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284 lines
10 KiB
Solidity

2 years ago
// SPDX-License-Identifier: MIT
pragma solidity >=0.7.0 <0.9.0;
import "../src/StdStorage.sol";
import "../src/Test.sol";
contract StdStorageTest is Test {
using stdStorage for StdStorage;
StorageTest internal test;
function setUp() public {
test = new StorageTest();
}
function testStorageHidden() public {
assertEq(uint256(keccak256("my.random.var")), stdstore.target(address(test)).sig("hidden()").find());
}
function testStorageObvious() public {
assertEq(uint256(0), stdstore.target(address(test)).sig("exists()").find());
}
function testStorageCheckedWriteHidden() public {
stdstore.target(address(test)).sig(test.hidden.selector).checked_write(100);
assertEq(uint256(test.hidden()), 100);
}
function testStorageCheckedWriteObvious() public {
stdstore.target(address(test)).sig(test.exists.selector).checked_write(100);
assertEq(test.exists(), 100);
}
function testStorageMapStructA() public {
uint256 slot =
stdstore.target(address(test)).sig(test.map_struct.selector).with_key(address(this)).depth(0).find();
assertEq(uint256(keccak256(abi.encode(address(this), 4))), slot);
}
function testStorageMapStructB() public {
uint256 slot =
stdstore.target(address(test)).sig(test.map_struct.selector).with_key(address(this)).depth(1).find();
assertEq(uint256(keccak256(abi.encode(address(this), 4))) + 1, slot);
}
function testStorageDeepMap() public {
uint256 slot = stdstore.target(address(test)).sig(test.deep_map.selector).with_key(address(this)).with_key(
address(this)
).find();
assertEq(uint256(keccak256(abi.encode(address(this), keccak256(abi.encode(address(this), uint256(5)))))), slot);
}
function testStorageCheckedWriteDeepMap() public {
stdstore.target(address(test)).sig(test.deep_map.selector).with_key(address(this)).with_key(address(this))
.checked_write(100);
assertEq(100, test.deep_map(address(this), address(this)));
}
function testStorageDeepMapStructA() public {
uint256 slot = stdstore.target(address(test)).sig(test.deep_map_struct.selector).with_key(address(this))
.with_key(address(this)).depth(0).find();
assertEq(
bytes32(uint256(keccak256(abi.encode(address(this), keccak256(abi.encode(address(this), uint256(6)))))) + 0),
bytes32(slot)
);
}
function testStorageDeepMapStructB() public {
uint256 slot = stdstore.target(address(test)).sig(test.deep_map_struct.selector).with_key(address(this))
.with_key(address(this)).depth(1).find();
assertEq(
bytes32(uint256(keccak256(abi.encode(address(this), keccak256(abi.encode(address(this), uint256(6)))))) + 1),
bytes32(slot)
);
}
function testStorageCheckedWriteDeepMapStructA() public {
stdstore.target(address(test)).sig(test.deep_map_struct.selector).with_key(address(this)).with_key(
address(this)
).depth(0).checked_write(100);
(uint256 a, uint256 b) = test.deep_map_struct(address(this), address(this));
assertEq(100, a);
assertEq(0, b);
}
function testStorageCheckedWriteDeepMapStructB() public {
stdstore.target(address(test)).sig(test.deep_map_struct.selector).with_key(address(this)).with_key(
address(this)
).depth(1).checked_write(100);
(uint256 a, uint256 b) = test.deep_map_struct(address(this), address(this));
assertEq(0, a);
assertEq(100, b);
}
function testStorageCheckedWriteMapStructA() public {
stdstore.target(address(test)).sig(test.map_struct.selector).with_key(address(this)).depth(0).checked_write(100);
(uint256 a, uint256 b) = test.map_struct(address(this));
assertEq(a, 100);
assertEq(b, 0);
}
function testStorageCheckedWriteMapStructB() public {
stdstore.target(address(test)).sig(test.map_struct.selector).with_key(address(this)).depth(1).checked_write(100);
(uint256 a, uint256 b) = test.map_struct(address(this));
assertEq(a, 0);
assertEq(b, 100);
}
function testStorageStructA() public {
uint256 slot = stdstore.target(address(test)).sig(test.basic.selector).depth(0).find();
assertEq(uint256(7), slot);
}
function testStorageStructB() public {
uint256 slot = stdstore.target(address(test)).sig(test.basic.selector).depth(1).find();
assertEq(uint256(7) + 1, slot);
}
function testStorageCheckedWriteStructA() public {
stdstore.target(address(test)).sig(test.basic.selector).depth(0).checked_write(100);
(uint256 a, uint256 b) = test.basic();
assertEq(a, 100);
assertEq(b, 1337);
}
function testStorageCheckedWriteStructB() public {
stdstore.target(address(test)).sig(test.basic.selector).depth(1).checked_write(100);
(uint256 a, uint256 b) = test.basic();
assertEq(a, 1337);
assertEq(b, 100);
}
function testStorageMapAddrFound() public {
