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openzeppelin-contracts/contracts/GSN/GSNContext.sol

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pragma solidity ^0.5.0;
import "./Context.sol";
/*
* @dev Enables GSN support on `Context` contracts by recognizing calls from
* RelayHub and extracting the actual sender and call data from the received
* calldata.
*
* > This contract does not perform all required tasks to implement a GSN
* recipient contract: end users should use `GSNRecipient` instead.
*/
contract GSNContext is Context {
// We use a random storage slot to allow proxy contracts to enable GSN support in an upgrade without changing their
// storage layout. This value is calculated as: keccak256('gsn.relayhub.address'), minus 1.
bytes32 private constant RELAY_HUB_ADDRESS_STORAGE_SLOT = 0x06b7792c761dcc05af1761f0315ce8b01ac39c16cc934eb0b2f7a8e71414f262;
event RelayHubChanged(address indexed oldRelayHub, address indexed newRelayHub);
constructor() internal {
_upgradeRelayHub(0xD216153c06E857cD7f72665E0aF1d7D82172F494);
}
function _getRelayHub() internal view returns (address relayHub) {
bytes32 slot = RELAY_HUB_ADDRESS_STORAGE_SLOT;
// solhint-disable-next-line no-inline-assembly
assembly {
relayHub := sload(slot)
}
}
function _upgradeRelayHub(address newRelayHub) internal {
address currentRelayHub = _getRelayHub();
require(newRelayHub != address(0), "GSNContext: new RelayHub is the zero address");
require(newRelayHub != currentRelayHub, "GSNContext: new RelayHub is the current one");
emit RelayHubChanged(currentRelayHub, newRelayHub);
bytes32 slot = RELAY_HUB_ADDRESS_STORAGE_SLOT;
// solhint-disable-next-line no-inline-assembly
assembly {
sstore(slot, newRelayHub)
}
}
// Overrides for Context's functions: when called from RelayHub, sender and
// data require some pre-processing: the actual sender is stored at the end
// of the call data, which in turns means it needs to be removed from it
// when handling said data.
function _msgSender() internal view returns (address) {
if (msg.sender != _getRelayHub()) {
return msg.sender;
} else {
return _getRelayedCallSender();
}
}
function _msgData() internal view returns (bytes memory) {
if (msg.sender != _getRelayHub()) {
return msg.data;
} else {
return _getRelayedCallData();
}
}
function _getRelayedCallSender() private pure returns (address result) {
// We need to read 20 bytes (an address) located at array index msg.data.length - 20. In memory, the array
// is prefixed with a 32-byte length value, so we first add 32 to get the memory read index. However, doing
// so would leave the address in the upper 20 bytes of the 32-byte word, which is inconvenient and would
// require bit shifting. We therefore subtract 12 from the read index so the address lands on the lower 20
// bytes. This can always be done due to the 32-byte prefix.
// The final memory read index is msg.data.length - 20 + 32 - 12 = msg.data.length. Using inline assembly is the
// easiest/most-efficient way to perform this operation.
// These fields are not accessible from assembly
bytes memory array = msg.data;
uint256 index = msg.data.length;
// solhint-disable-next-line no-inline-assembly
assembly {
// Load the 32 bytes word from memory with the address on the lower 20 bytes, and mask those.
result := and(mload(add(array, index)), 0xffffffffffffffffffffffffffffffffffffffff)
}
return result;
}
function _getRelayedCallData() private pure returns (bytes memory) {
// RelayHub appends the sender address at the end of the calldata, so in order to retrieve the actual msg.data,
// we must strip the last 20 bytes (length of an address type) from it.
uint256 actualDataLength = msg.data.length - 20;
bytes memory actualData = new bytes(actualDataLength);
for (uint256 i = 0; i < actualDataLength; ++i) {
actualData[i] = msg.data[i];
}
return actualData;
}
}