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#include "Ext.h"
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#include <llvm/IR/Function.h>
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#include <llvm/IR/TypeBuilder.h>
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#include <llvm/IR/IntrinsicInst.h>
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#include <libdevcrypto/SHA3.h>
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#include "Runtime.h"
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#include "Type.h"
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#include "Endianness.h"
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namespace dev
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{
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namespace eth
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{
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namespace jit
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{
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// TODO: Copy of fromAddress in VM.h
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inline u256 fromAddress(Address _a)
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{
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return (u160)_a;
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}
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struct ExtData
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{
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const byte* calldata;
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const byte* code;
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};
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Ext::Ext(RuntimeManager& _runtimeManager):
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RuntimeHelper(_runtimeManager)
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{
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auto&& ctx = m_builder.getContext();
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auto module = getModule();
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auto i256Ty = m_builder.getIntNTy(256);
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auto i256PtrTy = i256Ty->getPointerTo();
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auto i8PtrTy = m_builder.getInt8PtrTy();
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m_args[0] = m_builder.CreateAlloca(i256Ty, nullptr, "ext.index");
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m_args[1] = m_builder.CreateAlloca(i256Ty, nullptr, "ext.value");
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m_arg2 = m_builder.CreateAlloca(i256Ty, nullptr, "ext.arg2");
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m_arg3 = m_builder.CreateAlloca(i256Ty, nullptr, "ext.arg3");
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m_arg4 = m_builder.CreateAlloca(i256Ty, nullptr, "ext.arg4");
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m_arg5 = m_builder.CreateAlloca(i256Ty, nullptr, "ext.arg5");
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m_arg6 = m_builder.CreateAlloca(i256Ty, nullptr, "ext.arg6");
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m_arg7 = m_builder.CreateAlloca(i256Ty, nullptr, "ext.arg7");
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m_arg8 = m_builder.CreateAlloca(i256Ty, nullptr, "ext.arg8");
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using Linkage = llvm::GlobalValue::LinkageTypes;
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llvm::Type* argsTypes[] = {Type::RuntimePtr, Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr, Type::WordPtr};
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m_store = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 3}, false), Linkage::ExternalLinkage, "ext_store", module);
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m_setStore = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 3}, false), Linkage::ExternalLinkage, "ext_setStore", module);
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m_calldataload = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 3}, false), Linkage::ExternalLinkage, "ext_calldataload", module);
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m_balance = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 3}, false), Linkage::ExternalLinkage, "ext_balance", module);
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m_suicide = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 2}, false), Linkage::ExternalLinkage, "ext_suicide", module);
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m_create = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 5}, false), Linkage::ExternalLinkage, "ext_create", module);
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m_call = llvm::Function::Create(llvm::FunctionType::get(Type::Void, argsTypes, false), Linkage::ExternalLinkage, "ext_call", module);
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m_sha3 = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 4}, false), Linkage::ExternalLinkage, "ext_sha3", module);
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m_exp = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 4}, false), Linkage::ExternalLinkage, "ext_exp", module);
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m_codeAt = llvm::Function::Create(llvm::FunctionType::get(Type::BytePtr, {argsTypes, 2}, false), Linkage::ExternalLinkage, "ext_codeAt", module);
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m_codesizeAt = llvm::Function::Create(llvm::FunctionType::get(Type::Void, {argsTypes, 3}, false), Linkage::ExternalLinkage, "ext_codesizeAt", module);
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}
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llvm::Value* Ext::store(llvm::Value* _index)
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{
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m_builder.CreateStore(_index, m_args[0]);
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m_builder.CreateCall3(m_store, getRuntimeManager().getRuntimePtr(), m_args[0], m_args[1]); // Uses native endianness
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return m_builder.CreateLoad(m_args[1]);
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}
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void Ext::setStore(llvm::Value* _index, llvm::Value* _value)
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{
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m_builder.CreateStore(_index, m_args[0]);
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m_builder.CreateStore(_value, m_args[1]);
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m_builder.CreateCall3(m_setStore, getRuntimeManager().getRuntimePtr(), m_args[0], m_args[1]); // Uses native endianness
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}
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llvm::Value* Ext::calldataload(llvm::Value* _index)
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{
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m_builder.CreateStore(_index, m_args[0]);
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m_builder.CreateCall3(m_calldataload, getRuntimeManager().getRuntimePtr(), m_args[0], m_args[1]);
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auto ret = m_builder.CreateLoad(m_args[1]);
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return Endianness::toNative(m_builder, ret);
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}
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llvm::Value* Ext::balance(llvm::Value* _address)
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{
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auto address = Endianness::toBE(m_builder, _address);
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m_builder.CreateStore(address, m_args[0]);
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m_builder.CreateCall3(m_balance, getRuntimeManager().getRuntimePtr(), m_args[0], m_args[1]);
