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author | Greg Hysen <greg.hysen@gmail.com> | 2018-07-18 22:09:42 +0800 |
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committer | Amir Bandeali <abandeali1@gmail.com> | 2018-07-20 22:37:40 +0800 |
commit | 5790ed7ba977adf586ea9290a2694ebdb7684dcc (patch) | |
tree | d9d78a54113e7043f5451acfc7d85d3ffbf5f0bc | |
parent | 7fadba59e7973df11e3b1f4588182e2776526c5c (diff) | |
download | dexon-sol-tools-5790ed7ba977adf586ea9290a2694ebdb7684dcc.tar.gz dexon-sol-tools-5790ed7ba977adf586ea9290a2694ebdb7684dcc.tar.zst dexon-sol-tools-5790ed7ba977adf586ea9290a2694ebdb7684dcc.zip |
Created LibAbiEncoder with `fillOrderNoThrow`
-rw-r--r-- | packages/contracts/src/2.0.0/protocol/Exchange/MixinWrapperFunctions.sol | 190 | ||||
-rw-r--r-- | packages/contracts/src/2.0.0/protocol/Exchange/libs/LibAbiEncoder.sol | 215 |
2 files changed, 235 insertions, 170 deletions
diff --git a/packages/contracts/src/2.0.0/protocol/Exchange/MixinWrapperFunctions.sol b/packages/contracts/src/2.0.0/protocol/Exchange/MixinWrapperFunctions.sol index d420f7e85..a5038f5cf 100644 --- a/packages/contracts/src/2.0.0/protocol/Exchange/MixinWrapperFunctions.sol +++ b/packages/contracts/src/2.0.0/protocol/Exchange/MixinWrapperFunctions.sol @@ -22,12 +22,14 @@ pragma experimental ABIEncoderV2; import "./libs/LibMath.sol"; import "./libs/LibOrder.sol"; import "./libs/LibFillResults.sol"; +import "./libs/LibAbiEncoder.sol"; import "./mixins/MExchangeCore.sol"; contract MixinWrapperFunctions is LibMath, LibFillResults, + LibAbiEncoder, MExchangeCore { /// @dev Fills the input order. Reverts if exact takerAssetFillAmount not filled. @@ -68,177 +70,25 @@ contract MixinWrapperFunctions is public returns (FillResults memory fillResults) { - // 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 ABIv2 format [1]. - - // | Area | Offset | Length | Contents | - // | -------- |--------|---------|-------------------------------------------- | - // | Header | 0x00 | 4 | function selector | - // | Params | | 3 * 32 | function parameters: | - // | | 0x00 | | 1. offset to order (*) | - // | | 0x20 | | 2. takerAssetFillAmount | - // | | 0x40 | | 3. offset to signature (*) | - // | Data | | 12 * 32 | order: | - // | | 0x000 | | 1. senderAddress | - // | | 0x020 | | 2. makerAddress | - // | | 0x040 | | 3. takerAddress | - // | | 0x060 | | 4. feeRecipientAddress | - // | | 0x080 | | 5. makerAssetAmount | - // | | 0x0A0 | | 6. takerAssetAmount | - // | | 0x0C0 | | 7. makerFeeAmount | - // | | 0x0E0 | | 8. takerFeeAmount | - // | | 0x100 | | 9. expirationTimeSeconds | - // | | 0x120 | | 10. salt | - // | | 0x140 | | 11. Offset to makerAssetData (*) | - // | | 0x160 | | 12. Offset to takerAssetData (*) | - // | | 0x180 | 32 | makerAssetData Length | - // | | 0x1A0 | ** | makerAssetData Contents | - // | | 0x1C0 | 32 | takerAssetData Length | - // | | 0x1E0 | ** | takerAssetData Contents | - // | | 0x200 | 32 | signature Length | - // | | 0x220 | ** | signature Contents | - - // * Offsets are calculated from the beginning of the current area: Header, Params, Data: - // An offset stored in the Params area is calculated from the beginning of the Params section. - // An offset stored in the Data area is calculated from the beginning of the Data section. - - // ** The length of dynamic array contents are stored in the field immediately preceeding the contents. - - // [1]: https://solidity.readthedocs.io/en/develop/abi-spec.html - - bytes4 fillOrderSelector = this.fillOrder.selector; + // ABI encode calldata for `fillOrder` + ( + uint256 calldataBegin, + uint256 calldataLength + ) = abiEncodeFillOrder( + order, + takerAssetFillAmount, + signature, + this.fillOrder.selector + ); + // Delegate to `fillOrder` and handle any exceptions gracefully assembly { - - // Areas below may use the following variables: - // 1. <area>Start -- Start of this area in memory - // 2. <area>End -- End of this area in memory. This value may - // be precomputed (before writing contents), - // or it may be computed as contents are written. - // 3. <area>Offset -- Current offset into area. If an area's End - // is precomputed, this variable tracks the - // offsets of contents as they are written. - - /////// Setup Header Area /////// - // Load free memory pointer - let headerAreaStart := mload(0x40) - mstore(headerAreaStart, fillOrderSelector) - let headerAreaEnd := add(headerAreaStart, 0x4) - - /////// Setup Params Area /////// - // This area is preallocated and written to later. - // This is because we need to fill in offsets that have not yet been calculated. - let paramsAreaStart := headerAreaEnd - let paramsAreaEnd := add(paramsAreaStart, 0x60) - let paramsAreaOffset := paramsAreaStart - - /////// Setup Data Area /////// - let dataAreaStart := paramsAreaEnd - let dataAreaEnd := dataAreaStart - - // Offset from the source data we're reading from - let sourceOffset := order - // arrayLenBytes and arrayLenWords track the length of a dynamically-allocated bytes array. - let arrayLenBytes := 0 - let arrayLenWords := 0 - - /////// Write order Struct /////// - // Write memory location of Order, relative to the start of the - // parameter list, then increment the paramsAreaOffset respectively. - mstore(paramsAreaOffset, sub(dataAreaEnd, paramsAreaStart)) - paramsAreaOffset := add(paramsAreaOffset, 0x20) - - // Write values for each field in the order - // It would be nice to use a loop, but we save on gas by writing - // the stores sequentially. - mstore(dataAreaEnd, mload(sourceOffset)) // makerAddress - mstore(add(dataAreaEnd, 0x20), mload(add(sourceOffset, 0x20))) // takerAddress - mstore(add(dataAreaEnd, 0x40), mload(add(sourceOffset, 0x40))) // feeRecipientAddress - mstore(add(dataAreaEnd, 0x60), mload(add(sourceOffset, 0x60))) // senderAddress - mstore(add(dataAreaEnd, 0x80), mload(add(sourceOffset, 0x80))) // makerAssetAmount - mstore(add(dataAreaEnd, 0xA0), mload(add(sourceOffset, 0xA0))) // takerAssetAmount - mstore(add(dataAreaEnd, 0xC0), mload(add(sourceOffset, 0xC0))) // makerFeeAmount - mstore(add(dataAreaEnd, 0xE0), mload(add(sourceOffset, 0xE0))) // takerFeeAmount - mstore(add(dataAreaEnd, 0x100), mload(add(sourceOffset, 0x100))) // expirationTimeSeconds - mstore(add(dataAreaEnd, 0x120), mload(add(sourceOffset, 0x120))) // salt - mstore(add(dataAreaEnd, 0x140), mload(add(sourceOffset, 0x140))) // Offset to makerAssetData - mstore(add(dataAreaEnd, 0x160), mload(add(sourceOffset, 0x160))) // Offset to takerAssetData - dataAreaEnd := add(dataAreaEnd, 0x180) - sourceOffset := add(sourceOffset, 0x180) - - // Write offset to <order.makerAssetData> - mstore(add(dataAreaStart, mul(10, 0x20)), sub(dataAreaEnd, dataAreaStart)) - - // Calculate length of <order.makerAssetData> - sourceOffset := mload(add(order, 0x140)) // makerAssetData - arrayLenBytes := mload(sourceOffset) - sourceOffset := add(sourceOffset, 0x20) - arrayLenWords := div(add(arrayLenBytes, 0x1F), 0x20) - - // Write length of <order.makerAssetData> - mstore(dataAreaEnd, arrayLenBytes) - dataAreaEnd := add(dataAreaEnd, 0x20) - - // Write contents of <order.makerAssetData> - for {let i := 0} lt(i, arrayLenWords) {i := add(i, 1)} { - mstore(dataAreaEnd, mload(sourceOffset)) - dataAreaEnd := add(dataAreaEnd, 0x20) - sourceOffset := add(sourceOffset, 0x20) - } - - // Write offset to <order.takerAssetData> - mstore(add(dataAreaStart, mul(11, 0x20)), sub(dataAreaEnd, dataAreaStart)) - - // Calculate length of <order.takerAssetData> - sourceOffset := mload(add(order, 0x160)) // takerAssetData - arrayLenBytes := mload(sourceOffset) - sourceOffset := add(sourceOffset, 0x20) - arrayLenWords := div(add(arrayLenBytes, 0x1F), 0x20) - - // Write length of <order.takerAssetData> - mstore(dataAreaEnd, arrayLenBytes) - dataAreaEnd := add(dataAreaEnd, 0x20) - - // Write contents of <order.takerAssetData> - for {let i := 0} lt(i, arrayLenWords) {i := add(i, 1)} { - mstore(dataAreaEnd, mload(sourceOffset)) - dataAreaEnd := add(dataAreaEnd, 0x20) - sourceOffset := add(sourceOffset, 0x20) - } - - /////// Write takerAssetFillAmount /////// - mstore(paramsAreaOffset, takerAssetFillAmount) - paramsAreaOffset := add(paramsAreaOffset, 0x20) - - /////// Write signature /////// - // Write offset to paramsArea - mstore(paramsAreaOffset, sub(dataAreaEnd, paramsAreaStart)) - - // Calculate length of signature - sourceOffset := signature - arrayLenBytes := mload(sourceOffset) - sourceOffset := add(sourceOffset, 0x20) - arrayLenWords := div(add(arrayLenBytes, 0x1F), 0x20) - - // Write length of signature - mstore(dataAreaEnd, arrayLenBytes) - dataAreaEnd := add(dataAreaEnd, 0x20) - - // Write contents of signature - for {let i := 0} lt(i, arrayLenWords) {i := add(i, 1)} { - mstore(dataAreaEnd, mload(sourceOffset)) - dataAreaEnd := add(dataAreaEnd, 0x20) - sourceOffset := add(sourceOffset, 0x20) - } - - // Execute delegatecall let success := delegatecall( gas, // forward all gas, TODO: look into gas consumption of assert/throw address, // call address of this contract - headerAreaStart, // pointer to start of input - sub(dataAreaEnd, headerAreaStart), // length of input - headerAreaStart, // write output over input + calldataBegin, // pointer to start of input + calldataLength, // length of input + calldataBegin, // write output over input 128 // output size is 128 bytes ) switch success @@ -249,10 +99,10 @@ contract MixinWrapperFunctions is mstore(add(fillResults, 96), 0) } case 1 { - mstore(fillResults, mload(headerAreaStart)) - mstore(add(fillResults, 32), mload(add(headerAreaStart, 32))) - mstore(add(fillResults, 64), mload(add(headerAreaStart, 64))) - mstore(add(fillResults, 96), mload(add(headerAreaStart, 96))) + mstore(fillResults, mload(calldataBegin)) + mstore(add(fillResults, 32), mload(add(calldataBegin, 32))) + mstore(add(fillResults, 64), mload(add(calldataBegin, 64))) + mstore(add(fillResults, 96), mload(add(calldataBegin, 96))) } } return fillResults; diff --git a/packages/contracts/src/2.0.0/protocol/Exchange/libs/LibAbiEncoder.sol b/packages/contracts/src/2.0.0/protocol/Exchange/libs/LibAbiEncoder.sol new file mode 100644 index 000000000..5bea607d6 --- /dev/null +++ b/packages/contracts/src/2.0.0/protocol/Exchange/libs/LibAbiEncoder.sol @@ -0,0 +1,215 @@ +/* + + Copyright 2018 ZeroEx Intl. + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. + +*/ + +pragma solidity 0.4.24; +pragma experimental ABIEncoderV2; + +import "./LibOrder.sol"; + + +contract LibAbiEncoder { + + /// @dev ABI encodes calldata for `fillOrder` in memory and returns the address range. + /// This range can be passed into `call` or `delegatecall` to invoke an external + /// call to `fillOrder`. + /// @param order Order struct containing order specifications. + /// @param takerAssetFillAmount Desired amount of takerAsset to sell. + /// @param signature Proof that order has been created by