#include "BasicBlock.h" #include #include #include #include #include #include #include #include "Type.h" namespace dev { namespace eth { namespace jit { const char* BasicBlock::NamePrefix = "Instr."; BasicBlock::BasicBlock(ProgramCounter _beginInstIdx, ProgramCounter _endInstIdx, llvm::Function* _mainFunc, llvm::IRBuilder<>& _builder) : m_beginInstIdx(_beginInstIdx), m_endInstIdx(_endInstIdx), m_llvmBB(llvm::BasicBlock::Create(_mainFunc->getContext(), {NamePrefix, std::to_string(_beginInstIdx)}, _mainFunc)), m_stack(*this), m_builder(_builder) {} BasicBlock::BasicBlock(std::string _name, llvm::Function* _mainFunc, llvm::IRBuilder<>& _builder) : m_beginInstIdx(0), m_endInstIdx(0), m_llvmBB(llvm::BasicBlock::Create(_mainFunc->getContext(), _name, _mainFunc)), m_stack(*this), m_builder(_builder) {} BasicBlock::LocalStack::LocalStack(BasicBlock& _owner) : m_bblock(_owner) {} void BasicBlock::LocalStack::push(llvm::Value* _value) { m_bblock.m_currentStack.push_back(_value); m_bblock.m_tosOffset += 1; } llvm::Value* BasicBlock::LocalStack::pop() { auto result = get(0); if (m_bblock.m_currentStack.size() > 0) m_bblock.m_currentStack.pop_back(); m_bblock.m_tosOffset -= 1; return result; } /** * Pushes a copy of _index-th element (tos is 0-th elem). */ void BasicBlock::LocalStack::dup(size_t _index) { auto val = get(_index); push(val); } /** * Swaps tos with _index-th element (tos is 0-th elem). * _index must be > 0. */ void BasicBlock::LocalStack::swap(size_t _index) { assert(_index > 0); auto val = get(_index); auto tos = get(0); set(_index, tos); set(0, val); } std::vector::iterator BasicBlock::LocalStack::getItemIterator(size_t _index) { auto& currentStack = m_bblock.m_currentStack; if (_index < currentStack.size()) return currentStack.end() - _index - 1; // Need to map more elements from the EVM stack auto nNewItems = 1 + _index - currentStack.size(); currentStack.insert(currentStack.begin(), nNewItems, nullptr); return currentStack.end() - _index - 1; } llvm::Value* BasicBlock::LocalStack::get(size_t _index) { auto& initialStack = m_bblock.m_initialStack; auto itemIter = getItemIterator(_index); if (*itemIter == nullptr) { // Need to fetch a new item from the EVM stack assert(static_cast(_index) >= m_bblock.m_tosOffset); size_t initialIdx = _index - m_bblock.m_tosOffset; if (initialIdx >= initialStack.size()) { auto nNewItems = 1 + initialIdx - initialStack.size(); initialStack.insert(initialStack.end(), nNewItems, nullptr); } assert(initialStack[initialIdx] == nullptr); // Create a dummy value. std::string name = "get_" + boost::lexical_cast(_index); initialStack[initialIdx] = m_bblock.m_builder.CreatePHI(Type::Word, 0, name); *itemIter = initialStack[initialIdx]; } return *itemIter; } void BasicBlock::LocalStack::set(size_t _index, llvm::Value* _word) { auto itemIter = getItemIterator(_index); *itemIter = _word; } void BasicBlock::synchronizeLocalStack(Stack& _evmStack) { auto blockTerminator = m_llvmBB->getTerminator(); assert(blockTerminator != nullptr); m_builder.SetInsertPoint(blockTerminator); auto currIter = m_currentStack.begin(); auto endIter = m_currentStack.end(); // Update (emit set()) changed values for (int idx = m_currentStack.size() - 1 - m_tosOffset; currIter < endIter && idx >= 0; ++currIter, --idx) { assert(static_cast(idx) < m_initialStack.size()); if (*currIter != m_initialStack[idx]) // value needs update _evmStack.set(static_cast(idx), *currIter); } if (m_tosOffset < 0) { // Pop values _evmStack.pop(static_cast(-m_tosOffset)); } // Push new values for (; currIter < endIter; ++currIter) { assert(*currIter != nullptr); _evmStack.push(*currIter); } // Emit get() for all (used) values from the initial stack for (size_t idx = 0; idx < m_initialStack.size(); ++idx) { auto val = m_initialStack[idx]; if (val == nullptr) continue; assert(llvm::isa(val)); llvm::PHINode* phi = llvm::cast(val); if (! phi->use_empty()) { // Insert call to get() just before the PHI node and replace // the uses of PHI with the uses of this new instruction. m_builder.SetInsertPoint(phi); auto newVal = _evmStack.get(idx); phi->replaceAllUsesWith(newVal); } phi->eraseFromParent(); } // Reset the stack m_initialStack.erase(m_initialStack.begin(), m_initialStack.end()); m_currentStack.erase(m_currentStack.begin(), m_currentStack.end()); m_tosOffset = 0; } void BasicBlock::linkLocalStacks(std::vector