base fee in basis points
supportsExpirationDate, // Whether the expiration date
submit
} = await sdk.order.sell.prepare({
itemId: toItemId("ETHEREUM:0x64f088254d7ede5dd6208639aabf3614c80d396d:108764404607684442395098549286597885532295288457125436143364084161803586633729"),
})
// `prepare` returns `submit` method and some usefull data like available features for this call for this blockchain/collection/item
const orderId = await submit({
amount: 1,
price: "0.1",
currency: {
"@type": "ERC20",
contract: toContractAddress("ETHEREUM:0x9f853f3B6a9dD425F8Cf73eF5B90e8eBf412317b"),
},
})
Before minting an NFT you might want to prepare collection for it.
const { address, tx } = await sdk.nft.createCollection({
blockchain: Blockchain.ETHEREUM,
type: "ERC721",
name: "name",
symbol: "RARI",
baseURI: "https://ipfs.rarible.com",
contractURI: "https://ipfs.rarible.com",
isPublic: true,
})
const { address, tx } = await sdk.nft.createCollection({
blockchain: Blockchain.SOLANA,
metadataURI: "https://arweave.net/Vt0uj2ql0ck-U5dLWDWJnwQaZPrvqkfxils8agrTiOc",
})
More information about solana metadata format
const { address, tx } = await sdk.nft.createCollection({
blockchain: Blockchain.TEZOS,
type: "NFT",
name: "My NFT collection",
symbol: "MYNFT",
contractURI: "https://ipfs.io/ipfs/QmTKxwnqqxTxH4HE3UVM9yoJFZgbsZ8CuqqRFZCSWBF53m",
isPublic: true,
})
const { transaction, itemId } = await sdk.nft.mint({
uri: "ipfs://IPFS_METADATA_URI",
collectionId: toCollectionId("ETHEREUM:0x..."),
})
const { hash, blockchain } = await transaction.wait()
const { transaction, itemId } = await sdk.nft.mint({
collectionId: toCollectionId("SOLANA:..."),
uri: "https://SOLANA_METADATA_URI",
})
const { hash, blockchain } = await transaction.wait()
const { transaction, itemId } = await sdk.nft.mint({
collectionId: toCollectionId("TEZOS:..."),
uri: "ipfs://TEZOS_IPFS_METADATA_URI",
supply: 12,
royalties: [{
account: toUnionAddress("TEZOS:..."),
value: 1000,
}],
creators: [{
account: toUnionAddress("TEZOS:..."),
value: 10000,
}],
})
const { hash, blockchain } = await transaction.wait()
const { itemId, transaction } = await sdk.nft.mint({
collectionId: toCollectionId("FLOW:..."),
uri: "https://FLOW_METADATA_URI",
})
const { hash, blockchain } = await transaction.wait()
Notice: this method has an advanced call
sdk.nft.mint.prepare(...)
const {
multiple, // it's multiple collection, like ERC-1155, TEZOS-MT and etc.
supportsRoyalties,
supportsLazyMint,
submit
} = await sdk.nft.mint.prepare({
collectionId: toCollectionId("TEZOS:..."),
})
const mintResult = await submit({
uri: "ipfs://IPFS_METADATA_URI",
supply: 1,
creators: [{
account: sender,
value: 10000,
}],
royalties: [],
lazyMint: false,
})
if (mintResult.type === MintType.ON_CHAIN) {
const transaction = await mintResult.transaction.wait()
console.log("minted item id:", mintResult.itemId)
}
Transfer token to another wallet.
const tx = await sdk.nft.transfer({
itemId: toItemId("YOUR_ITEM_ID"),
to: toUnionAddress("DESTINATION_WALLET_ADDRESS"),
amount: 1,
})
await tx.wait()
Notice: this method has an advanced call
sdk.nft.transfer.prepare(...)
const {
submit,
maxAmount, // max amount of NFT
multiple, // it's multiple token, like ERC-1155, TEZOS-MT and etc.
} = await sdk.nft.transfer.prepare({
itemId: toItemId("YOUR_ITEM_ID"),
})
const tx = await submit({
to: toUnionAddress("DESTINATION_WALLET_ADDRESS"),
amount: 1,
})
await tx.wait()
Burning an NFT
const tx = await sdk.nft.burn({
itemId: toItemId("YOUR_ITEM_ID"),
amount: 1,
})
//tx can be undefined if burned item is lazy-minted
if (tx) {
await tx.wait()
}
Notice: this method has an advanced call
sdk.nft.burn.prepare(...)
const {
submit,
multiple, // it's multiple token, like ERC-1155, TEZOS-MT and etc.
