183 lines
4.5 KiB
Markdown
183 lines
4.5 KiB
Markdown
Codex Contracts in Nim
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=======================
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Nim API for the [Codex smart contracts][1].
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Usage
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-----
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For a global overview of the steps involved in starting and fulfilling a
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storage contract, see [Codex Contracts][1].
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Smart contract
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--------------
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Connecting to the smart contract on an Ethereum node:
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```nim
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import codex/contracts
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import ethers
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let address = # fill in address where the contract was deployed
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let provider = JsonRpcProvider.new("ws://localhost:8545")
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let marketplace = Marketplace.new(address, provider)
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```
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Setup client and host so that they can sign transactions; here we use the first
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two accounts on the Ethereum node:
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```nim
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let accounts = await provider.listAccounts()
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let client = provider.getSigner(accounts[0])
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let host = provider.getSigner(accounts[1])
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```
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Collateral
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----------
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Hosts need to put up collateral before participating in storage contracts.
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A host can learn about the amount of collateral that is required:
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```nim
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let config = await marketplace.config()
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let collateral = config.collateral.initialAmount
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```
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The host then needs to prepare a payment to the smart contract by calling the
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`approve` method on the [ERC20 token][2]. Note that interaction with ERC20
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contracts is not part of this library.
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After preparing the payment, the host can deposit collateral:
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```nim
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await storage
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.connect(host)
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.deposit(collateral)
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```
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When a host is not participating in storage offers or contracts, it can withdraw
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its collateral:
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```
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await storage
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.connect(host)
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.withdraw()
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```
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Storage requests
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----------------
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Creating a request for storage:
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```nim
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let request : StorageRequest = (
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client: # address of the client requesting storage
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duration: # duration of the contract in seconds
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size: # size in bytes
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contentHash: # SHA256 hash of the content that's going to be stored
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proofProbability: # require a storage proof roughly once every N periods
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maxPrice: # maximum price the client is willing to pay
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expiry: # expiration time of the request (in unix time)
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nonce: # random nonce to differentiate between similar requests
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)
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```
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When a client wants to submit this request to the network, it needs to pay the
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maximum price to the smart contract in advance. The difference between the
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maximum price and the offered price will be reimbursed later. To prepare, the
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client needs to call the `approve` method on the [ERC20 token][2]. Note that
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interaction with ERC20 contracts is not part of this library.
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Once the payment has been prepared, the client can submit the request to the
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network:
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```nim
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await storage
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.connect(client)
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.requestStorage(request)
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```
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Storage offers
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--------------
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Creating a storage offer:
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```nim
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let offer: StorageOffer = (
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host: # address of the host that is offering storage
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requestId: request.id,
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price: # offered price (in number of tokens)
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expiry: # expiration time of the offer (in unix time)
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)
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```
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Hosts submits an offer:
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```nim
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await storage
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.connect(host)
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.offerStorage(offer)
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```
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Client selects an offer:
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```nim
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await storage
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.connect(client)
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.selectOffer(offer.id)
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```
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Starting and finishing a storage contract
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-----------------------------------------
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The host whose offer got selected can start the storage contract once it
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received the data that needs to be stored:
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```nim
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await storage
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.connect(host)
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.startContract(offer.id)
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```
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Once the storage contract is finished, the host can release payment:
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```nim
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await storage
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.connect(host)
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.finishContract(id)
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```
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Storage proofs
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--------------
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Time is divided into periods, and each period a storage proof may be required
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from the host. The odds of requiring a storage proof are negotiated through the
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storage request. For more details about the timing of storage proofs, please
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refer to the [design document][3].
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At the start of each period of time, the host can check whether a storage proof
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is required:
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```nim
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let isProofRequired = await storage.isProofRequired(offer.id)
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```
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If a proof is required, the host can submit it before the end of the period:
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```nim
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await storage
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.connect(host)
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.submitProof(id, proof)
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```
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If a proof is not submitted, then a validator can mark a proof as missing:
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```nim
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await storage
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.connect(validator)
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.markProofAsMissing(id, period)
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```
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[1]: https://github.com/status-im/codex-contracts-eth/
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[2]: https://ethereum.org/en/developers/docs/standards/tokens/erc-20/
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[3]: https://github.com/status-im/codex-research/blob/main/design/storage-proof-timing.md
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