ETH Price: $3,600.69 (+5.10%)

Contract

0x182EBF4C80B28efc45AD992ecBb9f730e31e8c7F
 

Overview

ETH Balance

0 ETH

Eth Value

$0.00

Token Holdings

Multichain Info

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Transaction Hash
Method
Block
From
To
Generate73834042019-03-17 0:51:342083 days ago1552783894IN
Livepeer: Multi Merkle Mine
0 ETH0.0005066220
Generate73832552019-03-17 0:16:332083 days ago1552781793IN
Livepeer: Multi Merkle Mine
0 ETH0.000504820
Transfer72051232019-02-11 3:25:172117 days ago1549855517IN
Livepeer: Multi Merkle Mine
0 ETH0.000157847.5
Multi Generate65395712018-10-18 18:24:362232 days ago1539887076IN
Livepeer: Multi Merkle Mine
0 ETH0.0189542816
Multi Generate65395632018-10-18 18:22:352232 days ago1539886955IN
Livepeer: Multi Merkle Mine
0 ETH0.003830323.3
Multi Generate65070092018-10-13 11:13:522237 days ago1539429232IN
Livepeer: Multi Merkle Mine
0 ETH0.001894911.6
Multi Generate65069922018-10-13 11:09:062237 days ago1539428946IN
Livepeer: Multi Merkle Mine
0 ETH0.0021422
Multi Generate64392222018-10-02 11:22:132248 days ago1538479333IN
Livepeer: Multi Merkle Mine
0 ETH0.0075143712.6
Multi Generate64392212018-10-02 11:22:092248 days ago1538479329IN
Livepeer: Multi Merkle Mine
0 ETH0.0074531212.6
Multi Generate64392212018-10-02 11:22:092248 days ago1538479329IN
Livepeer: Multi Merkle Mine
0 ETH0.0075083612.6
Multi Generate64392192018-10-02 11:20:592248 days ago1538479259IN
Livepeer: Multi Merkle Mine
0 ETH0.0071465412.08039723
Multi Generate64392162018-10-02 11:19:522248 days ago1538479192IN
Livepeer: Multi Merkle Mine
0 ETH0.0072106812.08039723
Multi Generate64392162018-10-02 11:19:522248 days ago1538479192IN
Livepeer: Multi Merkle Mine
0 ETH0.0072667312.08039723
Multi Generate64392152018-10-02 11:19:442248 days ago1538479184IN
Livepeer: Multi Merkle Mine
0 ETH0.0072068911.89423845
Multi Generate64392152018-10-02 11:19:442248 days ago1538479184IN
Livepeer: Multi Merkle Mine
0 ETH0.0071539911.89423845
Multi Generate64392132018-10-02 11:19:202248 days ago1538479160IN
Livepeer: Multi Merkle Mine
0 ETH0.0071064111.89423845
Multi Generate64392122018-10-02 11:19:102248 days ago1538479150IN
Livepeer: Multi Merkle Mine
0 ETH0.0072681811.89423845
Multi Generate64392122018-10-02 11:19:102248 days ago1538479150IN
Livepeer: Multi Merkle Mine
0 ETH0.0076433912.6
Multi Generate64392122018-10-02 11:19:102248 days ago1538479150IN
Livepeer: Multi Merkle Mine
0 ETH0.0077034812.6
Multi Generate64392102018-10-02 11:18:572248 days ago1538479137IN
Livepeer: Multi Merkle Mine
0 ETH0.0070931211.89423845
Multi Generate64392102018-10-02 11:18:572248 days ago1538479137IN
Livepeer: Multi Merkle Mine
0 ETH0.0075729212.6
Multi Generate64392102018-10-02 11:18:572248 days ago1538479137IN
Livepeer: Multi Merkle Mine
0 ETH0.0076433912.6
Multi Generate64392102018-10-02 11:18:572248 days ago1538479137IN
Livepeer: Multi Merkle Mine
0 ETH0.007325112.08039723
Multi Generate64392102018-10-02 11:18:572248 days ago1538479137IN
Livepeer: Multi Merkle Mine
0 ETH0.0075800912.6
Multi Generate64392102018-10-02 11:18:572248 days ago1538479137IN
Livepeer: Multi Merkle Mine
0 ETH0.0076986512.6
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Contract Source Code Verified (Exact Match)