maker. + /// @return calldataBegin Memory address of ABI encoded calldata. + /// @return calldataLength Lenfgth of ABI encoded calldata. + function abiEncodeFillOrder( + LibOrder.Order memory order, + uint256 takerAssetFillAmount, + bytes memory signature, + bytes4 fillOrderSelector + ) + public + returns ( + uint256 calldataBegin, + uint256 calldataLength + ) + { + // 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 ABIv2 format [1]. + + // | Area | Offset | Length | Contents | + // | -------- |--------|---------|-------------------------------------------- | + // | Header | 0x00 | 4 | function selector | + // | Params | | 3 * 32 | function parameters: | + // | | 0x00 | | 1. offset to order (*) | + // | | 0x20 | | 2. takerAssetFillAmount | + // | | 0x40 | | 3. offset to signature (*) | + // | Data | | 12 * 32 | order: | + // | | 0x000 | | 1. senderAddress | + // | | 0x020 | | 2. makerAddress | + // | | 0x040 | | 3. takerAddress | + // | | 0x060 | | 4. feeRecipientAddress | + // | | 0x080 | | 5. makerAssetAmount | + // | | 0x0A0 | | 6. takerAssetAmount | + // | | 0x0C0 | | 7. makerFeeAmount | + // | | 0x0E0 | | 8. takerFeeAmount | + // | | 0x100 | | 9. expirationTimeSeconds | + // | | 0x120 | | 10. salt | + // | | 0x140 | | 11. Offset to makerAssetData (*) | + // | | 0x160 | | 12. Offset to takerAssetData (*) | + // | | 0x180 | 32 | makerAssetData Length | + // | | 0x1A0 | ** | makerAssetData Contents | + // | | 0x1C0 | 32 | takerAssetData Length | + // | | 0x1E0 | ** | takerAssetData Contents | + // | | 0x200 | 32 | signature Length | + // | | 0x220 | ** | signature Contents | + + // * Offsets are calculated from the beginning of the current area: Header, Params, Data: + // An offset stored in the Params area is calculated from the beginning of the Params section. + // An offset stored in the Data area is calculated from the beginning of the Data section. + + // ** The length of dynamic array contents are stored in the field immediately preceeding the contents. + + // [1]: https://solidity.readthedocs.io/en/develop/abi-spec.html + + assembly { + + // Areas below may use the following variables: + // 1. <area>Start -- Start of this area in memory + // 2. <area>End -- End of this area in memory. This value may + // be precomputed (before writing contents), + // or it may be computed as contents are written. + // 3. <area>Offset -- Current offset into area. If an area's End + // is precomputed, this variable tracks the + // offsets of contents as they are written. + + /////// Setup Header Area /////// + // Load free memory pointer + calldataBegin := mload(0x40) + mstore(calldataBegin, fillOrderSelector) + let headerAreaEnd := add(calldataBegin, 0x4) + + /////// Setup Params Area /////// + // This area is preallocated and written to later. + // This is because we need to fill in offsets that have not yet been calculated. + let paramsAreaStart := headerAreaEnd + let paramsAreaEnd := add(paramsAreaStart, 0x60) + let paramsAreaOffset := paramsAreaStart + + /////// Setup Data Area /////// + let dataAreaStart := paramsAreaEnd + let dataAreaEnd := dataAreaStart + + // Offset from the source data we're reading from + let sourceOffset := order + // arrayLenBytes and arrayLenWords track the length of a dynamically-allocated bytes array. + let arrayLenBytes := 0 + let arrayLenWords := 0 + + /////// Write order Struct /////// + // Write memory location of Order, relative to the start of the + // parameter list, then increment the paramsAreaOffset respectively. + mstore(paramsAreaOffset, sub(dataAreaEnd, paramsAreaStart)) + paramsAreaOffset := add(paramsAreaOffset, 0x20) + + // Write