basicBlocks, llvm::IRBuilder<>& _builder) { struct BBInfo { BasicBlock& bblock; std::vector predecessors; size_t inputItems; size_t outputItems; std::vector phisToRewrite; BBInfo(BasicBlock& _bblock) : bblock(_bblock), predecessors(), inputItems(0), outputItems(0) { auto& initialStack = bblock.m_initialStack; for (auto it = initialStack.begin(); it != initialStack.end() && *it != nullptr; ++it, ++inputItems); //if (bblock.localStack().m_tosOffset > 0) // outputItems = bblock.localStack().m_tosOffset; auto& exitStack = bblock.m_currentStack; for (auto it = exitStack.rbegin(); it != exitStack.rend() && *it != nullptr; ++it, ++outputItems); } }; std::map cfg; // Create nodes in cfg for (auto bb : basicBlocks) cfg.emplace(bb->llvm(), *bb); // Create edges in cfg: for each bb info fill the list // of predecessor infos. for (auto& pair : cfg) { auto bb = pair.first; auto& info = pair.second; for (auto predIt = llvm::pred_begin(bb); predIt != llvm::pred_end(bb); ++predIt) { auto predInfoEntry = cfg.find(*predIt); if (predInfoEntry != cfg.end()) info.predecessors.push_back(&predInfoEntry->second); } } // Iteratively compute inputs and outputs of each block, until reaching fixpoint. bool valuesChanged = true; while (valuesChanged) { if (getenv("EVMCC_DEBUG_BLOCKS")) { for (auto& pair : cfg) std::cerr << pair.second.bblock.llvm()->getName().str() << ": in " << pair.second.inputItems << ", out " << pair.second.outputItems << "\n"; } valuesChanged = false; for (auto& pair : cfg) { auto& info = pair.second; if (info.predecessors.empty()) info.inputItems = 0; // no consequences for other blocks, so leave valuesChanged false for (auto predInfo : info.predecessors) { if (predInfo->outputItems < info.inputItems) { info.inputItems = predInfo->outputItems; valuesChanged = true; } else if (predInfo->outputItems > info.inputItems) { predInfo->outputItems = info.inputItems; valuesChanged = true; } } } } // Propagate values between blocks. for (auto& entry : cfg) { auto& info = entry.second; auto& bblock = info.bblock; llvm::BasicBlock::iterator fstNonPhi(bblock.llvm()->getFirstNonPHI()); auto phiIter = bblock.m_initialStack.begin(); for (size_t index = 0; index < info.inputItems; ++index, ++phiIter) { assert(llvm::isa(*phiIter)); auto phi = llvm::cast(*phiIter); for (auto predIt : info.predecessors) { auto& predExitStack = predIt->bblock.m_currentStack; auto value = *(predExitStack.end() - 1 - index); phi->addIncoming(value, predIt->bblock.llvm()); } // Move phi to the front if (llvm::BasicBlock::iterator(phi) != bblock.llvm()->begin()) { phi->removeFromParent(); _builder.SetInsertPoint(bblock.llvm(), bblock.llvm()->begin()); _builder.Insert(phi); } } // The items pulled directly from predecessors block must be removed // from the list of items that has to be popped from the initial stack. auto& initialStack = bblock.m_initialStack; initialStack.erase(initialStack.begin(), initialStack.begin() + info.inputItems); // Initial stack shrinks, so the size difference grows: bblock.m_tosOffset += info.inputItems; } // We must account for the items that were pushed directly to successor // blocks and thus should not be on the list of items to be pushed onto // to EVM stack for (auto& entry : cfg) { auto& info = entry.second; auto& bblock = info.bblock; auto& exitStack = bblock.m_currentStack; exitStack.erase(exitStack.end() - info.outputItems, exitStack.end()); bblock.m_tosOffset -= info.outputItems; } } void BasicBlock::dump() { dump(std::cerr, false); } void BasicBlock::dump(std::ostream& _out, bool _dotOutput) { llvm::raw_os_ostream out(_out); out << (_dotOutput ? "" : "Initial stack:\n"); for (auto val : m_initialStack) { if (val == nullptr) out << " ?"; else if (llvm::isa(val)) out << *val; else out << " " << *val; out << (_dotOutput ? "\\l" : "\n"); } out << (_dotOutput ? "| " : "Instructions:\n"); for (auto ins = m_llvmBB->begin(); ins != m_llvmBB->end(); ++ins) out << *ins << (_dotOutput ? "\\l" : "\n"); if (! _dotOutput) out << "Current stack (offset = " << m_tosOffset << "):\n"; else out << "|"; for (auto val = m_currentStack.rbegin(); val != m_currentStack.rend(); ++val) { if (*val == nullptr) out << " ?"; else if (llvm::isa(*val)) out << **val; else out << " " << **val; out << (_dotOutput ? "\\l" : "\n"); } if (! _dotOutput) out << " ...\n----------------------------------------\n"; } } } }