// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2021 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include static std::atomic g_initial_block_download_completed(false); namespace NetMsgType { const char *VERSION="version"; const char *VERACK="verack"; const char *ADDR="addr"; const char *ADDRV2="addrv2"; const char *SENDADDRV2="sendaddrv2"; const char *INV="inv"; const char *GETDATA="getdata"; const char *MERKLEBLOCK="merkleblock"; const char *GETBLOCKS="getblocks"; const char *GETHEADERS="getheaders"; const char *TX="tx"; const char *HEADERS="headers"; const char *BLOCK="block"; const char *GETADDR="getaddr"; const char *MEMPOOL="mempool"; const char *PING="ping"; const char *PONG="pong"; const char *NOTFOUND="notfound"; const char *FILTERLOAD="filterload"; const char *FILTERADD="filteradd"; const char *FILTERCLEAR="filterclear"; const char *SENDHEADERS="sendheaders"; const char *FEEFILTER="feefilter"; const char *SENDCMPCT="sendcmpct"; const char *CMPCTBLOCK="cmpctblock"; const char *GETBLOCKTXN="getblocktxn"; const char *BLOCKTXN="blocktxn"; const char *GETCFILTERS="getcfilters"; const char *CFILTER="cfilter"; const char *GETCFHEADERS="getcfheaders"; const char *CFHEADERS="cfheaders"; const char *GETCFCHECKPT="getcfcheckpt"; const char *CFCHECKPT="cfcheckpt"; const char *WTXIDRELAY="wtxidrelay"; } // namespace NetMsgType /** All known message types. Keep this in the same order as the list of * messages above and in protocol.h. */ const static std::string allNetMessageTypes[] = { NetMsgType::VERSION, NetMsgType::VERACK, NetMsgType::ADDR, NetMsgType::ADDRV2, NetMsgType::SENDADDRV2, NetMsgType::INV, NetMsgType::GETDATA, NetMsgType::MERKLEBLOCK, NetMsgType::GETBLOCKS, NetMsgType::GETHEADERS, NetMsgType::TX, NetMsgType::HEADERS, NetMsgType::BLOCK, NetMsgType::GETADDR, NetMsgType::MEMPOOL, NetMsgType::PING, NetMsgType::PONG, NetMsgType::NOTFOUND, NetMsgType::FILTERLOAD, NetMsgType::FILTERADD, NetMsgType::FILTERCLEAR, NetMsgType::SENDHEADERS, NetMsgType::FEEFILTER, NetMsgType::SENDCMPCT, NetMsgType::CMPCTBLOCK, NetMsgType::GETBLOCKTXN, NetMsgType::BLOCKTXN, NetMsgType::GETCFILTERS, NetMsgType::CFILTER, NetMsgType::GETCFHEADERS, NetMsgType::CFHEADERS, NetMsgType::GETCFCHECKPT, NetMsgType::CFCHECKPT, NetMsgType::WTXIDRELAY, }; const static std::vector allNetMessageTypesVec(std::begin(allNetMessageTypes), std::end(allNetMessageTypes)); CMessageHeader::CMessageHeader(const MessageStartChars& pchMessageStartIn, const char* pszCommand, unsigned int nMessageSizeIn) { memcpy(pchMessageStart, pchMessageStartIn, MESSAGE_START_SIZE); // Copy the command name size_t i = 0; for (; i < COMMAND_SIZE && pszCommand[i] != 0; ++i) pchCommand[i] = pszCommand[i]; assert(pszCommand[i] == 0); // Assert that the command name passed in is not longer than COMMAND_SIZE nMessageSize = nMessageSizeIn; } std::string CMessageHeader::GetCommand() const { return std::string(pchCommand, pchCommand + strnlen(pchCommand, COMMAND_SIZE)); } bool CMessageHeader::IsCommandValid() const { // Check the command string for errors for (const char* p1 = pchCommand; p1 < pchCommand + COMMAND_SIZE; ++p1) { if (*p1 == 0) { // Must be all zeros after the first zero for (; p1 < pchCommand + COMMAND_SIZE; ++p1) { if (*p1 != 0) { return false; } } } else if (*p1 < ' ' || *p1 > 0x7E) { return false; } } return true; } ServiceFlags GetDesirableServiceFlags(ServiceFlags services) { if ((services & NODE_NETWORK_LIMITED) && g_initial_block_download_completed) { return ServiceFlags(NODE_NETWORK_LIMITED | NODE_WITNESS); } return ServiceFlags(NODE_NETWORK | NODE_WITNESS); } void SetServiceFlagsIBDCache(bool state) { g_initial_block_download_completed = state; } CInv::CInv() { type = 0; hash.SetNull(); } CInv::CInv(uint32_t typeIn, const uint256& hashIn) : type(typeIn), hash(hashIn) {} bool operator<(const CInv& a, const CInv& b) { return (a.type < b.type || (a.type == b.type && a.hash < b.hash)); } std::string CInv::GetCommand() const { std::string cmd; if (type & MSG_WITNESS_FLAG) cmd.append("witness-"); int masked = type & MSG_TYPE_MASK; switch (masked) { case MSG_TX: return cmd.append(NetMsgType::TX); // WTX is not a message type, just an inv type case MSG_WTX: return cmd.append("wtx"); case MSG_BLOCK: return cmd.append(NetMsgType::BLOCK); case MSG_FILTERED_BLOCK: return cmd.append(NetMsgType::MERKLEBLOCK); case MSG_CMPCT_BLOCK: return cmd.append(NetMsgType::CMPCTBLOCK); default: throw std::out_of_range(strprintf("CInv::GetCommand(): type=%d unknown type", type)); } } std::string CInv::ToString() const { try { return strprintf("%s %s", GetCommand(), hash.ToString()); } catch(const std::out_of_range &) { return strprintf("0x%08x %s", type, hash.ToString()); } } const std::vector &getAllNetMessageTypes() { return allNetMessageTypesVec; } /** * Convert a service flag (NODE_*) to a human readable string. * It supports unknown service flags which will be returned as "UNKNOWN[...]". * @param[in] bit the service flag is calculated as (1 << bit) */ static std::string serviceFlagToStr(size_t bit) { const uint64_t service_flag = 1ULL << bit; switch ((ServiceFlags)service_flag) { case NODE_NONE: abort(); // impossible case NODE_NETWORK: return "NETWORK"; case NODE_BLOOM: return "BLOOM"; case NODE_WITNESS: return "WITNESS"; case NODE_COMPACT_FILTERS: return "COMPACT_FILTERS"; case NODE_NETWORK_LIMITED: return "NETWORK_LIMITED"; // Not using default, so we get warned when a case is missing } return strprintf("UNKNOWN[2^%u]", bit); } std::vector serviceFlagsToStr(uint64_t flags) { std::vector str_flags; for (size_t i = 0; i < sizeof(flags) * 8; ++i) { if (flags & (1ULL << i)) { str_flags.emplace_back(serviceFlagToStr(i)); } } return str_flags; } GenTxid ToGenTxid(const CInv& inv) { assert(inv.IsGenTxMsg()); return inv.IsMsgWtx() ? GenTxid::Wtxid(inv.hash) : GenTxid::Txid(inv.hash); }