liquid-funding/build/LiquidPledgingBase_all.sol

547 lines
19 KiB
Solidity

//File: contracts/ILiquidPledgingPlugin.sol
pragma solidity ^0.4.11;
contract ILiquidPledgingPlugin {
/// @notice Plugins are used (much like web hooks) to initiate an action
/// upon any donation, delegation, or transfer; this is an optional feature
/// and allows for extreme customization of the contract
/// @param context The situation that is triggering the plugin:
/// 0 -> Plugin for the owner transferring pledge to another party
/// 1 -> Plugin for the first delegate transferring pledge to another party
/// 2 -> Plugin for the second delegate transferring pledge to another party
/// ...
/// 255 -> Plugin for the intendedProject transferring pledge to another party
///
/// 256 -> Plugin for the owner receiving pledge to another party
/// 257 -> Plugin for the first delegate receiving pledge to another party
/// 258 -> Plugin for the second delegate receiving pledge to another party
/// ...
/// 511 -> Plugin for the intendedProject receiving pledge to another party
function beforeTransfer(
uint64 pledgeManager,
uint64 pledgeFrom,
uint64 pledgeTo,
uint64 context,
uint amount
) returns (uint maxAllowed);
function afterTransfer(
uint64 pledgeManager,
uint64 pledgeFrom,
uint64 pledgeTo,
uint64 context,
uint amount);
}
//File: node_modules/giveth-common-contracts/contracts/Owned.sol
pragma solidity ^0.4.15;
/// @title Owned
/// @author Adrià Massanet <adria@codecontext.io>
/// @notice The Owned contract has an owner address, and provides basic
/// authorization control functions, this simplifies & the implementation of
/// user permissions; this contract has three work flows for a change in
/// ownership, the first requires the new owner to validate that they have the
/// ability to accept ownership, the second allows the ownership to be
/// directly transfered without requiring acceptance, and the third allows for
/// the ownership to be removed to allow for decentralization
contract Owned {
address public owner;
address public newOwnerCandidate;
event OwnershipRequested(address indexed by, address indexed to);
event OwnershipTransferred(address indexed from, address indexed to);
event OwnershipRemoved();
/// @dev The constructor sets the `msg.sender` as the`owner` of the contract
function Owned() public {
owner = msg.sender;
}
/// @dev `owner` is the only address that can call a function with this
/// modifier
modifier onlyOwner() {
require (msg.sender == owner);
_;
}
/// @dev In this 1st option for ownership transfer `proposeOwnership()` must
/// be called first by the current `owner` then `acceptOwnership()` must be
/// called by the `newOwnerCandidate`
/// @notice `onlyOwner` Proposes to transfer control of the contract to a
/// new owner
/// @param _newOwnerCandidate The address being proposed as the new owner
function proposeOwnership(address _newOwnerCandidate) public onlyOwner {
newOwnerCandidate = _newOwnerCandidate;
OwnershipRequested(msg.sender, newOwnerCandidate);
}
/// @notice Can only be called by the `newOwnerCandidate`, accepts the
/// transfer of ownership
function acceptOwnership() public {
require(msg.sender == newOwnerCandidate);
address oldOwner = owner;
owner = newOwnerCandidate;
newOwnerCandidate = 0x0;
OwnershipTransferred(oldOwner, owner);
}
/// @dev In this 2nd option for ownership transfer `changeOwnership()` can
/// be called and it will immediately assign ownership to the `newOwner`
/// @notice `owner` can step down and assign some other address to this role
/// @param _newOwner The address of the new owner
function changeOwnership(address _newOwner) public onlyOwner {
require(_newOwner != 0x0);
address oldOwner = owner;
owner = _newOwner;
newOwnerCandidate = 0x0;
OwnershipTransferred(oldOwner, owner);
}
/// @dev In this 3rd option for ownership transfer `removeOwnership()` can
/// be called and it will immediately assign ownership to the 0x0 address;
/// it requires a 0xdece be input as a parameter to prevent accidental use