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return m_builder.CreateLoad(m_args[1]);
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}
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void Ext::suicide(llvm::Value* _address)
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{
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auto address = Endianness::toBE(m_builder, _address);
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m_builder.CreateStore(address, m_args[0]);
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m_builder.CreateCall2(m_suicide, getRuntimeManager().getRuntimePtr(), m_args[0]);
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}
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llvm::Value* Ext::create(llvm::Value* _endowment, llvm::Value* _initOff, llvm::Value* _initSize)
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{
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m_builder.CreateStore(_endowment, m_args[0]);
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m_builder.CreateStore(_initOff, m_arg2);
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m_builder.CreateStore(_initSize, m_arg3);
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llvm::Value* args[] = {getRuntimeManager().getRuntimePtr(), m_args[0], m_arg2, m_arg3, m_args[1]};
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m_builder.CreateCall(m_create, args);
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llvm::Value* address = m_builder.CreateLoad(m_args[1]);
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address = Endianness::toNative(m_builder, address);
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return address;
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}
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llvm::Value* Ext::call(llvm::Value*& _gas, llvm::Value* _receiveAddress, llvm::Value* _value, llvm::Value* _inOff, llvm::Value* _inSize, llvm::Value* _outOff, llvm::Value* _outSize, llvm::Value* _codeAddress)
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{
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m_builder.CreateStore(_gas, m_args[0]);
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auto receiveAddress = Endianness::toBE(m_builder, _receiveAddress);
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m_builder.CreateStore(receiveAddress, m_arg2);
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m_builder.CreateStore(_value, m_arg3);
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m_builder.CreateStore(_inOff, m_arg4);
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m_builder.CreateStore(_inSize, m_arg5);
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m_builder.CreateStore(_outOff, m_arg6);
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m_builder.CreateStore(_outSize, m_arg7);
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auto codeAddress = Endianness::toBE(m_builder, _codeAddress);
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m_builder.CreateStore(codeAddress, m_arg8);
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llvm::Value* args[] = {getRuntimeManager().getRuntimePtr(), m_args[0], m_arg2, m_arg3, m_arg4, m_arg5, m_arg6, m_arg7, m_arg8, m_args[1]};
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m_builder.CreateCall(m_call, args);
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_gas = m_builder.CreateLoad(m_args[0]); // Return gas
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return m_builder.CreateLoad(m_args[1]);
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}
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llvm::Value* Ext::sha3(llvm::Value* _inOff, llvm::Value* _inSize)
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{
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m_builder.CreateStore(_inOff, m_args[0]);
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m_builder.CreateStore(_inSize, m_arg2);
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llvm::Value* args[] = {getRuntimeManager().getRuntimePtr(), m_args[0], m_arg2, m_args[1]};
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m_builder.CreateCall(m_sha3, args);
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llvm::Value* hash = m_builder.CreateLoad(m_args[1]);
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hash = Endianness::toNative(m_builder, hash);
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return hash;
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}
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llvm::Value* Ext::exp(llvm::Value* _left, llvm::Value* _right)
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{
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m_builder.CreateStore(_left, m_args[0]);
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m_builder.CreateStore(_right, m_arg2);
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llvm::Value* args[] = {getRuntimeManager().getRuntimePtr(), m_args[0], m_arg2, m_args[1]};
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m_builder.CreateCall(m_exp, args);
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return m_builder.CreateLoad(m_args[1]);
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}
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llvm::Value* Ext::codeAt(llvm::Value* _addr)
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{
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auto addr = Endianness::toBE(m_builder, _addr);
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m_builder.CreateStore(addr, m_args[0]);
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return m_builder.CreateCall2(m_codeAt, getRuntimeManager().getRuntimePtr(), m_args[0]);
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}
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llvm::Value* Ext::codesizeAt(llvm::Value* _addr)
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{
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auto addr = Endianness::toBE(m_builder, _addr);
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m_builder.CreateStore(addr, m_args[0]);
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llvm::Value* args[] = {getRuntimeManager().getRuntimePtr(), m_args[0], m_args[1]};
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m_builder.CreateCall(m_codesizeAt, args);
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return m_builder.CreateLoad(m_args[1]);
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}
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}
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extern "C"
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{
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using namespace dev::eth::jit;
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EXPORT void ext_store(Runtime* _rt, i256* _index, i256* _value)
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{
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auto index = llvm2eth(*_index);
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auto value = _rt->getExt().store(index); // Interface uses native endianness
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*_value = eth2llvm(value);
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}
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EXPORT void ext_setStore(Runtime* _rt, i256* _index, i256* _value)
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{
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auto index = llvm2eth(*_index);
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auto value = llvm2eth(*_value);
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_rt->getExt().setStore(index, value); // Interface uses native endianness
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}
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EXPORT void ext_calldataload(Runtime* _rt, i256* _index, i256* _value)
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{
