Static Analyzer for Solidity
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slither/tests/detectors/reentrancy-eth/0.4.25/DAO.sol

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//
// Modified version to be compiler with sol 0.4
//
/*
- Bytecode Verification performed was compared on second iteration -
This file is part of the DAO.
The DAO is free software: you can redistribute it and/or modify
it under the terms of the GNU lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
The DAO is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU lesser General Public License for more details.
You should have received a copy of the GNU lesser General Public License
along with the DAO. If not, see <http://www.gnu.org/licenses/>.
*/
/*
Basic, standardized Token contract with no "premine". Defines the functions to
check token balances, send tokens, send tokens on behalf of a 3rd party and the
corresponding approval process. Tokens need to be created by a derived
contract (e.g. TokenCreation.sol).
Thank you ConsenSys, this contract originated from:
https://github.com/ConsenSys/Tokens/blob/master/Token_Contracts/contracts/Standard_Token.sol
Which is itself based on the Ethereum standardized contract APIs:
https://github.com/ethereum/wiki/wiki/Standardized_Contract_APIs
*/
/// @title Standard Token Contract.
contract TokenInterface {
mapping (address => uint256) balances;
mapping (address => mapping (address => uint256)) allowed;
/// Total amount of tokens
uint256 public totalSupply;
/// @param _owner The address from which the balance will be retrieved
/// @return The balance
function balanceOf(address _owner) constant returns (uint256 balance);
/// @notice Send `_amount` tokens to `_to` from `msg.sender`
/// @param _to The address of the recipient
/// @param _amount The amount of tokens to be transferred
/// @return Whether the transfer was successful or not
function transfer(address _to, uint256 _amount) returns (bool success);
/// @notice Send `_amount` tokens to `_to` from `_from` on the condition it
/// is approved by `_from`
/// @param _from The address of the origin of the transfer
/// @param _to The address of the recipient
/// @param _amount The amount of tokens to be transferred
/// @return Whether the transfer was successful or not
function transferFrom(address _from, address _to, uint256 _amount) returns (bool success);
/// @notice `msg.sender` approves `_spender` to spend `_amount` tokens on
/// its behalf
/// @param _spender The address of the account able to transfer the tokens
/// @param _amount The amount of tokens to be approved for transfer
/// @return Whether the approval was successful or not
function approve(address _spender, uint256 _amount) returns (bool success);
/// @param _owner The address of the account owning tokens
/// @param _spender The address of the account able to transfer the tokens
/// @return Amount of remaining tokens of _owner that _spender is allowed
/// to spend
function allowance(
address _owner,
address _spender
) constant returns (uint256 remaining);
event Transfer(address indexed _from, address indexed _to, uint256 _amount);
event Approval(
address indexed _owner,
address indexed _spender,
uint256 _amount
);
}
contract Token is TokenInterface {
// Protects users by preventing the execution of method calls that
// inadvertently also transferred ether
modifier noEther() {if (msg.value > 0) throw; _;}
function balanceOf(address _owner) constant returns (uint256 balance) {
return balances[_owner];
}
function transfer(address _to, uint256 _amount) noEther returns (bool success) {
if (balances[msg.sender] >= _amount && _amount > 0) {
balances[msg.sender] -= _amount;
balances[_to] += _amount;
Transfer(msg.sender, _to, _amount);
return true;
} else {
return false;
}
}
function transferFrom(
address _from,
address _to,
uint256 _amount
) noEther returns (bool success) {
if (balances[_from] >= _amount
&& allowed[_from][msg.sender] >= _amount
&& _amount > 0) {
balances[_to] += _amount;
balances[_from] -= _amount;
allowed[_from][msg.sender] -= _amount;
Transfer(_from, _to, _amount);
return true;
} else {
return false;
}
}
function approve(address _spender, uint256 _amount) returns (bool success) {
allowed[msg.sender][_spender] = _amount;
Approval(msg.sender, _spender, _amount);
return true;
}
function allowance(address _owner, address _spender) constant returns (uint256 remaining) {
return allowed[_owner][_spender];
}
}
/*
This file is part of the DAO.
The DAO is free software: you can redistribute it and/or modify
it under the terms of the GNU lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
The DAO is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU lesser General Public License for more details.
You should have received a copy of the GNU lesser General Public License
along with the DAO. If not, see <http://www.gnu.org/licenses/>.
*/
/*
Basic account, used by the DAO contract to separately manage both the rewards
and the extraBalance accounts.