Contract Name:
MultiMerkleMine

Compiler Version
v0.4.24+commit.e67f0147

Optimization Enabled:
No with 200 runs

Other Settings:
default evmVersion
/**
 *Submitted for verification at Etherscan.io on 2018-07-26
*/

pragma solidity 0.4.24;

/**
 * @title ERC20Basic
 * @dev Simpler version of ERC20 interface
 * @dev see https://github.com/ethereum/EIPs/issues/179
 */
contract ERC20Basic {
    uint256 public totalSupply;
    function balanceOf(address who) public view returns (uint256);
    function transfer(address to, uint256 value) public returns (bool);
    event Transfer(address indexed from, address indexed to, uint256 value);
}

/**
 * @title ERC20 interface
 * @dev see https://github.com/ethereum/EIPs/issues/20
 */
contract ERC20 is ERC20Basic {
    function allowance(address owner, address spender) public view returns (uint256);
    function transferFrom(address from, address to, uint256 value) public returns (bool);
    function approve(address spender, uint256 value) public returns (bool);
    event Approval(address indexed owner, address indexed spender, uint256 value);
}

/**
 * @title SafeMath
 * @dev Math operations with safety checks that throw on error
 */
library SafeMath {
    function mul(uint256 a, uint256 b) internal pure returns (uint256) {
        if (a == 0) {
            return 0;
        }
        uint256 c = a * b;
        assert(c / a == b);
        return c;
    }

    function div(uint256 a, uint256 b) internal pure returns (uint256) {
        // assert(b > 0); // Solidity automatically throws when dividing by 0
        uint256 c = a / b;
        // assert(a == b * c + a % b); // There is no case in which this doesn't hold
        return c;
    }

    function sub(uint256 a, uint256 b) internal pure returns (uint256) {
        assert(b <= a);
        return a - b;
    }

    function add(uint256 a, uint256 b) internal pure returns (uint256) {
        uint256 c = a + b;
        assert(c >= a);
        return c;
    }
}

/*
 * @title MerkleProof
 * @dev Merkle proof verification
 * @note Based on https://github.com/ameensol/merkle-tree-solidity/blob/master/src/MerkleProof.sol
 */
library MerkleProof {
  /*
   * @dev Verifies a Merkle proof proving the existence of a leaf in a Merkle tree. Assumes that each pair of leaves
   * and each pair of pre-images is sorted.
   * @param _proof Merkle proof containing sibling hashes on the branch from the leaf to the root of the Merkle tree
   * @param _root Merkle root
   * @param _leaf Leaf of Merkle tree
   */
  function verifyProof(bytes _proof, bytes32 _root, bytes32 _leaf) public pure returns (bool) {
    // Check if proof length is a multiple of 32
    if (_proof.length % 32 != 0) return false;

    bytes32 proofElement;
    bytes32 computedHash = _leaf;

    for (uint256 i = 32; i <= _proof.length; i += 32) {
      assembly {
        // Load the current element of the proof
        proofElement := mload(add(_proof, i))
      }

      if (computedHash < proofElement) {
        // Hash(current computed hash + current element of the proof)
        computedHash = keccak256(computedHash, proofElement);
      } else {
        // Hash(current element of the proof + current computed hash)
        computedHash = keccak256(proofElement, computedHash);
      }
    }

    // Check if the computed hash (root) is equal to the provided root
    return computedHash == _root;
  }
}

/**
 * @title MerkleMine
 * @dev Token distribution based on providing Merkle proofs of inclusion in genesis state to generate allocation
 */
contract MerkleMine {
    using SafeMath for uint256;

    // ERC20 token being distributed
    ERC20 public token;
    // Merkle root representing genesis state which encodes token recipients
    bytes32 public genesisRoot;
    // Total amount of tokens that can be generated
    uint256 public totalGenesisTokens;
    // Total number of recipients included in genesis state
    uint256 public totalGenesisRecipients;
    // Amount of tokens per recipient allocation. Equal to `totalGenesisTokens` / `totalGenesisRecipients`
    uint256 public tokensPerAllocation;
    // Minimum ETH balance threshold for recipients included in genesis state
    uint256 public balanceThreshold;
    // Block number of genesis - used to determine which ETH accounts are included in the genesis state
    uint256 public genesisBlock;
    // Start block where a third party caller (not the recipient) can generate and split the allocation with the recipient
    // As the current block gets closer to `callerAllocationEndBlock`, the caller receives a larger precentage of the allocation
    uint256 public callerAllocationStartBlock;
    // From this block onwards, a third party caller (not the recipient) can generate and claim the recipient's full allocation
    uint256 public callerAllocationEndBlock;
    // Number of blocks in the caller allocation period as defined by `callerAllocationEndBlock` - `callerAllocationStartBlock`
    uint256 public callerAllocationPeriod;