/// @notice Decentralizes the contract, this operation cannot be undone
/// @param _dac `0xdac` has to be entered for this function to work
function removeOwnership(address _dac) public onlyOwner {
require(_dac == 0xdac);
owner = 0x0;
newOwnerCandidate = 0x0;
OwnershipRemoved();
}
}
//File: ./contracts/LiquidPledgingBase.sol
pragma solidity ^0.4.11;
/// @dev This is declares a few functions from `Vault` so that the
/// `LiquidPledgingBase` contract can interface with the `Vault` contract
contract Vault {
function authorizePayment(bytes32 _ref, address _dest, uint _amount);
function () payable;
}
contract LiquidPledgingBase is Owned {
// Limits inserted to prevent large loops that could prevent canceling
uint constant MAX_DELEGATES = 20;
uint constant MAX_SUBPROJECT_LEVEL = 20;
uint constant MAX_INTERPROJECT_LEVEL = 20;
enum PledgeAdminType { Giver, Delegate, Project }
enum PaymentState { Pledged, Paying, Paid } // TODO name change Pledged
/// @dev This struct defines the details of each the PledgeAdmin, these
/// PledgeAdmins can own pledges and act as delegates
struct PledgeAdmin { // TODO name change PledgeAdmin
PledgeAdminType adminType; // Giver, Delegate or Project
address addr; // account or contract address for admin
string name;
string url;
uint64 commitTime; // In seconds, used for Givers' & Delegates' vetos
uint64 parentProject; // Only for projects
bool canceled; //Always false except for canceled projects
ILiquidPledgingPlugin plugin; // if the plugin is 0x0 then nothing happens if its a contract address than that smart contract is called via the milestone contract
}
struct Pledge {
uint amount;
uint64 owner; // PledgeAdmin
uint64[] delegationChain; // list of index numbers
uint64 intendedProject; // TODO change the name only used for when delegates are precommiting to a project
uint64 commitTime; // When the intendedProject will become the owner
uint64 oldPledge; // this points to the Pledge[] index that the Pledge was derived from
PaymentState paymentState;
}
Pledge[] pledges;
PledgeAdmin[] admins; //The list of pledgeAdmins 0 means there is no admin
Vault public vault;
// this mapping allows you to search for a specific pledge's index number by the hash of that pledge
mapping (bytes32 => uint64) hPledge2idx;//TODO Fix typo
mapping (bytes32 => bool) pluginWhitelist;
bool public usePluginWhitelist = true;
/////
// Modifiers
/////
modifier onlyVault() {
require(msg.sender == address(vault));
_;
}
//////
// Constructor
//////
/// @notice The Constructor creates the `LiquidPledgingBase` on the blockchain
/// @param _vault Where the ETH is stored that the pledges represent
function LiquidPledgingBase(address _vault) {
admins.length = 1; // we reserve the 0 admin
pledges.length = 1; // we reserve the 0 pledge
vault = Vault(_vault);
}
///////
// Admin functions
//////
/// @notice Creates a giver.
function addGiver(string name, string url, uint64 commitTime, ILiquidPledgingPlugin plugin
) returns (uint64 idGiver) {
require(isValidPlugin(plugin));
idGiver = uint64(admins.length);
admins.push(PledgeAdmin(
PledgeAdminType.Giver,
msg.sender,
name,
url,
commitTime,
0,
false,
plugin));
GiverAdded(idGiver);
}
event GiverAdded(uint64 indexed idGiver);
///@notice Changes the address, name or commitTime associated with a specific giver
function updateGiver(
uint64 idGiver,
address newAddr,
string newName,
string newUrl,
uint64 newCommitTime)
{
PledgeAdmin storage giver = findAdmin(idGiver);
require(giver.adminType == PledgeAdminType.Giver); //Must be a Giver
require(giver.addr == msg.sender); //current addr had to originate this tx
giver.addr = newAddr;
giver.name = newName;
giver.url = newUrl;
giver.commitTime = newCommitTime;
GiverUpdated(idGiver);
}
event GiverUpdated(uint64 indexed idGiver);
/// @notice Creates a new Delegate
function addDelegate(string name, string url, uint64 commitTime, ILiquidPledgingPlugin plugin) returns (uint64 idDelegate) { //TODO return index number
require(isValidPlugin(plugin));