*/
contract ManagedAccountInterface {
// The only address with permission to withdraw from this account
address public owner;
// If true, only the owner of the account can receive ether from it
bool public payOwnerOnly;
// The sum of ether (in wei) which has been sent to this contract
uint public accumulatedInput;
/// @notice Sends `_amount` of wei to _recipient
/// @param _amount The amount of wei to send to `_recipient`
/// @param _recipient The address to receive `_amount` of wei
/// @return True if the send completed
function payOut(address _recipient, uint _amount) returns (bool);
event PayOut(address indexed _recipient, uint _amount);
}
contract ManagedAccount is ManagedAccountInterface{
// The constructor sets the owner of the account
function ManagedAccount(address _owner, bool _payOwnerOnly) {
owner = _owner;
payOwnerOnly = _payOwnerOnly;
}
// When the contract receives a transaction without data this is called.
// It counts the amount of ether it receives and stores it in
// accumulatedInput.
function() {
accumulatedInput += msg.value;
}
function payOut(address _recipient, uint _amount) returns (bool) {
if (msg.sender != owner || msg.value > 0 || (payOwnerOnly && _recipient != owner))
throw;
if (_recipient.call.value(_amount)()) {
PayOut(_recipient, _amount);
return true;
} else {
return false;
}
}
}
/*
This file is part of the DAO.
The DAO is free software: you can redistribute it and/or modify
it under the terms of the GNU lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
The DAO is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU lesser General Public License for more details.
You should have received a copy of the GNU lesser General Public License
along with the DAO. If not, see <http://www.gnu.org/licenses/>.
*/
/*
* Token Creation contract, used by the DAO to create its tokens and initialize
* its ether. Feel free to modify the divisor method to implement different
* Token Creation parameters
*/
contract TokenCreationInterface {
// End of token creation, in Unix time
uint public closingTime;
// Minimum fueling goal of the token creation, denominated in tokens to
// be created
uint public minTokensToCreate;
// True if the DAO reached its minimum fueling goal, false otherwise
bool public isFueled;
// For DAO splits - if privateCreation is 0, then it is a public token
// creation, otherwise only the address stored in privateCreation is
// allowed to create tokens
address public privateCreation;
// hold extra ether which has been sent after the DAO token
// creation rate has increased
ManagedAccount public extraBalance;
// tracks the amount of wei given from each contributor (used for refund)
mapping (address => uint256) weiGiven;
/// @dev Constructor setting the minimum fueling goal and the
/// end of the Token Creation
/// @param _minTokensToCreate Minimum fueling goal in number of
/// Tokens to be created
/// @param _closingTime Date (in Unix time) of the end of the Token Creation
/// @param _privateCreation Zero means that the creation is public. A
/// non-zero address represents the only address that can create Tokens
/// (the address can also create Tokens on behalf of other accounts)
// This is the constructor: it can not be overloaded so it is commented out
// function TokenCreation(
// uint _minTokensTocreate,
// uint _closingTime,
// address _privateCreation
// );
/// @notice Create Token with `_tokenHolder` as the initial owner of the Token
/// @param _tokenHolder The address of the Tokens's recipient
/// @return Whether the token creation was successful
function createTokenProxy(address _tokenHolder) payable returns (bool success);
/// @notice Refund `msg.sender` in the case the Token Creation did
/// not reach its minimum fueling goal
function refund();
/// @return The divisor used to calculate the token creation rate during
/// the creation phase
function divisor() constant returns (uint divisor);
event FuelingToDate(uint value);
event CreatedToken(address indexed to, uint amount);
event Refund(address indexed to, uint value);
}
contract TokenCreation is TokenCreationInterface, Token {
function TokenCreation(
uint _minTokensToCreate,
uint _closingTime,
address _privateCreation) {
closingTime = _closingTime;
minTokensToCreate = _minTokensToCreate;
privateCreation = _privateCreation;
extraBalance = new ManagedAccount(address(this), true);
}
function createTokenProxy(address _tokenHolder) payable returns (bool success) {
if (now < closingTime && msg.value > 0
&& (privateCreation == 0 || privateCreation == msg.sender)) {
uint token = (msg.value * 20) / divisor();
extraBalance.call.value(msg.value - token)();
balances[_tokenHolder] += token;
totalSupply += token;
weiGiven[_tokenHolder] += msg.value;
CreatedToken(_tokenHolder, token);
if (totalSupply >= minTokensToCreate && !isFueled) {
isFueled = true;
FuelingToDate(totalSupply);
}
return true;
}
throw;
}
function refund() noEther {
if (now > closingTime && !isFueled) {
// Get extraBalance - will only succeed when called for the first time
if (extraBalance.balance >= extraBalance.accumulatedInput())
extraBalance.payOut(address(this), extraBalance.accumulatedInput());
// Execute refund
if (msg.sender.call.value(weiGiven[msg.sender])()) {
Refund(msg.sender, weiGiven[msg.sender]);
totalSupply -= balances[msg.sender];
balances[msg.sender] = 0;
weiGiven[msg.sender] = 0;
}
}
}
function divisor() constant returns (uint divisor) {
// The number of (base unit) tokens per wei is calculated
// as `msg.value` * 20 / `divisor`
// The fueling period starts with a 1:1 ratio
if (closingTime - 2 weeks > now) {
return 20;
// Followed by 10 days with a daily creation rate increase of 5%
} else if (closingTime - 4 days > now) {
return (20 + (now - (closingTime - 2 weeks)) / (1 days));
// The last 4 days there is a constant creation rate ratio of 1:1.5
} else {
return 30;
}
}
}
/*
This file is part of the DAO.