    // Track if the generation process is started
    bool public started;

    // Track the already generated allocations for recipients
    mapping (address => bool) public generated;

    // Check that a recipient's allocation has not been generated
    modifier notGenerated(address _recipient) {
        require(!generated[_recipient]);
        _;
    }

    // Check that the generation period is started
    modifier isStarted() {
        require(started);
        _;
    }

    // Check that the generation period is not started
    modifier isNotStarted() {
        require(!started);
        _;
    }

    event Generate(address indexed _recipient, address indexed _caller, uint256 _recipientTokenAmount, uint256 _callerTokenAmount, uint256 _block);

    /**
     * @dev MerkleMine constructor
     * @param _token ERC20 token being distributed
     * @param _genesisRoot Merkle root representing genesis state which encodes token recipients
     * @param _totalGenesisTokens Total amount of tokens that can be generated
     * @param _totalGenesisRecipients Total number of recipients included in genesis state
     * @param _balanceThreshold Minimum ETH balance threshold for recipients included in genesis state
     * @param _genesisBlock Block number of genesis - used to determine which ETH accounts are included in the genesis state
     * @param _callerAllocationStartBlock Start block where a third party caller (not the recipient) can generate and split the allocation with the recipient
     * @param _callerAllocationEndBlock From this block onwards, a third party caller (not the recipient) can generate and claim the recipient's full allocation
     */
    function MerkleMine(
        address _token,
        bytes32 _genesisRoot,
        uint256 _totalGenesisTokens,
        uint256 _totalGenesisRecipients,
        uint256 _balanceThreshold,
        uint256 _genesisBlock,
        uint256 _callerAllocationStartBlock,
        uint256 _callerAllocationEndBlock
    )
        public
    {
        // Address of token contract must not be null
        require(_token != address(0));
        // Number of recipients must be non-zero
        require(_totalGenesisRecipients > 0);
        // Genesis block must be at or before the current block
        require(_genesisBlock <= block.number);
        // Start block for caller allocation must be after current block
        require(_callerAllocationStartBlock > block.number);
        // End block for caller allocation must be after caller allocation start block
        require(_callerAllocationEndBlock > _callerAllocationStartBlock);

        token = ERC20(_token);
        genesisRoot = _genesisRoot;
        totalGenesisTokens = _totalGenesisTokens;
        totalGenesisRecipients = _totalGenesisRecipients;
        tokensPerAllocation = _totalGenesisTokens.div(_totalGenesisRecipients);
        balanceThreshold = _balanceThreshold;
        genesisBlock = _genesisBlock;
        callerAllocationStartBlock = _callerAllocationStartBlock;
        callerAllocationEndBlock = _callerAllocationEndBlock;
        callerAllocationPeriod = _callerAllocationEndBlock.sub(_callerAllocationStartBlock);
    }

    /**
     * @dev Start the generation period - first checks that this contract's balance is equal to `totalGenesisTokens`
     * The generation period must not already be started
     */
    function start() external isNotStarted {
        // Check that this contract has a sufficient balance for the generation period
        require(token.balanceOf(this) >= totalGenesisTokens);

        started = true;
    }

    /**
     * @dev Generate a recipient's token allocation. Generation period must be started. Starting from `callerAllocationStartBlock`
     * a third party caller (not the recipient) can invoke this function to generate the recipient's token
     * allocation and claim a percentage of it. The percentage of the allocation claimed by the
     * third party caller is determined by how many blocks have elapsed since `callerAllocationStartBlock`.
     * After `callerAllocationEndBlock`, a third party caller can claim the full allocation
     * @param _recipient Recipient of token allocation
     * @param _merkleProof Proof of recipient's inclusion in genesis state Merkle root
     */
    function generate(address _recipient, bytes _merkleProof) external isStarted notGenerated(_recipient) {
        // Check the Merkle proof
        bytes32 leaf = keccak256(_recipient);
        // _merkleProof must prove inclusion of _recipient in the genesis state root
        require(MerkleProof.verifyProof(_merkleProof, genesisRoot, leaf));

        generated[_recipient] = true;

        address caller = msg.sender;

        if (caller == _recipient) {
            // If the caller is the recipient, transfer the full allocation to the caller/recipient
            require(token.transfer(_recipient, tokensPerAllocation));

