49fdd23d58
* Move secureApi to shell * Extract isTestnet test * Use mobx + subscriptions for status * Re-add status indicator * Add lerna * Move intial packages to js/packages * Move 3rdparty/{email,sms}-verification to correct location * Move package.json & README to library src * Move tests for library packages * Move views & dapps to packages * Move i18n to root * Move shell to actual src (main app) * Remove ~ references * Change ~ to root (explicit imports) * Finalise convert of ~ * Move views into dapps as well * Move dapps to packages/ * Fix references * Update css * Update test spec locations * Update tests * Case fix * Skip flakey tests * Update enzyme * Skip previously ignored tests * Allow empty api for hw * Re-add theme for embed
404 lines
14 KiB
Solidity
404 lines
14 KiB
Solidity
//sol Wallet
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// Multi-sig, daily-limited account proxy/wallet.
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// @authors:
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// Gav Wood <g@ethdev.com>
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// inheritable "property" contract that enables methods to be protected by requiring the acquiescence of either a
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// single, or, crucially, each of a number of, designated owners.
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// usage:
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// use modifiers onlyowner (just own owned) or onlymanyowners(hash), whereby the same hash must be provided by
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// some number (specified in constructor) of the set of owners (specified in the constructor, modifiable) before the
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// interior is executed.
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pragma solidity ^0.4.9;
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contract multiowned {
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// TYPES
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// struct for the status of a pending operation.
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struct PendingState {
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uint yetNeeded;
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uint ownersDone;
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uint index;
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}
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// EVENTS
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// this contract only has six types of events: it can accept a confirmation, in which case
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// we record owner and operation (hash) alongside it.
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event Confirmation(address owner, bytes32 operation);
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event Revoke(address owner, bytes32 operation);
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// some others are in the case of an owner changing.
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event OwnerChanged(address oldOwner, address newOwner);
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event OwnerAdded(address newOwner);
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event OwnerRemoved(address oldOwner);
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// the last one is emitted if the required signatures change
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event RequirementChanged(uint newRequirement);
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// MODIFIERS
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// simple single-sig function modifier.
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modifier onlyowner {
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if (isOwner(msg.sender))
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_;
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}
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// multi-sig function modifier: the operation must have an intrinsic hash in order
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// that later attempts can be realised as the same underlying operation and
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// thus count as confirmations.
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modifier onlymanyowners(bytes32 _operation) {
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if (confirmAndCheck(_operation))
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_;
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}
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// METHODS
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// constructor is given number of sigs required to do protected "onlymanyowners" transactions
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// as well as the selection of addresses capable of confirming them.
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function multiowned(address[] _owners, uint _required) {
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m_numOwners = _owners.length + 1;
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m_owners[1] = uint(msg.sender);
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m_ownerIndex[uint(msg.sender)] = 1;
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for (uint i = 0; i < _owners.length; ++i)
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{
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m_owners[2 + i] = uint(_owners[i]);
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m_ownerIndex[uint(_owners[i])] = 2 + i;
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}
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m_required = _required;
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}
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// Revokes a prior confirmation of the given operation
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function revoke(bytes32 _operation) external {
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uint ownerIndex = m_ownerIndex[uint(msg.sender)];
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// make sure they're an owner
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if (ownerIndex == 0) return;
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uint ownerIndexBit = 2**ownerIndex;
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var pending = m_pending[_operation];
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if (pending.ownersDone & ownerIndexBit > 0) {
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pending.yetNeeded++;
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pending.ownersDone -= ownerIndexBit;
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Revoke(msg.sender, _operation);
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}
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}
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// Replaces an owner `_from` with another `_to`.
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function changeOwner(address _from, address _to) onlymanyowners(sha3(msg.data)) external {
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if (isOwner(_to)) return;
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uint ownerIndex = m_ownerIndex[uint(_from)];
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if (ownerIndex == 0) return;
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clearPending();
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m_owners[ownerIndex] = uint(_to);
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m_ownerIndex[uint(_from)] = 0;
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m_ownerIndex[uint(_to)] = ownerIndex;
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OwnerChanged(_from, _to);
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}
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function addOwner(address _owner) onlymanyowners(sha3(msg.data)) external {
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if (isOwner(_owner)) return;
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clearPending();
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if (m_numOwners >= c_maxOwners)
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reorganizeOwners();
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if (m_numOwners >= c_maxOwners)
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return;
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m_numOwners++;
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m_owners[m_numOwners] = uint(_owner);
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m_ownerIndex[uint(_owner)] = m_numOwners;
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OwnerAdded(_owner);
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}
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function removeOwner(address _owner) onlymanyowners(sha3(msg.data)) external {
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uint ownerIndex = m_ownerIndex[uint(_owner)];
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if (ownerIndex == 0) return;
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if (m_required > m_numOwners - 1) return;
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m_owners[ownerIndex] = 0;
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m_ownerIndex[uint(_owner)] = 0;
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clearPending();
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reorganizeOwners(); //make sure m_numOwner is equal to the number of owners and always points to the optimal free slot
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OwnerRemoved(_owner);
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}
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function changeRequirement(uint _newRequired) onlymanyowners(sha3(msg.data)) external {
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if (_newRequired > m_numOwners) return;
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m_required = _newRequired;
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clearPending();
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RequirementChanged(_newRequired);
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}
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// Gets an owner by 0-indexed position (using numOwners as the count)
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function getOwner(uint ownerIndex) external constant returns (address) {
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return address(m_owners[ownerIndex + 1]);
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}
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function isOwner(address _addr) constant returns (bool) {
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return m_ownerIndex[uint(_addr)] > 0;
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}
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function hasConfirmed(bytes32 _operation, address _owner) constant returns (bool) {
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var pending = m_pending[_operation];
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uint ownerIndex = m_ownerIndex[uint(_owner)];
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// make sure they're an owner
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if (ownerIndex == 0) return false;
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// determine the bit to set for this owner.