The DAO is free software: you can redistribute it and/or modify
it under the terms of the GNU lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
The DAO is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU lesser General Public License for more details.
You should have received a copy of the GNU lesser General Public License
along with the DAO. If not, see <http://www.gnu.org/licenses/>.
*/
/*
Standard smart contract for a Decentralized Autonomous Organization (DAO)
to automate organizational governance and decision-making.
*/
contract DAOInterface {
// The amount of days for which people who try to participate in the
// creation by calling the fallback function will still get their ether back
uint constant creationGracePeriod = 40 days;
// The minimum debate period that a generic proposal can have
uint constant minProposalDebatePeriod = 2 weeks;
// The minimum debate period that a split proposal can have
uint constant minSplitDebatePeriod = 1 weeks;
// Period of days inside which it's possible to execute a DAO split
uint constant splitExecutionPeriod = 27 days;
// Period of time after which the minimum Quorum is halved
uint constant quorumHalvingPeriod = 25 weeks;
// Period after which a proposal is closed
// (used in the case `executeProposal` fails because it throws)
uint constant executeProposalPeriod = 10 days;
// Denotes the maximum proposal deposit that can be given. It is given as
// a fraction of total Ether spent plus balance of the DAO
uint constant maxDepositDivisor = 100;
// Proposals to spend the DAO's ether or to choose a new Curator
Proposal[] public proposals;
// The quorum needed for each proposal is partially calculated by
// totalSupply / minQuorumDivisor
uint public minQuorumDivisor;
// The unix time of the last time quorum was reached on a proposal
uint public lastTimeMinQuorumMet;
// Address of the curator
address public curator;
// The whitelist: List of addresses the DAO is allowed to send ether to
mapping (address => bool) public allowedRecipients;
// Tracks the addresses that own Reward Tokens. Those addresses can only be
// DAOs that have split from the original DAO. Conceptually, Reward Tokens
// represent the proportion of the rewards that the DAO has the right to
// receive. These Reward Tokens are generated when the DAO spends ether.
mapping (address => uint) public rewardToken;
// Total supply of rewardToken
uint public totalRewardToken;
// The account used to manage the rewards which are to be distributed to the
// DAO Token Holders of this DAO
ManagedAccount public rewardAccount;
// The account used to manage the rewards which are to be distributed to
// any DAO that holds Reward Tokens
ManagedAccount public DAOrewardAccount;
// Amount of rewards (in wei) already paid out to a certain DAO
mapping (address => uint) public DAOpaidOut;
// Amount of rewards (in wei) already paid out to a certain address
mapping (address => uint) public paidOut;
// Map of addresses blocked during a vote (not allowed to transfer DAO
// tokens). The address points to the proposal ID.
mapping (address => uint) public blocked;
// The minimum deposit (in wei) required to submit any proposal that is not
// requesting a new Curator (no deposit is required for splits)
uint public proposalDeposit;
// the accumulated sum of all current proposal deposits
uint sumOfProposalDeposits;
// Contract that is able to create a new DAO (with the same code as
// this one), used for splits
DAO_Creator public daoCreator;
// A proposal with `newCurator == false` represents a transaction
// to be issued by this DAO
// A proposal with `newCurator == true` represents a DAO split
struct Proposal {
// The address where the `amount` will go to if the proposal is accepted
// or if `newCurator` is true, the proposed Curator of
// the new DAO).
address recipient;
// The amount to transfer to `recipient` if the proposal is accepted.
uint amount;
// A plain text description of the proposal
string description;
// A unix timestamp, denoting the end of the voting period
uint votingDeadline;
// True if the proposal's votes have yet to be counted, otherwise False
bool open;
// True if quorum has been reached, the votes have been counted, and
// the majority said yes
bool proposalPassed;
// A hash to check validity of a proposal
bytes32 proposalHash;
// Deposit in wei the creator added when submitting their proposal. It
// is taken from the msg.value of a newProposal call.
uint proposalDeposit;
// True if this proposal is to assign a new Curator
bool newCurator;
// Data needed for splitting the DAO
SplitData[][] splitData2;
SplitData[] splitData;
// Number of Tokens in favor of the proposal
uint yea;
// Number of Tokens opposed to the proposal
uint nay;
// Simple mapping to check if a shareholder has voted for it
mapping (address => bool) votedYes;
// Simple mapping to check if a shareholder has voted against it
mapping (address => bool) votedNo;
// Address of the shareholder who created the proposal
address creator;
}
// Used only in the case of a newCurator proposal.
struct SplitData {
// The balance of the current DAO minus the deposit at the time of split
uint splitBalance;
// The total amount of DAO Tokens in existence at the time of split.
uint totalSupply;
// Amount of Reward Tokens owned by the DAO at the time of split.
uint rewardToken;
// The new DAO contract created at the time of split.