maxAmount, // max amount of NFT
} = await sdk.nft.burn.prepare({
itemId: toItemId("YOUR_ITEM_ID"),
})
const tx = await submit({ amount: 1})
//tx can be undefined if burned item is lazy-minted
if (tx) {
await tx.wait()
}
Selling NFT
const orderId = await sdk.order.sell({
itemId: toItemId("YOUR_ITEM_ID"),
amount: 1,
price: "0.01",
currency: toCurrencyId("ETHEREUM:..."),
})
Notice: this method has an advanced call
sdk.order.sell.prepare(...)
const {
submit,
originFeeSupport,
payoutsSupport,
supportedCurrencies,
baseFee,
supportsExpirationDate,
} = await sdk.order.sell({ itemId: toItemId("YOUR_ITEM_ID") })
const orderId = await submit({
amount: 1,
price: "0.01",
currency: toCurrencyId("ETHEREUM:..."),
})
Buy NFT using sell order
const tx = await sdk.order.buy({
orderId: toOrderId("..."),
amount: 1,
})
await tx.wait()
Notice: this method has an advanced call
sdk.order.buy.prepare(...)
const {
submit,
maxAmount,
baseFee,
originFeeSupport,
payoutsSupport,
supportsPartialFill
} = await sdk.order.buy.prepare({ orderId: toOrderId("...") })
const tx = await submit({ amount: 1 })
await tx.wait()
Batch purchase NFT
const tx = await sdk.order.batchBuy([
{
orderId: toOrderId("..."),
amount: 1,
originFees?: [...]
},
//...
])
await tx.wait()
Place bid order for an NFT
const orderId = await sdk.order.bid({
itemId: toItemId("..."),
amount: 1,
price,
currency: { "@type": "ETH" },
})
Notice: this method has an advanced call
sdk.order.bid.prepare(...)
const {
submit,
originFeeSupport,
payoutsSupport,
supportedCurrencies,
multiple,
maxAmount,
baseFee,
getConvertableValue,
supportsExpirationDate,
} = await sdk.order.bid.prepare({ itemId: toItemId("...") })
const tx = await submit({
amount: 1,
price: "0.01",
currency: { "@type": "ETH" },
})
await tx.wait()
Accept bid request using bid order
const acceptBidTx = await sdk.order.acceptBid({
orderId: toOrderId("..."),
amount: 1,
})
await acceptBidTx.wait()
Notice: this method has an advanced call
sdk.order.acceptBid.prepare(...)
const {
submit,
maxAmount,
baseFee,
originFeeSupport,
payoutsSupport,
supportsPartialFill
} = await sdk.order.acceptBid.prepare({
orderId: toOrderId("..."),
})
const tx = await submit({ amount: 1 })
await tx.wait()
Update price for given sell order
const orderId = sdk.order.sellUpdate({
orderId: toOrderId("..."),
price: "0.2",
})
Notice: this method has an advanced call
sdk.order.sellUpdate.prepare(..)
const {
submit,
} = sdk.order.sellUpdate.prepare({
orderId: toOrderId("..."),
})
const updatedOrderId = await submit({ price: "0.2" })
Update price for given bid order
const orderId = sdk.order.bidUpdate({
orderId: toOrderId("..."),
price: "0.2",
})
Notice: this method has an advanced call
sdk.order.bidUpdate.prepare()
const {
submit,
originFeeSupport,
payoutsSupport,
supportedCurrencies,
baseFee
} = sdk.order.bidUpdate.prepare({ orderId: toOrderId("...") })
const updatedOrderid = await submit({ price: "0.2" })
const tx = await sdk.order.cancel({ orderId: toOrderId("...") })
await tx.wait()
Get native currency, tokens or NFT balance
// get balance for native currency
const balance = await sdk.balances.getBalance(
toUnionAddress("ETHEREUM:..."),
{ "@type": "ETH" }
)
// get balance for ntf/tokens
const balanceTokens = await sdk.balances.getBalance(
toUnionAddress("SOLANA:2XyukL1KvwDkfNcdBpfXbj6UtPqF7zcUdTDURNjLFAMo"), // wallet address
toCurrencyId("SOLANA:9bDqoTDNmjA3m9sFYBNj5pPWpsjKXa23V7mCW6gA74Vy") // contract/token address
)
Get balance used for complete bids
sdk.balances.getBiddingBalance({
currency: { "@type": "SOLANA_SOL" },
walletAddress: toUnionAddress("SOLANA:..."),
})
Deposit bidding balance
const tx = await sdk.balances.depositBiddingBalance({
currency: { "@type": "SOLANA_SOL" },
amount: 0.01,
})
Withdraw from bidding balance
const tx = await sdk.balances.withdrawBiddingBalance({
currency: { "@type": "SOLANA_SOL" },
amount: 0.01,
})
You can find more information in our docs
Check our Using API page in the docs
You can use SDK to create (mint), trade, transfer, and burn NFTs. All actions are handled in the same manner:
- You invoke function from SDK (e.g.: mint)
- Async function returns the so-called PrepareResponse (it's different for different actions)
- PrepareResponse contains all needed information to show the user a form (for example, response for sale contains all supported currency types)
- Collect input from the user (show form and let the user enter the data)
- Pass this data to submit Action
See how to use common SDK functionality in our documentation:
- Quick Start
- Create collection
- Mint NFT
- Sell NFTs
- Mint and Sell
- Create and Accept Bid
- Transfer tokens
- Burn tokens
- Get wallet balance
- Contract Addresses
- Search Capabilities
Possible errors after yarn add @rarible/sdk
command:
Failed to replace env in config: ${NPM_TOKEN}
error An unexpected error occurred: "Failed to replace env in config: ${NPM_TOKEN}".
