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author | Remco Bloemen <remco@wicked.ventures> | 2018-02-27 05:01:51 +0800 |
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committer | Amir Bandeali <abandeali1@gmail.com> | 2018-04-21 04:56:16 +0800 |
commit | 58c5e800d0e6ec581e2050d115c4556f495f358b (patch) | |
tree | bf1d8145c7a491b4adf6907bc9c071c682642ded /packages/contracts | |
parent | 6d7097eed51fe002e43b416f742d39f13fa39153 (diff) | |
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Document noThrow wrapper and correct fixed array offset
Diffstat (limited to 'packages/contracts')
-rw-r--r-- | packages/contracts/src/contracts/current/protocol/Exchange/MixinWrapperFunctions.sol | 120 |
1 files changed, 81 insertions, 39 deletions
diff --git a/packages/contracts/src/contracts/current/protocol/Exchange/MixinWrapperFunctions.sol b/packages/contracts/src/contracts/current/protocol/Exchange/MixinWrapperFunctions.sol index 03dbd3cbd..db8a4bfad 100644 --- a/packages/contracts/src/contracts/current/protocol/Exchange/MixinWrapperFunctions.sol +++ b/packages/contracts/src/contracts/current/protocol/Exchange/MixinWrapperFunctions.sol @@ -61,53 +61,95 @@ contract MixinWrapperFunctions is public returns (bool success, uint256 takerTokenFilledAmount) { + // We need to call MExchangeCore.fillOrder using a delegatecall in + // assembly so that we can intercept a call that throws. For this, we + // need the input encoded in memory in the Ethereum ABI format [1]. + // + // | Offset | Length | Contents | + // |--------|--------|------------------------------| + // | 0 | 4 | function selector | + // | 4 | 160 | address[5] orderAddresses | + // | 164 | 192 | uint256[6] orderValues | + // | 356 | 32 | uint256 takerTokenFillAmount | + // | 388 | 32 | len(signature) | + // | 420 | (1) | signature | + // | (2) | (3) | padding (zero) | + // | (4) | | end of input | + // + // (1): len(signature) + // (2): 420 + len(signature) + // (3): (32 - len(signature)) mod 32 + // (4): 420 + len(signature) + (32 - len(signature)) mod 32 + // + // [1]: https://solidity.readthedocs.io/en/develop/abi-spec.html + + // Allocate memory for input + uint256 signatureLength = signature.length; + uint256 paddingLength = (32 - signatureLength) % 32 + uint256 inputSize = 420 + signatureLength + paddingLength; + bytes memory input = new bytes(inputSize); + + // The in memory layout of `bytes memory input` starts with + // `uint256 length`, the content of the byte array starts at + // offset 32 from the pointer. We need assembly to access the + // raw pointer value of `input`. + // TODO: I can not find an official source for this. + uint256 start; + assembly { + start := add(input, 32) + } + + // Write function signature + // We use assembly to write four bytes at a time (actually 32, + // but we are only overwriting uninitialized data). A `bytes4` + // is stored by value as 256-bit and right-padded with zeros. bytes4 FILL_ORDER_FUNCTION_SIGNATURE = bytes4(keccak256("fillOrder(address[5],uint256[6],uint256,uint8,bytes32,bytes32)")); + assembly { + mstore(start, FILL_ORDER_FUNCTION_SIGNATURE); + } - // Input size is padded to a 4 + n * 32 byte boundary - // TODO: Construct the input array using readable Solidity instead - // of assembly. - uint256 mask = 0x1F; - uint256 inputSize = 388 + (signature.length + mask) & ~mask; + // Write orderAddresses, orderValues, takerTokenFillAmount + // and len(signature) + // It is done in assembly so we can write 32 bytes at a time. In + // solidity we would have to copy one byte at a time. + // Fixed size arrays do not have the `uint256 length` prefix that + // dynamic arrays have [citation needed]. + assembly { + mstore(add(start, 4), orderAddresses) // maker + mstore(add(start, 36), add(orderAddresses, 32)) // taker + mstore(add(start, 68), add(orderAddresses, 64)) // makerToken + mstore(add(start, 100), add(orderAddresses, 96)) // takerToken + mstore(add(start, 132), add(orderAddresses, 128)) // feeRecipient + mstore(add(start, 164), orderValues) // makerTokenAmount + mstore(add(start, 196), add(orderValues, 32)) // takerTokenAmount + mstore(add(start, 228), add(orderValues, 64)) // makerFee + mstore(add(start, 260), add(orderValues, 96)) // takerFee + mstore(add(start, 292), add(orderValues, 128)) // expiration + mstore(add(start, 356), takerTokenFillAmount) + mstore(add(start, 388), signatureLength) + } + + // Write signature contents and padding one byte at a time + for (uint256 i = 0; i < signatureLength; i++) { + input[420 + i] = signature[i]; + } + for (uint256 i = 0; i < paddingLength; i++) { + input[420 + signatureLength + i] = 0x00; + } + // Call the function assembly { - let x := mload(0x40) // free memory pointer - mstore(x, FILL_ORDER_FUNCTION_SIGNATURE) - - // first 32 bytes of a dynamic in-memory array contains length - mstore(add(x, 4), add(orderAddresses, 32)) // maker - mstore(add(x, 36), add(orderAddresses, 64)) // taker - mstore(add(x, 68), add(orderAddresses, 96)) // makerToken - mstore(add(x, 100), add(orderAddresses, 128)) // takerToken - mstore(add(x, 132), add(orderAddresses, 160)) // feeRecipient - mstore(add(x, 164), add(orderValues, 32)) // makerTokenAmount - mstore(add(x, 196), add(orderValues, 64)) // takerTokenAmount - mstore(add(x, 228), add(orderValues, 96)) // makerFee - mstore(add(x, 260), add(orderValues, 128)) // takerFee - mstore(add(x, 292), add(orderValues, 160)) // expirationTimestampInSec - mstore(add(x, 324), add(orderValues, 192)) // salt - mstore(add(x, 356), takerTokenFillAmount) - for { - let src := signature - let dst := add(x, 388) - let end := add(add(src, mload(signature)), 32) - } lt(src, end) { - src := add(src, 32) - dst := add(dst, 32) - } { - mstore(dst, mload(src)) - // TODO: zero the padding - } - success := delegatecall( - gas, // TODO: don't send all gas, save some for returning in case of throw + gas, // If fillOrder `revert()`s, we recover unused gas address, // call this contract - x, // inputs start at x - inputSize, // input are size - x, // store output over input + start, // pointer to start of input + inputSize, // length of input + start, // store output over input 32 // output is 32 bytes ) - - takerTokenFilledAmount := mload(x) + + // Read output value (uint256 takerTokenFilledAmount) + takerTokenFilledAmount := mload(start) } return (success, takerTokenFilledAmount); } |