codex-contracts-eth/contracts/Marketplace.sol

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// SPDX-License-Identifier: MIT
pragma solidity ^0.8.0;
import "@openzeppelin/contracts/token/ERC20/IERC20.sol";
import "./Collateral.sol";
import "./Proofs.sol";
contract Marketplace is Collateral, Proofs {
uint256 public immutable collateral;
MarketplaceFunds private funds;
mapping(bytes32 => Request) private requests;
mapping(bytes32 => RequestContext) private requestContexts;
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mapping(bytes32 => Slot) private slots;
constructor(
IERC20 _token,
uint256 _collateral,
uint256 _proofPeriod,
uint256 _proofTimeout,
uint8 _proofDowntime
)
Collateral(_token)
Proofs(_proofPeriod, _proofTimeout, _proofDowntime)
marketplaceInvariant
{
collateral = _collateral;
}
function requestStorage(Request calldata request)
public
marketplaceInvariant
{
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require(request.client == msg.sender, "Invalid client address");
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bytes32 id = keccak256(abi.encode(request));
require(requests[id].client == address(0), "Request already exists");
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requests[id] = request;
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_createLock(id, request.expiry);
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uint256 amount = price(request);
funds.received += amount;
funds.balance += amount;
transferFrom(msg.sender, amount);
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emit StorageRequested(id, request.ask);
}
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function fillSlot(
bytes32 requestId,
uint256 slotIndex,
bytes calldata proof
) public marketplaceInvariant {
Request storage request = requests[requestId];
require(request.client != address(0), "Unknown request");
require(request.expiry > block.timestamp, "Request expired");
require(slotIndex < request.ask.slots, "Invalid slot");
RequestContext storage context = requestContexts[requestId];
// TODO: in the case of repair, update below require condition by adding
// || context.state == RequestState.Started
require(context.state == RequestState.New, "Invalid state");
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bytes32 slotId = keccak256(abi.encode(requestId, slotIndex));
Slot storage slot = slots[slotId];
require(slot.host == address(0), "Slot already filled");
require(balanceOf(msg.sender) >= collateral, "Insufficient collateral");
_lock(msg.sender, requestId);
_expectProofs(slotId, request.ask.proofProbability, request.ask.duration);
_submitProof(slotId, proof);
slot.host = msg.sender;
context.slotsFilled += 1;
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emit SlotFilled(requestId, slotIndex, slotId);
if (context.slotsFilled == request.ask.slots) {
context.state = RequestState.Started;
_extendLockExpiry(requestId, block.timestamp + request.ask.duration);
emit RequestFulfilled(requestId);
}
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}
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function payoutSlot(bytes32 requestId, uint256 slotIndex)
public
marketplaceInvariant
{
bytes32 slotId = keccak256(abi.encode(requestId, slotIndex));
require(block.timestamp > proofEnd(slotId), "Contract not ended");
Slot storage slot = slots[slotId];
require(slot.host != address(0), "Slot empty");
require(!slot.hostPaid, "Already paid");
uint256 amount = pricePerSlot(requests[requestId]);
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funds.sent += amount;
funds.balance -= amount;
slot.hostPaid = true;
require(token.transfer(slot.host, amount), "Payment failed");
}
/// @notice Withdraws storage request funds back to the client that deposited them.
/// @dev Request must be expired, must be in RequestState.New, and the transaction must originate from the depositer address.
/// @param requestId the id of the request
function withdrawFunds(bytes32 requestId) public marketplaceInvariant {
Request memory request = requests[requestId];
require(block.timestamp > request.expiry, "Request not yet timed out");
require(request.client == msg.sender, "Invalid client address");
RequestContext storage context = requestContexts[requestId];
require(context.state == RequestState.New, "Invalid state");
uint256 amount = _price(request);
funds.sent += amount;
funds.balance -= amount;
token.transfer(msg.sender, amount);
emit FundsWithdrawn(requestId);
// Update request state to Cancelled. Handle in the withdraw transaction
// as there needs to be someone to pay for the gas to update the state
context.state = RequestState.Cancelled;
emit RequestCancelled(requestId);
}
/// @notice Rseturn true if the request state is RequestState.Cancelled or if the request expiry time has elapsed and the request was never started.
/// @dev Handles the case when a request may have been cancelled, but the client has not withdrawn its funds yet, and therefore the state has not yet been updated.
/// @param requestId the id of the request
/// @return true if request is cancelled
function isCancelled(bytes32 requestId) public view returns (bool) {
RequestContext storage context = requestContexts[requestId];
return
context.state == RequestState.Cancelled ||
(
context.state == RequestState.New &&
block.timestamp > requests[requestId].expiry
);
}
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function _host(bytes32 slotId) internal view returns (address) {
return slots[slotId].host;
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}
function _request(bytes32 id) internal view returns (Request storage) {
return requests[id];
}
function proofPeriod() public view returns (uint256) {
return _period();
}
function proofTimeout() public view returns (uint256) {
return _timeout();
}
function proofEnd(bytes32 slotId) public view returns (uint256) {
return _end(slotId);
}
function _price(
uint64 numSlots,
uint256 duration,
uint256 reward) internal pure returns (uint256) {
return numSlots * duration * reward;
}
function _price(Request memory request) internal pure returns (uint256) {
return _price(request.ask.slots, request.ask.duration, request.ask.reward);
}
function price(Request calldata request) private pure returns (uint256) {
return _price(request.ask.slots, request.ask.duration, request.ask.reward);
}
function pricePerSlot(Request memory request) private pure returns (uint256) {
return request.ask.duration * request.ask.reward;
}
function state(bytes32 requestId) public view returns (RequestState) {
return requestContexts[requestId].state;
}
struct Request {
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address client;
Ask ask;
Content content;
uint256 expiry; // time at which this request expires
bytes32 nonce; // random nonce to differentiate between similar requests
}
struct Ask {
uint64 slots; // the number of requested slots
uint256 slotSize; // amount of storage per slot (in number of bytes)
uint256 duration; // how long content should be stored (in seconds)
uint256 proofProbability; // how often storage proofs are required
uint256 reward; // amount of tokens paid per second per slot to hosts
}
struct Content {
string cid; // content id (if part of a larger set, the chunk cid)
Erasure erasure; // Erasure coding attributes
PoR por; // Proof of Retrievability parameters
}
struct Erasure {
uint64 totalChunks; // the total number of chunks in the larger data set
}
struct PoR {
bytes u; // parameters u_1..u_s
bytes publicKey; // public key
bytes name; // random name
}
enum RequestState {
New, // [default] waiting to fill slots
Started, // all slots filled, accepting regular proofs
Cancelled, // not enough slots filled before expiry
Finished, // successfully completed
Failed // too many nodes have failed to provide proofs, data lost
}
struct RequestContext {
uint256 slotsFilled;
RequestState state;
}
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struct Slot {
address host;
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bool hostPaid;
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}
event StorageRequested(bytes32 requestId, Ask ask);
event RequestFulfilled(bytes32 indexed requestId);
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event SlotFilled(
bytes32 indexed requestId,
uint256 indexed slotIndex,
bytes32 indexed slotId
);
event RequestCancelled(bytes32 requestId);
event FundsWithdrawn(bytes32 requestId);
modifier marketplaceInvariant() {
MarketplaceFunds memory oldFunds = funds;
_;
assert(funds.received >= oldFunds.received);
assert(funds.sent >= oldFunds.sent);
assert(funds.received == funds.balance + funds.sent);
}
struct MarketplaceFunds {
uint256 balance;
uint256 received;
uint256 sent;
}
}