idDelegate = uint64(admins.length);
admins.push(PledgeAdmin(
PledgeAdminType.Delegate,
msg.sender,
name,
url,
commitTime,
0,
false,
plugin));
DelegateAdded(idDelegate);
}
event DelegateAdded(uint64 indexed idDelegate);
///@notice Changes the address, name or commitTime associated with a specific delegate
function updateDelegate(
uint64 idDelegate,
address newAddr,
string newName,
string newUrl,
uint64 newCommitTime) {
PledgeAdmin storage delegate = findAdmin(idDelegate);
require(delegate.adminType == PledgeAdminType.Delegate);
require(delegate.addr == msg.sender);
delegate.addr = newAddr;
delegate.name = newName;
delegate.url = newUrl;
delegate.commitTime = newCommitTime;
DelegateUpdated(idDelegate);
}
event DelegateUpdated(uint64 indexed idDelegate);
/// @notice Creates a new Project
function addProject(string name, string url, address projectAdmin, uint64 parentProject, uint64 commitTime, ILiquidPledgingPlugin plugin) returns (uint64 idProject) {
require(isValidPlugin(plugin));
if (parentProject != 0) {
PledgeAdmin storage pa = findAdmin(parentProject);
require(pa.adminType == PledgeAdminType.Project);
require(getProjectLevel(pa) < MAX_SUBPROJECT_LEVEL);
}
idProject = uint64(admins.length);
admins.push(PledgeAdmin(
PledgeAdminType.Project,
projectAdmin,
name,
url,
commitTime,
parentProject,
false,
plugin));
ProjectAdded(idProject);
}
event ProjectAdded(uint64 indexed idProject);
///@notice Changes the address, name or commitTime associated with a specific Project
function updateProject(
uint64 idProject,
address newAddr,
string newName,
string newUrl,
uint64 newCommitTime)
{
PledgeAdmin storage project = findAdmin(idProject);
require(project.adminType == PledgeAdminType.Project);
require(project.addr == msg.sender);
project.addr = newAddr;
project.name = newName;
project.url = newUrl;
project.commitTime = newCommitTime;
ProjectUpdated(idProject);
}
event ProjectUpdated(uint64 indexed idAdmin);
//////////
// Public constant functions
//////////
/// @notice Public constant that states how many pledgess are in the system
function numberOfPledges() constant returns (uint) {
return pledges.length - 1;
}
/// @notice Public constant that states the details of the specified Pledge
function getPledge(uint64 idPledge) constant returns(
uint amount,
uint64 owner,
uint64 nDelegates,
uint64 intendedProject,
uint64 commitTime,
uint64 oldPledge,
PaymentState paymentState
) {
Pledge storage n = findPledge(idPledge);
amount = n.amount;
owner = n.owner;
nDelegates = uint64(n.delegationChain.length);
intendedProject = n.intendedProject;
commitTime = n.commitTime;
oldPledge = n.oldPledge;
paymentState = n.paymentState;
}
/// @notice Public constant that states the delegates one by one, because
/// an array cannot be returned
function getPledgeDelegate(uint64 idPledge, uint idxDelegate) constant returns(
uint64 idDelegate,
address addr,
string name
) {
Pledge storage n = findPledge(idPledge);
idDelegate = n.delegationChain[idxDelegate - 1];
PledgeAdmin storage delegate = findAdmin(idDelegate);
addr = delegate.addr;
name = delegate.name;
}
/// @notice Public constant that states the number of admins in the system
function numberOfPledgeAdmins() constant returns(uint) {
return admins.length - 1;
}
/// @notice Public constant that states the details of the specified admin
function getPledgeAdmin(uint64 idAdmin) constant returns (
PledgeAdminType adminType,
address addr,
string name,
string url,
uint64 commitTime,
uint64 parentProject,
bool canceled,
address plugin)
{
PledgeAdmin storage m = findAdmin(idAdmin);
adminType = m.adminType;
addr = m.addr;
name = m.name;
url = m.url;
commitTime = m.commitTime;
parentProject = m.parentProject;
canceled = m.canceled;
plugin = address(m.plugin);
}
////////
// Private methods
///////
/// @notice All pledges technically exist... but if the pledge hasn't been
/// created in this system yet then it wouldn't be in the hash array
/// hPledge2idx[]; this creates a Pledge with and amount of 0 if one is not
/// created already...