            Generate(_recipient, _recipient, tokensPerAllocation, 0, block.number);
        } else {
            // If the caller is not the recipient, the token allocation generation
            // can only take place if we are in the caller allocation period
            require(block.number >= callerAllocationStartBlock);

            uint256 callerTokenAmount = callerTokenAmountAtBlock(block.number);
            uint256 recipientTokenAmount = tokensPerAllocation.sub(callerTokenAmount);

            if (callerTokenAmount > 0) {
                require(token.transfer(caller, callerTokenAmount));
            }

            if (recipientTokenAmount > 0) {
                require(token.transfer(_recipient, recipientTokenAmount));
            }

            Generate(_recipient, caller, recipientTokenAmount, callerTokenAmount, block.number);
        }
    }

    /**
     * @dev Return the amount of tokens claimable by a third party caller when generating a recipient's token allocation at a given block
     * @param _blockNumber Block at which to compute the amount of tokens claimable by a third party caller
     */
    function callerTokenAmountAtBlock(uint256 _blockNumber) public view returns (uint256) {
        if (_blockNumber < callerAllocationStartBlock) {
            // If the block is before the start of the caller allocation period, the third party caller can claim nothing
            return 0;
        } else if (_blockNumber >= callerAllocationEndBlock) {
            // If the block is at or after the end block of the caller allocation period, the third party caller can claim everything
            return tokensPerAllocation;
        } else {
            // During the caller allocation period, the third party caller can claim an increasing percentage
            // of the recipient's allocation based on a linear curve - as more blocks pass in the caller allocation
            // period, the amount claimable by the third party caller increases linearly
            uint256 blocksSinceCallerAllocationStartBlock = _blockNumber.sub(callerAllocationStartBlock);
            return tokensPerAllocation.mul(blocksSinceCallerAllocationStartBlock).div(callerAllocationPeriod);
        }
    }
}

/**
 * @title BytesUtil
 * @dev Utilities for extracting bytes from byte arrays
 * Functions taken from:
 * - https://github.com/ethereum/solidity-examples/blob/master/src/unsafe/Memory.sol
 * - https://github.com/ethereum/solidity-examples/blob/master/src/bytes/Bytes.sol
 */
library BytesUtil{
    uint256 internal constant BYTES_HEADER_SIZE = 32;
    uint256 internal constant WORD_SIZE = 32;
    
    /**
     * @dev Returns a memory pointer to the data portion of the provided bytes array.
     * @param bts Memory byte array
     */
    function dataPtr(bytes memory bts) internal pure returns (uint256 addr) {
        assembly {
            addr := add(bts, /*BYTES_HEADER_SIZE*/ 32)
        }
    }
    
    /**
     * @dev Copy 'len' bytes from memory address 'src', to address 'dest'.
     * This function does not check the or destination, it only copies
     * the bytes.
     * @param src Memory address of source byte array
     * @param dest Memory address of destination byte array
     * @param len Number of bytes to copy from `src` to `dest`
     */
    function copy(uint256 src, uint256 dest, uint256 len) internal pure {
        // Copy word-length chunks while possible
        for (; len >= WORD_SIZE; len -= WORD_SIZE) {
            assembly {
                mstore(dest, mload(src))
            }
            dest += WORD_SIZE;
            src += WORD_SIZE;
        }

        // Copy remaining bytes
        uint256 mask = 256 ** (WORD_SIZE - len) - 1;
        assembly {
            let srcpart := and(mload(src), not(mask))
            let destpart := and(mload(dest), mask)
            mstore(dest, or(destpart, srcpart))
        }
    }

    /**
     * @dev Creates a 'bytes memory' variable from the memory address 'addr', with the
     * length 'len'. The function will allocate new memory for the bytes array, and
     * the 'len bytes starting at 'addr' will be copied into that new memory.
     * @param addr Memory address of input byte array
     * @param len Number of bytes to copy from input byte array
     */
    function toBytes(uint256 addr, uint256 len) internal pure returns (bytes memory bts) {
        bts = new bytes(len);
        uint256 btsptr = dataPtr(bts);
        copy(addr, btsptr, len);
    }
    