uint256 slot = stdstore.target(address(test)).sig(test.map_addr.selector).with_key(address(this)).find();
assertEq(uint256(keccak256(abi.encode(address(this), uint256(1)))), slot);
}
function testStorageMapUintFound() public {
uint256 slot = stdstore.target(address(test)).sig(test.map_uint.selector).with_key(100).find();
assertEq(uint256(keccak256(abi.encode(100, uint256(2)))), slot);
}
function testStorageCheckedWriteMapUint() public {
stdstore.target(address(test)).sig(test.map_uint.selector).with_key(100).checked_write(100);
assertEq(100, test.map_uint(100));
}
function testStorageCheckedWriteMapAddr() public {
stdstore.target(address(test)).sig(test.map_addr.selector).with_key(address(this)).checked_write(100);
assertEq(100, test.map_addr(address(this)));
}
function testStorageCheckedWriteMapBool() public {
stdstore.target(address(test)).sig(test.map_bool.selector).with_key(address(this)).checked_write(true);
assertTrue(test.map_bool(address(this)));
}
function testFailStorageCheckedWriteMapPacked() public {
// expect PackedSlot error but not external call so cant expectRevert
stdstore.target(address(test)).sig(test.read_struct_lower.selector).with_key(address(uint160(1337)))
.checked_write(100);
}
function testStorageCheckedWriteMapPackedSuccess() public {
uint256 full = test.map_packed(address(1337));
// keep upper 128, set lower 128 to 1337
full = (full & (uint256((1 << 128) - 1) << 128)) | 1337;
stdstore.target(address(test)).sig(test.map_packed.selector).with_key(address(uint160(1337))).checked_write(
full
);
assertEq(1337, test.read_struct_lower(address(1337)));
}
function testFailStorageConst() public {
// vm.expectRevert(abi.encodeWithSignature("NotStorage(bytes4)", bytes4(keccak256("const()"))));
stdstore.target(address(test)).sig("const()").find();
}
function testFailStorageNativePack() public {
stdstore.target(address(test)).sig(test.tA.selector).find();
stdstore.target(address(test)).sig(test.tB.selector).find();
// these both would fail
stdstore.target(address(test)).sig(test.tC.selector).find();
stdstore.target(address(test)).sig(test.tD.selector).find();
}
function testStorageReadBytes32() public {
bytes32 val = stdstore.target(address(test)).sig(test.tE.selector).read_bytes32();
assertEq(val, hex"1337");
}
function testStorageReadBool_False() public {
bool val = stdstore.target(address(test)).sig(test.tB.selector).read_bool();
assertEq(val, false);
}
function testStorageReadBool_True() public {
bool val = stdstore.target(address(test)).sig(test.tH.selector).read_bool();
assertEq(val, true);
}
function testStorageReadBool_Revert() public {
vm.expectRevert("stdStorage read_bool(StdStorage): Cannot decode. Make sure you are reading a bool.");
this.readNonBoolValue();
}
function readNonBoolValue() public {
stdstore.target(address(test)).sig(test.tE.selector).read_bool();
}
function testStorageReadAddress() public {
address val = stdstore.target(address(test)).sig(test.tF.selector).read_address();
assertEq(val, address(1337));
}
function testStorageReadUint() public {
uint256 val = stdstore.target(address(test)).sig(test.exists.selector).read_uint();
assertEq(val, 1);
}
function testStorageReadInt() public {
int256 val = stdstore.target(address(test)).sig(test.tG.selector).read_int();
assertEq(val, type(int256).min);
}
}
contract StorageTest {
uint256 public exists = 1;
mapping(address => uint256) public map_addr;
mapping(uint256 => uint256) public map_uint;
mapping(address => uint256) public map_packed;
mapping(address => UnpackedStruct) public map_struct;
mapping(address => mapping(address => uint256)) public deep_map;
mapping(address => mapping(address => UnpackedStruct)) public deep_map_struct;
UnpackedStruct public basic;
uint248 public tA;
bool public tB;
bool public tC = false;
uint248 public tD = 1;
struct UnpackedStruct {
uint256 a;
uint256 b;
}
mapping(address => bool) public map_bool;
bytes32 public tE = hex"1337";
address public tF = address(1337);
int256 public tG = type(int256).min;
bool public tH = true;
constructor() {
basic = UnpackedStruct({a: 1337, b: 1337});
uint256 two = (1 << 128) | 1;
map_packed[msg.sender] = two;
map_packed[address(uint160(1337))] = 1 << 128;
}
function read_struct_upper(address who) public view returns (uint256) {
return map_packed[who] >> 128;
}
function read_struct_lower(address who) public view returns (uint256) {
return map_packed[who] & ((1 << 128) - 1);
}
function hidden() public view returns (bytes32 t) {
bytes32 slot = keccak256("my.random.var");
/// @solidity memory-safe-assembly
assembly {
t := sload(slot)
}
}
function const() public pure returns (bytes32 t) {
t = bytes32(hex"1337");
}
}