function findOrCreatePledge(
uint64 owner,
uint64[] delegationChain,
uint64 intendedProject,
uint64 commitTime,
uint64 oldPledge,
PaymentState paid
) internal returns (uint64)
{
bytes32 hPledge = sha3(owner, delegationChain, intendedProject, commitTime, oldPledge, paid);
uint64 idx = hPledge2idx[hPledge];
if (idx > 0) return idx;
idx = uint64(pledges.length);
hPledge2idx[hPledge] = idx;
pledges.push(Pledge(0, owner, delegationChain, intendedProject, commitTime, oldPledge, paid));
return idx;
}
function findAdmin(uint64 idAdmin) internal returns (PledgeAdmin storage) {
require(idAdmin < admins.length);
return admins[idAdmin];
}
function findPledge(uint64 idPledge) internal returns (Pledge storage) {
require(idPledge < pledges.length);
return pledges[idPledge];
}
// a constant for the case that a delegate is requested that is not a delegate in the system
uint64 constant NOTFOUND = 0xFFFFFFFFFFFFFFFF;
// helper function that searches the delegationChain fro a specific delegate and
// level of delegation returns their idx in the delegation chain which reflect their level of authority
function getDelegateIdx(Pledge n, uint64 idDelegate) internal returns(uint64) {
for (uint i=0; i<n.delegationChain.length; i++) {
if (n.delegationChain[i] == idDelegate) return uint64(i);
}
return NOTFOUND;
}
// helper function that returns the pledge level solely to check that transfers
// between Projects not violate MAX_INTERPROJECT_LEVEL
function getPledgeLevel(Pledge n) internal returns(uint) {
if (n.oldPledge == 0) return 0; //changed
Pledge storage oldN = findPledge(n.oldPledge);
return getPledgeLevel(oldN) + 1;
}
// helper function that returns the max commit time of the owner and all the
// delegates
function maxCommitTime(Pledge n) internal returns(uint commitTime) {
PledgeAdmin storage m = findAdmin(n.owner);
commitTime = m.commitTime;
for (uint i=0; i<n.delegationChain.length; i++) {
m = findAdmin(n.delegationChain[i]);
if (m.commitTime > commitTime) commitTime = m.commitTime;
}
}
// helper function that returns the project level solely to check that there
// are not too many Projects that violate MAX_SUBCAMPAIGNS_LEVEL
function getProjectLevel(PledgeAdmin m) internal returns(uint) {
assert(m.adminType == PledgeAdminType.Project);
if (m.parentProject == 0) return(1);
PledgeAdmin storage parentNM = findAdmin(m.parentProject);
return getProjectLevel(parentNM);
}
function isProjectCanceled(uint64 projectId) constant returns (bool) {
PledgeAdmin storage m = findAdmin(projectId);
if (m.adminType == PledgeAdminType.Giver) return false;
assert(m.adminType == PledgeAdminType.Project);
if (m.canceled) return true;
if (m.parentProject == 0) return false;
return isProjectCanceled(m.parentProject);
}
// @notice A helper function for canceling projects
// @param idPledge the pledge that may or may not be canceled
function getOldestPledgeNotCanceled(uint64 idPledge) internal constant returns(uint64) { //todo rename
if (idPledge == 0) return 0;
Pledge storage n = findPledge(idPledge);
PledgeAdmin storage admin = findAdmin(n.owner);
if (admin.adminType == PledgeAdminType.Giver) return idPledge;
assert(admin.adminType == PledgeAdminType.Project);
if (!isProjectCanceled(n.owner)) return idPledge;
return getOldestPledgeNotCanceled(n.oldPledge);
}
function checkAdminOwner(PledgeAdmin m) internal constant {
require((msg.sender == m.addr) || (msg.sender == address(m.plugin)));
}
////////
// Plugin Whitelist Methods
///////
function addValidPlugin(bytes32 contractHash) external onlyOwner {
pluginWhitelist[contractHash] = true;
}
function removeValidPlugin(bytes32 contractHash) external onlyOwner {
pluginWhitelist[contractHash] = false;
}
function useWhitelist(bool useWhitelist) external onlyOwner {
usePluginWhitelist = useWhitelist;
}
function isValidPlugin(address addr) public returns(bool) {
if (!usePluginWhitelist || addr == 0x0) return true;
bytes32 contractHash = getCodeHash(addr);
return pluginWhitelist[contractHash];
}
function getCodeHash(address addr) public returns(bytes32) {
bytes memory o_code;
assembly {
// retrieve the size of the code, this needs assembly
let size := extcodesize(addr)
// allocate output byte array - this could also be done without assembly
// by using o_code = new bytes(size)
o_code := mload(0x40)
// new "memory end" including padding
mstore(0x40, add(o_code, and(add(add(size, 0x20), 0x1f), not(0x1f))))
// store length in memory
mstore(o_code, size)
// actually retrieve the code, this needs assembly
extcodecopy(addr, add(o_code, 0x20), 0, size)
}
return keccak256(o_code);
}
}