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auto index = static_cast<size_t>(llvm2eth(*_index));
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assert(index + 31 > index); // TODO: Handle large index
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auto b = reinterpret_cast<byte*>(_value);
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for (size_t i = index, j = 0; i <= index + 31; ++i, ++j)
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b[j] = i < _rt->getExt().data.size() ? _rt->getExt().data[i] : 0; // Keep Big Endian
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// TODO: It all can be done by adding padding to data or by using min() algorithm without branch
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}
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EXPORT void ext_balance(Runtime* _rt, h256* _address, i256* _value)
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{
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auto u = _rt->getExt().balance(right160(*_address));
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*_value = eth2llvm(u);
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}
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EXPORT void ext_suicide(Runtime* _rt, h256* _address)
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{
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_rt->getExt().suicide(right160(*_address));
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}
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EXPORT void ext_create(Runtime* _rt, i256* _endowment, i256* _initOff, i256* _initSize, h256* _address)
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{
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auto&& ext = _rt->getExt();
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auto endowment = llvm2eth(*_endowment);
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if (ext.balance(ext.myAddress) >= endowment)
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{
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ext.subBalance(endowment);
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u256 gas; // TODO: Handle gas
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auto initOff = static_cast<size_t>(llvm2eth(*_initOff));
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auto initSize = static_cast<size_t>(llvm2eth(*_initSize));
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auto&& initRef = bytesConstRef(_rt->getMemory().data() + initOff, initSize);
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OnOpFunc onOp{}; // TODO: Handle that thing
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h256 address(ext.create(endowment, &gas, initRef, onOp), h256::AlignRight);
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*_address = address;
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}
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else
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*_address = {};
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}
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EXPORT void ext_call(Runtime* _rt, i256* _gas, h256* _receiveAddress, i256* _value, i256* _inOff, i256* _inSize, i256* _outOff, i256* _outSize, h256* _codeAddress, i256* _ret)
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{
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auto&& ext = _rt->getExt();
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auto value = llvm2eth(*_value);
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auto ret = false;
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auto gas = llvm2eth(*_gas);
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if (ext.balance(ext.myAddress) >= value)
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{
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ext.subBalance(value);
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auto receiveAddress = right160(*_receiveAddress);
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auto inOff = static_cast<size_t>(llvm2eth(*_inOff));
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auto inSize = static_cast<size_t>(llvm2eth(*_inSize));
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auto outOff = static_cast<size_t>(llvm2eth(*_outOff));
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auto outSize = static_cast<size_t>(llvm2eth(*_outSize));
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auto&& inRef = bytesConstRef(_rt->getMemory().data() + inOff, inSize);
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auto&& outRef = bytesConstRef(_rt->getMemory().data() + outOff, outSize);
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OnOpFunc onOp{}; // TODO: Handle that thing
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auto codeAddress = right160(*_codeAddress);
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ret = ext.call(receiveAddress, value, inRef, &gas, outRef, onOp, {}, codeAddress);
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}
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*_gas = eth2llvm(gas);
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_ret->a = ret ? 1 : 0;
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}
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EXPORT void ext_sha3(Runtime* _rt, i256* _inOff, i256* _inSize, i256* _ret)
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{
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auto inOff = static_cast<size_t>(llvm2eth(*_inOff));
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auto inSize = static_cast<size_t>(llvm2eth(*_inSize));
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auto dataRef = bytesConstRef(_rt->getMemory().data() + inOff, inSize);
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auto hash = sha3(dataRef);
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*_ret = *reinterpret_cast<i256*>(&hash);
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}
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EXPORT void ext_exp(Runtime* _rt, i256* _left, i256* _right, i256* _ret)
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{
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bigint left = llvm2eth(*_left);
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bigint right = llvm2eth(*_right);
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auto ret = static_cast<u256>(boost::multiprecision::powm(left, right, bigint(2) << 256));
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*_ret = eth2llvm(ret);
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}
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EXPORT unsigned char* ext_codeAt(Runtime* _rt, h256* _addr256) //FIXME: Check endianess
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{
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auto&& ext = _rt->getExt();
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auto addr = right160(*_addr256);
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auto& code = ext.codeAt(addr);
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return const_cast<unsigned char*>(code.data());
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}
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EXPORT void ext_codesizeAt(Runtime* _rt, h256* _addr256, i256* _ret) //FIXME: Check endianess
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{
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auto&& ext = _rt->getExt();
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auto addr = right160(*_addr256);
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auto& code = ext.codeAt(addr);
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*_ret = eth2llvm(u256(code.size()));
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}
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}
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}
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}
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