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uint ownerIndexBit = 2**ownerIndex;
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return !(pending.ownersDone & ownerIndexBit == 0);
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}
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// INTERNAL METHODS
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function confirmAndCheck(bytes32 _operation) internal returns (bool) {
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// determine what index the present sender is:
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uint ownerIndex = m_ownerIndex[uint(msg.sender)];
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// make sure they're an owner
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if (ownerIndex == 0) return;
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var pending = m_pending[_operation];
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// if we're not yet working on this operation, switch over and reset the confirmation status.
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if (pending.yetNeeded == 0) {
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// reset count of confirmations needed.
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pending.yetNeeded = m_required;
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// reset which owners have confirmed (none) - set our bitmap to 0.
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pending.ownersDone = 0;
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pending.index = m_pendingIndex.length++;
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m_pendingIndex[pending.index] = _operation;
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}
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// determine the bit to set for this owner.
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uint ownerIndexBit = 2**ownerIndex;
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// make sure we (the message sender) haven't confirmed this operation previously.
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if (pending.ownersDone & ownerIndexBit == 0) {
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Confirmation(msg.sender, _operation);
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// ok - check if count is enough to go ahead.
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if (pending.yetNeeded <= 1) {
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// enough confirmations: reset and run interior.
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delete m_pendingIndex[m_pending[_operation].index];
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delete m_pending[_operation];
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return true;
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}
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else
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{
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// not enough: record that this owner in particular confirmed.
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pending.yetNeeded--;
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pending.ownersDone |= ownerIndexBit;
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}
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}
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}
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function reorganizeOwners() private {
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uint free = 1;
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while (free < m_numOwners)
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{
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while (free < m_numOwners && m_owners[free] != 0) free++;
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while (m_numOwners > 1 && m_owners[m_numOwners] == 0) m_numOwners--;
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if (free < m_numOwners && m_owners[m_numOwners] != 0 && m_owners[free] == 0)
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{
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m_owners[free] = m_owners[m_numOwners];
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m_ownerIndex[m_owners[free]] = free;
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m_owners[m_numOwners] = 0;
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}
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}
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}
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function clearPending() internal {
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uint length = m_pendingIndex.length;
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for (uint i = 0; i < length; ++i)
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if (m_pendingIndex[i] != 0)
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delete m_pending[m_pendingIndex[i]];
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delete m_pendingIndex;
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}
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// FIELDS
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// the number of owners that must confirm the same operation before it is run.
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uint public m_required;
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// pointer used to find a free slot in m_owners
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uint public m_numOwners;
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// list of owners
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uint[256] m_owners;
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uint constant c_maxOwners = 250;
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// index on the list of owners to allow reverse lookup
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mapping(uint => uint) m_ownerIndex;
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// the ongoing operations.
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mapping(bytes32 => PendingState) m_pending;
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bytes32[] m_pendingIndex;
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}
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// inheritable "property" contract that enables methods to be protected by placing a linear limit (specifiable)
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// on a particular resource per calendar day. is multiowned to allow the limit to be altered. resource that method
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// uses is specified in the modifier.
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contract daylimit is multiowned {
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// METHODS
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// constructor - stores initial daily limit and records the present day's index.
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function daylimit(uint _limit) {
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m_dailyLimit = _limit;
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m_lastDay = today();
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}
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// (re)sets the daily limit. needs many of the owners to confirm. doesn't alter the amount already spent today.
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function setDailyLimit(uint _newLimit) onlymanyowners(sha3(msg.data)) external {
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m_dailyLimit = _newLimit;
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}
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// resets the amount already spent today. needs many of the owners to confirm.
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function resetSpentToday() onlymanyowners(sha3(msg.data)) external {
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m_spentToday = 0;
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}
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// INTERNAL METHODS
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// checks to see if there is at least `_value` left from the daily limit today. if there is, subtracts it and
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// returns true. otherwise just returns false.
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function underLimit(uint _value) internal onlyowner returns (bool) {
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// reset the spend limit if we're on a different day to last time.
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if (today() > m_lastDay) {
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m_spentToday = 0;
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m_lastDay = today();
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}
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// check to see if there's enough left - if so, subtract and return true.