DAO newDAO;
}
// Used to restrict access to certain functions to only DAO Token Holders
modifier onlyTokenholders {_;}
/// @dev Constructor setting the Curator and the address
/// for the contract able to create another DAO as well as the parameters
/// for the DAO Token Creation
/// @param _curator The Curator
/// @param _daoCreator The contract able to (re)create this DAO
/// @param _proposalDeposit The deposit to be paid for a regular proposal
/// @param _minTokensToCreate Minimum required wei-equivalent tokens
/// to be created for a successful DAO Token Creation
/// @param _closingTime Date (in Unix time) of the end of the DAO Token Creation
/// @param _privateCreation If zero the DAO Token Creation is open to public, a
/// non-zero address means that the DAO Token Creation is only for the address
// This is the constructor: it can not be overloaded so it is commented out
// function DAO(
// address _curator,
// DAO_Creator _daoCreator,
// uint _proposalDeposit,
// uint _minTokensToCreate,
// uint _closingTime,
// address _privateCreation
// );
/// @notice Create Token with `msg.sender` as the beneficiary
/// @return Whether the token creation was successful
function ();
/// @dev This function is used to send ether back
/// to the DAO, it can also be used to receive payments that should not be
/// counted as rewards (donations, grants, etc.)
/// @return Whether the DAO received the ether successfully
function receiveEther() returns(bool);
/// @notice `msg.sender` creates a proposal to send `_amount` Wei to
/// `_recipient` with the transaction data `_transactionData`. If
/// `_newCurator` is true, then this is a proposal that splits the
/// DAO and sets `_recipient` as the new DAO's Curator.
/// @param _recipient Address of the recipient of the proposed transaction
/// @param _amount Amount of wei to be sent with the proposed transaction
/// @param _description String describing the proposal
/// @param _transactionData Data of the proposed transaction
/// @param _debatingPeriod Time used for debating a proposal, at least 2
/// weeks for a regular proposal, 10 days for new Curator proposal
/// @param _newCurator Bool defining whether this proposal is about
/// a new Curator or not
/// @return The proposal ID. Needed for voting on the proposal
function newProposal(
address _recipient,
uint _amount,
string _description,
bytes _transactionData,
uint _debatingPeriod,
bool _newCurator
) onlyTokenholders returns (uint _proposalID);
/// @notice Check that the proposal with the ID `_proposalID` matches the
/// transaction which sends `_amount` with data `_transactionData`
/// to `_recipient`
/// @param _proposalID The proposal ID
/// @param _recipient The recipient of the proposed transaction
/// @param _amount The amount of wei to be sent in the proposed transaction
/// @param _transactionData The data of the proposed transaction
/// @return Whether the proposal ID matches the transaction data or not
function checkProposalCode(
uint _proposalID,
address _recipient,
uint _amount,
bytes _transactionData
) constant returns (bool _codeChecksOut);
/// @notice Vote on proposal `_proposalID` with `_supportsProposal`
/// @param _proposalID The proposal ID
/// @param _supportsProposal Yes/No - support of the proposal
/// @return The vote ID.
function vote(
uint _proposalID,
bool _supportsProposal
) onlyTokenholders returns (uint _voteID);
/// @notice Checks whether proposal `_proposalID` with transaction data
/// `_transactionData` has been voted for or rejected, and executes the
/// transaction in the case it has been voted for.
/// @param _proposalID The proposal ID
/// @param _transactionData The data of the proposed transaction
/// @return Whether the proposed transaction has been executed or not
function executeProposal(
uint _proposalID,
bytes _transactionData
) returns (bool _success);
/// @notice ATTENTION! I confirm to move my remaining ether to a new DAO
/// with `_newCurator` as the new Curator, as has been
/// proposed in proposal `_proposalID`. This will burn my tokens. This can
/// not be undone and will split the DAO into two DAO's, with two
/// different underlying tokens.