Solution
Type in the command line while in the project folder:
rm -f ./.npmrc
Adding the dependency to the workspace
error Running this command will add the dependency to the workspace root rather than the workspace itself, which might not be what you want - if you really meant it, make it explicit by running this command again with the -W flag (or --ignore-workspace-root-check).
Solution
Type in the command line while in the project folder:
yarn add @rarible/sdk -D -W
darwin-arm64.tar.gz downloading error
...
node-pre-gyp info it worked if it ends with ok
node-pre-gyp info using node-pre-gyp@0.13.0
node-pre-gyp info using node@16.13.1 | darwin | arm64
node-pre-gyp WARN Using request for node-pre-gyp https download
...
node-pre-gyp http GET https://node-webrtc.s3.amazonaws.com/wrtc/v0.4.7/Release/darwin-arm64.tar.gz
node-pre-gyp http 404 https://node-webrtc.s3.amazonaws.com/wrtc/v0.4.7/Release/darwin-arm64.tar.gz
node-pre-gyp ERR! install error
node-pre-gyp ERR! stack Error: 404 status code downloading tarball https://node-webrtc.s3.amazonaws.com/wrtc/v0.4.7/Release/darwin-arm64.tar.gz
...
Solution
Type in the command line while in the project folder:
sudo npm install -g n
sudo n 14.17.6
For migration your code to version since 0.10.* you should change the following functions:
before 0.10.0 | since 0.10.0 |
---|---|
sdk.nft.mint(...) | sdk.nft.mint.prepare(...) |
sdk.nft.transfer(...) | sdk.nft.transfer.prepare(...) |
sdk.nft.burn(...) | sdk.nft.burn.prepare(...) |
sdk.order.sell(...) | sdk.order.sell.prepare(...) |
sdk.order.sellUpdate(...) | sdk.order.sellUpdate.prepare(...) |
sdk.order.buy(...) | sdk.order.buy.prepare(...) |
sdk.order.bid(...) | sdk.order.bid.prepare(...) |
sdk.order.acceptBid(...) | sdk.order.acceptBid.prepare(...) |
sdk.order.bidUpdate(...) | sdk.order.bidUpdate.prepare(...) |
All of methods above supports simplified call signature, for example:
const { transaction, itemId } = await sdk.nft.mint({
uri: "ipfs://IPFS_METADATA_URI",
collectionId: toCollectionId("ETHEREUM:0x..."),
})
const { hash, blockchain } = await transaction.wait()
the same code, but with the legacy approach:
const mintResponse = await sdk.nft.mint.prepare({
collectionId: toCollectionId("ETHEREUM:..."),
})
const mintResult = await mintResponse.submit({
uri: "ipfs://IPFS_METADATA_URI",
supply: 1,
creators: [{
account: sender,
value: 10000,
}],
royalties: [],
lazyMint: false,
})
Read more about advanced and simplified calls
- sdk.nft.createCollection has updated call signature
const { address, tx } = await sdk.nft.createCollection({
blockchain: Blockchain.ETHEREUM,
type: "ERC721",
name: "name",
symbol: "RARI",
baseURI: "https://ipfs.rarible.com",
contractURI: "https://ipfs.rarible.com",
isPublic: true,
})
The legacy property "isUserToken" that means is private user collection will be created. It should be inverted to the new property "isPublic", for example:
const { address, tx } = await sdk.nft.createCollection({
//...
isUserToken: true,
//...
})
it should be converted to
const { address, tx } = await sdk.nft.createCollection({
//...
isPublic: false,
//...
})
- sdk.order.cancel(...) has the same call signature, but changed from "Action" instance to simple javascript function.
You are welcome to suggest features and report bugs found!
The codebase is maintained using the "contributor workflow" where everyone without exception contributes patch proposals using "pull requests" (PRs). This facilitates social contribution, easy testing, and peer review.
See more information on CONTRIBUTING.md.
Rarible Multichain SDK is available under the MIT License.
This is a pre-release version. Backward compatibility is not fully supported before 1.0 release. Backward compatibility is only guaranteed in minor releases.
For example, 0.2.x version may not be compatible with 0.1.x. So, it's advised to include dependencies using package versions (ex. rarible/sdk@0.2.x).