values for each field in the order + // It would be nice to use a loop, but we save on gas by writing + // the stores sequentially. + mstore(dataAreaEnd, mload(sourceOffset)) // makerAddress + mstore(add(dataAreaEnd, 0x20), mload(add(sourceOffset, 0x20))) // takerAddress + mstore(add(dataAreaEnd, 0x40), mload(add(sourceOffset, 0x40))) // feeRecipientAddress + mstore(add(dataAreaEnd, 0x60), mload(add(sourceOffset, 0x60))) // senderAddress + mstore(add(dataAreaEnd, 0x80), mload(add(sourceOffset, 0x80))) // makerAssetAmount + mstore(add(dataAreaEnd, 0xA0), mload(add(sourceOffset, 0xA0))) // takerAssetAmount + mstore(add(dataAreaEnd, 0xC0), mload(add(sourceOffset, 0xC0))) // makerFeeAmount + mstore(add(dataAreaEnd, 0xE0), mload(add(sourceOffset, 0xE0))) // takerFeeAmount + mstore(add(dataAreaEnd, 0x100), mload(add(sourceOffset, 0x100))) // expirationTimeSeconds + mstore(add(dataAreaEnd, 0x120), mload(add(sourceOffset, 0x120))) // salt + mstore(add(dataAreaEnd, 0x140), mload(add(sourceOffset, 0x140))) // Offset to makerAssetData + mstore(add(dataAreaEnd, 0x160), mload(add(sourceOffset, 0x160))) // Offset to takerAssetData + dataAreaEnd := add(dataAreaEnd, 0x180) + sourceOffset := add(sourceOffset, 0x180) + + // Write offset to <order.makerAssetData> + mstore(add(dataAreaStart, mul(10, 0x20)), sub(dataAreaEnd, dataAreaStart)) + + // Calculate length of <order.makerAssetData> + sourceOffset := mload(add(order, 0x140)) // makerAssetData + arrayLenBytes := mload(sourceOffset) + sourceOffset := add(sourceOffset, 0x20) + arrayLenWords := div(add(arrayLenBytes, 0x1F), 0x20) + + // Write length of <order.makerAssetData> + mstore(dataAreaEnd, arrayLenBytes) + dataAreaEnd := add(dataAreaEnd, 0x20) + + // Write contents of <order.makerAssetData> + for {let i := 0} lt(i, arrayLenWords) {i := add(i, 1)} { + mstore(dataAreaEnd, mload(sourceOffset)) + dataAreaEnd := add(dataAreaEnd, 0x20) + sourceOffset := add(sourceOffset, 0x20) + } + + // Write offset to <order.takerAssetData> + mstore(add(dataAreaStart, mul(11, 0x20)), sub(dataAreaEnd, dataAreaStart)) + + // Calculate length of <order.takerAssetData> + sourceOffset := mload(add(order, 0x160)) // takerAssetData + arrayLenBytes := mload(sourceOffset) + sourceOffset := add(sourceOffset, 0x20) + arrayLenWords := div(add(arrayLenBytes, 0x1F), 0x20) + + // Write length of <order.takerAssetData> + mstore(dataAreaEnd, arrayLenBytes) + dataAreaEnd := add(dataAreaEnd, 0x20) + + // Write contents of <order.takerAssetData> + for {let i := 0} lt(i, arrayLenWords) {i := add(i, 1)} { + mstore(dataAreaEnd, mload(sourceOffset)) + dataAreaEnd := add(dataAreaEnd, 0x20) + sourceOffset := add(sourceOffset, 0x20) + } + + /////// Write takerAssetFillAmount /////// + mstore(paramsAreaOffset, takerAssetFillAmount) + paramsAreaOffset := add(paramsAreaOffset, 0x20) + + /////// Write signature /////// + // Write offset to paramsArea + mstore(paramsAreaOffset, sub(dataAreaEnd, paramsAreaStart)) + + // Calculate length of signature + sourceOffset := signature + arrayLenBytes := mload(sourceOffset) + sourceOffset := add(sourceOffset, 0x20) + arrayLenWords := div(add(arrayLenBytes, 0x1F), 0x20) + + // Write length of signature + mstore(dataAreaEnd, arrayLenBytes) + dataAreaEnd := add(dataAreaEnd, 0x20) + + // Write contents of signature + for {let i := 0} lt(i, arrayLenWords) {i := add(i, 1)} { + mstore(dataAreaEnd, mload(sourceOffset)) + dataAreaEnd := add(dataAreaEnd, 0x20) + sourceOffset := add(sourceOffset, 0x20) + } + + // Set length of calldata + calldataLength := sub(dataAreaEnd, calldataBegin) + } + + return (calldataBegin, calldataLength); + } +} |