/// @param _proposalID The proposal ID
/// @param _newCurator The new Curator of the new DAO
/// @dev This function, when called for the first time for this proposal,
/// will create a new DAO and send the sender's portion of the remaining
/// ether and Reward Tokens to the new DAO. It will also burn the DAO Tokens
/// of the sender.
function splitDAO(
uint _proposalID,
address _newCurator
) returns (bool _success);
/// @dev can only be called by the DAO itself through a proposal
/// updates the contract of the DAO by sending all ether and rewardTokens
/// to the new DAO. The new DAO needs to be approved by the Curator
/// @param _newContract the address of the new contract
function newContract(address _newContract);
/// @notice Add a new possible recipient `_recipient` to the whitelist so
/// that the DAO can send transactions to them (using proposals)
/// @param _recipient New recipient address
/// @dev Can only be called by the current Curator
/// @return Whether successful or not
function changeAllowedRecipients(address _recipient, bool _allowed) external returns (bool _success);
/// @notice Change the minimum deposit required to submit a proposal
/// @param _proposalDeposit The new proposal deposit
/// @dev Can only be called by this DAO (through proposals with the
/// recipient being this DAO itself)
function changeProposalDeposit(uint _proposalDeposit) external;
/// @notice Move rewards from the DAORewards managed account
/// @param _toMembers If true rewards are moved to the actual reward account
/// for the DAO. If not then it's moved to the DAO itself
/// @return Whether the call was successful
function retrieveDAOReward(bool _toMembers) external returns (bool _success);
/// @notice Get my portion of the reward that was sent to `rewardAccount`
/// @return Whether the call was successful
function getMyReward() returns(bool _success);
/// @notice Withdraw `_account`'s portion of the reward from `rewardAccount`
/// to `_account`'s balance
/// @return Whether the call was successful
function withdrawRewardFor(address _account) internal returns (bool _success);
/// @notice Send `_amount` tokens to `_to` from `msg.sender`. Prior to this
/// getMyReward() is called.
/// @param _to The address of the recipient
/// @param _amount The amount of tokens to be transfered
/// @return Whether the transfer was successful or not
function transferWithoutReward(address _to, uint256 _amount) returns (bool success);
/// @notice Send `_amount` tokens to `_to` from `_from` on the condition it
/// is approved by `_from`. Prior to this getMyReward() is called.
/// @param _from The address of the sender
/// @param _to The address of the recipient
/// @param _amount The amount of tokens to be transfered
/// @return Whether the transfer was successful or not
function transferFromWithoutReward(
address _from,
address _to,
uint256 _amount
) returns (bool success);
/// @notice Doubles the 'minQuorumDivisor' in the case quorum has not been
/// achieved in 52 weeks
/// @return Whether the change was successful or not
function halveMinQuorum() returns (bool _success);
/// @return total number of proposals ever created
function numberOfProposals() constant returns (uint _numberOfProposals);
/// @param _proposalID Id of the new curator proposal
/// @return Address of the new DAO
function getNewDAOAddress(uint _proposalID) constant returns (address _newDAO);
/// @param _account The address of the account which is checked.
/// @return Whether the account is blocked (not allowed to transfer tokens) or not.
function isBlocked(address _account) internal returns (bool);
/// @notice If the caller is blocked by a proposal whose voting deadline
/// has exprired then unblock him.
/// @return Whether the account is blocked (not allowed to transfer tokens) or not.
function unblockMe() returns (bool);
event ProposalAdded(
uint indexed proposalID,
address recipient,
uint amount,
bool newCurator,
string description
);
event Voted(uint indexed proposalID, bool position, address indexed voter);
event ProposalTallied(uint indexed proposalID, bool result, uint quorum);
event NewCurator(address indexed _newCurator);
event AllowedRecipientChanged(address indexed _recipient, bool _allowed);
}
// The DAO contract itself
contract DAO is DAOInterface, Token, TokenCreation {
// Modifier that allows only shareholders to vote and create new proposals
modifier onlyTokenholders {
if (balanceOf(msg.sender) == 0) throw;
_;
}
function DAO(
address _curator,
DAO_Creator _daoCreator,
uint _proposalDeposit,
uint _minTokensToCreate,
uint _closingTime,
address _privateCreation
) TokenCreation(_minTokensToCreate, _closingTime, _privateCreation) {
curator = _curator;
daoCreator = _daoCreator;
proposalDeposit = _proposalDeposit;
rewardAccount = new ManagedAccount(address(this), false);