    /**
     * @dev Copies 'len' bytes from 'bts' into a new array, starting at the provided 'startIndex'.
     * Returns the new copy.
     * Requires that:
     *  - 'startIndex + len <= self.length'
     * The length of the substring is: 'len'
     * @param bts Memory byte array to copy from
     * @param startIndex Index of `bts` to start copying bytes from
     * @param len Number of bytes to copy from `bts`
     */
    function substr(bytes memory bts, uint256 startIndex, uint256 len) internal pure returns (bytes memory) {
        require(startIndex + len <= bts.length);
        if (len == 0) {
            return;
        }
        uint256 addr = dataPtr(bts);
        return toBytes(addr + startIndex, len);
    }

    /**
     * @dev Reads a bytes32 value from a byte array by copying 32 bytes from `bts` starting at the provided `startIndex`.
     * @param bts Memory byte array to copy from
     * @param startIndex Index of `bts` to start copying bytes from
     */
    function readBytes32(bytes memory bts, uint256 startIndex) internal pure returns (bytes32 result) {
        require(startIndex + 32 <= bts.length);

        uint256 addr = dataPtr(bts);

        assembly {
            result := mload(add(addr, startIndex))
        }

        return result;
    }
}

/**
 * @title MultiMerkleMine
 * @dev The MultiMerkleMine contract is purely a convenience wrapper around an existing MerkleMine contract deployed on the blockchain.
 */
contract MultiMerkleMine {
	using SafeMath for uint256;

	/**
     * @dev Generates token allocations for multiple recipients. Generation period must be started.
     * @param _merkleMineContract Address of the deployed MerkleMine contract
     * @param _recipients Array of recipients
     * @param _merkleProofs Proofs for respective recipients constructed in the format: 
     *       [proof_1_size, proof_1, proof_2_size, proof_2, ... , proof_n_size, proof_n]
     */
	function multiGenerate(address _merkleMineContract, address[] _recipients, bytes _merkleProofs) public {
		MerkleMine mine = MerkleMine(_merkleMineContract);
		ERC20 token = ERC20(mine.token());

		require(
			block.number >= mine.callerAllocationStartBlock(),
			"caller allocation period has not started"
		);
		
		uint256 initialBalance = token.balanceOf(this);
		bytes[] memory proofs = new bytes[](_recipients.length);

		// Counter to keep track of position in `_merkleProofs` byte array
		uint256 i = 0;
		// Counter to keep track of index of each extracted Merkle proof
		uint256 j = 0;

		// Extract proofs
		while(i < _merkleProofs.length){
			uint256 proofSize = uint256(BytesUtil.readBytes32(_merkleProofs, i));

			require(
				proofSize % 32 == 0,
				"proof size must be a multiple of 32"
			);

			proofs[j] = BytesUtil.substr(_merkleProofs, i + 32, proofSize);

			i = i + 32 + proofSize;
			j++;
		}

		require(
			_recipients.length == j,
			"number of recipients != number of proofs"
		);

		for (uint256 k = 0; k < _recipients.length; k++) {
			// If recipient's token allocation has not been generated, generate the token allocation
			// Else, continue to the next recipient
			if (!mine.generated(_recipients[k])) {
				mine.generate(_recipients[k], proofs[k]);
			}
		}

		uint256 newBalanceSinceAllocation = token.balanceOf(this);
		uint256 callerTokensGenerated = newBalanceSinceAllocation.sub(initialBalance);

		// Transfer caller's portion of tokens generated by this function call 
		if (callerTokensGenerated > 0) {
			require(token.transfer(msg.sender, callerTokensGenerated));
		}
	}
}

Contract Security Audit

Contract ABI

[{"constant":false,"inputs":[{"name":"_merkleMineContract","type":"address"},{"name":"_recipients","type":"address[]"},{"name":"_merkleProofs","type":"bytes"}],"name":"multiGenerate","outputs":[],"payable":false,"stateMutability":"nonpayable","type":"function"}]

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Deployed Bytecode

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Swarm Source

bzzr://3d8784cc2ee440d8fd9a5735fce92aa140c837350e6c2b6d292a0bc860aa404a

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A contract address hosts a smart contract, which is a set of code stored on the blockchain that runs when predetermined conditions are met. Learn more about addresses in our Knowledge Base.