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// overflow protection // dailyLimit check
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if (m_spentToday + _value >= m_spentToday && m_spentToday + _value <= m_dailyLimit) {
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m_spentToday += _value;
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return true;
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}
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return false;
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}
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// determines today's index.
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function today() private constant returns (uint) { return now / 1 days; }
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// FIELDS
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uint public m_dailyLimit;
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uint public m_spentToday;
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uint public m_lastDay;
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}
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// interface contract for multisig proxy contracts; see below for docs.
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contract multisig {
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// EVENTS
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// logged events:
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// Funds has arrived into the wallet (record how much).
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event Deposit(address _from, uint value);
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// Single transaction going out of the wallet (record who signed for it, how much, and to whom it's going).
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event SingleTransact(address owner, uint value, address to, bytes data, address created);
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// Multi-sig transaction going out of the wallet (record who signed for it last, the operation hash, how much, and to whom it's going).
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event MultiTransact(address owner, bytes32 operation, uint value, address to, bytes data, address created);
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// Confirmation still needed for a transaction.
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event ConfirmationNeeded(bytes32 operation, address initiator, uint value, address to, bytes data);
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// FUNCTIONS
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// TODO: document
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function execute(address _to, uint _value, bytes _data) external returns (bytes32 o_hash);
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function confirm(bytes32 _h) returns (bool o_success);
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}
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// usage:
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// bytes32 h = Wallet(w).from(oneOwner).execute(to, value, data);
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// Wallet(w).from(anotherOwner).confirm(h);
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contract Wallet is multisig, multiowned, daylimit {
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// TYPES
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// Transaction structure to remember details of transaction lest it need be saved for a later call.
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struct Transaction {
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address to;
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uint value;
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bytes data;
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}
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// METHODS
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// constructor - just pass on the owner array to the multiowned and
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// the limit to daylimit
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function Wallet(address[] _owners, uint _required, uint _daylimit)
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multiowned(_owners, _required) daylimit(_daylimit) {
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}
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// kills the contract sending everything to `_to`.
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function kill(address _to) onlymanyowners(sha3(msg.data)) external {
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suicide(_to);
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}
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// gets called when no other function matches
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function() payable {
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// just being sent some cash?
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if (msg.value > 0)
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Deposit(msg.sender, msg.value);
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}
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// Outside-visible transact entry point. Executes transaction immediately if below daily spend limit.
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// If not, goes into multisig process. We provide a hash on return to allow the sender to provide
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// shortcuts for the other confirmations (allowing them to avoid replicating the _to, _value
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// and _data arguments). They still get the option of using them if they want, anyways.
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function execute(address _to, uint _value, bytes _data) external onlyowner returns (bytes32 o_hash) {
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// first, take the opportunity to check that we're under the daily limit.
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if ((_data.length == 0 && underLimit(_value)) || m_required == 1) {
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// yes - just execute the call.
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address created;
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if (_to == 0) {
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created = create(_value, _data);
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} else {
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if (!_to.call.value(_value)(_data))
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throw;
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}
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SingleTransact(msg.sender, _value, _to, _data, created);
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} else {
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// determine our operation hash.
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o_hash = sha3(msg.data, block.number);
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// store if it's new
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if (m_txs[o_hash].to == 0 && m_txs[o_hash].value == 0 && m_txs[o_hash].data.length == 0) {
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m_txs[o_hash].to = _to;
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m_txs[o_hash].value = _value;
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m_txs[o_hash].data = _data;
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}
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if (!confirm(o_hash)) {
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ConfirmationNeeded(o_hash, msg.sender, _value, _to, _data);
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}
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}
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}
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function create(uint _value, bytes _code) internal returns (address o_addr) {
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assembly {
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o_addr := create(_value, add(_code, 0x20), mload(_code))
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jumpi(invalidJumpLabel, iszero(extcodesize(o_addr)))
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}
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}
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// confirm a transaction through just the hash. we use the previous transactions map, m_txs, in order
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// to determine the body of the transaction from the hash provided.
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function confirm(bytes32 _h) onlymanyowners(_h) returns (bool o_success) {
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if (m_txs[_h].to != 0 || m_txs[_h].value != 0 || m_txs[_h].data.length != 0) {
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address created;
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if (m_txs[_h].to == 0) {
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created = create(m_txs[_h].value, m_txs[_h].data);
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} else {
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if (!m_txs[_h].to.call.value(m_txs[_h].value)(m_txs[_h].data))
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throw;
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}
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MultiTransact(msg.sender, _h, m_txs[_h].value, m_txs[_h].to, m_txs[_h].data, created);
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delete m_txs[_h];
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return true;
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}
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}
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// INTERNAL METHODS
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function clearPending() internal {
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uint length = m_pendingIndex.length;
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for (uint i = 0; i < length; ++i)
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delete m_txs[m_pendingIndex[i]];
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super.clearPending();
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}
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// FIELDS
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// pending transactions we have at present.
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mapping (bytes32 => Transaction) m_txs;
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}
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