// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2019 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #ifndef BITCOIN_CONSENSUS_VALIDATION_H #define BITCOIN_CONSENSUS_VALIDATION_H #include #include #include #include #include /** A "reason" why a transaction was invalid, suitable for determining whether the * provider of the transaction should be banned/ignored/disconnected/etc. */ enum class TxValidationResult { TX_RESULT_UNSET = 0, //!< initial value. Tx has not yet been rejected TX_CONSENSUS, //!< invalid by consensus rules /** * Invalid by a change to consensus rules more recent than SegWit. * Currently unused as there are no such consensus rule changes, and any download * sources realistically need to support SegWit in order to provide useful data, * so differentiating between always-invalid and invalid-by-pre-SegWit-soft-fork * is uninteresting. */ TX_RECENT_CONSENSUS_CHANGE, TX_NOT_STANDARD, //!< didn't meet our local policy rules TX_MISSING_INPUTS, //!< transaction was missing some of its inputs TX_PREMATURE_SPEND, //!< transaction spends a coinbase too early, or violates locktime/sequence locks /** * Transaction might be missing a witness, have a witness prior to SegWit * activation, or witness may have been malleated (which includes * non-standard witnesses). */ TX_WITNESS_MUTATED, /** * Tx already in mempool or conflicts with a tx in the chain * (if it conflicts with another tx in mempool, we use MEMPOOL_POLICY as it failed to reach the RBF threshold) * Currently this is only used if the transaction already exists in the mempool or on chain. */ TX_CONFLICT, TX_MEMPOOL_POLICY, //!< violated mempool's fee/size/descendant/RBF/etc limits }; /** A "reason" why a block was invalid, suitable for determining whether the * provider of the block should be banned/ignored/disconnected/etc. * These are much more granular than the rejection codes, which may be more * useful for some other use-cases. */ enum class BlockValidationResult { BLOCK_RESULT_UNSET = 0, //!< initial value. Block has not yet been rejected BLOCK_CONSENSUS, //!< invalid by consensus rules (excluding any below reasons) /** * Invalid by a change to consensus rules more recent than SegWit. * Currently unused as there are no such consensus rule changes, and any download * sources realistically need to support SegWit in order to provide useful data, * so differentiating between always-invalid and invalid-by-pre-SegWit-soft-fork * is uninteresting. */ BLOCK_RECENT_CONSENSUS_CHANGE, BLOCK_CACHED_INVALID, //!< this block was cached as being invalid and we didn't store the reason why BLOCK_INVALID_HEADER, //!< invalid proof of work or time too old BLOCK_MUTATED, //!< the block's data didn't match the data committed to by the PoW BLOCK_MISSING_PREV, //!< We don't have the previous block the checked one is built on BLOCK_INVALID_PREV, //!< A block this one builds on is invalid BLOCK_TIME_FUTURE, //!< block timestamp was > 2 hours in the future (or our clock is bad) BLOCK_CHECKPOINT, //!< the block failed to meet one of our checkpoints }; /** Template for capturing information about block/transaction validation. This is instantiated * by TxValidationState and BlockValidationState for validation information on transactions * and blocks respectively. */ template class ValidationState { private: enum class ModeState { M_VALID, //!< everything ok M_INVALID, //!< network rule violation (DoS value may be set) M_ERROR, //!< run-time error } m_mode{ModeState::M_VALID}; Result m_result{}; std::string m_reject_reason; std::string m_debug_message; public: bool Invalid(Result result, const std::string& reject_reason = "", const std::string& debug_message = "") { m_result = result; m_reject_reason = reject_reason; m_debug_message = debug_message; if (m_mode != ModeState::M_ERROR) m_mode = ModeState::M_INVALID; return false; } bool Error(const std::string& reject_reason) { if (m_mode == ModeState::M_VALID) m_reject_reason = reject_reason; m_mode = ModeState::M_ERROR; return false; } bool IsValid() const { return m_mode == ModeState::M_VALID; } bool IsInvalid() const { return m_mode == ModeState::M_INVALID; } bool IsError() const { return m_mode == ModeState::M_ERROR; } Result GetResult() const { return m_result; } std::string GetRejectReason() const { return m_reject_reason; } std::string GetDebugMessage() const { return m_debug_message; } std::string ToString() const { if (IsValid()) { return "Valid"; } if (!m_debug_message.empty()) { return m_reject_reason + ", " + m_debug_message; } return m_reject_reason; } }; class TxValidationState : public ValidationState {}; class BlockValidationState : public ValidationState {}; // These implement the weight = (stripped_size * 4) + witness_size formula, // using only serialization with and without witness data. As witness_size // is equal to total_size - stripped_size, this formula is identical to: // weight = (stripped_size * 3) + total_size. static inline int64_t GetTransactionWeight(const CTransaction& tx) { return ::GetSerializeSize(tx, PROTOCOL_VERSION | SERIALIZE_TRANSACTION_NO_WITNESS) * (WITNESS_SCALE_FACTOR - 1) + ::GetSerializeSize(tx, PROTOCOL_VERSION); } static inline int64_t GetBlockWeight(const CBlock& block) { return ::GetSerializeSize(block, PROTOCOL_VERSION | SERIALIZE_TRANSACTION_NO_WITNESS) * (WITNESS_SCALE_FACTOR - 1) + ::GetSerializeSize(block, PROTOCOL_VERSION); } static inline int64_t GetTransactionInputWeight(const CTxIn& txin) { // scriptWitness size is added here because witnesses and txins are split up in segwit serialization. return ::GetSerializeSize(txin, PROTOCOL_VERSION | SERIALIZE_TRANSACTION_NO_WITNESS) * (WITNESS_SCALE_FACTOR - 1) + ::GetSerializeSize(txin, PROTOCOL_VERSION) + ::GetSerializeSize(txin.scriptWitness.stack, PROTOCOL_VERSION); } #endif // BITCOIN_CONSENSUS_VALIDATION_H