DAOrewardAccount = new ManagedAccount(address(this), false);
if (address(rewardAccount) == 0)
throw;
if (address(DAOrewardAccount) == 0)
throw;
lastTimeMinQuorumMet = now;
minQuorumDivisor = 5; // sets the minimal quorum to 20%
proposals.length = 1; // avoids a proposal with ID 0 because it is used
allowedRecipients[address(this)] = true;
allowedRecipients[curator] = true;
}
function () {
/* if (now < closingTime + creationGracePeriod && msg.sender != address(extraBalance))
return createTokenProxy(msg.sender);
else
return receiveEther();*/
}
function receiveEther() returns (bool) {
return true;
}
function newProposal(
address _recipient,
uint _amount,
string _description,
bytes _transactionData,
uint _debatingPeriod,
bool _newCurator
) onlyTokenholders returns (uint _proposalID) {
// Sanity check
if (_newCurator && (
_amount != 0
|| _transactionData.length != 0
|| _recipient == curator
|| msg.value > 0
|| _debatingPeriod < minSplitDebatePeriod)) {
throw;
} else if (
!_newCurator
&& (!isRecipientAllowed(_recipient) || (_debatingPeriod < minProposalDebatePeriod))
) {
throw;
}
if (_debatingPeriod > 8 weeks)
throw;
if (!isFueled
|| now < closingTime
|| (msg.value < proposalDeposit && !_newCurator)) {
throw;
}
if (now + _debatingPeriod < now) // prevents overflow
throw;
// to prevent a 51% attacker to convert the ether into deposit
if (msg.sender == address(this))
throw;
_proposalID = proposals.length++;
Proposal p = proposals[_proposalID];
p.recipient = _recipient;
p.amount = _amount;
p.description = _description;
p.proposalHash = sha3(_recipient, _amount, _transactionData);
p.votingDeadline = now + _debatingPeriod;
p.open = true;
//p.proposalPassed = False; // that's default
p.newCurator = _newCurator;
if (_newCurator)
p.splitData.length++;
p.creator = msg.sender;
p.proposalDeposit = msg.value;
sumOfProposalDeposits += msg.value;
ProposalAdded(
_proposalID,
_recipient,
_amount,
_newCurator,
_description
);
}
function checkProposalCode(
uint _proposalID,
address _recipient,
uint _amount,
bytes _transactionData
) noEther constant returns (bool _codeChecksOut) {
Proposal p = proposals[_proposalID];
return p.proposalHash == sha3(_recipient, _amount, _transactionData);
}
function vote(
uint _proposalID,
bool _supportsProposal
) onlyTokenholders noEther returns (uint _voteID) {
Proposal p = proposals[_proposalID];
if (p.votedYes[msg.sender]
|| p.votedNo[msg.sender]
|| now >= p.votingDeadline) {
throw;
}
if (_supportsProposal) {
p.yea += balances[msg.sender];
p.votedYes[msg.sender] = true;
} else {
p.nay += balances[msg.sender];
p.votedNo[msg.sender] = true;
}
if (blocked[msg.sender] == 0) {
blocked[msg.sender] = _proposalID;
} else if (p.votingDeadline > proposals[blocked[msg.sender]].votingDeadline) {
// this proposal's voting deadline is further into the future than
// the proposal that blocks the sender so make it the blocker
blocked[msg.sender] = _proposalID;
}
Voted(_proposalID, _supportsProposal, msg.sender);
}
function executeProposal(
uint _proposalID,
bytes _transactionData
) noEther returns (bool _success) {
Proposal p = proposals[_proposalID];
uint waitPeriod = p.newCurator
? splitExecutionPeriod
: executeProposalPeriod;
// If we are over deadline and waiting period, assert proposal is closed
if (p.open && now > p.votingDeadline + waitPeriod) {
closeProposal(_proposalID);
return;
}
// Check if the proposal can be executed
if (now < p.votingDeadline // has the voting deadline arrived?
// Have the votes been counted?
|| !p.open
// Does the transaction code match the proposal?
|| p.proposalHash != sha3(p.recipient, p.amount, _transactionData)) {
throw;
}
// If the curator removed the recipient from the whitelist, close the proposal
// in order to free the deposit and allow unblocking of voters
if (!isRecipientAllowed(p.recipient)) {
closeProposal(_proposalID);
p.creator.send(p.proposalDeposit);
return;
}
bool proposalCheck = true;
if (p.amount > actualBalance())
proposalCheck = false;
uint quorum = p.yea + p.nay;
// require 53% for calling newContract()
if (_transactionData.length >= 4 && _transactionData[0] == 0x68
&& _transactionData[1] == 0x37 && _transactionData[2] == 0xff
&& _transactionData[3] == 0x1e
&& quorum < minQuorum(actualBalance() + rewardToken[address(this)])) {
proposalCheck = false;
}
if (quorum >= minQuorum(p.amount)) {
if (!p.creator.send(p.proposalDeposit))
throw;
lastTimeMinQuorumMet = now;
// set the minQuorum to 20% again, in the case it has been reached
if (quorum > totalSupply / 5)
minQuorumDivisor = 5;
}
// Execute result
if (quorum >= minQuorum(p.amount) && p.yea > p.nay && proposalCheck) {
if (!p.recipient.call.value(p.amount)(_transactionData))
throw;
p.proposalPassed = true;
_success = true;
// only create reward tokens when ether is not sent to the DAO itself and
// related addresses. Proxy addresses should be forbidden by the curator.
if (p.recipient != address(this) && p.recipient != address(rewardAccount)
&& p.recipient != address(DAOrewardAccount)
&& p.recipient != address(extraBalance)
&& p.recipient != address(curator)) {
rewardToken[address(this)] += p.amount;
totalRewardToken += p.amount;
}
}
closeProposal(_proposalID);
// Initiate event
ProposalTallied(_proposalID, _success, quorum);
}
function closeProposal(uint _proposalID) internal {
Proposal p = proposals[_proposalID];
if (p.open)
sumOfProposalDeposits -= p.proposalDeposit;
p.open = false;
}
function splitDAO(
uint _proposalID,
address _newCurator
) noEther onlyTokenholders returns (bool _success) {
Proposal p = proposals[_proposalID];
// Sanity check
if (now < p.votingDeadline // has the voting deadline arrived?
//The request for a split expires XX days after the voting deadline
|| now > p.votingDeadline + splitExecutionPeriod
// Does the new Curator address match?
|| p.recipient != _newCurator
// Is it a new curator proposal?
|| !p.newCurator
// Have you voted for this split?
|| !p.votedYes[msg.sender]
// Did you already vote on another proposal?
|| (blocked[msg.sender] != _proposalID && blocked[msg.sender] != 0) ) {
throw;
}
// If the new DAO doesn't exist yet, create the new DAO and store the
// current split data
if (address(p.splitData[0].newDAO) == 0) {
p.splitData[0].newDAO = createNewDAO(_newCurator);
// Call depth limit reached, etc.
if (address(p.splitData[0].newDAO) == 0)
throw;
// should never happen
if (this.balance < sumOfProposalDeposits)
throw;
p.splitData[0].splitBalance = actualBalance();
p.splitData[0].rewardToken = rewardToken[address(this)];
p.splitData[0].totalSupply = totalSupply;
p.proposalPassed = true;
}
// Move ether and assign new Tokens
uint fundsToBeMoved =
(balances[msg.sender] * p.splitData[0].splitBalance) /
p.splitData[0].totalSupply;
if (p.splitData[0].newDAO.createTokenProxy.value(fundsToBeMoved)(msg.sender) == false)
throw;
// Assign reward rights to new DAO
uint rewardTokenToBeMoved =
(balances[msg.sender] * p.splitData[0].rewardToken) /
p.splitData[0].totalSupply;
uint paidOutToBeMoved = DAOpaidOut[address(this)] * rewardTokenToBeMoved /
rewardToken[address(this)];
rewardToken[address(p.splitData[0].newDAO)] += rewardTokenToBeMoved;
if (rewardToken[address(this)] < rewardTokenToBeMoved)
throw;
rewardToken[address(this)] -= rewardTokenToBeMoved;
DAOpaidOut[address(p.splitData[0].newDAO)] += paidOutToBeMoved;
if (DAOpaidOut[address(this)] < paidOutToBeMoved)
throw;
DAOpaidOut[address(this)] -= paidOutToBeMoved;
// Burn DAO Tokens
Transfer(msg.sender, 0, balances[msg.sender]);
withdrawRewardFor(msg.sender); // be nice, and get his rewards
totalSupply -= balances[msg.sender];
balances[msg.sender] = 0;
paidOut[msg.sender] = 0;
return true;
}
function newContract(address _newContract){
if (msg.sender != address(this) || !allowedRecipients[_newContract]) return;
// move all ether
if (!_newContract.call.value(address(this).balance)()) {
throw;
}
//move all reward tokens
rewardToken[_newContract] += rewardToken[address(this)];
rewardToken[address(this)] = 0;
DAOpaidOut[_newContract] += DAOpaidOut[address(this)];
DAOpaidOut[address(this)] = 0;
}
function retrieveDAOReward(bool _toMembers) external noEther returns (bool _success) {
DAO dao = DAO(msg.sender);
if ((rewardToken[msg.sender] * DAOrewardAccount.accumulatedInput()) /
totalRewardToken < DAOpaidOut[msg.sender])
throw;
uint reward =
(rewardToken[msg.sender] * DAOrewardAccount.accumulatedInput()) /
totalRewardToken - DAOpaidOut[msg.sender];
if(_toMembers) {
if (!DAOrewardAccount.payOut(dao.rewardAccount(), reward))
throw;
}
else {
if (!DAOrewardAccount.payOut(dao, reward))
throw;
}
DAOpaidOut[msg.sender] += reward;
return true;
}
function getMyReward() noEther returns (bool _success) {
return withdrawRewardFor(msg.sender);
}
function withdrawRewardFor(address _account) noEther internal returns (bool _success) {
if ((balanceOf(_account) * rewardAccount.accumulatedInput()) / totalSupply < paidOut[_account])
throw;
uint reward =
(balanceOf(_account) * rewardAccount.accumulatedInput()) / totalSupply - paidOut[_account];
if (!rewardAccount.payOut(_account, reward))
throw;
paidOut[_account] += reward;
return true;
}
function transfer(address _to, uint256 _value) returns (bool success) {
if (isFueled
&& now > closingTime
&& !isBlocked(msg.sender)
&& transferPaidOut(msg.sender, _to, _value)
&& super.transfer(_to, _value)) {
return true;
} else {
throw;
}
}
function transferWithoutReward(address _to, uint256 _value) returns (bool success) {
if (!getMyReward())
throw;
return transfer(_to, _value);
}
function transferFrom(address _from, address _to, uint256 _value) returns (bool success) {
if (isFueled
&& now > closingTime
&& !isBlocked(_from)
&& transferPaidOut(_from, _to, _value)
&& super.transferFrom(_from, _to, _value)) {
return true;
} else {
throw;
}
}
function transferFromWithoutReward(
address _from,
address _to,
uint256 _value
) returns (bool success) {
if (!withdrawRewardFor(_from))
throw;
return transferFrom(_from, _to, _value);
}
function transferPaidOut(
address _from,
address _to,
uint256 _value
) internal returns (bool success) {
uint transferPaidOut = paidOut[_from] * _value / balanceOf(_from);
if (transferPaidOut > paidOut[_from])
throw;
paidOut[_from] -= transferPaidOut;
paidOut[_to] += transferPaidOut;
return true;
}
function changeProposalDeposit(uint _proposalDeposit) noEther external {
if (msg.sender != address(this) || _proposalDeposit > (actualBalance() + rewardToken[address(this)])
/ maxDepositDivisor) {
throw;
}
proposalDeposit = _proposalDeposit;
}
function changeAllowedRecipients(address _recipient, bool _allowed) noEther external returns (bool _success) {
if (msg.sender != curator)
throw;
allowedRecipients[_recipient] = _allowed;
AllowedRecipientChanged(_recipient, _allowed);
return true;
}
function isRecipientAllowed(address _recipient) internal returns (bool _isAllowed) {
if (allowedRecipients[_recipient]
|| (_recipient == address(extraBalance)
// only allowed when at least the amount held in the
// extraBalance account has been spent from the DAO
&& totalRewardToken > extraBalance.accumulatedInput()))
return true;
else
return false;
}
function actualBalance() constant returns (uint _actualBalance) {
return this.balance - sumOfProposalDeposits;
}
function minQuorum(uint _value) internal constant returns (uint _minQuorum) {
// minimum of 20% and maximum of 53.33%
return totalSupply / minQuorumDivisor +
(_value * totalSupply) / (3 * (actualBalance() + rewardToken[address(this)]));
}
function halveMinQuorum() returns (bool _success) {
// this can only be called after `quorumHalvingPeriod` has passed or at anytime
// by the curator with a delay of at least `minProposalDebatePeriod` between the calls
if ((lastTimeMinQuorumMet < (now - quorumHalvingPeriod) || msg.sender == curator)
&& lastTimeMinQuorumMet < (now - minProposalDebatePeriod)) {
lastTimeMinQuorumMet = now;
minQuorumDivisor *= 2;
return true;
} else {
return false;
}
}
function createNewDAO(address _newCurator) internal returns (DAO _newDAO) {
NewCurator(_newCurator);
return daoCreator.createDAO(_newCurator, 0, 0, now + splitExecutionPeriod);
}
function numberOfProposals() constant returns (uint _numberOfProposals) {
// Don't count index 0. It's used by isBlocked() and exists from start
return proposals.length - 1;
}
function getNewDAOAddress(uint _proposalID) constant returns (address _newDAO) {
return proposals[_proposalID].splitData[0].newDAO;
}
function isBlocked(address _account) internal returns (bool) {
if (blocked[_account] == 0)
return false;
Proposal p = proposals[blocked[_account]];
if (now > p.votingDeadline) {
blocked[_account] = 0;
return false;
} else {
return true;
}
}
function unblockMe() returns (bool) {
return isBlocked(msg.sender);
}
}
contract DAO_Creator {
function createDAO(
address _curator,
uint _proposalDeposit,
uint _minTokensToCreate,
uint _closingTime
) returns (DAO _newDAO) {
return new DAO(
_curator,
DAO_Creator(this),
_proposalDeposit,
_minTokensToCreate,
_closingTime,
msg.sender
);
}
}